CN113808719B - Prevention and control type intelligent obstetrical management configuration system - Google Patents

Abstract

The invention relates to the technical field of innovative development of intelligent service management function devices, in particular to a prevention and control intelligent obstetrical management configuration system, which mainly comprises the following components: the intelligent obstetrical department management system comprises a coordination area, an information hall, a business service area, a leisure health care area, a puerperal room, a delivery room, an intelligent medical care station, a storeroom and other functional areas, and is characterized in that through the space position optimization matching of each functional area, the planning design of diagnosis and treatment service management contents and the innovative development of various special hardware of the special care service, under an integrated management mode, the traditional obstetrical department service management mode lifting is realized by combining advanced artificial intelligence and the hardware technology of the Internet of things, the working efficiency of medical staff is improved, the comfort of women and infants is improved, and the organic combination of safety management and the business to service under epidemic prevention environment is especially realized.

Description

Prevention and control type intelligent obstetrical management configuration system

Technical Field

The invention relates to the technical field of innovative development of intelligent service management function devices, in particular to a control intelligent obstetrical management configuration system.

Background

Parturient delivery has the characteristics of strict timeliness and non-delay, obstetrical department is different from other medical departments, and can buffer non-emergency patients, and parturient physical weakness cannot completely reject family members for accompanying, so that obstetrical seal control management becomes a problem to be solved urgently. According to the actual characteristics of obstetrical work, the invention develops the prevention and control intelligent obstetrical management configuration system, under the integrated management mode, the advanced artificial intelligence and the hardware technology of the internet of things are combined for big data application, the service management mode is innovated, the working efficiency of medical staff is improved, the warm comfort of women and infants is increased, and the safety epidemic prevention management is realized. The invention does not belong to the development of medical diagnosis technology and medical instruments, but relies on the artificial intelligence technology of the Internet of things to upgrade the traditional software and hardware, thereby realizing the safety and the intellectualization of obstetrical diagnosis and treatment service, and becoming a preferable scheme for solving the problem of the workload surge and epidemic prevention management of the obstetrical and gynecological room.

Disclosure of Invention

A prevention and control intelligent obstetrical management configuration system, comprising: coordination area, information hall, family service area, baby bathing area, leisure and health care area, puerperal room, delivery room, intelligent medical care station, storeroom, diagnosis and treatment area, and medical care channel; the coordination area is arranged in an entrance area space of the obstetrical department, a temperature measuring machine is arranged at an entrance, a rapid registration platform is arranged in the coordination area, and an audio and video collector is arranged at the top of the coordination area; the rapid registration platform handles access rights for puerpera and family members, and the audio-video collector reserves evidence for the handling process, replies and promises of puerpera and family members; the information hall is communicated with the interior of the coordination area, a first-level access control is arranged at the entrance, and a plurality of labor vision screens and a plurality of groups of public chairs are arranged in the information hall; the family service area is communicated with the inside of the information hall, a secondary access control and disinfection module is arranged at the entrance, and a business handling platform, a family viewing area, a live broadcast space and an interaction space are respectively arranged in the family service area and the information hall.

The baby bathing area, the leisure and health-care area and the puerperal living room are arranged in the same closed area, and are communicated with the inside of the puerperal activity area through three-level access control and family service areas; the baby bath area is an independent area and is adjacently arranged through a transparent wall and a parent viewing area; the leisure and health-care area is a puerperal health-care activity place, a follow-up body-building machine and a massage machine are arranged in the leisure and health-care area, a plurality of audio-visual monitoring modules are arranged at the top of the leisure and health-care area to cover the puerperal activity area, and the audio-visual monitoring modules are provided with wireless communication functions; the puerperal bedroom door is provided with a door side screen outside, and a bedside screen, a crib, a teaching machine, a positioning bracelet, a sitting-up auxiliary device, a follow-up infusion machine and an auxiliary shower are arranged inside the puerperal bedroom door; the teaching machine is a multimedia player and comprises virtual experience of a two-dimensional video case and a multidimensional reality case, and the positioning bracelet is provided with a blood pressure, body temperature and heart rate detection function and a wireless communication function and is communicated with the audio-visual monitoring module.

The medical working area is communicated with the interior of the puerperal activity area, and a four-level access control is arranged at the inlet; the delivery room is arranged in a medical care activity area, and the delivery room is internally provided with a delivery process management module, a live broadcast collection support and a scientific research collection support.

The labor management module performs digital step subdivision on the conventional medical process of parturient delivery, transmits the parturient delivery process information to the central control management system in real time, and the system performs real-time release of the labor information according to preset permission.

The medical station setting of intelligence is at medical service area, include: the intelligent medical care station is provided with a face-to-face shortcut window facing to the puerpera; the central control management system is a center of obstetrical management, is internally provided with an operation unit, a storage unit and a control unit, is connected with equipment and modules in an obstetric area through a network, realizes collection, storage, analysis and calling of data information, and has the operation, judgment and release of artificial intelligent control instructions; the instruction platform is a connecting hub of a local area network and the Internet of things, is communicated with the central control management system, and issues control instructions to all the functional modules; the comprehensive display panel is an image display, is connected with the central control management system, displays working state data of all equipment and modules and state data of puerpera in real time, and performs split-screen display and classified early warning according to the warning level of the data.

The storeroom is an obstetrical material classification storage area, comprises a consumable management module and a medicine management module, performs real-time statistics through electronic tag classification and warehouse-in and warehouse-out scanning identification, and is connected with a central control management system.

The diagnosis and treatment area comprises a diagnosis platform and a remote consultation platform, wherein the diagnosis platform processes conventional medical affairs, and the remote consultation platform is provided with a remote audio/video real-time communication module, processes non-conventional medical affairs and scientific research affairs and is connected with a central control management system; the medical channel comprises a medical access control and a disinfection detection area at the special entrance of medical staff, and the disinfection detection area is provided with a body temperature detection device, a disinfection device and a clothes changing cabinet device.

Further scheme is, follow-up body-building machine, play sit auxiliary apparatus, follow-up infusion machine, send medicine robot to adopt the all-in-one structure, include: the device comprises a motion chassis, a fixing device, a telescopic chair, a lower support body, a circular guide rail, an upper support body, an upper shell, a storage box, a telescopic hanging bracket, a fixed handle, a lifting handle, a conductive slip ring, a medicine box, a locking device and a battery; the motion chassis is rigid square box structure, includes: the lower end of the square box body is a hollow box body, a plurality of process holes are formed in the lower bottom surface of the box body, the microphone wheels are mounted on the process holes, a fixing device is arranged on the upper top surface of the box body, the square box body is provided with the square box body, the opening on the right side is not enclosed, the left part of the lower bottom surface of the square box body is a horizontal plane, the right part of the square box body is a downward inclined plane, a battery is mounted on the horizontal plane, a sliding rail is mounted on the inclined plane, and the telescopic chair is mounted on the sliding rail;

The telescopic chair comprises: the rotary chair back, the chair seat, the chair legs and the anti-slip pad are of a folding structure, the rotary chair back and the chair seat are retracted into the drawer holes through the sliding rails after being folded, the anti-slip pad is arranged at the bottoms of the chair legs, and the anti-slip pad just contacts the ground when the telescopic chair is unfolded outside the drawer holes;

the lower supporting body is in a rigid round basin shape, the upper supporting body is in a rigid reverse-buckling round basin shape, the outer edge of the lower supporting body is connected with the outer edge of the upper supporting body in a sliding manner through a round guide rail, a cavity is formed between the two supporting bodies, and the locking device is arranged in the cavity;

the lower bottom surface of the lower support body is rigidly connected with the three-way enclosure of the motion chassis to form a drawer hole-shaped structure;

the upper shell is in a rigid circular barrel shape, the back-off is fixedly arranged on the upper surface of the upper support body, the right side shell is provided with a process hole, the left side of the inside is provided with a telescopic hanging bracket, the middle right side is provided with a lifting handle, and the right lower side is provided with a medicine box.

A further aspect is that the locking device comprises: an upper electromagnet, a guide post, a locking disc, a locking post and a lower electromagnet; the upper electromagnet is fixedly arranged at the center of the lower bottom surface of the upper support body, the plurality of guide posts are arranged around the upper electromagnet, the upper end of the guide posts is fixed on the lower bottom surface of the upper support body, the lower end of the guide posts is suspended, the lower electromagnet is fixedly arranged at the center of the upper bottom surface of the lower support body, the plurality of locking posts are arranged around the lower electromagnet, the lower end of the guide posts is fixed on the upper bottom surface of the lower support body, the upper ends of the guide posts and the locking posts are suspended, and the guide posts and the locking posts are staggered in length in the vertical direction; the locking disc is of a rigid plate shape, iron materials are correspondingly provided with a guide hole and a locking hole, the locking disc is adsorbed on the lower electromagnet in a normal state, the lower end of the guide post is positioned in the guide hole, and the locking post is positioned in the locking hole; when the upper electromagnet generates magnetism and the lower electromagnet turns off magnetism, the locking column is attracted to the upper electromagnet, and the locking column is separated from the locking hole; the battery directly supplies power to the power utilization devices in the lower support body and the lower part, and the power utilization devices in the upper support body and the upper part are supplied with power through the conductive slip ring.

A further aspect is that the fixing device includes: the vacuum pump, the air cylinder, the platform guide rail, the adsorption platform and the vacuum chuck; the vacuum pump and the air cylinder are fixed on the upper inner bottom surface of the hollow box body of the motion chassis, the telescopic end of the air cylinder is fixedly connected with the adsorption platform, the adsorption platform is a rigid plane plate, a plurality of process holes and slide rail holes are formed in the upper surface in an annular mode, the vacuum sucking discs are arranged in a plurality, the upper end fixing ends of the vacuum sucking discs are arranged in the process holes of the adsorption platform, the lower ends of the vacuum sucking discs are suspended in the air cylinder and correspond to the process holes of the lower bottom surface of the hollow box body, and air pipes of the vacuum sucking discs are connected with the vacuum pump; the platform guide rail is vertically provided with a plurality of slide rail holes penetrating through the adsorption platform, and the upper end and the lower end of the platform guide rail are respectively fixed on the upper bottom surface and the lower bottom surface of the hollow box body.

Further, the telescopic hanging bracket comprises: the device comprises an electric lifting rod, a cantilever, a weight sensor, a hook, a fixed plate and a camera; the fixed end of the electric lifting rod is arranged at the left part in the upper shell, the telescopic end extends out of the top shell plane of the upper shell, the head of the telescopic end is provided with a cantilever, the weight sensor is arranged on the cantilever, the hook and the fixed plate are arranged at the bottom of the weight sensor, and the fixed plate is provided with a fixed clamp and a camera; the storage box comprises: the side box and the middle box are arranged on the left side of the plane of the top shell, the middle box is a long and narrow empty bin, the length, the width and the height are equal to the total size of each suspension piece on the cantilever, and the side box is a self-sizing accommodating box; the fixed handle is arranged on the right side of the plane of the top shell.

Further, the lifting handle comprises: the lifting platform comprises a screw rod, a holding end, a lifting platform, a screw rod motor and a handle guide rail; the upper end of the handle guide rail and the screw rod are fixed on the inner surface of the top shell of the upper shell, the lower end of the handle guide rail and the screw rod are fixed on the upper surface of the upper support body, the lifting platform is of a rigid plane structure, the screw rod is connected through the driving hole, the handle guide rail is connected through the guide rail hole, the holding end is connected on the upper surface of the lifting platform through a rigid horizontal sliding rail, the right end of the holding end can extend out of the process hole of the right side shell of the upper shell, and the opening of the medicine box corresponds to the process hole of the right side shell.

Further, the auxiliary shower device comprises: h-shaped brackets, sitting posture scrubbers, lifting armrests, air heaters, protective covers, positioning frames, standing posture scrubbers, functional chairs and stabilizing devices; the h-shaped support is of a rigid structure, the lower support is of a hollow structure, the upper part of the support is of an inclined plane, a functional chair is arranged on the upper part of the support, rollers are arranged at the bottom of the support, and a stabilizing device is arranged in the hollow structure; the left part of the h-shaped support is a vertical plate, a plurality of process holes are formed in the vertical plate, a plurality of sitting posture scrubbers are transversely arranged at the lower part of the vertical plate, a pair of lifting handrails are arranged in the middle of the vertical plate, a heater is arranged at the upper part of the vertical plate, a protective cover is arranged at the left part of the vertical plate, positioning frames are symmetrically arranged on the front end face and the rear end face of the vertical plate, and the tops of the positioning frames are connected with the standing posture scrubbers.

The sitting scrubber includes: the device comprises a driving motor, a driving belt, a scrubbing head, a pressure spring and a driving shaft; the driving motor is transversely arranged on the left inner wall of the hollow structure of the h-shaped bracket, the driving shafts extend out of the hollow cavity from the left side, the driving shafts are connected through driving belts, the left side of the cleaning head is of a hollow shaft sleeve structure, and the driving shafts are flexibly connected through pressure springs.

The lifting handrail comprises: the lifting device comprises a lower fixing plate, a lower lifting device, a lifting plate, a lifting arm and a middle fixing plate; the lifting armrests are arranged in a pair, have the same structure, are independently controlled and are arranged on the left side and the right side of the vertical plate plane of the symmetrical h-shaped bracket; the lower fixing plate and the middle fixing plate are rigid bodies and are respectively arranged at the middle part and the lower part of the left side of the vertical plate, and the upper end and the lower end of the lower lifting device are respectively arranged on the middle fixing plate and the lower fixing plate; the lifting plate is in a plane plate shape, the narrow end of the left part penetrates through a process hole of the vertical plate and is connected to the lower lifting device, the wide end of the right part is positioned on the right side of the vertical plate, and the lower bottom surface of the lifting arm is connected to the upper surface of the lifting plate through a sliding rail.

The air heater includes: the device comprises an air heater, an upper lifting device, an upper fixing plate, an air outlet pipe and a baffle; the air heater is arranged in the middle of the vertical plate of the h-shaped bracket and is positioned above the functional chair; the upper part of the left side of the vertical plate is provided with an upper fixing plate, the upper end and the lower end of the upper lifting device are respectively arranged on the upper fixing plate and the middle fixing plate, the air heater is arranged on the upper lifting device, and an air outlet pipe of the air heater penetrates through a process hole of the vertical plate and is positioned on the right side of the vertical plate.

The locating rack includes: positioning guide rail, positioning rod, rotating rod and connecting rod; the vertical and symmetrical installation location guide rail on the terminal surface around the vertical board of h type support, the one end of a pair of locating lever is respectively through locating shaft slidable mounting in the location guide rail, the middle part of terminal surface around the vertical board is passed through to the one end of round pin axle swivelling joint in the rotary rod, and the well left part of rotary rod and the other end of locating lever pass through round pin axle swivelling joint, and the other end of two rotary rods passes through connecting rod interconnect.

The stance scrubber comprises: positioning box and standing position for cleaning hair; the locating box is of a hollow box body structure, the locating box is installed in the middle of the connecting rod, the plurality of standing position scrubbing heads are installed on one side face of the locating box in groups, and the other side face is a soft face of a flexible object.

The massage machine adopts a low-strength and high-flexibility body-building equipment model; the crib is of a pocket size matched with the height and the weight of a newborn.

The further scheme is that the first-level access permission is authorized to the puerpera and all authenticated families, and the second-level access permission is authorized to the puerpera and the families appointed by the puerpera; three-level access control authority is authorized to puerpera and family members of accompanying beds, and four-level access control and medical access control authority is authorized to medical staff and privileged staff.

The further scheme is that the live broadcast space selects a two-dimensional audio and video live broadcast device, the interaction space selects a three-dimensional audio-visual fusion and virtual reality device, and acquisition sensors of the three-dimensional audio-visual fusion and virtual reality device are arranged on a live broadcast acquisition support in the delivery room 7.

The further scheme is that the live broadcast acquisition support is of a structure with fixed position and angle, the scientific research acquisition support is of a support structure with the position and angle being adjustable at any time, and a sensor arranged on the live broadcast acquisition support is communicated with an audio and video real-time communication module in a remote consultation platform.

Drawings

FIG. 1 is a plan view of a deployment apparatus of the present invention;

FIG. 2 is a schematic diagram of a structure of the integrated machine;

FIG. 3 is a block diagram of an accessory functional module of the sports chassis;

FIG. 4 is a schematic diagram of a locking mechanism;

FIG. 5 is a schematic diagram of the locking mechanism;

FIG. 6 is a schematic view of a telescopic hanger;

FIG. 7 is a top view of the storage box;

FIG. 8 is a schematic view of a lifting handle structure;

FIG. 9 is a steady state diagram of the motion chassis of the all-in-one machine;

FIG. 10 is a schematic view of the structure of the auxiliary shower;

FIG. 11 is a position diagram of a sitting scrubber and a functional chair;

FIG. 12 is a block diagram of the auxiliary shower functional module;

FIG. 13 is a view of the auxiliary basin A;

fig. 14 is a view of the lifter plate B.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. The following description of at least one exemplary embodiment is merely exemplary in nature and is in no way intended to limit the application, its application, or uses. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

A preventive control intelligent obstetrical management configuration system, as shown in fig. 1, comprises: coordination area 1, information hall 2, family service area 3, baby bathing area 4, leisure and health care area 5, puerperal room 6, delivery room 7, intelligent medical care station 8, storeroom 9, diagnosis and treatment area 10, and medical care channel 11;

the coordination area 1 is arranged in an entrance area space of an obstetrical department, a temperature measuring machine 1-1 is arranged at an entrance, a rapid registration platform 1-2 is arranged in the coordination area, and an audio and video collector 1-3 is arranged at the top of the coordination area; the rapid registration platform 1-2 handles the permission for puerpera and family members, and the audio and video collector 1-3 reserves evidences for the handling process, replies and promises of puerpera and family members so as to improve handling efficiency and avoid aggregation.

The information hall 2 is arranged and communicated with the interior of the coordination area 1, a first-level access control 2-1 is arranged at an entrance, and a plurality of labor vision screens 2-2 and a plurality of groups of public chairs 2-3 are arranged in the information hall; the labor vision screen 2-2 is connected with the labor management module 7-1.

The family service area 3 is communicated with the information hall 2, a secondary entrance guard 3-1 and a disinfection module 3-2 are arranged at the entrance, and four independent spaces including a business handling platform 3-3, a family viewing area 3-4, a live broadcast space 3-5 and an interaction space 3-6 are respectively arranged in the family viewing area.

The baby bathing area 4, the leisure and health-care area 5 and the puerperal room 6 are arranged in the same closed area and are puerperal activity areas, and the baby bathing area 4, the leisure and health-care area 5 and the puerperal room 6 are communicated with the inside of the loving service area 3 through three-level access control 4-1; the baby bath area 4 is an independent area and is adjacently arranged with the parent-child observation area 3-4 through a transparent wall; the leisure and health-care area 5 is a puerperal health-care activity place, a follow-up body-building machine 5-1 and a massage machine 5-2 are arranged in the leisure and health-care area, a plurality of audio-visual monitoring modules 5-3 are arranged at the top of the leisure and health-care area to cover the puerperal activity area, and the audio-visual monitoring modules 5-3 are provided with wireless communication functions; the door side screen 6-1 is arranged outside the door of the puerperal room 6, and the bedside screen 6-2, the crib 6-3, the teaching machine 6-4, the positioning bracelet 6-5, the sitting-up auxiliary device 6-6, the follow-up infusion machine 6-7 and the auxiliary shower device 6-8 are arranged inside the door side screen; the teaching machine 6-4 comprises virtual experience of a two-dimensional video case and a multidimensional reality case, and the positioning bracelet 6-5 is provided with a blood pressure, body temperature and heart rate detection function and a wireless communication function and is communicated with the audio-visual monitoring module 5-3.

The bedside screen 6-2 is an image display device, displays physical parameters and diagnosis and treatment parameters of a puerpera in real time, and is displayed on the bedside screen 6-1 and the comprehensive display panel 8-3, and is connected with the central control management system 8-4.

The medical working area is communicated with the interior of the puerperal activity area, and a fourth-level access control 8-1 is arranged at the inlet; the delivery room 7 is arranged in a medical care activity area, and a labor management module 7-1, a live broadcast acquisition bracket 7-2 and a scientific research acquisition bracket 7-3 are arranged in the delivery room;

the labor management module 7-1 performs digital step subdivision on the conventional medical process of parturient delivery, and transmits the parturient delivery process information to the central control management system 8-4 in real time, and the system distributes the labor information on the comprehensive display panel 8-3, the labor vision screen 2-2, the door side screen and the parturient family mobile phone in real time according to preset authorities, so that the doctor-patient communication capability and timeliness are expanded, and the efficiency of the conventional process operation of medical staff is improved.

The intelligent medical care station 8 is arranged in a medical care work area and comprises: the intelligent medical care station 8 is provided with a face-to-face shortcut window facing to a puerpera, wherein the command platform 8-2, the comprehensive display board 8-3, the central control management system 8-4, the bed changing auxiliary device 8-5 and the medicine delivery robot 8-6.

The central control management system 8-4 is a center of obstetrical management, an operation unit, a storage unit and a control unit are arranged in the central control management system, and are connected with equipment and modules in an obstetric area through a network, so that data information is collected, stored, analyzed and called, and the central control management system has the functions of operation, judgment and release of artificial intelligent control instructions.

The instruction platform 8-2 is a connection hub of a local area network and the Internet of things, is communicated with the central control management system 8-4, and issues control instructions to all functional modules.

The comprehensive display panel 8-3 is an image display, is connected with the central control management system 8-4, displays working state data of all equipment and modules and state data of puerpera in real time, and performs split-screen display and classified early warning according to the warning level of the data.

The storeroom 9 is an obstetrical material classification storage area, comprises a consumable management module 9-1 and a medicine management module 9-2, performs real-time statistics through electronic tag classification and warehouse-in and warehouse-out scanning identification, and is connected with a central control management system 8-4;

the medical and office consumable inventory function in the delivery room area is counted by a consumable management module in a storeroom 9, catalogue type electronic tag classification is carried out on various consumable materials, real-time statistics of the number of in-out and in-out warehouse is carried out, information communication is carried out on the counting result and a data management module, and an input and output instruction is obtained by connecting a central control management system; the medicine management module is used for managing the special medicine classification management function of the delivery room, electronic tag classification and real-time statistics of the number of in-out warehouse are established on various medicines, and the statistical result is communicated with the central control management system 8-4 in information; an active reminding function of stock saturation and replenishment is set in the management process and displayed on the comprehensive display panel 8-3. Electronic tag scanning identification and recording of consumable management and medicine management belongs to a well-known technology in warehouse management; medical staff performs process control, input and output operation interfaces, artificial intelligent operation and instruction release of each module through the instruction platform 8-2.

The diagnosis and treatment area 10 comprises a diagnosis platform 10-1 and a remote consultation platform 10-2, wherein the diagnosis platform 10-1 processes conventional medical affairs, and the remote consultation platform 10-2 is provided with a remote audio/video real-time communication module for processing non-conventional medical affairs and scientific research affairs and is connected with a central control management system 8-4.

The medical channel 11 is shown in fig. 1, and comprises a medical access control 11-1 and a disinfection detection area 11-2 at a special entrance of medical staff, wherein the disinfection detection area 11-2 is provided with a body temperature detection device, a disinfection device and a clothes cabinet device.

The follow-up body-building machine 5-1, the sitting-up auxiliary device 6-6, the follow-up infusion machine 6-7 and the medicine delivery robot 8-6 are as shown in figure 2, and adopt an integrated machine structure, and comprise: the movable chassis 51, the fixing device 52, the telescopic chair 53, the lower support body 54, the circular guide rail 55, the upper support body 56, the upper housing 57, the storage box 58, the telescopic hanging bracket 59, the fixed handle 60, the lifting handle 61, the conductive slip ring 62, the medicine box 63, the locking device 64 and the battery 65. The integral structure non-fixed mode can be used for selecting and setting the functional module according to the actual requirement of obstetrical department by depending on the structure principle.

The motion chassis 51 is a rigid square box structure, as shown in fig. 3, and includes: the lower end of the Mecanum wheel 511, the square box 512 and the three-way enclosing block 513 is a hollow box, a plurality of process holes are formed in the lower bottom surface of the box, the Mecanum wheel 511 is mounted on the process holes, a fixing device 52 is arranged on the upper top surface of the box, the upper part of the box is the square three-way enclosing block 513, the right side opening is not enclosed, the left part of the lower bottom surface of the three-way enclosing block 513 is a horizontal plane, the right part is a downward inclined plane, a battery 65 is mounted on the horizontal plane, a sliding rail is mounted on the inclined plane, and the telescopic chair 53 is mounted on the sliding rail;

The telescopic chair 53, as shown in fig. 3, comprises: the rotary chair back 531, the chair surface 532, the chair legs 533 and the anti-slip pads 534 are of a folding structure, the rotary chair back 531 and the chair surface 532 are folded and then are retracted into the drawer holes through the sliding rails, the anti-slip pads 534 are arranged at the bottoms of the chair legs, and the anti-slip pads 534 just contact the ground when the telescopic chair 53 is unfolded outside the drawer holes.

The lower supporting body 54 is in a rigid circular basin shape, the upper supporting body 56 is in a rigid inverted circular basin shape, the outer edge of the lower supporting body 54 and the outer edge of the upper supporting body 56 are connected in a sliding manner through a circular guide rail 55, a cavity is formed between the two supporting bodies, and the locking device 64 is arranged in the cavity.

The lower bottom surface of the lower support body 54 is rigidly connected with the three-way surrounding baffle 513 of the motion chassis 51 to form a drawer hole-shaped structure;

the upper casing 57 is in a rigid circular barrel shape, the back-off is fixedly arranged on the upper surface of the upper support body 56, a process hole is formed in the right side casing, a telescopic hanging bracket 59 is arranged on the left side inside, a lifting handle 61 is arranged on the right side in the middle, and a medicine box 63 is arranged on the lower right side.

The locking device 64, as shown in fig. 4, includes: an upper electromagnet 641, a guide post 642, a locking disk 643, a locking post 644, a lower electromagnet 645; the upper electromagnet 641 is fixedly arranged at the center of the lower bottom surface of the upper support body 56, the plurality of guide posts 642 are arranged around the upper electromagnet 641, the upper end of the guide posts 642 is fixed on the lower bottom surface of the upper support body 56, the lower end of the guide posts is suspended, the lower electromagnet 645 is fixedly arranged at the center of the upper bottom surface of the lower support body 54, the plurality of locking posts 644 are arranged around the lower electromagnet 645, the lower end of the guide posts 642 is fixed on the upper bottom surface of the lower support body 54, the upper ends of the guide posts 642 and the locking posts 644 are suspended in a staggered manner, and the length of the guide posts 642 and the locking posts 644 in the vertical direction is staggered; the locking plate 643 is a rigid plate, made of iron, and has a guide hole and a locking hole formed thereon, the locking plate 643 is normally attracted to the lower electromagnet 645, the lower end of the guide post 642 is located in the guide hole, and the locking post 644 is located in the locking hole; when the upper electromagnet 641 generates magnetism and the lower electromagnet turns off magnetism, the lock pole 644 is attracted to the upper electromagnet 641, and the lock pole 644 is disengaged from the lock hole.

The battery 65 directly supplies power to the electric devices inside and below the lower support body 54, and supplies power to the electric devices inside and above the upper support body 56 through the conductive slip ring 62.

The fixing device 52, as shown in fig. 3, includes: vacuum pump 521, cylinder 522, platform rail 523, suction platform 524, and vacuum chuck 525; the vacuum pump 521 and the air cylinder 522 are fixed on the upper inner bottom surface of the hollow box body of the motion chassis 51, the telescopic end of the air cylinder 522 is fixedly connected with the adsorption platform 524, the adsorption platform 524 is a rigid plane plate, a plurality of process holes and slide rail holes are annularly formed in the upper surface of the adsorption platform 524, the plurality of vacuum chucks 525 are arranged, the upper end fixed end is arranged in the process holes of the adsorption platform 524, the lower end is suspended and corresponds to the process holes of the lower bottom surface of the hollow box body, and the air pipes of the vacuum chucks 525 are connected with the vacuum pump 521; the platform guide rail 523 is vertically provided with a plurality of slide rail holes penetrating through the adsorption platform 524, and the upper end and the lower end of the platform guide rail are respectively fixed on the upper bottom surface and the lower bottom surface of the hollow box body.

The telescopic hanger 59, as shown in fig. 6, includes: an electric lifting rod 591, a cantilever 592, a weight sensor 593, a hook 594, a fixed plate 595 and a camera 596; the fixed end of the electric lifting rod 591 is arranged at the left part in the upper shell 57, the telescopic end extends out of the top shell plane of the upper shell 57, the head of the telescopic end is provided with a cantilever 592, the weight sensor 593 is arranged on the cantilever 592, the hook 594 and the fixed plate 595 are arranged at the bottom of the weight sensor 593, and the fixed plate 595 is provided with a fixed clamp and a camera 596; as shown in fig. 7, the storage box 58 includes: side cases 581 and middle case 582, which are disposed on the left side of the top case plane, wherein the middle case 582 is a long and narrow empty chamber, the length, width, and height are equal to the total size of each suspension on the suspension arm 592, and the side cases 581 are self-sized accommodating cases; the fixed handle 60 is disposed on the right side of the top case plane.

The lifting handle 61, as shown in fig. 8, includes: lead screw 611, holding end 612, lifting platform 613, lead screw motor 614, handle rail 615.

The upper ends of the handle guide rail 615 and the screw rod 611 are fixed on the inner surface of the top shell of the upper shell 57, the lower end of the handle guide rail is fixed on the upper surface of the upper support body 56, the lifting platform 613 is of a rigid plane structure, the screw rod 611 is connected through a driving hole, the handle guide rail 615 is connected through a guide rail hole, the holding end 612 is connected on the upper surface of the lifting platform 613 through a rigid horizontal sliding rail, the right end of the holding end 612 can extend out of a process hole of the right shell of the upper shell 57, and the opening of the medicine box 63 corresponds to the process hole of the right shell.

The auxiliary shower 6-8, as shown in FIG. 10, includes: h-shaped bracket 71, sitting scrubber 72, lifting armrest 73, air heater 74, protective cover 75, positioning frame 76, standing scrubber 77, functional chair 78, and stabilizing device 79.

The h-shaped bracket 71 is of a rigid structure, the lower support is of a hollow structure, the upper part of the support is of an inclined plane, the functional chair 78 is arranged on the upper part of the support, the roller is arranged at the bottom of the support, and the stabilizing device 79 is arranged in the hollow structure; the left part of the h-shaped bracket 71 is a vertical plate, a plurality of process holes are formed in the vertical plate, a plurality of sitting posture scrubbers 72 are transversely arranged at the lower part of the vertical plate, a pair of lifting handrails 73 are arranged in the middle, a heater 74 is arranged at the upper part of the vertical plate, a protective cover 75 is arranged at the left part of the vertical plate, positioning frames 76 are symmetrically arranged on the front end face and the rear end face of the vertical plate, and the top of the vertical plate is connected with a standing posture scrubber 77.

The Mecanum wheel 511 can walk in any direction without turning the main structure, is very suitable for small space, has stable movement process and quick action reaction, and the rollers at the bottom of the support are universal wheels with rotation locking function, so that the whole is stable; the arrangement of the stabilizing device 79 is the same as the fixing device 52 and the arrangement of the functional chair 78 is the same as the telescopic chair 53.

When the functional chair 78 is slid to the right end, the user can sit stably on the chair back when the chair back is folded and laid down, and the back of the user just contacts the sitting scrubber 72 as shown in fig. 11, so that the scrubbed function is realized; if the user only sits down and self-washes, the user does not need to be scrubbed, the rotary chair back is lifted to be upright, the user sits on the chair surface, and the chair back is blocked between the sitting scrubber 72 and the back of the user, so that the user does not feel uncomfortable; the lower bottom surface of the chair surface is connected to the inclined plane of the h-shaped support, so that the functional chair 78 can slide smoothly left and right, otherwise, the anti-skid pad is in contact with the ground normally, the smoothness of pulling out or retracting the functional chair 78 is affected, and the functional purposes of the telescopic chair 53 are the same.

The sitting scrubber 72, as shown in fig. 12, includes: a drive motor 721, a drive belt 722, a scrub head 723, a compression spring 724, and a drive shaft 725; the driving motor 721 is transversely arranged on the left inner wall of the hollow structure of the h-shaped bracket 71, the driving shafts extend out of the hollow cavity from the left side and are connected with the driving shafts 725 through driving belts 722, the left side of the scrubbing head 723 is of a hollow shaft sleeve structure, and the driving shafts 725 are flexibly connected through pressure springs 724.

The driving shaft of the driving motor is synchronously connected with a plurality of driving shafts 725 in a conventional known scheme, such as a distributed multi-gear transmission or a multi-stage belt transmission; the flexible connection of the drive shaft 725 within the bore of the scrub head 723 means that the scrub head 723 and the drive shaft 725 are capable of being displaced laterally from each other when subjected to lateral forces and capable of being reset by a compression spring 724.

The lifting handrail 73, as shown in fig. 12 to 13, comprises: a lower fixing plate 731, a lower elevating device 732, an elevating plate 733, an elevating arm 734, and a middle fixing plate 735; the lifting armrests 73 are arranged in a pair, have the same structure and are independently controlled and are arranged on the left side and the right side of the vertical plate plane of the symmetrical h-shaped bracket 71, as shown in fig. 13; the lower fixing plate 731 and the middle fixing plate 735 are rigid bodies and are respectively arranged at the middle part and the lower part of the left side of the vertical plate, and the upper end and the lower end of the lower lifting device 732 are respectively arranged on the middle fixing plate 735 and the lower fixing plate 731; as shown in fig. 14, the lifting plate 733 is planar, the narrow end of the left part passes through the process hole of the vertical plate and is connected to the lower lifting device 732, the wide end of the right part is located on the right side of the vertical plate, and the lower bottom surface of the lifting arm 734 is connected to the upper surface of the lifting plate 733 through a sliding rail.

The air heater 74, as shown in fig. 12, includes: an air heater 741, an upper lifting device 742, an upper fixing plate 743, an air outlet pipe 744 and a baffle 745; the air heater 74 is arranged in the middle of the vertical plate of the h-shaped bracket 71 and is positioned above the functional chair 78; the upper fixing plate 743 is installed on the upper left side of the vertical plate, the upper end and the lower end of the upper lifting device 742 are respectively installed on the upper fixing plate 743 and the middle fixing plate 735, the air heater 741 is installed on the upper lifting device 742, and the air outlet pipe 744 of the air heater 741 passes through the process hole of the vertical plate and is positioned on the right side of the vertical plate.

The lower lifting device 732 and the upper lifting device 742 select a screw module, and the air outlet pipe 744 may be connected in parallel with a plurality of air outlets.

The positioning frame 76, as shown in fig. 12 and 13, includes: a positioning rail 761, a positioning lever 762, a rotating lever 763, and a connecting lever 764; positioning rails 761 are vertically and symmetrically arranged on the front end face and the rear end face of the vertical plate of the h-shaped support 71, one ends of a pair of positioning rods 762 are respectively and slidably arranged in the positioning rails 761 through positioning shafts, one ends of rotating rods 763 are rotatably connected to the middle parts of the front end face and the rear end face of the vertical plate through pin shafts, the middle left part of each rotating rod 763 is rotatably connected with the other ends of the positioning rods 762 through pin shafts, and the other ends of the two rotating rods 763 are mutually connected through connecting rods 764;

The positioning rail 761 is provided with a plurality of stopping positions, the positioning lever 762 and the positioning shaft can autonomously or manually select the stopping positions, and the positioning rail 761 is a known technology.

The stance scrubber, as shown in fig. 12, 77 includes: positioning box 771, standing position scrub head 772; the positioning box 771 is a hollow box structure, and is mounted in the middle of the connecting rod 764, and the plurality of standing position wiping heads 772 are mounted on one side surface of the positioning box 771 in groups, and the other side surface is a soft surface of a flexible object.

The working principle of the stand scrubbing head 772 is the same as that of the sitting scrubber 72.

The massage machine 5-2 adopts a body-building equipment model with low strength and high flexibility; the crib is of a pocket size matched with the height and the weight of a newborn.

The first-level access control 2-1 authority is authorized to the puerpera and all the authenticated families, and the second-level access control 3-1 authority is authorized to the puerpera and the family members appointed by the puerpera; the third-level access control 4-1 authority is authorized to puerpera and family members of accompanying beds, and the fourth-level access control 8-1 and the medical access control 11-1 authority is authorized to medical staff and privileged staff.

The live broadcast space 3-5 selects a two-dimensional audio and video live broadcast device, the interaction space 3-6 selects a three-dimensional audio-visual fusion and virtual reality device, and acquisition sensors of the three-dimensional audio-visual fusion and virtual reality device are arranged on a live broadcast acquisition support 7-2 in the delivery room 7.

The live broadcast acquisition support 7-2 is of a structure with fixed position and angle, the scientific research acquisition support 7-3 is of a support structure with the position and angle being adjustable at any time, and a sensor arranged on the live broadcast acquisition support is communicated with an audio and video real-time communication module in the remote consultation platform 10-2.

The fixed structure of the live broadcast acquisition bracket 7-2 enables the sensor to only view a specific visual field, so that privacy exposure is avoided; the scientific research acquisition bracket 7-3 is provided with a special sensor for acquiring medical information, the space structures of the two brackets are low-technical-content devices, and the special sensor can be customized according to the actual space of the delivery room.

Example 1 open registration procedure for parturients and family members

During delivery of a delivery room, a plurality of family members are often required to accompany the delivery in a normal state, obstetrical areas are more random, but the delivery of the delivery is required to be controlled in an epidemic situation, but the delivery of the delivery has the characteristics of strict timeliness and inextensible time, the physical weakness of the delivery cannot completely reject the family members for accompanying, and if the family members are not allowed to accompany, the hospital can hardly provide enough auxiliary services.

The coordination area 1 is an open area for handling admission procedures of puerpera and family members in a hospital at first, the entrance is firstly subjected to body temperature detection through the temperature measuring machine 1-1, different authorities of the family members are distributed on the quick registration platform 1-2, corresponding access cards are handled, the puerpera room 6 is distributed, and the audio and video acquisition and license retention are carried out in the whole process of the audio and video acquisition device 1-3 arranged in the coordination area 1 on the basis of prompting the agreements of the family members and the puerpera.

Example 2 entrance guard prevention and control management of delivery rooms and family members

The family members are classified into common family members (salute visit type), family relatives (normal visit type) and accompanying family relatives, the common family members authorize first-level access control 2-1 permission and can enter an information hall 2, parturient labor information is seen in real time through a labor vision screen 2-2 in the labor time, and audio and video communication is carried out through a personal mobile phone in the non-labor time;

the family relatives authorize the second-level access control 3-1 permission, can enter the relatives service area 3 after disinfection and temperature measurement, can select to enter the live broadcast space 3-5 to watch the delivery process after being rapidly processed by the disinfection module 3-2 in the delivery time of the puerpera, or enter the interaction space 3-6 to simulate and watch or experience the delivery process and interaction in a virtual live-view mode; in the bath time of the baby, the baby can enter the parent-child observation area 3-4 to watch the baby in the baby bath area 4 for swimming and bathing through the transparent wall; the service handling platform 3-3 is a necessary or temporary service handling area after the residence.

The family members of the accompanying beds and the puerpera grant three-level access control 4-1 rights, the activity space is limited to the leisure and health-care area 5 and the puerpera room 6, and the nursing staff can enter the delivery room 7 by means of the four-level access control 8-1 rights of the medical staff in the delivery time. The hierarchical structure design of the access control authority realizes that ordinary family members can know basic delivery information and can communicate with puerpera at any time by using a personal communication tool; the family relatives can watch remotely through the live broadcast space 3-5 or the interaction space 3-6 in the delivery time of the puerpera (at the moment, the personal communication tool cannot be used for communication), so that the relatives feel in the family, and the scorching emotion is reduced; meanwhile, when the puerpera is in non-delivery time, the number of family members of the accompanying bed can be reduced to the maximum extent in the leisure and health-care area 5 under the support of various health-care instruments and environment construction, and the puerpera can perform health-care exercise and obtain auxiliary support of the instruments.

Example 3 management of lifestyle services in parturient areas

The management process of the puerpera can reduce the family members of the accompanying beds to 0-1 person, can move in the leisure and health-care area 5 and the puerpera room 6, and can also watch and wear the baby bath area 4 after delivery. The door side screen 6-1 is arranged outside the door of the puerperal room 6, so that medical care, family members accompanying the puerperal care and conventional and early warning information can be conveniently focused on at any time, and the bedside screen 6-2 is arranged in the puerperal room 6, so that the synchronous display of puerperal physical parameters, diagnosis and treatment parameters and an electronic billboard module is realized, and the information feedback efficiency is improved; the small-sized crib 6-3 capable of being shifted at any time is arranged, so that the caring and resting effects of parents and children are ensured; the teaching machine 6-4 is arranged to enable the puerpera to intuitively master notes, know physiological knowledge and virtually experience the fertility process, reduce tension and cooperate with medical care management; the positioning bracelet 6-5 is worn on the hand of a puerpera, and when the puerpera moves in the leisure and health care area 5, the positioning bracelet can monitor position data and conventional physical state data in real time; the sitting-up assisting machine 6-6 can assist the lying-in woman with weak body to stand up or sit down, the follow-up infusion machine 6-7 can support the lying-in woman to realize the infusion process when walking, and the medicine amount is detected in real time, so that fatigue and anxiety caused by long-time infusion are avoided; the auxiliary shower 6-8 can assist the puerpera to take a bath independently.

The leisure and health-care area 5 can be set to be a larger single area or can be combined in multiple spaces, the inside of the leisure and health-care area is provided with the audio-visual monitoring module 5-3 which can be connected with the positioning bracelet 6-5 and the comprehensive display panel 8-3, and the lying-in woman can obtain the close-fitting auxiliary rehabilitation exercise of the follow-up body-building machine 5-1 in the leisure and health-care area 5 or carry out low-strength health-care massage on the massaging machine 5-2.

Example 4 healthcare service management procedure

Medical staff enter through a medical access control 11-1 of a medical channel 11, enter a diagnosis and treatment area 10 after detecting and replacing work clothes in a disinfection detection area 11-2, process conventional medical affairs in a diagnosis platform 10-1, acquire information data and communicate through a remote audio and video real-time communication module in a remote consultation platform 10-2, process non-conventional medical affairs and scientific research affairs, and transmit a processing conclusion to a central control management system 8-4 and distribute the processing conclusion to related modules and staff.

The medical treatment and office consumable inventory function in the delivery room area is counted in the storeroom 9 through the consumable management module 9-1, catalogue type electronic tag classification is carried out on various consumable materials, real-time statistics of the number of in-out and in-out warehouse is carried out, information communication is carried out on the counting result and the data management module, and the counting result is connected with the central control management system 8-4 to obtain input and output instructions; the medicine management module 9-2 is used for managing the special medicine classification management function of obstetrics, electronic tag classification and real-time statistics of the number of in-out warehouse are established on various medicines, and the statistical result is communicated with the data management module in an information manner; an active reminding function of stock saturation and replenishment is set in the management process and displayed on the comprehensive display panel 8-3. Electronic tag scanning identification and recording of consumable management and medicine management belongs to a well-known technology in warehouse management; medical staff performs process control, input and output operation interfaces, artificial intelligent operation and instruction release of each module through the central control management system 8-4.

The intelligent medical care station 8 monitors the data collected by each module through the comprehensive display board 8-3, provides information early warning or judging basis, and simultaneously issues control instructions by utilizing the instruction platform 8-2 under the interpretation control of the central control management system 8-4. The bed changing auxiliary device 8-5 and the medicine delivery robot 8-6 are conventionally arranged at the intelligent medical care station 8, and the instructed platform 8-2 directly controls the movement to a required position according to the requirements of users, the medical care requirements and the setting of the labor management module 7-1, so as to provide bed changing auxiliary (such as the transposition from an operation bed to a sickbed after delivery) or medicine delivery service for puerpera, improve the service efficiency and reduce the medical care workload.

In the delivery room 7, the delivery process of the puerpera is mainly implemented, the delivery process management system 7-1 subdivides the digital steps of the delivery process of the puerpera according to the conventional medical process, the puerpera fertility process information is transmitted to the central control management system 8-4 in real time, the system distributes the puerpera fertility process information on the comprehensive display panel 8-3, the puerpera vision screen 2-2 and the door side screen in real time according to preset authorities, and meanwhile, a wireless information transmitting module is arranged to transmit the puerpera fertility process information to the puerpera family mobile phone so as to expand the communication capability of doctors and patients.

The sensor for providing information collection for the family members of the puerpera is fixed on the live broadcast collection support 7-2, and in order to avoid privacy leakage and influence on the childbirth process, the live broadcast collection support 7-2 adopts a structure with fixed position and angle, and the view finding view is fixed; the scientific research acquisition bracket 7-3 installed by the information acquisition sensor for the remote diagnosis and treatment and scientific research service of medical staff is of a bracket structure with an angle which can be adjusted at any time, so that specific detail observation and scientific research data storage are facilitated.

Example 5 working procedure of a hardware device of the non-known technology type

In the invention, the follow-up body-building machine 5-1, the sitting-up auxiliary device 6-6, the follow-up infusion machine 6-7 and the drug delivery robot 8-6 are special innovation and development aiming at physiological characteristics of puerpera, and are integrally designed, so that a user can perform functional combination according to the principle of the invention.

(1) Working process of follow-up body-building machine 5-1

As shown in fig. 2-5, weak parturients often need to support their families while walking or standing, and first can exercise their arms using the follow-up exercise machine 5-1. The upper electromagnet 641 is controlled to be energized, the lower electromagnet 645 is controlled to be deenergized, and the locking disk 643 is attracted by the upper electromagnet 641, moves upward along the guide post 642 and is separated from the locking post 644, and at this time, the lower support 54 and the upper support 56 are brought into a rotatably connected state, that is, the movement chassis 51 and the upper housing 57 are brought into a rotatably connected state. The control cylinder 522 drives the adsorption platform 524 to move downwards, so that the vacuum chuck 525 contacts the ground, the vacuum pump 521 works to firmly adsorb the vacuum chuck on the ground, the platform guide rail 523 plays a role in stabilizing the direction, and the square box 512 is in a firm static state, namely the motion chassis 51 is in a firm static state. At this time, the parturient holds the fixed handle 60 to rotate, so that the upper case 57 rotates around the lower support 54 along the circular guide rail 55, and the arm exercise is realized in the repeated rotating process.

If the vacuum chuck 525 is in a non-adsorption state, the motion chassis 51 and the upper shell 57 are in a rotation locking state, and the puerpera can pull, push and support the servo body-building machine 5-1 for walking exercise, and the Mecanum wheel 511 can realize universal motion.

(2) Working process of sitting-up aid 6-6

As shown in fig. 8, when the lying-in woman needs to sit up assistance, the sit-up assisting device 6-6 moves to the side of the lying-in woman, so that the movement chassis 51 and the upper housing 57 are in a rotation locking state, the vacuum chuck 525 is in an adsorption state, the screw rod 611 can drive the lifting platform 613 to move up and down under the drive of the screw rod motor 614, and then the holding end 612 is driven to move up and down, and the holding end 612 transversely stretches and contracts through the handle guide rail 615, so that the lying-in woman can obtain stable external force assistance for standing up and sitting down only by holding the holding end 612 by hand.

(3) Working process of follow-up infusion machine 6-7

Under normal non-use conditions, the cantilever 592 of the telescopic hanging bracket 59 is accommodated in the middle box 582, when in use, the motion chassis 51 and the upper shell 57 are in a rotation locking state, the vacuum chuck 525 is in a non-adsorption state, the electric lifting rod 591 lifts the cantilever 592, medicine is hung on the hook 594 and is fixed by a fixing clamp on the fixing plate 595, at the moment, the camera 596 monitors the medicine height in real time, the weight sensor 593 records the initial weight, and the alarm weight is set. The puerpera can hold the fixed handle 60 for transfusion in walking, the residual medicine (the packing weight of the medicine bottle and the medicine bag has definite mark) signal and image signal are transmitted to the comprehensive display board 8-3 in real time, when the alarm amount is reached, the follow-up transfusion machine 6-7 alarms itself, the comprehensive display board 8-3 simultaneously pops a window for alarm, and the puerpera can observe itself. When the infusion is completed, the cantilever 592 is retracted into the central box 582, and the side boxes of the storage box 58 can store portable objects.

If the puerpera needs to temporarily rest in the process of walking transfusion, as shown in fig. 3, the telescopic chair 53 is pulled out rightward, the rotary chair back 531 is opened upward, so that the vacuum chuck 525 is in an adsorption state, and the puerpera can sit on the chair surface 532 for temporary rest. The inclined plane of the lower surface of the seat 532 is connected, and the anti-slip pad 534 at the lower end of the chair leg 533 just contacts the ground after being pulled out, so that the anti-slip pad 534 does not rub the ground in the telescopic process, and the telescopic chair cannot automatically shake left and right under the condition of not being subjected to external force, so that the stability is stronger.

(4) Working process of medicine feeding robot 8-6

A drawer type medicine box is arranged in the upper shell 57 for delivering medicine to the puerpera.

The control program, positioning technology and communication scheme of the above devices are well known, and the conductive slip ring 62 can realize that the battery 65 in the motion chassis 51 transmits power to the upper housing 57. A multiple battery split arrangement may also be used.

(5) Auxiliary shower 6-8 operation

(1) Standing state self-washing process

As shown in fig. 12, if the user stands on the right side of the bath health device, if the lifting arm 734 is pulled out manually, the lifting arm 734 and the lifting plate 733 are driven by the lower lifting device 732 to realize lifting and falling motions, so that the user can support and sit up, support and support, the two lifting arms 734 are controlled independently, the user can conveniently select left hand or right hand to grasp and have a proper height, the lifting arm 734 is preferably foldable, the lifting arm 734 and the lifting plate 733 are preferably connected through horizontal sliding rails, and the left and right positions of the lifting arm 734 can be conveniently adjusted. The bathing process is now an autonomous process without auxiliary scrubbing, with the auxiliary showers 6-8 providing only lifting and sitting assistance support via lifting arms 734.

(2) Sitting bath auxiliary process

The user needs an external auxiliary scrubbing process, as shown in fig. 11, the functional chair 78 is pulled out rightward, the user sits on the chair back of the functional chair 78, the back of the user contacts the sitting posture scrubber 72, the scrubbing assistance on the back is realized, the scrubbing head 723 and the driving shaft 725 are flexibly connected through the pressure spring 724, and the back is not damaged by hard injury;

the user does not need an external auxiliary scrubbing process, as shown in the lower part of fig. 10, the back of the functional chair 78 is opened upward, the back of the user is isolated from the sitting scrubber 72, and the user can safely take a sitting self-shower. The isolation structure of the chair back is provided because the scrubbing head 723, even in a stationary state, may be uncomfortable due to touch by the action of the user;

the air heater 741 and the air outlet pipe 744 can move up and down under the drive of the upper lifting device 742, so that the hair of a sitting user can be dried by hot air, and when the chair back is in an upward opening state, the hair can be placed on the left side of the chair back, and the back is prevented from being blown by the air. The baffle 745 is a horizontally downward bent structure, and is positioned in the bent structure when the air outlet pipe 744 is not in use, so that a user cannot wet the air outlet pipe 744 when bathing.

(3) Vertical bath assistance process

If the user is habitually standing and needs auxiliary scrubbing, the functional chair 78 is in a retracted state as shown in fig. 12, the user rotates the rotating rod 763 clockwise along the pin shaft, the left end of the positioning rod 762 moves downwards in the positioning guide rail 761, the positioning rod 762 stably supports the rotating rod 763, and the positioning point of the positioning guide rail 761 is adjusted to control the fixed height of the left end of the positioning rod 762, so that the height control of the positioning box 771 and the standing scrubbing head 772 is realized to adapt to users with different heights; positioning box 771 is positioned on the right side of the user and keeps upright scrubbing head 772 inward to realize auxiliary scrubbing of the standing state of the user;

if the positioning box 771 is rotated by 180 degrees in the middle rotation direction shown in fig. 12, and the positioning height of the positioning rod 762 in the positioning guide rail 761 is correspondingly adjusted, the vertical posture backrest function can be realized when the smooth plane of the positioning box 771 faces to a user; if the user rotates 90 degrees anticlockwise, the legs of the user in the sitting posture can be placed on the device, so that an auxiliary scrubbing function is realized;

the auxiliary shower 6-8 is mechanically movable to a desired position and is capable of being attached and secured in a functionally similar manner to the fixture 52.

Other hardware such as a baby crib 6-3, a crib changing aid 8-5, a positioning bracelet 6-5 and the like are known technology products.

The circuit wiring of the above components is a hidden type threading and is provided with necessary batteries, which is a known technique.

The advantages are that: the control intelligent obstetrical management configuration system is based on informatization, big data and artificial intelligence technology, achieves intellectualization of obstetrical control management, remarkably improves diagnosis and treatment and management efficiency of medical staff, simultaneously highly embodies relatives of women and infants family members management, achieves the purposes of people oriented, and innovatively develops professional service hardware to embody guidelines of scientific and technological service.

Claims (10)

1. A prevention and control intelligent obstetrical management configuration system, comprising: the baby care system comprises a coordination area (1), an information hall (2), a family service area (3), a baby bathing area (4), a leisure and health care area (5), a puerperal room (6), a delivery room (7), an intelligent medical care station (8), a storeroom (9), a diagnosis and treatment area (10) and a medical care channel (11);

the coordination area (1) is arranged in an obstetrical entrance area space, a temperature measuring machine (1-1) is arranged at an entrance, a rapid registration platform (1-2) is arranged in the coordination area, and an audio and video collector (1-3) is arranged at the top of the coordination area; the rapid registration platform (1-2) handles access rights for puerpera and family members, and the audio and video collector (1-3) reserves evidence for the handling process, replies and promises of puerpera and family members;

The information hall (2) is communicated with the interior of the coordination area (1), a first-level access control (2-1) is arranged at the entrance, and a plurality of labor vision screens (2-2) and a plurality of groups of public chairs (2-3) are arranged in the information hall;

the family service area (3) is communicated with the interior of the information hall (2), a secondary access control (3-1) and a disinfection module (3-2) are arranged at the entrance, and four independent spaces of a business handling platform (3-3), a family viewing area (3-4), a live broadcast space (3-5) and an interaction space (3-6) are respectively arranged in the family service area;

the baby bathing area (4), the leisure and health-care area (5) and the puerperal living room (6) are arranged in the same closed area, and are puerperal activity areas, and are communicated with the inside of the loving service area (3) through three-level access control (4-1); the baby bath area (4) is an independent area and is adjacently arranged with the parent-child sightseeing area (3-4) through a transparent wall; the leisure and health-care area (5) is a puerperal health-care activity place, a follow-up body-building machine (5-1) and a massage machine (5-2) are arranged in the leisure and health-care area, a plurality of audio-visual monitoring modules (5-3) are arranged at the top of the leisure and health-care area to cover the puerperal activity area, and the audio-visual monitoring modules (5-3) are provided with wireless communication functions; a door side screen (6-1) is arranged outside a door of the puerperal room (6), and a bedside screen (6-2), a crib (6-3), a teaching machine (6-4), a positioning bracelet (6-5), a sitting-up assisting device (6-6), a follow-up infusion machine (6-7) and an assisting shower (6-8) are arranged inside the puerperal room; the teaching machine (6-4) comprises virtual experience of a two-dimensional video case and a multidimensional reality case, and the positioning bracelet (6-5) is provided with a blood pressure, body temperature and heart rate detection function and a wireless communication function and is communicated with the audio-visual monitoring module (5-3);

The medical working area is communicated with the interior of the puerperal activity area, and a four-level access control (8-1) is arranged at the inlet; the delivery room (7) is arranged in a medical care activity area, and a labor management module (7-1), a live broadcast acquisition bracket (7-2) and a scientific research acquisition bracket (7-3) are arranged in the delivery room;

the labor management module (7-1) performs digital step subdivision on the conventional medical process of parturient delivery, and transmits the parturient delivery process information to the central control management system (8-4) in real time, and the system performs real-time release of the labor information according to preset permission;

the intelligent medical care station (8) is arranged in a medical care working area and comprises: the intelligent medical care station (8) is provided with a face-to-face shortcut window facing to a puerpera;

the central control management system (8-4) is a center of obstetrical management, an operation unit, a storage unit and a control unit are arranged in the central control management system, equipment and modules in an obstetric area are connected through a network, data information acquisition, storage, analysis and calling are realized, and the central control management system has the operation, judgment and release of artificial intelligent control instructions;

the instruction platform (8-2) is a connecting hub of a local area network and the Internet of things, is communicated with the central control management system (8-4), and issues control instructions to all functional modules;

The comprehensive display panel (8-3) is an image display, is connected with the central control management system (8-4), displays working state data of all equipment and modules and state data of puerpera in real time, and performs split-screen display and classified early warning according to the warning level of the data;

the storeroom (9) is an obstetrical material classification storage area, comprises a consumable management module (9-1) and a medicine management module (9-2), performs real-time statistics through electronic tag classification and warehouse-in and warehouse-out scanning identification, and is connected with the central control management system (8-4);

the diagnosis and treatment area (10) comprises a diagnosis platform (10-1) and a remote consultation platform (10-2), wherein the diagnosis platform (10-1) processes conventional medical affairs, the remote consultation platform (10-2) is provided with a remote audio/video real-time communication module, processes non-conventional medical affairs and scientific research affairs, and is connected with a central control management system (8-4);

the medical care channel (11) comprises a medical care access control (11-1) and a disinfection detection area (11-2) at a special entrance of medical care personnel, and the disinfection detection area (11-2) is provided with a body temperature detection device, a disinfection device and a locker device.

2. A prevention and control type intelligent obstetric management configuration system according to claim 1, characterized in that said follow-up body-building machine (5-1), sitting-up aid (6-6), follow-up infusion machine (6-7), drug delivery robot (8-6) adopts an integrated machine structure, comprising: the device comprises a motion chassis (51), a fixing device (52), a telescopic chair (53), a lower support body (54), a circular guide rail (55), an upper support body (56), an upper shell (57), a storage box (58), a telescopic hanging bracket (59), a fixing handle (60), a lifting handle (61), a conductive slip ring (62), a medicine box (63), a locking device (64) and a battery (65);

The motion chassis (51) is a rigid square box structure comprising: the lower end of the square box body is provided with a hollow box body, the lower bottom surface of the box body is provided with a plurality of process holes, the process holes are provided with the square box body (511), the upper top surface of the box body is provided with a fixing device (52), the upper part of the box body is provided with the square box body (513), the right side opening is not provided with the square box body, the left part of the lower bottom surface of the square box body (513) is a horizontal plane, the right part is a downward inclined plane, a battery (65) is arranged on the horizontal plane, the inclined plane is provided with a sliding rail, and the telescopic chair (53) is arranged on the sliding rail;

the telescopic chair (53) comprises: the rotary chair back (531), the chair surface (532), the chair legs (533) and the anti-slip pad (534) are of a folding structure, the rotary chair back (531) and the chair surface (532) are retracted into the drawer holes through the sliding rails after being folded, the anti-slip pad (534) is arranged at the bottoms of the chair legs, and the anti-slip pad (534) just contacts the ground when the telescopic chair (53) is unfolded outside the drawer holes;

the lower support body (54) is in a rigid round basin shape, the upper support body (56) is in a rigid reverse-buckling round basin shape, the outer edge of the lower support body (54) is connected with the outer edge of the upper support body (56) in a sliding manner through a round guide rail (55), a cavity is formed between the two support bodies, and the locking device (64) is arranged in the cavity;

The lower bottom surface of the lower support body (54) is rigidly connected with a three-way surrounding baffle (513) of the motion chassis (51) to form a drawer hole-shaped structure;

the upper shell (57) is in a rigid round barrel shape, the back-off is fixedly arranged on the upper surface of the upper support body (56), a process hole is formed in the right side shell, a telescopic hanging bracket (59) is arranged on the left side inside, a lifting handle (61) is arranged on the right side in the middle, and a medicine box (63) is arranged on the lower right side.

3. A preventive controlled intelligent obstetrical management configuration system according to claim 2, characterized in that said locking means (64) comprises: an upper electromagnet (641), a guide post (642), a locking disk (643), a locking post (644), and a lower electromagnet (645); the upper electromagnet (641) is fixedly arranged at the center of the lower bottom surface of the upper supporting body (56), the plurality of guide posts (642) are arranged around the upper electromagnet (641), the upper end of the guide posts is fixed on the lower bottom surface of the upper supporting body (56), the lower end of the guide posts is suspended, the lower electromagnet (645) is fixedly arranged at the center of the upper bottom surface of the lower supporting body (54), the plurality of locking posts (644) are arranged around the lower electromagnet (645), the lower end of the guide posts is fixed on the upper bottom surface of the lower supporting body (54), the upper ends of the guide posts (642) and the locking posts (644) are suspended in a staggered manner, and the lengths of the guide posts (642) and the locking posts (644) are arranged in the vertical direction; the locking disc (643) is of a rigid plate shape, a guide hole and a locking hole are correspondingly formed in the upper surface of the locking disc, the locking disc (643) is adsorbed on the lower electromagnet (645) in a normal state, the lower end of the guide post (642) is positioned in the guide hole, and the locking post (644) is positioned in the locking hole; when the upper electromagnet (641) generates magnetism and the lower electromagnet turns off magnetism, the locking column (644) is adsorbed to the upper electromagnet (641), and the locking column (644) is separated from the cable hole;

The battery (65) directly supplies power to the electric devices inside and below the lower support body (54), and supplies power to the electric devices inside and above the upper support body (56) through the conductive slip ring (62).

4. A preventive intelligent obstetrical management configuration system according to claim 2, characterized in that said fixing means (52) comprise: a vacuum pump (521), an air cylinder (522), a platform guide rail (523), an adsorption platform (524) and a vacuum chuck (525); the vacuum pump (521) and the cylinder (522) are fixed on the upper bottom surface in the hollow box body of the motion chassis (51), the telescopic end of the cylinder (522) is fixedly connected with the adsorption platform (524), the adsorption platform (524) is a rigid plane plate, a plurality of process holes and slide rail holes are annularly formed in the upper surface, the vacuum sucking discs (525) are arranged in a plurality of process holes, the upper end fixing ends are arranged in the process holes of the adsorption platform (524), the lower ends are suspended and correspond to the process holes on the lower bottom surface of the hollow box body, and the air pipes of the vacuum sucking discs (525) are connected with the vacuum pump (521); the platform guide rail (523) is vertically provided with a plurality of slide rail holes penetrating through the adsorption platform (524), and the upper end and the lower end of the platform guide rail are respectively fixed on the upper bottom surface and the lower bottom surface of the hollow box body.

5. A preventive control intelligent obstetrical management configuration system according to claim 2, characterized in that said telescopic hanger (59) comprises: an electric lifting rod (591), a cantilever (592), a weight sensor (593), a hook (594), a fixed plate (595) and a camera (596); the fixed end of the electric lifting rod (591) is arranged at the left part in the upper shell (57), the telescopic end extends out of the top shell plane of the upper shell (57), the head of the telescopic end is provided with a cantilever (592), the weight sensor (593) is arranged on the cantilever (592), the hook (594) and the fixed plate (595) are arranged at the bottom of the weight sensor (593), and the fixed plate (595) is provided with a fixed clamp and a camera (596); the storage box (58) includes: the side box (581) and the middle box (582) are arranged on the left side of the plane of the top shell, the middle box (582) is a long and narrow empty bin, the length, the width and the height of the middle box are equal to the total size of each suspension piece on the cantilever (592), and the side box (581) is a self-sizing containing box; the fixed handle (60) is arranged on the right side of the plane of the top shell.

6. A preventive control intelligent obstetrical management configuration system according to claim 2, characterized in that said lifting handle (61) comprises: the lifting device comprises a screw rod (611), a holding end (612), a lifting platform (613), a screw rod motor (614) and a handle guide rail (615);

The upper end of the handle guide rail (615) and the upper end of the screw rod (611) are fixed on the inner surface of the top shell of the upper shell (57), the lower end of the handle guide rail is fixed on the upper surface of the upper support body (56), the lifting platform (613) is of a rigid plane structure, the screw rod (611) is connected through a driving hole, the handle guide rail (615) is connected through a guide rail hole, the holding end (612) is connected on the upper surface of the lifting platform (613) through a rigid horizontal sliding rail, the right end of the holding end (612) can extend out of a process hole of the right side shell of the upper shell (57), and the opening of the medicine box (63) corresponds to the process hole of the right side shell.

7. A preventive controlled intelligent obstetric management configuration system according to claim 1, characterized in that said auxiliary shower (6-8) comprises: the device comprises an h-shaped bracket (71), a sitting scrubber (72), a lifting handrail (73), a heater (74), a protective cover (75), a positioning frame (76), a standing scrubber (77), a functional chair (78) and a stabilizing device (79);

the h-shaped support (71) is of a rigid structure, the lower support is of a hollow structure, the upper part of the support is of an inclined plane, the functional chair (78) is arranged on the upper part of the support, the roller is arranged at the bottom of the support, and the stabilizing device (79) is arranged in the hollow structure; the left part of the h-shaped bracket (71) is a vertical plate, a plurality of process holes are formed in the vertical plate, a plurality of sitting scrubber (72) are transversely arranged at the lower part of the vertical plate, a pair of lifting handrails (73) are arranged at the middle part of the vertical plate, a hot air blower (74) is arranged at the upper part of the vertical plate, a protective cover (75) is arranged at the left part of the vertical plate, positioning frames (76) are symmetrically arranged on the front end surface and the rear end surface of the vertical plate, and the top of the vertical plate is connected with the standing scrubber (77);

The sitting scrubber (72) comprises: a driving motor (721), a driving belt (722), a scrubbing head (723), a pressure spring (724) and a driving shaft (725); the driving motor (721) is transversely arranged on the left inner wall of the hollow structure of the h-shaped bracket (71), the driving shafts extend out of the hollow cavity from the left side and are connected with the driving shafts (725) through driving belts (722), the left side of the scrubbing head (723) is of a hollow shaft sleeve structure, and the driving shafts (725) are flexibly connected through pressure springs (724);

the lifting handrail (73) comprises: a lower fixing plate (731), a lower lifting device (732), a lifting plate (733), a lifting arm (734), and a middle fixing plate (735); the lifting armrests (73) are arranged in a pair, have the same structure and are independently controlled and are arranged on the left side and the right side of the vertical plate plane of the symmetrical h-shaped bracket (71); the lower fixing plate (731) and the middle fixing plate (735) are rigid bodies and are respectively arranged at the middle part and the lower part of the left side of the vertical plate, and the upper end and the lower end of the lower lifting device (732) are respectively arranged on the middle fixing plate (735) and the lower fixing plate (731); the lifting plate (733) is in a plane plate shape, the left narrow end of the lifting plate passes through a process hole of the vertical plate and is connected to the lower lifting device (732), the right wide end of the lifting plate is positioned on the right side of the vertical plate, and the lower bottom surface of the lifting arm (734) is connected to the upper surface of the lifting plate (733) through a sliding rail;

The air heater (74) includes: an air heater (741), an upper lifting device (742), an upper fixing plate (743), an air outlet pipe (744) and a baffle (745); the air heater (74) is arranged in the middle of the vertical plate of the h-shaped bracket (71) and is positioned above the functional chair (78); an upper fixing plate (743) is arranged at the upper part of the left side of the vertical plate, the upper end and the lower end of an upper lifting device (742) are respectively arranged on the upper fixing plate (743) and a middle fixing plate (735), a hot air blower (741) is arranged on the upper lifting device (742), and an air outlet pipe (744) of the hot air blower (741) passes through a process hole of the vertical plate and is positioned at the right side of the vertical plate;

the positioning frame (76) comprises: a positioning guide rail (761), a positioning rod (762), a rotating rod (763) and a connecting rod (764); positioning guide rails (761) are vertically and symmetrically arranged on the front end face and the rear end face of a vertical plate of the h-shaped support (71), one ends of a pair of positioning rods (762) are respectively arranged in the positioning guide rails (761) in a sliding mode through positioning shafts, one ends of rotating rods (763) are rotatably connected to the middle portions of the front end face and the rear end face of the vertical plate through pin shafts, the middle left portion of each rotating rod (763) is rotatably connected with the other ends of the positioning rods (762) through pin shafts, and the other ends of the two rotating rods (763) are connected with each other through connecting rods (764);

The standing scrubber (77) comprises: a positioning box (771) and a standing position wiping head (772); the positioning box (771) is of a hollow box body structure, is installed in the middle of the connecting rod (764), and a plurality of standing position wiping heads (772) are installed on one side face of the positioning box (771) in groups, and the other side face is a soft face of a flexible object.

8. A control intelligent obstetrical management configuration system according to claim 1, wherein said first level access (2-1) is authorized to parturient and all authenticated families, and said second level access (3-1) is authorized to parturient and parturient designated families; the three-level access control (4-1) authority is authorized to puerpera and family members of accompanying beds, and the four-level access control (8-1) and the medical access control (11-1) authority is authorized to medical staff and privileged staff.

9. A prevention and control intelligent obstetrical management configuration system according to claim 1, characterized in that said live broadcast space (3-5) is a two-dimensional audio-video live broadcast device, said interactive space (3-6) is a three-dimensional audio-visual fusion, virtual reality device, their acquisition sensor is arranged on a live broadcast acquisition bracket (7-2) in the delivery room (7);

the live broadcast acquisition support (7-2) is of a structure with fixed position and angle, the scientific research acquisition support (7-3) is of a support structure with the position and angle being adjustable at any time, and a sensor arranged on the live broadcast acquisition support is communicated with an audio and video real-time communication module in the remote consultation platform (10-2).

10. A preventive and controlled intelligent obstetric management configuration system according to claim 1, characterized in that said massaging machine (5-2) is of a low-strength, high-flexibility type of fitness equipment; the crib is of a pocket size matched with the height and the weight of a newborn.