CN113284302B - Self-service equipment of bankbook - Google Patents

Abstract

The invention provides a bankbook self-service device, which comprises: the device comprises a support, an inlet gate mechanism, a recovery box gate mechanism, a transmission mechanism for conveying bankbook and a motor, wherein the inlet gate mechanism, the recovery box gate mechanism and the transmission mechanism are rotatably installed in the support, and the motor, the inlet gate mechanism, the recovery box gate mechanism and the transmission mechanism are sequentially connected. The device has the advantages that the inlet gate mechanism, the recovery box gate mechanism, the transmission mechanism, the wheel sets and the gates are jointly controlled by one motor, so that the number of motors of the device is reduced, the linkage of the mechanisms can be realized by controlling one motor, the overall size of the device and the size of a control panel are reduced, the weight of the device is reduced, the structure is simplified, and the cost is reduced.

Description

Self-service equipment of bankbook

Technical Field

The invention relates to the technical field of self-service equipment and the technical field of business self-service terminals in the financial field, in particular to a bankbook self-service device.

Background

At present, money such as medical treatment, endowment, subsidy and the like is issued by a passbook account number, and meanwhile, the passbook can check the state of the amount of money for deposit and withdrawal in real time, and many old people are used to deposit and withdraw money by using the passbook, so that the utilization rate of the passbook is still high.

The bankbook self-service equipment in the prior art is characterized in that each motion mechanism is correspondingly provided with a motor, the synchronous cooperation precision requirements among the motors are higher, the structure is complex, the size is large, and the cost is higher.

Disclosure of Invention

The invention aims to solve the technical problem of providing a bankbook self-service device aiming at the defects of the prior art.

The technical scheme for solving the technical problems is as follows: a passbook self-service apparatus, comprising: the device comprises a support, an inlet gate mechanism, a recovery box gate mechanism, a transmission mechanism for conveying bankbook and a motor, wherein the inlet gate mechanism, the recovery box gate mechanism and the transmission mechanism are rotatably installed in the support, and the motor, the inlet gate mechanism, the recovery box gate mechanism and the transmission mechanism are sequentially connected.

The beneficial effects of the invention are as follows: the device has the advantages that the inlet gate mechanism, the recovery box gate mechanism, the transmission mechanism, the wheel sets and the gates are jointly controlled by one motor, so that the number of motors of the device is reduced, the linkage of the mechanisms can be realized by controlling one motor, the overall size of the device and the size of a control panel are reduced, the weight of the device is reduced, the structure is simplified, and the cost is reduced. Because the eccentric wheels of the gates are arranged in a staggered way, the closed states of the gates are independent of each other and are not affected by each other, so that one motor can jointly control the lifting of two gate switches and one driving wheel set, and the installation and the maintenance are convenient.

Further, the inlet gate mechanism includes: the inlet valve is hinged with the support, two ends of the inlet spring are respectively connected with the support and the inlet valve in a corresponding mode, the inlet valve driving shaft is rotatably installed on the support, the inlet valve eccentric wheel is installed on the side wall of the inlet valve driving shaft, the motor is in transmission connection with the inlet valve driving shaft, and the inlet valve eccentric wheel is in butt joint with the inlet valve and drives the inlet valve to intermittently swing.

The beneficial effects of adopting the further scheme are as follows: the inlet gate is initially placed in a closed position by an inlet spring. The inlet gate eccentric wheel is fixedly connected with the inlet gate driving shaft in a sleeved mode, and the synchronous belt can drive the inlet gate eccentric wheel to rotate, so that the inlet gate can be extruded and opened.

Further, an inlet pulley is mounted at one end of the inlet gate driving shaft, the motor is connected with the inlet pulley through a synchronous belt, the top of the inlet gate is hinged with the support, and the inlet gate driving shaft is located at one side of the inlet gate.

The beneficial effects of adopting the further scheme are as follows: the inlet gate is initially placed in a closed position by an inlet spring. The inlet gate eccentric wheel is fixedly connected with the inlet gate driving shaft in a sleeved mode, and the synchronous belt can drive the inlet gate eccentric wheel to rotate, so that the inlet gate can be extruded and opened.

Further, the transmission mechanism includes: the automatic folding passbook conveying device comprises a passage for conveying passbooks, a plurality of groups of driving wheel groups and a wheel lifting mechanism for controlling the driving wheel groups to lift, wherein the passage, the driving wheel groups and the wheel lifting mechanism are arranged in the support, the driving wheel groups are respectively and correspondingly arranged on the upper and lower sides of the passage and respectively penetrate through the passage, parts of the driving wheel groups are exposed at the middle of the passage, each group of driving wheel groups are correspondingly matched, the wheel lifting mechanism is connected with the driving wheel groups, and the recycling bin gate mechanism is connected with the wheel lifting mechanism.

The beneficial effects of adopting the further scheme are as follows: a plurality of groups of driving wheel sets are fixed on the bracket through bearings and extend out of the upper supporting plate and the lower supporting plate to form a friction engagement state, so that the bankbook can be driven to move. The motor rotates clockwise for 90 degrees, the driving shafts and the eccentric wheels are driven to rotate for 90 degrees through the belt lifting wheel belt wheels and the synchronous belt, at the moment, the lifting wheel eccentric wheels press the lifting wheel frames downwards, the lifting wheel frames rotate around the lifting wheel shafts and lift the last group of driving wheel sets at the same time, and therefore the passbook passage is in smooth butt joint with the make-up machine.

Further, the wheel lifting mechanism comprises: the lifting wheel fixing plate, the lifting wheel frame, the lifting wheel driving shaft and the lifting wheel eccentric wheel are arranged on the support, the lifting wheel frame is hinged with the lifting wheel fixing plate, one end of the lifting wheel frame is located below the driving wheel set, the lifting wheel driving shaft is rotatably arranged in the support, the lifting wheel eccentric wheel is arranged on the lifting wheel driving shaft, the recovery box gate mechanism is connected with the lifting wheel driving shaft, and the lifting wheel eccentric wheel is abutted with the lifting wheel frame and drives one end of the lifting wheel frame to intermittently lift and swing.

The beneficial effects of adopting the further scheme are as follows: the lifting wheel belt wheel is fixed on the lifting wheel driving shaft, when the synchronous belt drives the lifting wheel belt wheel to rotate, the lifting wheel eccentric wheel controls the driving wheel set to lift or put down, so that the meshing state of the driving wheel set is controlled, and the driving wheel set is meshed or not meshed, so that the passbook passage is smoothly butted with the boarding machine.

Further, the other end of the lifting wheel fixing plate is hinged with the lifting wheel frame through a lifting wheel shaft, a lifting wheel belt wheel is arranged at one end of the lifting wheel driving shaft, and the recovery box gate mechanism is in transmission connection with the lifting wheel belt wheel.

The beneficial effects of adopting the further scheme are as follows: the lifting wheel belt wheel is fixed on the lifting wheel driving shaft, when the synchronous belt drives the lifting wheel belt wheel to rotate, the lifting wheel eccentric wheel controls the driving wheel set to lift or put down, so that the meshing state of the driving wheel set is controlled, and the driving wheel set is meshed or not meshed, so that the passbook passage is smoothly butted with the boarding machine.

Further, the channel comprises: the upper support plate and the lower support plate are mutually parallel and installed in the support, and through holes for the upper and lower driving wheel groups to penetrate are correspondingly formed in the upper support plate and the lower support plate respectively.

The beneficial effects of adopting the further scheme are as follows: the upper support plate, the lower support plate and the bracket jointly enclose a channel for conveying the bankbook, so that the bankbook is convenient to convey.

Further, the recovery tank gate mechanism includes: the recovery box gate comprises a recovery box gate spring, a recovery box gate driving shaft and at least one recovery box gate eccentric wheel, wherein the recovery box gate is hinged to the support, two ends of the recovery box gate spring are respectively corresponding to the support and the recovery box gate, the recovery box gate driving shaft is rotatably installed on the support, the recovery box gate eccentric wheel is installed on the side wall of the recovery box gate driving shaft, the inlet gate mechanism is in transmission connection with the recovery box gate driving shaft, and the recovery box gate eccentric wheel is in butt joint with the recovery box gate and drives the recovery box gate to swing intermittently.

The beneficial effects of adopting the further scheme are as follows: when the synchronous belt drives the recovery belt wheel to rotate, the recovery box gate eccentric wheel opens or closes the recovery box gate through extrusion control, so that linkage opening and closing of the recovery box gate are realized.

Further, a recovery belt wheel is installed at one end of the recovery box gate driving shaft, the inlet gate mechanism is connected with the recovery belt wheel through a synchronous belt, the top of the recovery box gate is hinged to the support, and the recovery box gate driving shaft is located on one side of the recovery box gate.

The beneficial effects of adopting the further scheme are as follows: when the synchronous belt drives the recovery belt wheel to rotate, the recovery box gate eccentric wheel opens or closes the recovery box gate through extrusion control, so that linkage opening and closing of the recovery box gate are realized.

Further, the method further comprises the following steps: the three groups of sensors and three sensor separation blades are correspondingly arranged on the inlet gate mechanism, the recovery box gate mechanism and the transmission mechanism respectively, and the three groups of sensors are correspondingly arranged with the three sensor separation blades respectively.

The beneficial effects of adopting the further scheme are as follows: the sensor baffle is respectively fixed with the inlet belt wheel, the lifting belt wheel and the recovery belt wheel and is used for detecting the current state of the motion controlled by each belt wheel by the sensor.

Additional aspects of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

Fig. 1 is a schematic diagram of an internal structure of a passbook self-service device according to an embodiment of the present invention.

Fig. 2 is a schematic perspective view of a passbook self-service device according to an embodiment of the present invention.

Fig. 3 is a top view of a passbook self-service device provided by an embodiment of the present invention.

Fig. 4 is a second schematic diagram of an internal structure of the passbook self-service device according to the embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a wheel lifting mechanism according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a sensor baffle and a sensor according to an embodiment of the present invention.

Reference numerals illustrate: 1-a bracket; 2-inlet gate mechanism; 3-a recovery box gate mechanism; 4-a transmission mechanism; 5-a motor; 6-inlet gate; 7-an inlet spring; 8-inlet gate eccentric; 9-inlet sluice drive shaft; 10-an inlet pulley; 11-channel; 12-driving wheel groups; 13-a wheel lifting mechanism; 14-lifting a wheel fixing plate; 15-lifting the wheel frame; 16-a wheel lifting driving shaft; 17-lifting the eccentric wheel; 18-lifting the wheel shaft; 19-lifting a pulley; 20-an upper support plate; 21-a lower support plate; 22-a recovery box gate spring; 23-a recovery box gate; 24-a recovery box gate drive shaft; 25-a recovery box gate eccentric wheel; 26-a recovery pulley; a 27-sensor; 28-a sensor flap; 29-left and right support plates; 30-synchronous belt.

Detailed Description

The principles and features of the present invention are described below with reference to the drawings, the examples are illustrated for the purpose of illustrating the invention and are not to be construed as limiting the scope of the invention.

As shown in fig. 1 to 6, a passbook self-service apparatus includes: the device comprises a support 1, an inlet gate mechanism 2, a recovery box gate mechanism 3, a transmission mechanism 4 for conveying bankbook and a motor 5, wherein the inlet gate mechanism 2, the recovery box gate mechanism 3 and the transmission mechanism 4 are rotatably arranged in the support 1, and the motor 5, the inlet gate mechanism 2, the recovery box gate mechanism 3 and the transmission mechanism 4 are sequentially connected.

The beneficial effects of the invention are as follows: the device has the advantages that the inlet gate mechanism, the recovery box gate mechanism, the transmission mechanism, the wheel sets and the gates are jointly controlled by one motor, so that the number of motors of the device is reduced, the linkage of the mechanisms can be realized by controlling one motor, the overall size of the device and the size of a control panel are reduced, the weight of the device is reduced, the structure is simplified, and the cost is reduced. Because the eccentric wheels of the gates are arranged in a staggered way, the closed states of the gates are independent of each other and are not affected by each other, so that one motor can jointly control the lifting of two gate switches and one driving wheel set, and the installation and the maintenance are convenient.

The passbook self-service equipment provided by the embodiment of the invention realizes the joint control of the plurality of wheel sets and the gates by one motor, thereby reducing the number of the motors of the equipment, the overall size of the equipment and the size of a control board, and reducing the weight of the equipment.

The structure is to realize that one motor jointly controls three objects of an inlet gate and a recovery box gate and a driving wheel set. The structure mainly comprises an inlet spring, an inlet gate eccentric wheel, an inlet gate driving shaft, an inlet gate, a driving wheel group spring, a wheel lifting driving shaft, a wheel lifting eccentric wheel, a wheel lifting frame, a recovery box gate spring, a recovery box gate driving shaft, a recovery box gate eccentric wheel, a recovery box gate and the like.

The lower support plate and the upper support plate are relatively fixed with the left and right support plates 29 to form the structural frame of the invention, the upper support plate and the lower support plate form a folding passage, and the passbook is transferred between the upper support plate and the lower support plate.

The inlet spring has one end fixed to the left and right support plates 29 and the other end fixed to the inlet gate, and the inlet gate is hinged to the left and right support plates 29 and is rotatable to be initially placed in a closed state by the inlet spring. The inlet belt wheel is fixedly connected with the inlet gate driving shaft relatively, the inlet gate eccentric wheel is fixedly connected with the inlet gate driving shaft relatively in a sleeved mode, and the synchronous belt 30 can drive the inlet gate eccentric wheel to rotate, so that the inlet gate can be extruded and opened.

Four sets of driving wheel sets are fixed on the left and right support plates 29 through bearings and extend out of the upper support plate and the lower support plate to form a friction engagement state, so that the bankbook can be driven to move. The wheel lifting shaft is fixed on the wheel lifting fixing plate, the wheel lifting fixing plate is fixed on the upper supporting plate, and the wheel lifting frame is sleeved on the wheel lifting shaft. The lifting wheel driving shaft is fixed on the left supporting plate and the right supporting plate through bearings, the lifting wheel eccentric wheel is sleeved on the lifting wheel driving shaft and can rotate relatively, the lifting wheel belt wheel is fixed on the lifting wheel driving shaft, and when the synchronous belt drives the lifting wheel belt wheel to rotate, the lifting wheel eccentric wheel controls the driving wheel group to lift or put down, so that the meshing state (meshing or non-meshing) of the driving wheel group is controlled.

One end of the recovery box gate spring is fixed on the left support plate and the right support plate, the other end of the recovery box gate spring is fixed on the recovery box gate, the recovery box gate channel is hinged to the left support plate and the right support plate and can rotate relatively, the recovery box gate driving shaft is fixed on the left support plate and the right support plate through bearings, the recovery box gate eccentric wheel is fixed on the recovery box gate driving shaft, the recovery belt wheel is fixed on the recovery box gate driving shaft, and when the synchronous belt drives the recovery belt wheel to rotate, the recovery box gate eccentric wheel opens or closes the recovery box gate through extrusion control.

The sensor baffle is respectively fixed with the inlet belt wheel, the lifting belt wheel and the recovery belt wheel and is used for detecting the current state of the motion controlled by each belt wheel by the sensor.

The motor is fixed on the left and right support plates, and the states of the three functions of the inlet gate, the driving wheel set and the recycling bin gate are respectively controlled through the synchronous belt.

The motor drives the inlet gate driving shaft, the recovery box gate driving shaft and the lifting wheel driving shaft to synchronously rotate through the belt wheels and the synchronous belt 30, all the eccentric wheels rotate simultaneously along with the driving shafts, the gate is gradually opened when the eccentric wheels move to the position contacting with the gate, when the eccentric wheels are vertical to the gate, the gate opening reaches the maximum, the eccentric wheels continue to rotate, the gate is gradually closed under the action of the spring, and when the eccentric wheels and the gate are completely separated from contact, the gate reaches a completely closed state. Because the eccentric wheels of the gates are arranged in a staggered way, the closed states of the gates are independent from each other and are not affected by each other.

The passbook self-service equipment can be arranged in a passbook self-service equipment channel, so that the combined control of two gate switches and the lifting of a driving wheel set by one motor is realized; the movements are mutually independent and are not influenced; the device has simple and practical structure and convenient installation and maintenance.

Fig. 1 shows the initial state of the gate linkage mechanism, in which the gate of the entrance is opened, the gate of the recovery box is closed, and the driving wheel sets are in a falling state, so that the passbook can normally move in the passage. The motor rotates clockwise for 90 degrees, the driving shafts and the eccentric wheels are driven to rotate for 90 degrees through the belt wheels and the synchronous belt 30, at the moment, the eccentric wheels of the lifting wheels press down the lifting wheel frames, and the lifting wheel frames rotate around the lifting wheel shafts and lift the last group of driving wheel sets at the same time, so that the passbook passage is smoothly in butt joint with the make-up machine. In this state, the inlet gate and the recovery box gate eccentric wheel rotate 90 degrees and then do not contact with the inlet gate, so that the opening and closing states of the inlet gate and the recovery box gate are not affected.

When the bankbook is repaired or recovered, the motor rotates clockwise to 180 degrees, at the moment, the lifting wheel eccentric wheel is separated from the lifting wheel frame, and the driving wheel group falls to an initial position under the pressure of the spring. One end of the spring is connected with the bracket, the other end of the spring is connected with the driving wheel set, the spring is a pressure spring, the inlet gate eccentric wheel presses the inlet gate to rotate to a closed state, and at the moment, the bankbook can be prevented from entering the channel and aligned. The state of the gate of the recovery box is not affected.

When the recycling box is folded, the motor rotates clockwise to 270 degrees, the inlet gate eccentric wheel is separated from the gate, the inlet gate is opened to an initial state under the action of the spring, the recycling box eccentric wheel presses down the recycling box gate, the gate rotates to an open state, the driving wheel group is not affected at the moment and is still in a falling state, and the passbook enters the recycling box under the driving of the wheel group.

When the motor rotates to 0 degree, the eccentric wheel of the recovery box is separated from the gate, the states of the inlet gate and the driving wheel group are not affected, and at the moment, the gates return to the initial states.

The start and stop of the motor are controlled by a sensor and a sensor baffle, and a pair of sensors and sensor baffles are arranged at the tail end of each gate driving shaft. The sensor position is fixed, and the sensor separation blade rotates along with the drive shaft, and every sensor has two pairs of receiving and dispatching infrared banks, and banks 90 degrees are arranged, correspond the open-close state respectively, and when the separation blade was changeed gate open state banks, the motor stopped in gate open state, and the separation blade was changeed gate closed state banks, the motor stopped in gate closed state.

As shown in fig. 1 to 6, further, the inlet gate mechanism 2 includes: the inlet valve 6 is hinged with the support 1, two ends of the inlet spring 7 are respectively correspondingly connected with the support 1 and the inlet valve 6, the inlet valve driving shaft 9 is rotatably installed on the support 1, the inlet valve eccentric 8 is installed on the side wall of the inlet valve driving shaft 9, the motor 5 is in transmission connection with the inlet valve driving shaft 9, and the inlet valve eccentric 8 is abutted with the inlet valve 6 and drives the inlet valve 6 to intermittently swing.

The beneficial effects of adopting the further scheme are as follows: the inlet gate is initially placed in a closed position by an inlet spring. The inlet gate eccentric wheel is fixedly connected with the inlet gate driving shaft in a sleeved mode, and the synchronous belt 30 can drive the inlet gate eccentric wheel to rotate, so that the inlet gate can be extruded and opened.

As shown in fig. 1 to 6, further, an inlet pulley 10 is installed at one end of the inlet shutter drive shaft 9, the motor 5 is connected to the inlet pulley 10 through a timing belt, the top of the inlet shutter 6 is hinged to the bracket 1, and the inlet shutter drive shaft 9 is located at one side of the inlet shutter 6.

The beneficial effects of adopting the further scheme are as follows: the inlet gate is initially placed in a closed position by an inlet spring. The inlet gate eccentric wheel is fixedly connected with the inlet gate driving shaft in a sleeved mode, and the synchronous belt 30 can drive the inlet gate eccentric wheel to rotate, so that the inlet gate can be extruded and opened.

As shown in fig. 1 to 6, further, the transmission mechanism 4 includes: the automatic folding bankbook conveying device comprises a channel 11 for conveying bankbook, a plurality of groups of driving wheel groups 12 and a wheel lifting mechanism 13 for controlling the driving wheel groups 12 to lift, wherein the channel 11, the driving wheel groups 12 and the wheel lifting mechanism 13 are arranged in a support 1, the driving wheel groups 12 are respectively correspondingly arranged at the upper part and the lower part of the channel 11, respectively penetrate through the channel 11 and are partially exposed at the middle part of the channel 11, each group of driving wheel groups are correspondingly matched, the wheel lifting mechanism 13 is connected with the driving wheel groups 12, and the recovery box gate mechanism 3 is connected with the wheel lifting mechanism 13.

The beneficial effects of adopting the further scheme are as follows: a plurality of groups of driving wheel sets are fixed on the bracket through bearings and extend out of the upper supporting plate and the lower supporting plate to form a friction engagement state, so that the bankbook can be driven to move. The motor rotates clockwise for 90 degrees, the driving shafts and the eccentric wheels are driven to rotate for 90 degrees through the belt lifting wheel belt wheels and the synchronous belt 30, at the moment, the lifting wheel eccentric wheels press the lifting wheel frames downwards, the lifting wheel frames rotate around the lifting wheel shafts and lift the last group of driving wheel sets at the same time, and therefore the passbook passage is in smooth butt joint with the boarding machine.

Wherein, multiunit drive wheelset passes through hold-in range interconnect. The multiunit drive wheelset passes through the spring and can install on the support with reciprocating, and the fixed plate is installed on the support, and the gag lever post is vertical to be installed on the fixed plate, and the bottom and the drive wheelset butt of gag lever post, the top and the fixed plate butt of spring, the bottom and the drive wheelset butt of spring. The upper supporting plate is divided into two parts, the first part is used for installing the three front driving wheel sets, the second part is used for installing the last driving wheel set, the second part is installed on the support in a vertical sliding mode, and the lifting wheel frame is connected with the second part.

As shown in fig. 1 to 6, the wheel lifting mechanism 13 further includes: the recovery box comprises a lifting wheel fixing plate 14, a lifting wheel frame 15, a lifting wheel driving shaft 16 and a lifting wheel eccentric wheel 17, wherein the lifting wheel fixing plate 14 is installed on the support 1, the lifting wheel frame 15 is hinged with the lifting wheel fixing plate 14, one end of the lifting wheel frame 15 is located below the driving wheel set 12, the lifting wheel driving shaft 16 is rotatably installed in the support 1, the lifting wheel eccentric wheel 17 is installed on the lifting wheel driving shaft 16, the recovery box gate mechanism 3 is connected with the lifting wheel driving shaft 16, and the lifting wheel eccentric wheel 17 is abutted with the lifting wheel frame 15 and drives one end of the lifting wheel frame 15 to intermittently lift and swing.

The beneficial effects of adopting the further scheme are as follows: the lifting wheel belt wheel is fixed on the lifting wheel driving shaft, when the synchronous belt drives the lifting wheel belt wheel to rotate, the lifting wheel eccentric wheel controls the driving wheel set to lift or put down, so that the meshing state of the driving wheel set is controlled, and the driving wheel set is meshed or not meshed, so that the passbook passage is smoothly butted with the boarding machine.

As shown in fig. 1 to 6, further, the other end of the lifting wheel fixing plate 14 is hinged to the lifting wheel frame 15 through a lifting wheel shaft 18, a lifting wheel belt wheel 19 is mounted at one end of the lifting wheel driving shaft 16, and the recovery box gate mechanism 3 is in transmission connection with the lifting wheel belt wheel 19.

The beneficial effects of adopting the further scheme are as follows: the lifting wheel belt wheel is fixed on the lifting wheel driving shaft, when the synchronous belt drives the lifting wheel belt wheel to rotate, the lifting wheel eccentric wheel controls the driving wheel set to lift or put down, so that the meshing state of the driving wheel set is controlled, and the driving wheel set is meshed or not meshed, so that the passbook passage is smoothly butted with the boarding machine.

Wherein, lift the shaft and install on lifting the wheel fixed plate.

As shown in fig. 1 to 6, further, the channel 11 includes: the upper support plate 20 and the lower support plate 21 are mutually parallel and installed in the bracket 1, and through holes for penetrating the upper driving wheel set and the lower driving wheel set are respectively and correspondingly formed in the upper support plate and the lower support plate.

The beneficial effects of adopting the further scheme are as follows: the upper support plate, the lower support plate and the bracket jointly enclose a channel for conveying the bankbook, so that the bankbook is convenient to convey.

As shown in fig. 1 to 6, further, the recovery tank shutter mechanism 3 includes: the recovery box gate comprises a recovery box gate spring 22, a recovery box gate 23, a recovery box gate driving shaft 24 and at least one recovery box gate eccentric wheel 25, wherein the recovery box gate 23 is hinged with the support 1, two ends of the recovery box gate spring 22 are respectively correspondingly connected with the support 1 and the recovery box gate 23, the recovery box gate driving shaft 24 is rotatably installed on the support 1, the recovery box gate eccentric wheel 25 is installed on the side wall of the recovery box gate driving shaft 24, the inlet gate mechanism 2 is in transmission connection with the recovery box gate driving shaft 24, and the recovery box gate eccentric wheel 25 is in butt joint with the recovery box gate 23 and drives the recovery box gate 23 to intermittently swing.

The beneficial effects of adopting the further scheme are as follows: when the synchronous belt drives the recovery belt wheel to rotate, the recovery box gate eccentric wheel opens or closes the recovery box gate through extrusion control, so that linkage opening and closing of the recovery box gate are realized.

As shown in fig. 1 to 6, further, a recovery pulley 26 is installed at one end of the recovery box shutter driving shaft 24, the inlet shutter mechanism 2 is connected to the recovery pulley 26 through a timing belt, the top of the recovery box shutter 23 is hinged to the bracket 1, and the recovery box shutter 23 driving shaft is located at one side of the recovery box shutter 23.

The beneficial effects of adopting the further scheme are as follows: when the synchronous belt drives the recovery belt wheel to rotate, the recovery box gate eccentric wheel opens or closes the recovery box gate through extrusion control, so that linkage opening and closing of the recovery box gate are realized.

As shown in fig. 1 to 6, further, the method further includes: three sets of sensors 27 and three sensor flaps 28, the three sensor flaps 28 are respectively and correspondingly installed on the inlet gate mechanism 2, the recovery box gate mechanism 3 and the transmission mechanism 4, and the three sets of sensors 27 are respectively and correspondingly arranged with the three sensor flaps 28.

The beneficial effects of adopting the further scheme are as follows: the sensor baffle is respectively fixed with the inlet belt wheel, the lifting belt wheel and the recovery belt wheel and is used for detecting the current state of the motion controlled by each belt wheel by the sensor.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims (3)

1. A passbook self-service apparatus, comprising: the device comprises a support (1), an inlet gate mechanism (2), a recovery box gate mechanism (3), a transmission mechanism (4) for conveying bankbook and a motor (5), wherein the inlet gate mechanism (2), the recovery box gate mechanism (3) and the transmission mechanism (4) are rotatably arranged in the support (1), and the motor (5), the inlet gate mechanism (2), the recovery box gate mechanism (3) and the transmission mechanism (4) are sequentially connected; The inlet gate mechanism (2) includes: the device comprises an inlet gate (6), an inlet spring (7), at least one inlet gate eccentric wheel (8) and an inlet gate driving shaft (9), wherein the inlet gate (6) is hinged with the support (1), two ends of the inlet spring (7) are respectively connected with the support (1) and the inlet gate (6) correspondingly, the inlet gate driving shaft (9) is rotatably installed on the support (1), the inlet gate eccentric wheel (8) is installed on the side wall of the inlet gate driving shaft (9), the motor (5) is in transmission connection with the inlet gate driving shaft (9), and the inlet gate eccentric wheel (8) is abutted with the inlet gate (6) and drives the inlet gate (6) to intermittently swing; An inlet belt wheel (10) is arranged at one end of the inlet gate driving shaft (9), the motor (5) is connected with the inlet belt wheel (10) through a synchronous belt (30), the top of the inlet gate (6) is hinged with the bracket (1), and the inlet gate driving shaft (9) is positioned at one side of the inlet gate (6); The transmission mechanism (4) comprises: the automatic paper money recycling device comprises a channel (11) for conveying a bankbook, a plurality of groups of driving wheel groups (12) and a wheel lifting mechanism (13) for controlling the driving wheel groups to lift, wherein the channel (11), the driving wheel groups (12) and the wheel lifting mechanism (13) are arranged in a bracket (1), the groups of driving wheel groups (12) are respectively correspondingly arranged above and below the channel (11) and respectively penetrate through the channel (11), part of the driving wheel groups is exposed at the middle of the channel (11), each group of driving wheel groups are correspondingly matched, the wheel lifting mechanism (13) is connected with the driving wheel groups, and a recycling box gate mechanism (3) is connected with the wheel lifting mechanism (13); the wheel lifting mechanism (13) comprises: the lifting wheel fixing plate (14), the lifting wheel frame (15), the lifting wheel driving shaft (16) and the lifting wheel eccentric wheel (17), wherein the lifting wheel fixing plate (14) is arranged on the bracket (1), the lifting wheel frame (15) is hinged with the lifting wheel fixing plate (14), one end of the lifting wheel frame (15) is positioned below the driving wheel group (12), the lifting wheel driving shaft (16) is rotatably arranged in the bracket (1), the lifting wheel eccentric wheel (17) is arranged on the lifting wheel driving shaft (16), the recovery box gate mechanism (3) is connected with the lifting wheel driving shaft (16), The lifting wheel eccentric wheel (17) is abutted with the lifting wheel frame (15) and drives one end of the lifting wheel frame (15) to intermittently lift and swing; The other end of the lifting wheel fixing plate (14) is hinged with the lifting wheel frame (15) through a lifting wheel shaft (18), one end of the lifting wheel driving shaft (16) is provided with a lifting wheel belt wheel (19), and the recovery box gate mechanism (3) is in transmission connection with the lifting wheel belt wheel (19); The recovery box gate mechanism (3) comprises: the recovery box gate spring (22), the recovery box gate (23), the recovery box gate driving shaft (24) and at least one recovery box gate eccentric wheel (25), wherein the recovery box gate (23) is hinged with the support (1), two ends of the recovery box gate spring (22) are respectively correspondingly connected with the support (1) and the recovery box gate (23), the recovery box gate driving shaft (24) is rotatably arranged on the support (1), the recovery box gate eccentric wheel (25) is arranged on the side wall of the recovery box gate driving shaft (24), the inlet gate mechanism (2) is in transmission connection with the recovery box gate driving shaft (24), The recycling bin gate eccentric wheel (25) is abutted with the recycling bin gate (23) and drives the recycling bin gate (23) to intermittently swing; One end of the recovery box gate driving shaft (24) is provided with a recovery belt wheel (26), the inlet gate mechanism (2) is connected with the recovery belt wheel (26) through a synchronous belt (30), the top of the recovery box gate (23) is hinged with the support (1), and the recovery box gate driving shaft (24) is located on one side of the recovery box gate (23).

2. A passbook self-service device according to claim 1, wherein the channel (11) comprises: the upper support plate (20) and the lower support plate (21), the upper support plate (20) and the lower support plate (21) are mutually parallel and installed in the support (1), and through holes for penetrating the upper driving wheel group and the lower driving wheel group are respectively correspondingly formed in the upper support plate and the lower support plate.

3. The passbook self-service apparatus of claim 1, further comprising: three groups of sensors (27) and three sensor separation blades (28), the three sensor separation blades (28) are correspondingly arranged on the inlet gate mechanism (2), the recovery box gate mechanism (3) and the transmission mechanism (4) respectively, and the three groups of sensors (27) are correspondingly arranged with the three sensor separation blades (28) respectively.