CN110542666A - An intelligent detection device - Google Patents

Abstract

The invention provides an intelligent detection device, which relates to the field of daily necessities; the intelligent detection device includes a probe detection mechanism, an ultraviolet spectrophotometer and an intelligent controller. The present invention is equipped with a probe detection mechanism, an ultraviolet spectrophotometer and an intelligent controller through the design of the intelligent detection device, and through the combination of the probe detection mechanism and the ultraviolet spectrophotometer, the human body liquid is automatically detected when the person urinates , to solve the problem that the test strip method used in the prior art for liquid detection can only play a qualitative and semi-quantitative role, and the detection results have false positives and false negatives, and large errors. In addition, the ultraviolet spectrophotometer is used to measure the content of substances in the liquid , It does not directly touch the liquid during the detection, which improves the detection accuracy and is safe to use.

Description

An intelligent detection device

technical field

The invention relates to the field of daily necessities, in particular to an intelligent detection device.

Background technique

A urine test is a medical testing method. Including routine urine analysis, detection of formed components in urine (such as urine red blood cells, white blood cells, etc.), quantitative determination of protein components, urine enzyme determination, etc. Urine examination is of great value in clinical diagnosis, judgment of curative effect and prognosis; urine examination is an item that people often need to check in the hospital. Through routine examination of urine, some information about the body of the examinee can be obtained. It also provides a preliminary basis for judging whether the examinee is sick. Currently, urine testing is mainly performed manually. Specifically, urine is taken manually, urine test paper is soaked in the urine, and then the urine test module is used to read the information on the urine-soaked urine test paper to obtain urine test data.

In the prior art, a detection device is installed on a sanitary appliance (such as a water closet, a urinal). However, this detection device uses the test strip method for detection. Although the urine test strip method is fast and simple, due to methodological limitations, it can only play a qualitative and semi-quantitative role. There are false positives and false negatives in the test results. Affected by many factors, and the operation is cumbersome and not intelligent enough.

Contents of the invention

The invention provides an intelligent detection device, aiming at improving the technical problem of large errors in urine detection devices using test paper in the prior art.

An intelligent detection device, including a probe detection mechanism, an ultraviolet spectrophotometer and an intelligent controller;

The probe detection mechanism includes a probe and a telescopic drive mechanism that drives the probe to expand and contract; the telescopic drive mechanism includes a first motor, a first screw driven by the first motor, and a threaded slider matched with the first screw, and a guide rail for guiding the threaded slider; the probe is connected with the threaded slider, the probe is parallel to the guide rail, and the threaded slider is provided with the guide A sliding opening matched with the slide rail; the probe is gradually inclined from top to bottom from the root to the tip;

The ultraviolet spectrophotometer includes an ultraviolet emitting device, an ultraviolet receiving device, and a mobile drive mechanism that drives the ultraviolet emitting device and the ultraviolet receiving device to move synchronously; the receiving port of the ultraviolet receiving device corresponds to the emitting port of the ultraviolet emitting device , the first strip-shaped through-hole corresponding to the launch port, the second strip-shaped through-hole corresponding to the receiving port, the first strip-shaped through-hole is equipped with a first strip-shaped light-transmitting sheet, so The second strip-shaped through hole is equipped with a second strip-shaped light-transmitting sheet, the first strip-shaped light-transmitting sheet seals the first strip-shaped through-hole, and the second strip-shaped light-transmitting sheet seals the The second strip-shaped through hole is sealed, and the first strip-shaped light-transmitting sheet and the second strip-shaped light-transmitting sheet are parallel to each other;

The ultraviolet emitting device is equipped with a first track, and the ultraviolet receiving device is equipped with a second track, and the first track and the second track are connected with the first strip-shaped through hole and the second strip-shaped through hole parallel; the ultraviolet emitting device is provided with a first sliding sleeve matched with the first track, and the ultraviolet receiving device is provided with a second sliding sleeve matched with the second track;

The mobile driving device includes a synchronous drive rod connected between the ultraviolet emitting device and the ultraviolet receiving device, drives the second screw rod that the synchronous drive rod moves, and drives the second motor that the second screw rod rotates; the synchronous drive rod forms There is a screw hole matched with the second screw rod, and the second screw rod is parallel to the first track and the second track.

Further, the ends of the first screw and the second screw are provided with limiting protrusions.

Further, the first strip-shaped through holes and the second strip-shaped through holes are arranged horizontally.

Further, the intelligent controller includes multiple synchronous micro-processing chips.

Further, the intelligent controller is fixedly installed with insulating moisture-proof glue.

Beneficial effect:

1. The present invention installs the design of the probe detection mechanism, the ultraviolet spectrophotometer and the intelligent controller through the intelligent detection device, and automatically detects the liquid by adopting the combination of the probe detection mechanism and the ultraviolet spectrophotometer, so as to solve the problem In the prior art, liquid detection using the test strip method can only play a qualitative and semi-quantitative role. There are false positives and false negatives in the detection results, large errors, cumbersome operations, and insufficient intelligence. The determination of the substance content does not directly contact the liquid during the detection, which improves the detection accuracy and is safe to use;

2. The present invention includes the design of the synchronous micro-processing chip through the intelligent controller, including the detection report generation system, the human nutrition and diet auxiliary system and the control system, the strict circuit module design of the intelligent controller, and the circuit isolation of the main board with sufficient spacing , Strict anti-interference design to ensure that it will not be disturbed by the outside world during use, and has high safety.

Description of drawings

In order to illustrate the technical solutions of the embodiments of the present invention more clearly, the accompanying drawings used in the embodiments will be briefly introduced below. It should be understood that the following drawings only show some embodiments of the present invention, and therefore do not It should be regarded as a limitation on the scope, and those skilled in the art can also obtain other related drawings based on these drawings without creative work.

Fig. 1 is the front structural diagram of a kind of intelligent detection device of the present invention;

Fig. 2 is a side sectional structural diagram of an intelligent detection device of the present invention;

Fig. 3 is a schematic structural view of the probe detection mechanism of the present invention;

Fig. 4 is the top view structural diagram of ultraviolet spectrophotometer of the present invention;

Fig. 5 is a structural schematic diagram of the ultraviolet spectrophotometer of the present invention.

In the picture:

1-Probe detection mechanism, 101-Probe, 102-First screw, 103-Thread slider, 104-Guiding slide rail, 105-First motor, 2-Ultraviolet spectrophotometer, 211-Ultraviolet emission device, 212 -The first strip-shaped through hole, 213-the first strip-shaped light-transmitting sheet, 214-the first track, 215-the first sliding sleeve, 221-ultraviolet light receiving device, 222-the second strip-shaped through-hole, 223-the second Bar-shaped light-transmitting sheet, 224-second track, 225-second sliding sleeve, 231-second motor, 232-second screw, 233-synchronous drive rod, 234-screw hole, 3-intelligent controller.

Detailed ways

In order to make the purpose, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments It is some embodiments of the present invention, but not all of them. Based on the implementation manners in the present invention, all other implementation manners obtained by persons of ordinary skill in the art without creative efforts fall within the protection scope of the present invention. Accordingly, the following detailed description of the embodiments of the invention provided in the accompanying drawings is not intended to limit the scope of the claimed invention, but merely represents selected embodiments of the invention. Based on the implementation manners in the present invention, all other implementation manners obtained by persons of ordinary skill in the art without creative efforts fall within the protection scope of the present invention.

Example.

Please refer to Fig. 1 to Fig. 5, the embodiment of the present invention provides a kind of intelligent detection device, comprises probe 101 detection mechanism 1, ultraviolet spectrophotometer 2 and intelligent controller 3; The needle 101 protrudes downwards and contacts the liquid to detect the human body liquid; the ultraviolet spectrophotometer 2 is installed at both ends of the bottom of the urinal, and is a detector designed based on the principle that solute molecules in the liquid absorb ultraviolet light. The intelligent controller 3 for detecting the concentration of solute in the liquid can control the orderly operation of various mechanisms and devices of the urinal, detect the liquid, and generate a test report from the collected urine test data and send it to the user's mobile phone through a Bluetooth connection.

In detail, the probe 101 detection mechanism 1 includes the probe 101 and a telescopic drive mechanism that drives the probe 101 to expand and contract; the telescopic drive mechanism includes a first motor 105, a first screw 102 driven by the first motor 105, and The threaded slider 103 that the first screw rod 102 matches, and the guide rail 104 that guides the threaded slider 103; the probe 101 is connected with the threaded slider 103, and the probe 101 is connected with the threaded slider 103. The guide slide rails 104 are parallel, and the threaded slider 103 is provided with a slide port matched with the guide slide rail 104, and the probe 101 is gradually inclined from top to bottom from the root to the tip; the probe 101 detection mechanism 1 When testing, the first motor 105 is controlled by the intelligent controller 3 to start, and the first motor 105 drives the first screw 102 to rotate, and the first screw 102 is screwed to the thread slider 103. When the first screw 102 rotates, the thread The slider 103 drives the probe 101 to protrude from top to bottom, the probe 101 pushes out of the sealing cover and extends out of the sealing port, the probe 101 touches the liquid, enables detection, compares the data of the intelligent controller 3, generates a test report, and the probe The 101 slide bar is equipped with a limit device to ensure the safe detection of the probe 101.

Specifically, the probe 101 can be replaced with a corresponding detection device, and the material of the probe 101 is made of nano antibacterial material.

Described ultraviolet spectrophotometer 2 comprises ultraviolet emitting device 211, ultraviolet receiving device 221, and the mobile driving mechanism that drives ultraviolet emitting device 211 and ultraviolet receiving device 221 to move back and forth; The launch port of the device 211 corresponds to the first strip-shaped through-hole 212 corresponding to the launch port, and the second strip-shaped through-hole 222 corresponding to the receiving port. The first strip-shaped through-hole 212 is matched with A first strip-shaped light-transmitting sheet 213 is provided, and the second strip-shaped light-transmitting sheet 222 is equipped with a second strip-shaped light-transmitting sheet 223, and the first strip-shaped light-transmitting sheet 213 passes the first strip-shaped light-transmitting sheet 213 The hole 212 is sealed, the second strip-shaped transparent sheet 223 seals the second strip-shaped transparent hole 222, and the first strip-shaped transparent sheet 213 and the second strip-shaped transparent sheet 223 extend back and forth and are parallel to each other When utilizing the ultraviolet spectrophotometer 2 to carry out liquid detection, the ultraviolet emitting device 211, the ultraviolet receiving device 221 and the mobile driving device are controlled by the intelligent controller 3 to start, and the mobile driving device drives the ultraviolet emitting device 211 and the ultraviolet receiving device 221 respectively at the The strip-shaped through-hole 212 and the second strip-shaped through-hole 222 move synchronously; the first strip-shaped through-hole 212 and the second strip-shaped through-hole 222 are all arranged horizontally, and the ultraviolet emitting device 211 emits ultraviolet rays, which pass through in turn After the first strip-shaped light-transmitting sheet 213, the liquid and the second strip-shaped light-transmitting sheet 223, they are received by the ultraviolet light receiving device 221, and utilize Lambert-Bilding, that is, when the incident light wavelength is constant, the absorbance A of the solution is As a function of the concentration C of the light-absorbing substance and the thickness I of the absorbing medium (absorption path), since various substances have different molecules, atoms and different molecular space structures, their absorption of light energy will not be the same. Therefore, Each substance has its own unique and fixed absorption spectrum curve, which can be used to judge or determine the content of substances in the liquid according to the absorbance at certain characteristic wavelengths on the absorption spectrum.

The ultraviolet emitting device 211 is equipped with a first track 214, and the ultraviolet receiving device 221 is equipped with a second track 224, and the first track 214 and the second track 224 are all connected to the first strip-shaped through hole 212. Parallel to the second strip-shaped through hole 222; the ultraviolet emitting device 211 is provided with the first sliding sleeve 215 matched with the first track 214, and the ultraviolet receiving device 221 is provided with the second track 224. Cooperated second sliding sleeve 225; the first rail 214 is matched with the first sliding sleeve 215, which can drive the ultraviolet light emitting device 211 to move back and forth on the first rail 214; the second rail 224 and the second sliding The sleeve 225 cooperates to drive the ultraviolet receiving device 221 to move back and forth on the first track 214 .

Described mobile driving device comprises the synchronous driving rod 233 that is connected between described ultraviolet emitting device 211 and ultraviolet receiving device 221, drives the second screw rod 232 that synchronous driving rod 233 moves, drives the second motor 231 that second screw rod 232 rotates ; The synchronous driving rod 233 is formed with a screw hole 234 matched with the second screw rod 232, and the second screw rod 232 is parallel to the first track 214 and the second track 224; 2. When performing liquid detection, the second motor 231 drives the second screw 232 to rotate, and the second screw 232 is threadedly connected with the screw hole 234 on the synchronous driving rod 233. When the second screw 232 rotates, the synchronous driving rod 233 drives the ultraviolet emitting device 211 and the ultraviolet receiving device 221 respectively move back and forth on the first track 214 and the second track 224 to detect the liquid disposed between the first strip-shaped through hole 212 and the second strip-shaped through hole 222 .

The ends of the first screw 102 and the second screw 232 are provided with limit projections, and the limit projections of the first screw 102 can prevent the thread slider 103 from completely breaking away from the first screw 102, and the second screw The limit protrusion of 232 can prevent the synchronous driving rod 233 from completely detaching from the second screw rod 232 .

The intelligent controller 3 includes the design of a synchronous micro-processing chip, including a detection report generation system, a human nutrition and diet auxiliary system and a control system. The intelligent controller 3 adopts a strict circuit module design. The unique anti-interference design ensures that it will not be disturbed by the outside world during use and has high safety.

The intelligent controller 3 is fixedly installed by insulating and moisture-proof glue, and adopts excellent insulation and moisture-proof glue to ensure normal operation in a humid and harsh environment, and has leakage detection to ensure correct instructions. The voice systems that can be generated include: Chinese, English, etc.

The intelligent controller 3 also includes a bluetooth function module, which displays a two-dimensional code to scan and connect to a mobile phone, and all reports are transmitted to the mobile phone by bluetooth to facilitate users to view.

The above descriptions are only preferred embodiments of the present invention, and are not intended to limit the present invention. For those skilled in the art, the present invention may have various modifications and changes. Any modifications, equivalent replacements, improvements, etc. made within the spirit and principles of the present invention shall be included within the protection scope of the present invention.

Claims (5)

1. An intelligent detection device, characterized in that, comprises a probe detection mechanism, an ultraviolet spectrophotometer and an intelligent controller; The probe detection mechanism includes a probe and a telescopic drive mechanism that drives the probe to expand and contract; the telescopic drive mechanism includes a first motor, a first screw driven by the first motor, and a threaded slider matched with the first screw, and a guide rail for guiding the threaded slider; the probe is connected with the threaded slider, the probe is parallel to the guide rail, and the threaded slider is provided with the guide A sliding opening matched with the slide rail; the probe is gradually inclined from top to bottom from the root to the tip; The ultraviolet spectrophotometer includes an ultraviolet emitting device, an ultraviolet receiving device, and a mobile drive mechanism that drives the ultraviolet emitting device and the ultraviolet receiving device to move synchronously; the receiving port of the ultraviolet receiving device corresponds to the emitting port of the ultraviolet emitting device , the first strip-shaped through-hole corresponding to the launch port, the second strip-shaped through-hole corresponding to the receiving port, the first strip-shaped through-hole is equipped with a first strip-shaped light-transmitting sheet, so The second strip-shaped through hole is equipped with a second strip-shaped light-transmitting sheet, the first strip-shaped light-transmitting sheet seals the first strip-shaped through-hole, and the second strip-shaped light-transmitting sheet seals the The second strip-shaped through hole is sealed, and the first strip-shaped light-transmitting sheet and the second strip-shaped light-transmitting sheet are parallel to each other; The ultraviolet emitting device is equipped with a first track, and the ultraviolet receiving device is equipped with a second track, and the first track and the second track are connected with the first strip-shaped through hole and the second strip-shaped through hole parallel; the ultraviolet emitting device is provided with a first sliding sleeve matched with the first track, and the ultraviolet receiving device is provided with a second sliding sleeve matched with the second track; The mobile driving device includes a synchronous drive rod connected between the ultraviolet emitting device and the ultraviolet receiving device, drives the second screw rod that the synchronous drive rod moves, and drives the second motor that the second screw rod rotates; the synchronous drive rod forms There is a screw hole matched with the second screw rod, and the second screw rod is parallel to the first track and the second track. 2 . The intelligent detection device according to claim 1 , characterized in that, the ends of the first screw and the second screw are provided with limiting protrusions. 3 . 3. The intelligent detection device according to claim 1, wherein the first strip-shaped through hole and the second strip-shaped through hole are both arranged horizontally. 4. A kind of intelligent detection device according to claim 1, characterized in that, said intelligent controller comprises a plurality of synchronous micro-processing chips. 5 . The intelligent detection device according to claim 4 , wherein the intelligent controller is fixedly installed with insulating moisture-proof glue. 6 .