CN112669533A - Intelligent urine detection system and detection method - Google Patents

Abstract

The invention provides an intelligent urine detection system and a detection method, relates to the technical field of biomedical urine routine detection, and solves the technical problems of complicated procedures and waste of a large amount of time in the urine sample detection process in the prior art. The device comprises a collecting mechanism, a sampling mechanism, a urine sample detection device, a liquid recovery mechanism, a flushing mechanism and a feedback system; one end of the sampling mechanism is connected with the collecting mechanism, and the other end of the sampling mechanism is connected with the liquid recovery mechanism; the sampling mechanism is connected with the urine sample detection device; a liquid sensor for detecting urine is arranged on the collecting mechanism; the feedback system comprises a controller, a data collector and a display, wherein the data collector is arranged on the urine sample detection device, and the data collector, the controller and the display are sequentially connected; the liquid sensor is connected with the controller. The invention is used for urine detection, and continuous sampling, payment, detection and feedback greatly shortens the detection time and improves the detection efficiency.

Description

Intelligent urine detection system and detection method

Technical Field

The invention relates to the technical field of biomedical urine routine detection, in particular to an intelligent urine detection system and a detection method.

Background

With the rapid development of economy, the income of people is increased, and the degree of health of people is improved. At present, the body detection is basically carried out in a hospital for physical examination, and most people are in a habit that the body detection is not carried out in the hospital regularly in normal daily life, so that the optimal treatment time is delayed. Urine detection is an important method for diagnosing the physical condition of a human body, can generally detect pH, protein, occult blood, specific gravity, glucose, ketone bodies, urobilinogen, nitrate, leucocytes, bilirubin, vitamin C and the like, reflects a series of indexes of the body, is generally carried out in a hospital, and is complicated to operate and wastes a large amount of time because medical resources are in shortage, examinees often need to queue up for registration, payment, urine taking and other procedures after arriving at the hospital, and need to wait for batch urine detection and queue up for taking results.

Therefore, a device with urine collection, payment and detection functions is needed to solve the problems of complicated procedures and time waste in the urine sample detection process.

Disclosure of Invention

The invention aims to provide an intelligent urine detection system and a detection method, which solve the technical problems of complicated procedures and waste of a large amount of time in the urine sample detection process in the prior art. The technical effects that can be produced by the preferred technical scheme in the technical schemes provided by the invention are described in detail in the following.

In order to achieve the purpose, the invention provides the following technical scheme:

the invention provides an intelligent urine detection system, which comprises a collection mechanism, a sampling mechanism, a urine sample detection device, a liquid recovery mechanism, a flushing mechanism and a feedback system, wherein the sampling mechanism is arranged on the urine sample detection device;

one end of the sampling mechanism is connected with the collecting mechanism, and the other end of the sampling mechanism is connected with the liquid recovery mechanism;

the sampling mechanism is connected with the urine sample detection device;

the collecting mechanism and the sampling mechanism are both connected with the flushing mechanism;

a liquid sensor for detecting urine is arranged on the collecting mechanism;

the feedback system comprises a controller, a data collector and a display, wherein the data collector is arranged on the urine sample detection device, and the data collector, the controller and the display are sequentially connected;

the liquid sensor is connected with the controller.

Preferably, the urine sample detection device comprises a urine sample detection mechanism, a pipeline, a motor, a slider and a guide rail, wherein the pipeline is connected with the sampling mechanism, the pipeline and the data collector are connected with the slider, the slider is connected with the output shaft of the motor, the slider is arranged on the guide rail in a sliding manner, the motor is used for driving the pipeline to move between the urine sample detection mechanism and the liquid recovery mechanism, the pipeline is provided with a first electromagnetic valve, and the first electromagnetic valve is connected with the controller.

Preferably, the sampling mechanism includes a sampler and a sampling pipe, one end of the sampling pipe is connected with the collecting mechanism and the other end is connected with the sampler, the sampler is connected with the pipeline, the sampling pipe is provided with a second electromagnetic valve, and the second electromagnetic valve is connected with the controller.

Preferably, the liquid recovery mechanism includes recovery funnel and sampling pipe, sampling pipe one end with recovery funnel connects the other end with the collection mechanism is connected, recovery funnel is located one side of urine sample detection device, and is located the pipeline is kept away from the below of the one end of sampling mechanism.

Preferably, the flushing mechanism comprises a water inlet pipe and a third electromagnetic valve;

the water inlet pipe is a three-way pipe, the first end of the water inlet pipe is connected with an external water pipe, the second end of the water inlet pipe is connected with the collecting mechanism, the third end of the water inlet pipe is connected with the sampling pipe through the third electromagnetic valve, and the third electromagnetic valve is connected with the controller.

Preferably, the collecting mechanism comprises a groove body, a flushing groove and a flushing hole, the flushing groove is connected with the second end of the water inlet pipe, a drain outlet and a sampling port are formed in the bottom of the groove body, and the sampling port is connected with the sampling pipe.

Preferably, the flushing groove is formed in the circumferential side wall of the top end of the groove body, the flushing holes are formed in the side wall of the flushing groove, and one end of each flushing hole is communicated with the groove body while the other end is communicated with the flushing groove.

Preferably, still include infrared inductor and fourth solenoid valve, the fourth solenoid valve sets up the inlet tube is close to second end department, infrared inductor with the controller is connected, the controller with the fourth solenoid valve is connected.

Preferably, the urine sample detection mechanism comprises a detection platform, a test paper box and a test paper pushing mechanism, the test paper box is arranged above the detection platform, the test paper pushing mechanism is arranged on the detection platform and is positioned between the detection platform and the test paper box, the test paper pushing mechanism is used for pushing test paper to the detection platform, and the pipeline and the data collector are driven by the motor to move between the detection platform and the liquid recovery mechanism.

The invention provides a detection method of an intelligent urine detection system, which comprises the steps of S1, receiving a signal fed back by a liquid sensor when detecting urine by a controller, and controlling a sampling mechanism to sample by the controller;

step S2, after the sampling of the sampling mechanism is completed, the controller controls the display to display the two-dimensional code and carries out prompting;

step S3, the controller detects the urine sample after receiving payment from the client terminal through the two-dimension code;

and step S4, after the detection is finished, the controller sends the detection result to the client terminal.

The technical scheme provided by the invention comprises a collecting mechanism, a sampling mechanism, a urine sample detection device, a liquid recovery mechanism, a flushing mechanism and a feedback system; one end of the sampling mechanism is connected with the collecting mechanism, and the other end of the sampling mechanism is connected with the liquid recovery mechanism; the sampling mechanism is connected with the urine sample detection device; a liquid sensor for detecting urine is arranged on the collecting mechanism; the feedback system comprises a controller, a data collector and a display, wherein the data collector is arranged on the urine sample detection device, and the data collector, the controller and the display are sequentially connected; the liquid sensor is connected with the controller. Through the urine examination system of the whole continuity of collection mechanism, sampling mechanism, urine sample detection device and feedback system, can have the sample in the urine examination process concurrently, pay, detect and feedback, very big shortening the time that detects and improving detection efficiency.

The preferred technical scheme of the invention can at least produce the following technical effects: the urine sample detection device comprises a urine sample detection mechanism, a pipeline, a motor, a sliding block and a guide rail, wherein the motor drives the pipeline and a data collector to move between the urine sample detection mechanism and the liquid recovery mechanism, the pipeline realizes sample dripping and drips a urine sample on test paper, and the data collector collects an image of the test paper and feeds the image back to the controller;

the sampling mechanism comprises a sampler and a sampling pipe, the sampler extracts the urine sample collected in the collecting mechanism connected with the sampling pipe, the sampling pipe is provided with a second electromagnetic valve, the second electromagnetic valve is connected with the controller, and the controller controls the on-off of the second electromagnetic valve;

the liquid recovery mechanism comprises a recovery funnel and a sample discharge pipe, the recovery funnel is used for recovering a urine sample and flushing liquid dropped from the pipeline, and the sample discharge pipe is connected with the collection mechanism and discharges the liquid into the collection mechanism for discharge;

the flushing mechanism comprises a water inlet pipe and a third electromagnetic valve, the water inlet pipe adopts a three-way pipe, the first end of the water inlet pipe is connected with an external water pipe, the second end of the water inlet pipe is connected with a collecting mechanism, the third end of the water inlet pipe is connected with a sampling pipe through the third electromagnetic valve, the three-way pipe has the functions of flushing the collecting mechanism and the sampling pipe, and the flushing mechanism is used for treating the next patient.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of an overall structure of an intelligent urine detection system provided by an embodiment of the invention;

FIG. 2 is a schematic view of a portion of the urine sample testing device according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a collecting mechanism provided in an embodiment of the present invention;

FIG. 4 is a schematic diagram of an overall installation structure of the intelligent urine detection system provided by the embodiment of the invention;

FIG. 5 is a flow chart of a detection method of the intelligent urine detection system according to an embodiment of the present invention.

FIG. 1-collection mechanism; 101-a tank body; 102-a washing tank; 103-flushing holes; 2-a sampling mechanism; 201-a sampler; 202-a sampling tube; 3-a urine sample detection device; 301-urine sample detection mechanism; 3011-a detection platform; 3012-test paper box; 3013-test paper pushing mechanism; 302-a pipe; 303-a motor; 304-a slider; 305-a guide rail; 4-a liquid recovery mechanism; 401-recovery funnel; 402-a sample discharge pipe; 5-a flushing mechanism; 501-a water inlet pipe; 502-third solenoid valve; 6-a feedback system; 601-a controller; 602-a data collector; 603-a display; 7-a liquid sensor; 8-a first solenoid valve; 9-a second solenoid valve; 10-a sewage draining outlet; 11-a sampling port; 12-an infrared sensor; 13-fourth solenoid valve.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

The specific embodiment of the present invention provides an intelligent urine detection system, as shown in fig. 1, comprising a collection mechanism 1, a sampling mechanism 2, a urine sample detection device 3, a liquid recovery mechanism 4, a flushing mechanism 5 and a feedback system 6; the collecting mechanism 1 is used for realizing the preliminary collection of urine, and the sampling mechanism 2 is connected with the collecting mechanism 1 and is used for extracting urine samples from the urine collected by the collecting mechanism 1; the urine sample detection device 3 is connected to the other end of the sampling mechanism 2, and detects the urine sample drawn by the sampling mechanism 2; the liquid recovery mechanism 4 is connected with the sampling mechanism 2, and the urine sample detection device 3 is arranged at one side of the sampling mechanism 2 because the detection of the urine sample is drop detection, and the urine sample after the drop detection is directly discharged through the liquid recovery mechanism 4; the detected detection result is fed back to the client terminal through the feedback system 6. The collecting mechanism 1 and the sampling mechanism 2 are both connected with a flushing mechanism 5, and the flushing mechanism 5 flushes a system through which the urine sample passes, so that the intelligent urine detection system is in an initial state for the next patient to use; in order to make the system intelligent, a liquid sensor 7 for detecting urine is provided in the collection mechanism 1, and when the liquid sensor 7 comes into contact with urine, the collected information is sent to the feedback system 6 in the form of a signal, and the feedback system 6 controls the sampling mechanism 2 to collect the urine sample.

The feedback system 6 specifically comprises a controller 601, a data collector 602 and a display 603, wherein the controller 601 is used for controlling the operation of the system, the data collector 602 is used for collecting information of the test paper of the urine sample detection device 3, the display 603 is used for feeding the collected information back to a client through the controller 601, the data collector 602, the controller 601 and the display 603 are sequentially connected, and the information can also be directly sent to a mobile terminal (a mobile phone and the like) of the client through the controller 601, the data collector 602 is arranged on the urine sample detection device 3, the structure after dropping the test paper can be fed back to the controller 601 in the form of an image at the first time, the controller 601 compares and analyzes the collected image with an image recorded in advance, and then feeds back information corresponding to the image to the client. The liquid sensor 7 is connected to the controller 601, and the liquid sensor 7 feeds back a signal to the controller 601.

As shown in fig. 2, the urine sample detection device 3 includes a urine sample detection mechanism 301, a duct 302, a motor 303, a slider 304 and a guide rail 305, the urine sample detection mechanism 301 is used to detect a urine sample, the urine sample detection mechanism 301 includes a detection platform 3011, a test paper box 3012, a test paper pushing mechanism 3013, the test paper box 3012 is disposed above the detection platform 3011, the test paper pushing mechanism 3013 is disposed on the detection platform 3011 and is located between the detection platform 3011 and the test paper box 3012, the test paper pushing mechanism 3013 is used to push test paper onto the detection platform 3011, one side of the detection platform 3011 has a support plate, the test paper pushing mechanism 3013 pushes test paper in the test paper box 3012 onto the support plate, the guide rail 305 is disposed right above the support plate, one end of the guide rail 305 is located above the liquid recovery mechanism 4, and the other end extends to above the support plate, the slider 304 is slidably disposed on the guide rail 305, the slider 304 is connected to, the motor 303 can drive the sliding block 304 to move on the guide rail 305, one end of the pipeline 302 is connected with the sampling mechanism 2, the other end of the pipeline 302 is arranged on the sliding block 304, the sliding movement can drive the pipeline 302 to move, the bottom end of the pipeline 302 is arranged in a pinhole shape to form a dropper structure, the data collector 602 is also connected with the sliding block 304, the sliding block 304 can drive the data collector 602 to move together, the pipeline 302 can drip urine samples on test paper on a lower supporting plate in the moving process, the test paper detects the color change of the urine samples, the data collector 602 sends the collected information on the test paper to the controller 601 in the moving process, the data collector 602 can adopt a photosensitive sensor to collect and send the information which is changed into different colors by dripping samples on the test paper to the controller 601, the pipeline 302 is also provided with a first electromagnetic valve 8, the first electromagnetic valve 8 is used for controlling the on-off of the pipeline 302, the first electromagnetic valve 8 is connected to the controller 601, and the controller 601 is used to control the on/off of the first electromagnetic valve 8.

The sampling mechanism 2 that this application provided includes sampler 201 and sampling pipe 202, the lower extreme and the collection mechanism 1 of sampling pipe 202 are connected the upper end and are connected with sampler 201, sampler 201 is connected with pipeline 302, and sampler 201 discharges the urine sample of gathering from pipeline 302 and drips appearance or backward flow, sets up second solenoid valve 9 on sampling pipe 202, and second solenoid valve 9 is connected with controller 601, and the break-make of second solenoid valve 9 control sampling pipe 202.

The sampler 201 that this application provided can be for the sampling pump, or the sampler of motor drive syringe type realizes the sampling, and the urine sample of sample connection department can directly be pumped to the structure of sampling pump, and the sampler of motor drive syringe type through the piston of motor drive syringe, realizes the extraction and the dropping of urine sample.

The liquid recovery mechanism 4 functions to discharge the excess urine sample and to discharge the waste water of the flushing system; the liquid recovery mechanism 4 includes a recovery funnel 401 and a discharge tube 402, the upper end of the discharge tube 402 is connected to the bottom of the recovery funnel 401, the lower end is connected to the collection mechanism 1, the discharge tube 402 is communicated with the inside of the collection mechanism 1, and can discharge waste urine and waste water, the recovery funnel 401 is located at one side of the urine sample detection device 3, and is juxtaposed at one side of the urine sample detection device 3, when the pipeline 302 is located right above the recovery funnel 401, the liquid in the pipeline 302 can flow into the recovery funnel 401 at this time, and the diameter of the upper end opening of the recovery funnel 401 is large enough to receive the liquid falling from the pipeline 302.

The flushing mechanism 5 provided by the present application comprises a water inlet pipe 501 and a third electromagnetic valve 502; as shown in the attached figure 1 of the drawings,

the water inlet pipe 501 is a three-way pipe or a multi-way pipe, a first end of the water inlet pipe 501 is connected with an external water pipe, external clean water is provided for washing through the external water pipe, a second end of the water inlet pipe 501 is connected with the collecting mechanism 1, the external clean water enters the collecting mechanism 1 through the second end to complete the washing of the collecting mechanism 1, a third end of the water inlet pipe 501 is connected with the sampling pipe 202 through the third electromagnetic valve 502, the third electromagnetic valve 502 is connected with the controller 601, the on-off of the third electromagnetic valve 502 is controlled through the controller 601, the collecting mechanism 1 comprises a groove body 101, a flushing groove 102 and a flushing hole 103, the flushing groove 102 is connected with the second end of the water inlet pipe 501, the bottom of the groove body 101 is provided with a sewage discharge port 10 and a sampling port 11, the groove body 101 can adopt similar structures such as squatting pan or toilet bowl to realize the primary collection of urine, the sampling port 11, urine samples enter from the sample port 11.

The washing tank 102 is a circumferential groove, the washing tank 102 is arranged on the circumferential side wall of the top end of the tank body 101, the washing holes 103 are arranged on the side wall of the washing tank 102, the washing holes 103 are arranged on the inner wall of the washing tank 102, the washing holes 103 are communicated with the interior of the tank body 101, the washing holes 103 are distributed in a plurality and are uniformly distributed on the washing tank 102, and therefore the inner wall of the tank body 101 can be uniformly washed by clean water.

In order to make the intelligent urine detection system make the washing of collecting mechanism 1 intelligent, consequently can also set up infrared inductor 12 and fourth solenoid valve 13, fourth solenoid valve 13 sets up at inlet tube 501 near second end department, can control the clear water of inlet tube 501 to get into in collecting mechanism 1, infrared inductor 12 is connected with controller 601, controller 601 is connected with fourth solenoid valve 13, after the people has walked from collecting mechanism 1, infrared inductor 12 conveys signal to controller 601, controller 601 sends out the subordinate control signal that corresponds, control fourth solenoid valve 13 and open, clear water gets into to collect and accomplishes washing in the mechanism 1 through fourth solenoid valve 13.

The application provides a detection method, which comprises the following steps:

step S1, the controller 601 receives a signal fed back by the liquid sensor 7 when detecting urine, and the controller controls the sampling mechanism 2 to sample;

step S2, after the sampling by the sampling mechanism 2 is completed, the controller 601 controls the display 603 to display the two-dimensional code, and performs a prompt;

step S3, the controller 601 detects the urine sample after receiving the payment from the client terminal through the two-dimension code;

after the detection is completed in step S4, the controller 601 transmits the detection result to the client terminal.

Particularly, the intelligent urine detection system makes corresponding response in the steps; the initial state is also before step S1, the intelligent urine detection system is in a standby state, and the patient can perform urine detection at this time; when a patient urinates on the collection mechanism 1, the infrared sensor 12 detects the patient and sends a signal to the controller 601, the urine of the patient enters the sampling port 11 and contacts the liquid sensor 7, the liquid sensor 7 forms a signal and sends the signal to the controller 601, the controller 601 receives a urine sample signal and the signal of the infrared sensor and then sends a lower control signal to the sampling mechanism 2, the sampler 201 operates to extract the urine sample after receiving the control signal, and the urine sample enters the sampling 201 from the sampling port 11 through the sampling tube 202.

After sampling for a certain time (completion), the controller 601 sends a signal to the display 603, so that the display displays the two-dimensional code, prompts the user to scan and pay. If the customer does not pay and leaves within a certain time, the controller 601 controls the third electromagnetic valve to be opened, the flushing mechanism 5 flushes the sampling pipe 202, the sampler 201, the pipeline 302 and the like, meanwhile, the infrared sensor 12 forms a signal to transmit the collected walking information to the controller 601, and the controller 601 controls the fourth electromagnetic valve 13 to be opened to finish flushing the collecting mechanism 1; after the customer completes payment within a certain time, the controller 601 sends a control signal to the urine sample detection device 3 after receiving payment of the customer terminal through the two-dimensional code, so as to detect urine, in the detection process, the motor 303 drives the sliding block to move towards one side of the urine sample detection mechanism 301, so as to drive the pipeline 302 to be above the detection platform 3011, meanwhile, the test paper pushing mechanism 3013 pushes the test paper to be above the detection platform 3011, when the pipeline 302 is located above the test paper, the sampler 201 discharges the urine sample to be dripped through the pipeline 302, in the process, the first electromagnetic valve 8 is opened, the second electromagnetic valve 9 is closed, the urine sample is dripped onto the test paper from the pipeline 302, after dripping, the sliding block is clicked 303 to drive the sliding block to move towards the initial position, the pipeline 302 moves to be above the recovery funnel 401, and meanwhile, the data collector 602 collects an image of the test paper and feeds the image back to the.

The controller 601 compares the image acquired by the data acquisition unit 602 with a pre-recorded image, and finally sends the corresponding structure to a client through a client terminal or to the display 603.

Finally, after the client leaves, the washing mechanism 5 finishes washing as described above, so that the intelligent urine detection system returns to the initial state for the next patient to use.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (10)

1. An intelligent urine detection system is characterized by comprising a collection mechanism (1), a sampling mechanism (2), a urine sample detection device (3), a liquid recovery mechanism (4), a flushing mechanism (5) and a feedback system (6);

one end of the sampling mechanism (2) is connected with the collecting mechanism (1), and the other end of the sampling mechanism is connected with the liquid recovery mechanism (4);

the sampling mechanism (2) is connected with the urine sample detection device (3);

the collecting mechanism (1) and the sampling mechanism (2) are both connected with the flushing mechanism (5);

a liquid sensor (7) for detecting urine is arranged on the collecting mechanism (1);

the feedback system (6) comprises a controller (601), a data collector (602) and a display (603), wherein the data collector (602) is arranged on the urine sample detection device (3), and the data collector (602), the controller (601) and the display (603) are sequentially connected;

the liquid sensor (7) is connected with the controller (601).

2. The intelligent urine detection system according to claim 1, wherein the urine sample detection device (3) comprises a urine sample detection mechanism (301), a conduit (302), a motor (303), a slider (304) and a guide rail (305), the pipeline (302) is connected with the sampling mechanism (2), the pipeline (302) and the data collector (602) are both connected with the sliding block (304), the sliding block (304) is connected with an output shaft of the motor (303), the sliding block (304) is arranged on the guide rail (305) in a sliding way, the motor (303) is used for driving the pipeline (302) to move between the urine sample detection mechanism (301) and the liquid recovery mechanism (4), a first electromagnetic valve (8) is arranged on the pipeline (302), and the first electromagnetic valve (8) is connected with the controller (601).

3. The intelligent urine detection system according to claim 2, wherein the sampling mechanism (2) comprises a sampler (201) and a sampling pipe (202), one end of the sampling pipe (202) is connected with the collecting mechanism (1) and the other end is connected with the sampler (201), the sampler (201) is connected with the pipeline (302), a second electromagnetic valve (9) is arranged on the sampling pipe (202), and the second electromagnetic valve (9) is connected with the controller (601).

4. The intelligent urine detection system according to claim 3, wherein the liquid recovery mechanism (4) comprises a recovery funnel (401) and a sampling tube (402), one end of the sampling tube (402) is connected with the recovery funnel (401) and the other end is connected with the collection mechanism (1), the recovery funnel (401) is located at one side of the urine sample detection device (3) and is located below one end of the pipeline (302) far away from the sampling mechanism (2).

5. The intelligent urine detection system according to claim 4, wherein the flushing mechanism (5) comprises a water inlet pipe (501) and a third solenoid valve (502);

the water inlet pipe (501) is a three-way pipe, the first end of the water inlet pipe (501) is connected with an external water pipe, the second end of the water inlet pipe is connected with the collecting mechanism (1), the third end of the water inlet pipe is connected with the sampling pipe (202) through the third electromagnetic valve (502), and the third electromagnetic valve (502) is connected with the controller (601).

6. The intelligent urine detection system according to claim 5, wherein the collection mechanism (1) comprises a trough body (101), a flushing groove (102) and a flushing hole (103), the flushing groove (102) is connected with the second end of the water inlet pipe (501), a sewage outlet (10) and a sampling port (11) are arranged at the bottom of the trough body (101), and the sampling port (11) is connected with the sampling pipe (202).

7. The intelligent urine detection system according to claim 6, wherein the flushing groove (102) is arranged on the circumferential side wall at the top end of the trough body (101), the flushing hole (103) is arranged on the side wall of the flushing groove (102), one end of the flushing hole (103) is communicated with the trough body (101), and the other end of the flushing hole is communicated with the flushing groove (102).

8. The intelligent urine detection system according to claim 7, further comprising an infrared sensor (12) and a fourth solenoid valve (13), wherein the fourth solenoid valve (13) is disposed at the water inlet pipe (501) near the second end, the infrared sensor (12) is connected with the controller (601), and the controller (601) is connected with the fourth solenoid valve (13).

9. The intelligent urine detection system according to claim 2, wherein the urine sample detection mechanism (301) comprises a detection platform (3011), a test paper box (3012) and a test paper pushing mechanism (3013), the test paper box (3012) is arranged above the detection platform (3011), the test paper pushing mechanism (3013) is arranged on the detection platform (3011) and is located between the detection platform (3011) and the test paper box (3012), the test paper pushing mechanism (3013) is used for pushing test paper onto the detection platform (3011), and the pipeline (302) and the data collector (602) are driven by the motor (303) to move between the detection platform (3011) and the liquid recovery mechanism (4).

10. A method of testing the intelligent urine detection system of any one of claims 1-9, comprising:

step S1, the controller (601) receives a signal fed back by the liquid sensor (7) when urine is detected, and the controller (601) controls the sampling mechanism (2) to sample;

step S2, after the sampling of the sampling mechanism (2) is completed, the controller (601) controls the display (603) to display the two-dimensional code and prompts;

step S3, the controller (601) detects the urine sample after receiving payment from the client terminal through the two-dimensional code;

and step S4, after the detection is finished, the controller (601) sends the detection result to the client terminal.

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