CN215563093U - Intelligent urine component detection and analysis closestool - Google Patents

Abstract

The utility model discloses an intelligent urine component detection and analysis closestool, which comprises a urine detection structure, wherein the urine detection structure comprises a sodium ion detection probe, a potassium ion detection probe and a urinary creatinine detection probe; the toilet bowl comprises a urine specimen container and a flushing structure for cleaning a urine detection structure, the bottom of the urine specimen container comprises a liquid discharge structure, and the urine detection structure is connected with the urine specimen container in a combined manner; the urine specimen container comprises an inductive switch; the flushing structure comprises a flushing pipeline and a motor structure; the closestool also comprises a central controller and a power supply structure, wherein the central controller controls the motor structure, the central controller receives detection data of the urine detection structure, the central controller comprises a data transmission module, the central controller is in data connection with a mobile terminal or a PC terminal, and the mobile terminal or the PC terminal receives the urine detection data through the data transmission module; the power supply structure is connected with the central controller and the motor structure through leads.

Description

Intelligent urine component detection and analysis closestool

Technical Field

The utility model belongs to the technical field of medical detection instruments, and particularly relates to an intelligent urine component detection and analysis closestool.

Background

Urine examination is a medical detection method. Comprises the steps of conventional analysis of urine, detection of visible components in urine (such as urine red blood cells, leucocytes and the like), quantitative determination of protein components, detection of urease and the like. Urine tests have important values for clinical diagnosis, judgment of curative effect and prognosis.

At present, salt intake levels of Chinese people are generally higher, the Chinese people are not sensitive to salt intake, only a few patients count the salt intake of one day by themselves through measuring spoons, but the whole counting process has no feedback. Along with the rise of intelligent house, intelligent closestool also appears in people's eye, if can detect the sodium potassium ion in the urine through the closestool, then can accurately reflect people's salt intake one day, play real-time guiding meaning to people's salt intake.

The utility model aims at the problems and provides an intelligent urine component detection and analysis closestool.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problems in the background art, the utility model provides an intelligent urine component detection and analysis closestool.

An intelligent urine component detection and analysis closestool comprises a urine detection structure, wherein the urine detection structure comprises a sodium ion detection probe, a potassium ion detection probe and a urine creatinine detection probe; the toilet bowl comprises a urine specimen container and a flushing structure for cleaning a urine detection structure, the bottom of the urine specimen container comprises a liquid discharge structure, and the urine detection structure is connected with the urine specimen container in a combined manner; the urine specimen container comprises an inductive switch, the inductive switch is in a closed state when a user sits on the closestool, and the inductive switch is in an open state after the user rises and leaves the closestool; the flushing structure comprises a flushing pipeline and a motor structure; the closestool also comprises a central controller and a power supply structure, wherein the central controller controls the motor structure, the central controller receives detection data of the urine detection structure, the central controller comprises a data transmission module, the central controller is in data connection with a mobile terminal or a PC terminal, and the mobile terminal or the PC terminal receives the urine detection data through the data transmission module; the power supply structure is connected with the central controller and the motor structure through leads. According to the urine detection device, the urine of a user is collected through the urine specimen container, the urine detection structure detects the urine in the urine specimen container, after the detection is finished, the induction switch is turned on, the urine in the urine specimen container flows into the drain pipe through the liquid drainage structure, and then the urine detection structure is cleaned through the flushing structure for next use, so that the accuracy of a detection result is ensured.

Furthermore, the sodium ion detection probe, the potassium ion detection probe and the urine creatinine detection probe are all positioned in the urine specimen container, and the sodium ion detection probe, the potassium ion detection probe and the urine creatinine detection probe are all connected with the inner wall of the urine specimen container in a combined manner. This kind of setting guarantees that urine detection structure can contact the urine and detect, and convenient the change.

Further, urine sample container is the recess of undercut, and urine sample container sets up the front side inner wall at the closestool, and urine sample container and closestool body coupling.

Further, the liquid discharge structure is a liquid discharge pipe, the liquid discharge pipe is arranged at the bottom of the groove, and an inductive switch is arranged at the joint of the groove and the liquid discharge pipe.

Or the urine specimen container is a liquid storage tank which protrudes outwards, and the liquid storage tank is integrally connected with the inner wall of the closestool or detachably connected with the inner wall of the closestool.

Furthermore, a plug is arranged on the outer side wall of the liquid storage tank, a slot matched with the plug is arranged on the inner wall of the closestool, and the liquid storage tank is connected with the inner wall of the closestool in an inserting mode.

Further, the liquid discharge structure is a liquid discharge hole, the liquid discharge hole is formed in the liquid storage tank, and the inductive switch is arranged at the liquid discharge hole.

Further, the front inner wall of the toilet bowl comprises a guide structure, and the bottom of the guide structure points to the midpoint of the urine specimen container. When in use, the guide structure guides urine discharged by a user into the urine specimen container.

Furthermore, the guide structure is a guide groove, the bottom of the guide groove is integrally connected with the inner wall of the front side of the closestool, and the two sides of the guide groove comprise integrally connected baffles. This arrangement ensures that urine flows into the urine specimen container.

Further, the bottom of the closestool comprises a hollow base, the center of the base comprises a partition plate which divides the base into a first cavity and a second cavity, the partition plate is integrally connected with the base, the sewage discharge pipe is located inside the first cavity, and the central controller and the motor structure are located inside the second cavity. The arrangement ensures safety, so as to prevent the danger of power utilization caused by water leakage of the sewage discharge pipe.

Further, an operation door which can be opened is arranged on the outer side wall of the base. The arrangement can open the operation door to inspect and maintain the structure in the base.

Furthermore, the flushing structure also comprises a water storage tank, the motor structure is a small-sized pumping motor, the pumping motor comprises a water taking pipe and a water conveying pipe, the water taking pipe extends into the water storage tank, and the water conveying pipe is spliced with the flushing pipeline; the water storage tank includes a water inlet pipe communicated with an indoor water source.

Further, the water storage tank comprises an automatic water feeding assembly. The automatic water feeding component and the water feeding principle of the toilet water tank.

Furthermore, the flushing pipeline penetrates through the toilet wall, and the flushing end of the flushing pipeline faces the urine detection structure; the wall of the toilet is provided with a through hole for the flushing pipeline to pass through, and the flushing end of the flushing pipeline passes through the through hole and extends to the urine specimen container.

Furthermore, the inner wall of the through hole comprises a sealing ring, and the pipe wall of the flushing pipeline is hermetically connected with the through hole. The arrangement ensures the tightness of the closestool and prevents water leakage.

Further, the inductive switch is an infrared intelligent inductive switch.

Further, the end of washing pipeline includes level sensor, level sensor surveys the liquid position in the urine sample container, and give central controller with liquid level signal transmission, the controller receives liquid level signal back and sends the instruction to the pump motor, if the liquid in the urine sample container has been emptied, then level sensor sends the liquid level to central controller and is 0 liquid level signal, central controller control pump motor draws water this moment and makes the washing pipeline wash urine detection structure, if there is liquid in the urine sample container, then level sensor sends the liquid level to central controller and is 1 liquid level signal, central controller control pump motor is in out-of-work state this moment. In this kind of setting, the flushing pipe way can in time wash urine sample detection structure, and can avoid washing away the liquid in the urine sample container in the detection process.

Further, the central controller comprises a washing time setting module, and the washing time length preset value of the washing time setting module is as follows: 5 seconds; the motor that draws water lasts 5 seconds time draws water, and the washing pipeline lasts 5 seconds to the washing of urine detection structure. This kind of setting can wash the urine detection structure clean, guarantees the accuracy of testing result when using next time.

Further, the central controller comprises a statistical analysis module, the statistical analysis module receives detection data of the sodium ion detection probe, the potassium ion detection probe and the urinary creatinine detection probe, analyzes the detection data to obtain daily salt intake of the user, and compares the daily salt intake with standard daily salt intake; and the mobile terminal or the PC terminal acquires the detection data, the daily salt intake of the user and the comparison value of the daily salt intake of the user and the daily standard salt intake. The user can clearly see the daily salt intake of the user through the mobile terminal or the PC terminal, and the comparison value has guiding significance on the daily salt intake of the user.

Or a probe fixing structure for fixing the sodium ion detection probe, the potassium ion detection probe and the urinary creatinine detection probe is arranged, the sodium ion detection probe, the potassium ion detection probe and the urinary creatinine detection probe are respectively and fixedly connected with the probe fixing structure, and the probe fixing structure is connected with the closestool in a combined manner. The urine detection structure can be freely installed and detached by the arrangement.

Furthermore, the probe fixing structure comprises a telescopic rod, and the bottom of the telescopic rod is fixedly connected with the sodium ion detection probe, the potassium ion detection probe and the urinary creatinine detection probe. The device can adjust the positions of the sodium ion detection probe, the potassium ion detection probe and the urine creatinine detection probe extending into the urine specimen container.

Further, the telescopic link is miniature electric telescopic handle. The electric telescopic rod can conveniently and quickly adjust the height.

Furthermore, the probe fixing structure comprises a hanging frame used for fixing the probe fixing structure on the closestool, and the hanging frame is connected with the probe fixing structure in a combined mode. When the device is used, the probe fixing structure is arranged on the hanging rack, and the hanging rack is hung on a closestool.

Furthermore, the hanging rack is a U-shaped rack with a downward opening, and the hanging rack is hung on the edge of the toilet.

Further, an anti-slip layer used for increasing friction force between the anti-slip layer and a closestool is arranged on the inner wall of the hanging rack.

Further, a clamp for fixing the probe fixing structure is arranged on the side wall of the hanging rack, and the clamp clamps the upper end of the probe fixing structure. When the probe fixing structure is used, the probe fixing structure is clamped through the clamp.

Further, the clamp is a clamp with an opening at one side, and the opening end of the clamp is closed through a screw.

Further, the upper end of the probe fixing structure is provided with a box body with a cavity, the box body comprises a small lifting motor and a power supply structure, and the lifting motor is connected with the power supply structure through a wire.

Further, the upper end of box body includes the on off switch, closes and starts elevator motor through the on off switch.

The utility model has the beneficial effects that: the content of sodium ions, potassium ions and creatinine in urine of a user is monitored through the closestool, salt intake every day is obtained, the user can timely know the salt intake condition of the user, the method has guiding significance for diet in the future, the user is helped to actively improve the diet condition of the user, healthy life is achieved, body health is facilitated, the body health quality of the whole people is improved, and meanwhile pressure of hospitals and society can be relieved.

The working principle of the utility model is as follows: when a user sits on the closestool, the infrared intelligent sensing switch in the urine specimen container is in a closed state when receiving a sensing signal, the bottom of the urine specimen container is in a closed state at the moment, urine discharged by the user enters the urine specimen container along the guide groove, the urine detection structure detects the urine, the central controller carries out statistical analysis on detection data, and the user acquires the detection data through the mobile end or the PC end so as to know the daily salt intake; after the user got up and left the closestool, infrared intelligent inductive switch then became the on-state more, and the bottom of urine sample container was in the open condition this moment, and the urine flows out to the closestool and converges the blow off pipe, and level sensor sends the liquid level and is 0's signal this moment, and the water motor draws water, and water gets into and washes the pipeline and wash urine sample container and urine detection structure to the accuracy of testing result when preparing for next use.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a partially enlarged schematic view of a toilet bowl according to the present invention;

FIG. 3 is a schematic view showing the internal structure of the urine specimen container of the present invention;

FIG. 4 is a schematic view of the structure of the irrigation tube and the urine specimen container according to the present invention;

FIG. 5 is a schematic view of the overall structure of the probe fixing structure according to the present invention;

FIG. 6 is an enlarged schematic view of the probe fixing structure of the present invention;

FIG. 7 is a schematic side view of a probe anchor according to the present invention;

FIG. 8 is a schematic structural view of another perspective of the probe fixture of the present invention;

FIG. 9 is a block flow diagram of the present invention;

FIG. 10 is a schematic view of the position relationship between the water inlet pipe and the toilet bowl of the water storage tank of the present invention;

FIG. 11 is a schematic view of the structure of the water storage tank and the water inlet pipe of the present invention;

FIG. 12 is a schematic view of the present invention with an operating door disposed on the outer sidewall of the base;

FIG. 13 is a block flow diagram of the present invention;

in the figure, 1, a closestool; 11. a base; 12. a partition plate; 13. a first cavity; 14. a second cavity; 2. a urine specimen container; 21. an inductive switch; 31. a sodium ion detection probe; 32. a potassium ion detection probe; 33. a urinary creatinine detection probe; 4. a guide groove; 5. flushing the pipeline; 51. a liquid level sensor; 6. a water storage tank; 61. a water pumping motor; 7. a central controller; 71. a data transmission module; 72. a flushing time setting module; 73. a statistical analysis module; 8. a power supply structure; 9. a probe fixing structure; 91. a telescopic rod; 92. a hanger; 93. clamping and buckling; 94. a box body; 95. and (5) switching a key.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below by specific embodiments, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, rather than all embodiments, and other advantages and effects of the present invention can be easily understood by those skilled in the art from the disclosure of the present specification. The present invention can be implemented or applied by other different specific embodiments, and the features in the following embodiments and embodiments can be combined with each other without conflict, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

Example 1

An intelligent closestool for detecting and analyzing urine components comprises a urine detection structure and a probe 33; the closestool 1 internally comprises a urine specimen container 2 and a flushing structure for cleaning the urine detection structure, the bottom of the urine specimen container 2 comprises a drainage structure, and the urine detection structure is connected with the urine specimen container 2 in a combined manner; the urine specimen container 2 comprises an inductive switch 21, the inductive switch 21 is in a closed state when a user sits on the closestool 1, and the inductive switch 21 is in an open state after the user stands up and leaves the closestool 1; the flushing structure comprises a flushing pipeline 5 and a motor structure; the closestool 1 further comprises a central controller 7 and a power supply structure 8, the central controller 7 controls the motor structure, the central controller 7 receives detection data of the urine detection structure, the central controller 7 comprises a data transmission module 71, the central controller 7 is in data connection with a mobile terminal or a PC terminal, and the mobile terminal or the PC terminal receives the urine detection data through the data transmission module 71; the power supply structure 8 is connected with the central controller 7 and the motor structure through leads. According to the urine detection device, the urine of a user is collected through the urine specimen container 2, the urine detection structure detects the urine in the urine specimen container 2, after the detection is finished, the inductive switch 21 is opened, the urine in the urine specimen container 2 flows into the drain pipe through the liquid drainage structure, then the urine detection structure is cleaned through the flushing structure for the next use, and the accuracy of the detection result is ensured.

The sodium ion detection probe 31, the potassium ion detection probe 32 and the urine creatinine detection probe 33 are all positioned in the urine specimen container 2, and the sodium ion detection probe 31, the potassium ion detection probe 32 and the urine creatinine detection probe 33 are all connected with the inner wall of the urine specimen container 2 in a combined manner. This kind of setting guarantees that urine detection structure can contact the urine and detect, and convenient the change.

The urine specimen container 2 is a liquid storage tank which protrudes outwards, and the liquid storage tank is integrally connected with the inner wall of the closestool 1.

The liquid discharge structure is a liquid discharge hole which is arranged in the liquid storage tank, and the liquid discharge hole is provided with an inductive switch 21.

The front inner wall of the toilet 1 comprises a guide structure, the bottom of which points towards the midpoint of the urine specimen container 2. In use, the guide structure directs urine discharged by a user into the urine specimen container 2.

The flushing structure also comprises a water storage tank 6, the motor structure is a small-sized water pumping motor 61, the water pumping motor 61 comprises a water taking pipe and a water conveying pipe, the water taking pipe extends into the water storage tank 6, and the water conveying pipe is spliced with the flushing pipeline 5; the water storage tank 6 includes a water inlet pipe communicating with an indoor water source.

The flushing pipeline 5 penetrates through the wall of the closestool 1, and the flushing end of the flushing pipeline 5 faces the urine detection structure; a through hole allowing the flushing pipeline 5 to pass through is arranged on the wall of the closestool 1, and the flushing end of the flushing pipeline 5 extends to the urine specimen container 2 through the through hole.

The inductive switch 21 is an infrared intelligent inductive switch 21.

The central controller 7 comprises a statistical analysis module 73, the statistical analysis module 73 receives the detection data of the sodium ion detection probe 31, the potassium ion detection probe 32 and the urinary creatinine detection probe 33, analyzes the detection data to obtain the daily salt intake of the user, and compares the daily salt intake with the standard daily salt intake; the mobile terminal or the PC terminal acquires detection data, the daily salt intake of the user, and a comparison value between the daily salt intake of the user and the daily standard salt intake. The user can clearly see the daily salt intake of the user through the mobile terminal or the PC terminal, and the comparison value has guiding significance on the daily salt intake of the user.

Example 2

An intelligent urine component detection and analysis closestool comprises a urine detection structure, wherein the urine detection structure comprises a sodium ion detection probe 31, a potassium ion detection probe 32 and a urine creatinine detection probe 33; the closestool 1 internally comprises a urine specimen container 2 and a flushing structure for cleaning the urine detection structure, the bottom of the urine specimen container 2 comprises a drainage structure, and the urine detection structure is connected with the urine specimen container 2 in a combined manner; the urine specimen container 2 comprises an inductive switch 21, the inductive switch 21 is in a closed state when a user sits on the closestool 1, and the inductive switch 21 is in an open state after the user stands up and leaves the closestool 1; the flushing structure comprises a flushing pipeline 5 and a motor structure; the closestool 1 further comprises a central controller 7 and a power supply structure 8, the central controller 7 controls the motor structure, the central controller 7 receives detection data of the urine detection structure, the central controller 7 comprises a data transmission module 71, the central controller 7 is in data connection with a mobile terminal or a PC terminal, and the mobile terminal or the PC terminal receives the urine detection data through the data transmission module 71; the power supply structure 8 is connected with the central controller 7 and the motor structure through leads. According to the urine detection device, the urine of a user is collected through the urine specimen container 2, the urine detection structure detects the urine in the urine specimen container 2, after the detection is finished, the inductive switch 21 is opened, the urine in the urine specimen container 2 flows into the drain pipe through the liquid drainage structure, then the urine detection structure is cleaned through the flushing structure for the next use, and the accuracy of the detection result is ensured.

The sodium ion detection probe 31, the potassium ion detection probe 32 and the urine creatinine detection probe 33 are all positioned in the urine specimen container 2, and the sodium ion detection probe 31, the potassium ion detection probe 32 and the urine creatinine detection probe 33 are all connected with the inner wall of the urine specimen container 2 in a combined manner. This kind of setting guarantees that urine detection structure can contact the urine and detect, and convenient the change.

The urine specimen container 2 is a liquid storage tank which protrudes outwards, and the liquid storage tank is detachably connected with the inner wall of the closestool 1.

The outer side wall of the liquid storage tank is provided with a plug, the inner wall of the closestool 1 is provided with a slot matched with the plug, and the liquid storage tank is spliced with the inner wall of the closestool 1.

The liquid discharge structure is a liquid discharge hole which is arranged in the liquid storage tank, and the liquid discharge hole is provided with an inductive switch 21.

The front inner wall of the toilet 1 comprises a guide structure, the bottom of which points towards the midpoint of the urine specimen container 2. In use, the guide structure directs urine discharged by a user into the urine specimen container 2.

The guide structure is a guide groove 4, the bottom of the guide groove 4 is integrally connected with the inner wall of the front side of the closestool 1, and the two sides of the guide groove 4 comprise integrally connected baffles. This arrangement ensures that urine flows into the urine specimen container 2.

The bottom of the closestool 1 comprises a base 11 with a hollow inner part, the center of the base 11 comprises a partition plate 12 which divides the base 11 into a first cavity 13 and a second cavity 14, the partition plate 12 is integrally connected with the base 11, a sewage discharge pipe is positioned inside the first cavity 13, and a central controller 7 and a motor structure are positioned inside the second cavity 14. The arrangement ensures safety, so as to prevent the danger of power utilization caused by water leakage of the sewage discharge pipe.

An operation door which can be opened is provided on an outer side wall of the base 11. This arrangement allows the operating door to be opened for inspection and maintenance of the structure inside the base 11.

The flushing structure also comprises a water storage tank 6, the motor structure is a small-sized water pumping motor 61, the water pumping motor 61 comprises a water taking pipe and a water conveying pipe, the water taking pipe extends into the water storage tank 6, and the water conveying pipe is spliced with the flushing pipeline 5; the water storage tank 6 includes a water inlet pipe communicating with an indoor water source.

The water storage tank 6 comprises an automatic water feeding assembly. The automatic water feeding assembly and the water tank of the closestool 1 feed water.

The flushing pipeline 5 penetrates through the wall of the closestool 1, and the flushing end of the flushing pipeline 5 faces the urine detection structure; a through hole allowing the flushing pipeline 5 to pass through is arranged on the wall of the closestool 1, and the flushing end of the flushing pipeline 5 extends to the urine specimen container 2 through the through hole.

The inner wall of the through hole comprises a sealing ring, and the pipe wall of the flushing pipeline 5 is hermetically connected with the through hole. This arrangement ensures the sealing of the toilet 1 and prevents water leakage.

The inductive switch 21 is an infrared intelligent inductive switch 21.

The central controller 7 comprises a statistical analysis module 73, the statistical analysis module 73 receives the detection data of the sodium ion detection probe 31, the potassium ion detection probe 32 and the urinary creatinine detection probe 33, analyzes the detection data to obtain the daily salt intake of the user, and compares the daily salt intake with the standard daily salt intake; the mobile terminal or the PC terminal acquires detection data, the daily salt intake of the user, and a comparison value between the daily salt intake of the user and the daily standard salt intake. The user can clearly see the daily salt intake of the user through the mobile terminal or the PC terminal, and the comparison value has guiding significance on the daily salt intake of the user.

Example 3

An intelligent urine component detection and analysis closestool comprises a urine detection structure, wherein the urine detection structure comprises a sodium ion detection probe 31, a potassium ion detection probe 32 and a urine creatinine detection probe 33; the closestool 1 internally comprises a urine specimen container 2 and a flushing structure for cleaning the urine detection structure, the bottom of the urine specimen container 2 comprises a drainage structure, and the urine detection structure is connected with the urine specimen container 2 in a combined manner; the urine specimen container 2 comprises an inductive switch 21, the inductive switch 21 is in a closed state when a user sits on the closestool 1, and the inductive switch 21 is in an open state after the user stands up and leaves the closestool 1; the flushing structure comprises a flushing pipeline 5 and a motor structure; the closestool 1 further comprises a central controller 7 and a power supply structure 8, the central controller 7 controls the motor structure, the central controller 7 receives detection data of the urine detection structure, the central controller 7 comprises a data transmission module 71, the central controller 7 is in data connection with a mobile terminal or a PC terminal, and the mobile terminal or the PC terminal receives the urine detection data through the data transmission module 71; the power supply structure 8 is connected with the central controller 7 and the motor structure through leads. According to the urine detection device, the urine of a user is collected through the urine specimen container 2, the urine detection structure detects the urine in the urine specimen container 2, after the detection is finished, the inductive switch 21 is opened, the urine in the urine specimen container 2 flows into the drain pipe through the liquid drainage structure, then the urine detection structure is cleaned through the flushing structure for the next use, and the accuracy of the detection result is ensured.

The sodium ion detection probe 31, the potassium ion detection probe 32 and the urine creatinine detection probe 33 are all positioned in the urine specimen container 2, and the sodium ion detection probe 31, the potassium ion detection probe 32 and the urine creatinine detection probe 33 are all connected with the inner wall of the urine specimen container 2 in a combined manner. This kind of setting guarantees that urine detection structure can contact the urine and detect, and convenient the change.

The urine specimen container 2 is a liquid storage tank which protrudes outwards, and the liquid storage tank is integrally connected with the inner wall of the closestool 1.

The liquid discharge structure is a liquid discharge hole which is arranged in the liquid storage tank, and the liquid discharge hole is provided with an inductive switch 21.

The front inner wall of the toilet 1 comprises a guide structure, the bottom of which points towards the midpoint of the urine specimen container 2. In use, the guide structure directs urine discharged by a user into the urine specimen container 2.

The guide structure is a guide groove 4, the bottom of the guide groove 4 is integrally connected with the inner wall of the front side of the closestool 1, and the two sides of the guide groove 4 comprise integrally connected baffles. This arrangement ensures that urine flows into the urine specimen container 2.

The bottom of the closestool 1 comprises a base 11 with a hollow inner part, the center of the base 11 comprises a partition plate 12 which divides the base 11 into a first cavity 13 and a second cavity 14, the partition plate 12 is integrally connected with the base 11, a sewage discharge pipe is positioned inside the first cavity 13, and a central controller 7 and a motor structure are positioned inside the second cavity 14. The arrangement ensures safety, so as to prevent the danger of power utilization caused by water leakage of the sewage discharge pipe.

An operation door which can be opened is provided on an outer side wall of the base 11. This arrangement allows the operating door to be opened for inspection and maintenance of the structure inside the base 11.

The flushing structure also comprises a water storage tank 6, the motor structure is a small-sized water pumping motor 61, the water pumping motor 61 comprises a water taking pipe and a water conveying pipe, the water taking pipe extends into the water storage tank 6, and the water conveying pipe is spliced with the flushing pipeline 5; the water storage tank 6 includes a water inlet pipe communicating with an indoor water source.

The water storage tank 6 comprises an automatic water feeding assembly. The automatic water feeding assembly and the water tank of the closestool 1 feed water.

The flushing pipeline 5 penetrates through the wall of the closestool 1, and the flushing end of the flushing pipeline 5 faces the urine detection structure; a through hole allowing the flushing pipeline 5 to pass through is arranged on the wall of the closestool 1, and the flushing end of the flushing pipeline 5 extends to the urine specimen container 2 through the through hole.

The inner wall of the through hole comprises a sealing ring, and the pipe wall of the flushing pipeline 5 is hermetically connected with the through hole. This arrangement ensures the sealing of the toilet 1 and prevents water leakage.

The inductive switch 21 is an infrared intelligent inductive switch 21.

The end of washing of flushing pipe way 5 includes level sensor 51, level sensor 51 surveys the liquid position in the urine sample container 2, and give central controller 7 with liquid level signal transmission, the controller receives liquid level signal back and sends the instruction to water pumping motor 61, if the liquid in the urine sample container 2 has been emptied, then level sensor 51 sends the liquid level signal that the liquid level is 0 to central controller 7, central controller 7 control water pumping motor 61 draws water this moment and makes flushing pipe way 5 wash the urine detection structure, if there is liquid in urine sample container 2, then level sensor 51 sends the liquid level signal that the liquid level is 1 to central controller 7, central controller 7 control water pumping motor 61 is at the off-working condition this moment. In this kind of setting, the flushing pipe way can in time wash urine sample detection structure, and can avoid washing away the liquid in urine sample container 2 in the detection process.

The central controller 7 comprises a washing time setting module 72, and the washing time length preset values of the washing time setting module 72 are as follows: 5 seconds; the water pumping motor 61 pumps water for 5 seconds, and the flushing pipeline 5 flushes the urine detection structure for 5 seconds. This kind of setting can wash the urine detection structure clean, guarantees the accuracy of testing result when using next time.

The central controller 7 comprises a statistical analysis module 73, the statistical analysis module 73 receives the detection data of the sodium ion detection probe 31, the potassium ion detection probe 32 and the urinary creatinine detection probe 33, analyzes the detection data to obtain the daily salt intake of the user, and compares the daily salt intake with the standard daily salt intake; the mobile terminal or the PC terminal acquires detection data, the daily salt intake of the user, and a comparison value between the daily salt intake of the user and the daily standard salt intake. The user can clearly see the daily salt intake of the user through the mobile terminal or the PC terminal, and the comparison value has guiding significance on the daily salt intake of the user.

Example 4

An intelligent urine component detection and analysis closestool comprises a urine detection structure, wherein the urine detection structure comprises a sodium ion detection probe 31, a potassium ion detection probe 32 and a urine creatinine detection probe 33; the closestool 1 internally comprises a urine specimen container 2 and a flushing structure for cleaning the urine detection structure, the bottom of the urine specimen container 2 comprises a drainage structure, and the urine detection structure is connected with the urine specimen container 2 in a combined manner; the urine specimen container 2 comprises an inductive switch 21, the inductive switch 21 is in a closed state when a user sits on the closestool 1, and the inductive switch 21 is in an open state after the user stands up and leaves the closestool 1; the flushing structure comprises a flushing pipeline 5 and a motor structure; the closestool 1 further comprises a central controller 7 and a power supply structure 8, the central controller 7 controls the motor structure, the central controller 7 receives detection data of the urine detection structure, the central controller 7 comprises a data transmission module 71, the central controller 7 is in data connection with a mobile terminal or a PC terminal, and the mobile terminal or the PC terminal receives the urine detection data through the data transmission module 71; the power supply structure 8 is connected with the central controller 7 and the motor structure through leads. According to the urine detection device, the urine of a user is collected through the urine specimen container 2, the urine detection structure detects the urine in the urine specimen container 2, after the detection is finished, the inductive switch 21 is opened, the urine in the urine specimen container 2 flows into the drain pipe through the liquid drainage structure, then the urine detection structure is cleaned through the flushing structure for the next use, and the accuracy of the detection result is ensured.

The device is provided with a probe fixing structure 9 for fixing a sodium ion detection probe 31, a potassium ion detection probe 32 and a urinary creatinine detection probe 33, wherein the sodium ion detection probe 31, the potassium ion detection probe 32 and the urinary creatinine detection probe 33 are respectively and fixedly connected with the probe fixing structure 9, and the probe fixing structure 9 is connected with the closestool 1 in a combined manner. The urine detection structure can be freely installed and detached by the arrangement.

The probe fixing structure 9 comprises a hanging rack 92 for fixing the probe fixing structure 9 on the toilet bowl 1, and the hanging rack 92 is connected with the probe fixing structure 9 in a combined manner. When in use, the probe fixing structure 9 is arranged on the hanging rack 92, and the hanging rack 92 is hung on the closestool 1.

The hanging rack 92 is a downward-opening U-shaped rack, and the hanging rack 92 is hung on the edge of the closestool 1.

The urine specimen container 2 is a liquid storage tank which protrudes outwards, and the liquid storage tank is integrally connected with the inner wall of the closestool 1.

The liquid discharge structure is a liquid discharge hole which is arranged in the liquid storage tank, and the liquid discharge hole is provided with an inductive switch 21.

The front inner wall of the toilet 1 comprises a guide structure, the bottom of which points towards the midpoint of the urine specimen container 2. In use, the guide structure directs urine discharged by a user into the urine specimen container 2.

The guide structure is a guide groove 4, the bottom of the guide groove 4 is integrally connected with the inner wall of the front side of the closestool 1, and the two sides of the guide groove 4 comprise integrally connected baffles. This arrangement ensures that urine flows into the urine specimen container 2.

The bottom of the closestool 1 comprises a base 11 with a hollow inner part, the center of the base 11 comprises a partition plate 12 which divides the base 11 into a first cavity 13 and a second cavity 14, the partition plate 12 is integrally connected with the base 11, a sewage discharge pipe is positioned inside the first cavity 13, and a central controller 7 and a motor structure are positioned inside the second cavity 14. The arrangement ensures safety, so as to prevent the danger of power utilization caused by water leakage of the sewage discharge pipe.

An operation door which can be opened is provided on an outer side wall of the base 11. This arrangement allows the operating door to be opened for inspection and maintenance of the structure inside the base 11.

The flushing structure also comprises a water storage tank 6, the motor structure is a small-sized water pumping motor 61, the water pumping motor 61 comprises a water taking pipe and a water conveying pipe, the water taking pipe extends into the water storage tank 6, and the water conveying pipe is spliced with the flushing pipeline 5; the water storage tank 6 includes a water inlet pipe communicating with an indoor water source.

The water storage tank 6 comprises an automatic water feeding assembly. The automatic water feeding assembly and the water tank of the closestool 1 feed water.

The flushing pipeline 5 penetrates through the wall of the closestool 1, and the flushing end of the flushing pipeline 5 faces the urine detection structure; a through hole allowing the flushing pipeline 5 to pass through is arranged on the wall of the closestool 1, and the flushing end of the flushing pipeline 5 extends to the urine specimen container 2 through the through hole.

The inner wall of the through hole comprises a sealing ring, and the pipe wall of the flushing pipeline 5 is hermetically connected with the through hole. This arrangement ensures the sealing of the toilet 1 and prevents water leakage.

The inductive switch 21 is an infrared intelligent inductive switch 21.

The central controller 7 comprises a statistical analysis module 73, the statistical analysis module 73 receives the detection data of the sodium ion detection probe 31, the potassium ion detection probe 32 and the urinary creatinine detection probe 33, analyzes the detection data to obtain the daily salt intake of the user, and compares the daily salt intake with the standard daily salt intake; the mobile terminal or the PC terminal acquires detection data, the daily salt intake of the user, and a comparison value between the daily salt intake of the user and the daily standard salt intake. The user can clearly see the daily salt intake of the user through the mobile terminal or the PC terminal, and the comparison value has guiding significance on the daily salt intake of the user.

Example 5

An intelligent urine component detection and analysis closestool comprises a urine detection structure, wherein the urine detection structure comprises a sodium ion detection probe 31, a potassium ion detection probe 32 and a urine creatinine detection probe 33; the closestool 1 internally comprises a urine specimen container 2 and a flushing structure for cleaning the urine detection structure, the bottom of the urine specimen container 2 comprises a drainage structure, and the urine detection structure is connected with the urine specimen container 2 in a combined manner; the urine specimen container 2 comprises an inductive switch 21, the inductive switch 21 is in a closed state when a user sits on the closestool 1, and the inductive switch 21 is in an open state after the user stands up and leaves the closestool 1; the flushing structure comprises a flushing pipeline 5 and a motor structure; the closestool 1 further comprises a central controller 7 and a power supply structure 8, the central controller 7 controls the motor structure, the central controller 7 receives detection data of the urine detection structure, the central controller 7 comprises a data transmission module 71, the central controller 7 is in data connection with a mobile terminal or a PC terminal, and the mobile terminal or the PC terminal receives the urine detection data through the data transmission module 71; the power supply structure 8 is connected with the central controller 7 and the motor structure through leads. According to the urine detection device, the urine of a user is collected through the urine specimen container 2, the urine detection structure detects the urine in the urine specimen container 2, after the detection is finished, the inductive switch 21 is opened, the urine in the urine specimen container 2 flows into the drain pipe through the liquid drainage structure, then the urine detection structure is cleaned through the flushing structure for the next use, and the accuracy of the detection result is ensured.

The device is provided with a probe fixing structure 9 for fixing a sodium ion detection probe 31, a potassium ion detection probe 32 and a urinary creatinine detection probe 33, wherein the sodium ion detection probe 31, the potassium ion detection probe 32 and the urinary creatinine detection probe 33 are respectively and fixedly connected with the probe fixing structure 9, and the probe fixing structure 9 is connected with the closestool 1 in a combined manner. The urine detection structure can be freely installed and detached by the arrangement.

The probe fixing structure 9 comprises an expansion link 91, and the bottom of the expansion link 91 is fixedly connected with a sodium ion detection probe 31, a potassium ion detection probe 32 and a urinary creatinine detection probe 33. This arrangement enables adjustment of the positions at which the sodium ion detecting probe 31, the potassium ion detecting probe 32, and the urinary creatinine detecting probe 33 extend into the urine specimen container 2.

The telescopic rod 91 is a small electric telescopic rod 91. The electric telescopic rod 91 can be conveniently and rapidly height-adjusted.

The probe fixing structure 9 comprises a hanging rack 92 for fixing the probe fixing structure 9 on the toilet bowl 1, and the hanging rack 92 is connected with the probe fixing structure 9 in a combined manner. When in use, the probe fixing structure 9 is arranged on the hanging rack 92, and the hanging rack 92 is hung on the closestool 1.

The hanging rack 92 is a downward-opening U-shaped rack, and the hanging rack 92 is transversely hung on the closestool 1.

An anti-slip layer for increasing the friction force with the toilet bowl 1 is provided on the inner wall of the hanger 92.

A jig for fixing the probe fixing structure 9 is provided on a side wall of the hanger 92, and the jig clamps an upper end of the probe fixing structure 9. In use, the probe fixing structure 9 is clamped by a clamp.

The clamp is a clip 93 with one side open, and the open end of the clip 93 is closed by a screw.

The upper end of the probe fixing structure 9 is provided with a box body 94 with a cavity, the box body 94 internally comprises a small-sized lifting motor and a power supply structure 8, and the lifting motor is connected with the power supply structure 8 through a wire.

The upper end of the box 94 includes an on/off switch 95, by which the elevator motor is turned off and on by the on/off switch 95.

The urine specimen container 2 is a liquid storage tank which protrudes outwards, and the liquid storage tank is integrally connected with the inner wall of the closestool 1.

The liquid discharge structure is a liquid discharge hole which is arranged in the liquid storage tank, and the liquid discharge hole is provided with an inductive switch 21.

The front inner wall of the toilet 1 comprises a guide structure, the bottom of which points towards the midpoint of the urine specimen container 2. In use, the guide structure directs urine discharged by a user into the urine specimen container 2.

The guide structure is a guide groove 4, the bottom of the guide groove 4 is integrally connected with the inner wall of the front side of the closestool 1, and the two sides of the guide groove 4 comprise integrally connected baffles. This arrangement ensures that urine flows into the urine specimen container 2.

The bottom of the closestool 1 comprises a base 11 with a hollow inner part, the center of the base 11 comprises a partition plate 12 which divides the base 11 into a first cavity 13 and a second cavity 14, the partition plate 12 is integrally connected with the base 11, a sewage discharge pipe is positioned inside the first cavity 13, and a central controller 7 and a motor structure are positioned inside the second cavity 14. The arrangement ensures safety, so as to prevent the danger of power utilization caused by water leakage of the sewage discharge pipe.

An operation door which can be opened is provided on an outer side wall of the base 11. This arrangement allows the operating door to be opened for inspection and maintenance of the structure inside the base 11.

The flushing structure also comprises a water storage tank 6, the motor structure is a small-sized water pumping motor 61, the water pumping motor 61 comprises a water taking pipe and a water conveying pipe, the water taking pipe extends into the water storage tank 6, and the water conveying pipe is spliced with the flushing pipeline 5; the water storage tank 6 includes a water inlet pipe communicating with an indoor water source.

The water storage tank 6 comprises an automatic water feeding assembly. The automatic water feeding assembly and the water tank of the closestool 1 feed water.

The flushing pipeline 5 penetrates through the wall of the closestool 1, and the flushing end of the flushing pipeline 5 faces the urine detection structure; a through hole allowing the flushing pipeline 5 to pass through is arranged on the wall of the closestool 1, and the flushing end of the flushing pipeline 5 extends to the urine specimen container 2 through the through hole.

The inner wall of the through hole comprises a sealing ring, and the pipe wall of the flushing pipeline 5 is hermetically connected with the through hole. This arrangement ensures the sealing of the toilet 1 and prevents water leakage.

The inductive switch 21 is an infrared intelligent inductive switch 21.

The end of washing of flushing pipe way 5 includes level sensor 51, level sensor 51 surveys the liquid position in the urine sample container 2, and give central controller 7 with liquid level signal transmission, the controller receives liquid level signal back and sends the instruction to water pumping motor 61, if the liquid in the urine sample container 2 has been emptied, then level sensor 51 sends the liquid level signal that the liquid level is 0 to central controller 7, central controller 7 control water pumping motor 61 draws water this moment and makes flushing pipe way 5 wash the urine detection structure, if there is liquid in urine sample container 2, then level sensor 51 sends the liquid level signal that the liquid level is 1 to central controller 7, central controller 7 control water pumping motor 61 is at the off-working condition this moment. In this kind of setting, the flushing pipe way can in time wash urine sample detection structure, and can avoid washing away the liquid in urine sample container 2 in the detection process.

The central controller 7 comprises a washing time setting module 72, and the washing time length preset values of the washing time setting module 72 are as follows: 5 seconds; the water pumping motor 61 pumps water for 5 seconds, and the flushing pipeline 5 flushes the urine detection structure for 5 seconds. This kind of setting can wash the urine detection structure clean, guarantees the accuracy of testing result when using next time.

The central controller 7 comprises a statistical analysis module 73, the statistical analysis module 73 receives the detection data of the sodium ion detection probe 31, the potassium ion detection probe 32 and the urinary creatinine detection probe 33, analyzes the detection data to obtain the daily salt intake of the user, and compares the daily salt intake with the standard daily salt intake; the mobile terminal or the PC terminal acquires detection data, the daily salt intake of the user, and a comparison value between the daily salt intake of the user and the daily standard salt intake. The user can clearly see the daily salt intake of the user through the mobile terminal or the PC terminal, and the comparison value has guiding significance on the daily salt intake of the user.

The above description of the embodiments is only for the understanding of the present invention. It should be noted that modifications could be made to the utility model without departing from the principle of the utility model, which would also fall within the scope of the claims of the utility model.

Claims (10)

1. An intelligent urine component detection and analysis closestool comprises a urine detection structure, and is characterized in that the urine detection structure comprises a sodium ion detection probe, a potassium ion detection probe and a urine creatinine detection probe; the toilet bowl comprises a urine specimen container and a flushing structure for cleaning a urine detection structure, the bottom of the urine specimen container comprises a liquid discharge structure, and the urine detection structure is connected with the urine specimen container in a combined manner; the urine specimen container comprises an inductive switch, the inductive switch is in a closed state when a user sits on the closestool, and the inductive switch is in an open state after the user rises and leaves the closestool; the flushing structure comprises a flushing pipeline and a motor structure; the closestool also comprises a central controller and a power supply structure, wherein the central controller controls the motor structure, the central controller receives detection data of the urine detection structure, the central controller comprises a data transmission module, the central controller is in data connection with a mobile terminal or a PC terminal, and the mobile terminal or the PC terminal receives the urine detection data through the data transmission module; the power supply structure is connected with the central controller and the motor structure through leads.

2. The intelligent urine component detecting and analyzing closestool of claim 1, wherein the sodium ion detecting probe, the potassium ion detecting probe and the urine creatinine detecting probe are all positioned in the urine specimen container, and the sodium ion detecting probe, the potassium ion detecting probe and the urine creatinine detecting probe are all connected with the inner wall of the urine specimen container in a combined manner.

3. The intelligent urine component detection and analysis toilet of claim 2, wherein the front inner wall of the toilet includes a guide structure, the bottom of the guide structure pointing towards the midpoint of the urine specimen container.

4. The intelligent urine component detecting and analyzing closestool of claim 2 or 3, wherein the bottom of the closestool comprises a base with a hollow inside, the center of the base comprises a partition board which divides the base into a first cavity and a second cavity, the partition board is integrally connected with the base, and the central controller and the motor structure are positioned inside the second cavity.

5. The intelligent urine component detecting and analyzing toilet bowl according to claim 4, wherein the flushing pipeline passes through the toilet bowl wall, and the flushing end of the flushing pipeline faces the urine detecting structure; the wall of the toilet is provided with a through hole for the flushing pipeline to pass through, and the flushing end of the flushing pipeline passes through the through hole and extends to the urine specimen container.

6. The intelligent urine component detecting and analyzing toilet bowl according to claim 5, wherein the flushing end of the flushing pipeline comprises a liquid level sensor, the liquid level sensor detects the position of the liquid in the urine specimen container and sends a liquid level signal to the central controller, the controller sends an instruction to the water pumping motor after receiving the liquid level signal, if the liquid in the urine specimen container is emptied, the liquid level sensor sends a liquid level signal with a liquid level of 0 to the central controller, the central controller controls the water pumping motor to pump water so that the flushing pipeline cleans the urine detection structure, if the liquid exists in the urine specimen container, the liquid level sensor sends a liquid level signal with a liquid level of 1 to the central controller, and the central controller controls the water pumping motor to be in an out-of-operation state.

7. The intelligent urine component detecting and analyzing closestool of claim 6, wherein the central controller comprises a flushing time setting module, and the preset flushing time of the flushing time setting module is as follows: 5 seconds; the motor that draws water lasts 5 seconds time draws water, and the washing pipeline lasts 5 seconds to the washing of urine detection structure.

8. The intelligent urine component detecting and analyzing toilet bowl according to claim 7, wherein the central controller comprises a statistical analysis module, the statistical analysis module receives the detection data of the sodium ion detecting probe, the potassium ion detecting probe and the urinary creatinine detecting probe, analyzes the detection data, obtains the daily salt intake of the user, and compares the daily salt intake with the standard daily salt intake; and the mobile terminal or the PC terminal acquires the detection data, the daily salt intake of the user and the comparison value of the daily salt intake of the user and the daily standard salt intake.

9. The intelligent urine component detection and analysis closestool of claim 1, wherein a probe fixing structure for fixing the sodium ion detection probe, the potassium ion detection probe and the urinary creatinine detection probe is arranged, the sodium ion detection probe, the potassium ion detection probe and the urinary creatinine detection probe are respectively and fixedly connected with the probe fixing structure, and the probe fixing structure is connected with the closestool in a combined manner.

10. The intelligent urine component detection and analysis toilet bowl according to claim 9, wherein the probe fixing structure comprises a hanging rack for fixing the probe fixing structure on the toilet bowl, and the hanging rack is connected with the probe fixing structure in a combined manner.

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