CN215894636U - Toilet bowl with medical science detection device - Google Patents

Abstract

The utility model discloses a toilet bowl with a medical detection device, belonging to the field of sanitary ware and medical detection equipment, and the technical scheme is as follows: the pedestal pan with the medical detection device comprises a pedestal pan body and a stool liquid detection instrument, wherein the pedestal pan body is provided with a stool liquid suction port A; the stool liquid detection instrument comprises a sample box, wherein the sample box comprises a test paper clamping groove, a liquid dripping groove and a detection groove; a test paper card is arranged in the test paper clamping groove, a spray pipe is arranged above the test paper card and connected with one end of a micro water suction pump, and the other end of the micro water suction pump is connected with a urine suction port A and pumps and drips urine of the urine suction port A onto the test paper card; the detection groove is provided with a photographing and light detecting device which detects the test paper card, records and stores the data of the detection process and the result and transmits the data back to the system. The utility model integrates the functions of the pedestal pan and the medical detection, so that the detection is convenient and quick, and the time and the labor are saved.

Description

Toilet bowl with medical science detection device

Technical Field

The utility model relates to the field of sanitary ware and medical detection equipment, in particular to a pedestal pan with a medical detection device.

Background

With the continuous development of human society, in order to solve the problem of defecation in a civilized and sanitary manner in a house, people invent a series of large and small toilet utensils; wherein, the shit cleaners and polishes on the existing market mainly have two kinds of toilet bowl and squatting pan. However, the conventional toilet bowl has a single use function. On the other hand, people need to provide feces or urine to a hospital (detection unit) by a detected person when performing certain medical detection; however, the process of extracting and transporting the stool or urine sample has a chance to be contaminated and polluted, thus affecting the accuracy of the test result, and also has a chance to be infected by germs, and the test process is laborious and time-consuming.

Disclosure of Invention

The utility model aims to solve the technical problem of overcoming the defect of single use function of the existing toilet bowl, skillfully connecting and energizing some conventional medical detection functions with the toilet bowl, and providing the toilet bowl with a medical detection device.

The technical scheme adopted by the utility model for solving the technical problems is as follows: a toilet bowl with a medical detection device comprises a toilet bowl body and a liquid detection instrument, wherein a small circular through hole for connecting a pipeline and a square through hole for installing and connecting the liquid detection instrument are respectively arranged on the rear end face of the toilet bowl body; and a liquid excrement suction port A is arranged in the container or the sewage discharge elbow where water can be stored. The water inlet connecting pipe is connected and fixed with the water outlet end of the electromagnetic valve A.

The urine detection instrument comprises a shell and a sample box, wherein a movable cover is arranged on the top of the shell, a plurality of round holes are formed in a bottom plate of the shell, and a rectangular hole is formed in the bottom plate. The sample box is arranged in the shell, a plurality of isolation bins are arranged at the upper end of the sample box, the isolation bins are separated by partition plates A, each isolation bin comprises a test paper clamping groove, a dripping tank and a detection tank, the test paper clamping grooves and the bottom of the detection tank are arranged towards the middle and downwards to form an inclined bottom plate A and an inclined bottom plate B, the test paper clamping grooves are communicated with the bottom of the dripping tank and enable test paper cards to easily pass through the dripping tank from the test paper clamping grooves, and a transparent glass plate inclined towards one side outwards is arranged in the middle of the detection tank; that is, the partition board A in the detection tank is arranged to incline outwards and downwards, and the top end of the partition board A supports and fixes the transparent glass plate.

The lower end of the liquid dripping tank is communicated with the lower end of the detection tank, a flat opening capable of loosely passing through a test paper card is arranged at the intersection of the inclined bottom plate A and the inclined bottom plate B, a discharge device is arranged on the outer wall of the flat opening, the discharge device comprises a gate plate capable of rotating, a circular rotating shaft is arranged at the upper end of the gate plate, two ends of the circular rotating shaft are respectively provided with a pipe code capable of rotating, the pipe code is connected and fixed with a corresponding fulcrum on the inclined bottom plate B, one end of the circular rotating shaft is connected with a speed reduction motor A, and the speed reduction motor A controls the rotation of the gate plate; the gate plate rotates upwards to close the flat openings of all the isolation bins, and rotates downwards to open the flat openings of all the isolation bins, so that the gate plate can control the test paper cards to slide downwards.

One side of the sample box is provided with a cleaning bin.

The test paper card slots can be used for placing test paper cards with different purposes, namely the test paper cards with different purposes can be placed in the test paper card slots in the grid isolation bins, so that different types of data information can be detected.

In order to facilitate accurate identification and control to meet different requirements, a plurality of grid isolation bins are respectively marked as an A isolation bin, a B isolation bin, a C isolation bin and an … N isolation bin, and different isolation bins are marked with different colors, for example, the A isolation bin is set to be red, the B isolation bin is set to be yellow, the C isolation bin is set to be blue, the N isolation bin is set to be green, and the like. Therefore, what test paper card for what purpose is placed in the test paper slot of which isolation bin needs to be set and confirmed in the system.

The test paper clamping groove is characterized in that a long opening is formed in the inclined bottom plate A corresponding to the test paper clamping groove, a plurality of orifices are formed in the inclined bottom plate A corresponding to the liquid dripping groove, inclined cavities are formed in the bottoms of the orifices, a detection sensing module is arranged in each cavity, and a liquid drainage outlet is formed in the lowest point of each cavity. The detection sensing module is a special detection component of a chip structure.

The lower parts of the inclined bottom plate A and the inclined bottom plate B are provided with conduits for discharging dirt, and the conduits are inserted into rectangular openings formed in the bottom plate of the shell and are fixed.

The shell in with be equipped with drive arrangement between sample case one side, drive arrangement include ball screw, ball screw on be equipped with the slip table, ball screw's both ends be connected fixedly with bearing A and bearing B respectively, the slide rail that corresponds on recess that the both sides of slip table bottom were equipped with and the spout to merging the both ends of spout be connected fixedly with bearing A and bearing B respectively, ball screw's a terminal be equipped with gear motor B, bearing A and bearing B be connected and fixed with the strong point that both sides were equipped with in the shell respectively. The speed reducing motor B is started to drive the ball screw to rotate so as to drive the sliding table to move on the sliding groove stably.

The device comprises a sliding table, a sampling device, a hose, a sampling device, a spray pipe, an equipment support and a control device, wherein the sliding table is respectively provided with the spray pipe and the equipment support of the sampling device, the spray pipe is a C-shaped groove pipe and is fixedly connected with the top surface and the side surface of the sliding table, the upper end of the spray pipe bends to extend above the drip groove, and the lower end of the spray pipe is fixedly connected with the upper end of the hose; the sampling device also comprises a micro water suction pump, wherein the water outlet end of the micro water suction pump is connected and fixed with the lower end of the hose, and the water inlet end of the micro water suction pump is connected and fixed with a liquid suction port A arranged on the toilet body through a sampling pipeline A.

The equipment support be C slot pipe and be connected fixedly with the side of slip table, equipment support upper end bend and stretch to the detection inslot, equipment support last end and photographic and light detection device's top be connected fixedly, photographic and light detection device's power and communication cable pass through equipment support intraductal setting and respectively with control module and data information processing module UNICOM. The lower end of the equipment support is connected and fixed with a conveying device, the conveying device comprises a single-tooth turntable and a miniature speed reducing motor, a rotating shaft of the miniature speed reducing motor is connected and fixed with the single-tooth turntable, the single-tooth turntable is fixedly mounted on a long strip opening formed in an opposite inclined bottom plate A, and a tooth tip of the single-tooth turntable penetrates through the long strip opening to enter a test paper clamping groove and can clamp the test paper or push the test paper to the drip tank; and then the single-tooth turntable rotates clockwise by 90 degrees or 180 degrees again to enable the tooth point to leave the long strip opening, so that the sliding table, the spray pipe and the equipment support can be moved to a set isolation bin to carry out next work (the tooth point of the single-tooth turntable leaves the long strip opening in a normal state).

Furthermore, in order to enable all equipment hung on the equipment support to work more accurately and stably in the moving process, the lower end of the equipment support is connected and fixed with a sleeve of the guide rail device, the guide rail device further comprises a guide rail, the guide rail penetrates through an inner hole of the sleeve in a lubricating manner, and two ends of the guide rail are arranged in parallel relative to two ends of the ball screw and are fixed on supporting points arranged on two sides in the shell; the sleeve pipe carry out synchronous linkage through equipment support and slip table.

The shooting and light detecting device comprises a light source emitting part, a camera and a data exchange module, and a detection window of the shooting and light detecting device faces to a test paper card in the drip tank. The main functions of the photographic and optical detection device are to scan and detect the test paper card by different light sources, record and store the change process and result of the chemical reaction of the test paper card and then transmit the detected and analyzed data back to the data information processing module. The function of the photographing and light detecting device also comprises the function of detecting whether a test paper card exists in the liquid dropping groove, when the photographing and light detecting device detects that no test paper card exists in the liquid dropping groove for a continuous time reaching a set value, the system judges that no test paper card exists in the liquid dropping groove and then moves to other separation bins of the same type, and simultaneously the system sends and displays the information and graphic representation that no test paper card exists in the separation bins. The test paper cards with different purposes determine different detection types and directions.

The excrement liquid detection instrument further comprises a power supply module, and the power supply module is communicated with the control module through a wire cable; the control module is respectively communicated with the electromagnetic valve A, the data information processing module, the detection sensing module, the discharging device, the driving device, the sampling device, the photographing and light detecting device, the conveying device and the display through wires and cables; and the data information processing module is respectively communicated with the detection sensing module, the photographing and light detecting device and the display through wires and cables.

The excrement liquid detection instrument is provided with a Bluetooth device, an internet interface and a wireless communication part and can be interconnected and communicated with a computer or mobile terminal equipment, and the computer or the mobile terminal equipment can access the excrement liquid detection instrument conditionally (namely, log in through a password) and can read, write and extract data information of the copied excrement liquid detection instrument.

The display is arranged on the cover (according to actual needs, the display can also be arranged on the front surface or one side of the shell), and the power supply module, the control module and the data information processing module are arranged at corresponding positions in the shell.

The conduit arranged at the lower end of the excrement liquid detection instrument is inserted into and fixed on the square through hole arranged at the rear end of the toilet body.

Furthermore, the urine detection instrument can also be circular, that is, the shell and the sample box are circular and rotate around the spray pipe of the sampling device, and the center of the sample box is provided with a pipeline capable of discharging dirt.

The using method and the detection program of the utility model are as follows:

the pedestal pan body is used according to the traditional pedestal pan when the detection of the excrement liquid is not needed.

When the excrement liquid detection is needed, the item code needed to be detected can be selected and determined through a mobile terminal device (such as a mobile phone or a tablet personal computer) or directly on an excrement liquid detection instrument, at the moment, a control module starts a micro water suction pump to drain the excrement liquid to a cleaning bin and then automatically closes the flushing bin (the sliding table, the spray pipe and the device support are always stopped at the position of the cleaning bin), and the excrement liquid flows into a preset sewage pipe or a preset sewage tank through the guide pipe; then the control module starts a driving device, and the sliding table, the spray pipe and the equipment support are accurately moved to the set isolation bin of the item to be detected; the control module starts the conveying device, the tooth tips of the single-tooth rotating disc penetrate through the strip opening and enter the test paper clamping groove to push the test paper card to the drip groove (then the single-tooth rotating disc rotates clockwise by 90 degrees or 180 degrees to enable the tooth tips to leave the strip opening); then the control module starts the sampling device again, and the micro water suction pump pumps, drains and drips the excrement liquid which is just drained by the detected person onto the test paper card; at the moment, the test paper card generates chemical reaction, and the photographic and optical detection device starts to work at the same time to record and store the change process and the result of the chemical reaction of the test paper card and transmit the detected data back to the data information processing module; the data information processing module compares the preset data with the returned data according to the system and converts the data comparison result into readable and visible data information for real-time storage, and the data information processing module transmits or sends the readable and visible data information to a display or mobile terminal equipment or a cloud server (corresponding user ID).

In addition, the detection sensing module can also independently and directly detect the excrement liquid pumped by the sampling device, namely the pumped excrement liquid directly drips onto the detection sensing module through an orifice without using a test paper card, and the detection sensing module transmits the detected data back to the data information processing module; the data information processing module compares the preset data with the returned data according to the system and converts the data comparison result into readable and visible data information for real-time storage, and the data information processing module transmits or sends the readable and visible data information to a display or mobile terminal equipment or a cloud server (corresponding user ID).

After the secondary detection is finished, the control module starts the electromagnetic valve A to work and sprays water into a container of the toilet bowl body for cleaning, then the control module starts the discharging device, the gate plate rotates downwards to be opened, and the test paper card slides downwards from the flat opening into the guide pipe; the control module starts the sampling device, and the micro water suction pump sucks and discharges just cleaned water to be sprayed into the dripping tank for cleaning so that the sewage flows to the guide pipe and flows into a preset sewage pipe or a preset sewage tank; the gate plate rotates upwards to close the flat opening within a set time. And then the control module starts the driving device, and the sliding table, the spray pipe and the equipment support are accurately moved to the position of the cleaning bin.

The utility model has the beneficial effects that: 1. the pedestal pan can integrate the conventional medical detection function, is convenient and quick, saves time and labor. 2. The safety and sanitation are realized, the probability of infection of germs of the personnel is avoided or reduced, and the pollution of germs to the sampling sample is avoided or reduced. 3. The accuracy of the detection result is improved.

Drawings

FIG. 1 is a schematic cross-sectional view of a toilet body according to the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention (another embodiment);

FIG. 3 is a schematic cross-sectional view of a stool liquid detection device according to the present invention;

FIG. 4 is a schematic cross-sectional view of an A-A stool liquid detection device of the present invention;

FIG. 5 is a schematic cross-sectional view of a feces liquid detection device B-B of the present invention;

FIG. 6 is a schematic cross-sectional view of a feces liquid detection device B-B according to another embodiment of the present invention;

fig. 7 is a schematic cross-sectional view of the present invention (another embodiment).

Detailed Description

Embodiment one

The utility model is further described with reference to the accompanying drawings in which:

referring to the attached drawings, a toilet bowl with a medical detection device comprises a toilet bowl body 100 and a liquid detection instrument 200, wherein a small circular through hole 101 for connecting a pipeline and a square through hole 102 for installing and connecting the liquid detection instrument 200 are respectively arranged on the surface of the rear end of the toilet bowl body 100, a maintenance opening 103 is arranged on the vertical surface of the rear end of the toilet bowl body 100, a container 104 is arranged in the toilet bowl body 100, a water inlet connecting pipe 105 for flushing and cleaning is arranged at the rear end of the container 104, and a sewage elbow 106 capable of storing water and insulating air is connected to the bottom of the rear end of the container 104; a stool liquid suction opening A110 is arranged in the container 104 or the pollution discharge bent pipe 106 where water can be stored. The water inlet connecting pipe 105 is connected and fixed with the water outlet end of the electromagnetic valve A120.

The urine detection instrument 200 comprises a housing 201 and a sample box 300, wherein a movable cover 202 is arranged on the top of the housing 201, a plurality of round holes 211 are arranged on a bottom plate 210 of the housing 201, and a rectangular hole 212 is further arranged on the bottom plate 210. The sample box 300 is arranged in the shell 201, a plurality of grid isolation bins 310 are arranged at the upper end of the sample box 300, the isolation bins 310 are separated by partition plates A301, each isolation bin 310 comprises a test paper clamping groove 311, a dripping tank 312 and a detection tank 313, the bottoms of the test paper clamping groove 311 and the detection tank 313 are arranged towards the middle and downwards to form an inclined bottom plate A321 and an inclined bottom plate B322, the test paper clamping groove 311 is communicated with the bottom of the dripping tank 312, so that a test paper card 400 can easily pass through the dripping tank 312 from the test paper clamping groove 311, and a transparent glass plate 314 inclined towards one side is arranged in the middle of the detection tank 313; that is, the partition A301 in the detection tank 313 is disposed to be inclined downward toward the outside, and the transparent glass plate 314 is supported by the top end of the partition A301.

The lower end of the drip tank 312 is communicated with the lower end of the detection tank 313, a flat opening 315 which can loosely pass through the test paper card 400 is arranged at the intersection of the inclined bottom plate A321 and the inclined bottom plate B322, a discharge device 330 is arranged on the outer wall of the flat opening 315, the discharge device 330 comprises a rotatable gate plate 331, a circular rotating shaft 332 is arranged at the upper end of the gate plate 331, rotatable pipe codes are respectively arranged at the two ends of the circular rotating shaft 332, the pipe codes are connected and fixed with corresponding fulcrums on the inclined bottom plate B322, a speed reduction motor A333 is connected with one end of the circular rotating shaft 332, and the speed reduction motor A333 controls the rotation of the gate plate 331; the gate plate 331 rotates upwards to close the flat openings 315 of all the separation bins 310, and the gate plate 331 rotates downwards to open the flat openings 315 of all the separation bins 310, so that the gate plate 331 can control the test paper cards 400 to slide downwards.

A cleaning bin 350 is arranged at one side of the sample box 300.

The test paper card slots 311 can be used for placing test paper cards 400 with different purposes, that is, the test paper cards 400 with different purposes can be placed in the test paper card slots 311 in the grid isolation bins 310, so that different types of data information can be detected.

To facilitate accurate identification and control to meet different requirements, the grid isolation bins 310 may be labeled as an a isolation bin, a B isolation bin, a C isolation bin, and … N isolation bins, respectively, and the different isolation bins are labeled with different colors, for example, the a isolation bin is set to red, the B isolation bin is set to yellow, the C isolation bin is set to blue, and the N isolation bin is set to green. Therefore, what kind of test paper card 400 is placed in the test paper slot 311 of which isolation bin needs to be set and confirmed in the system.

The test paper clamping groove 311 is provided with a long opening 323 on the inclined bottom plate A321 corresponding to the test paper clamping groove 311, the inclined bottom plate A321 corresponding to the dropping groove 312 is provided with a plurality of openings 324, the bottom of the openings 324 is provided with an inclined cavity 325, the cavity 325 is internally provided with the detection sensing module 500, and the lowest point of the cavity 325 is provided with a liquid discharge outlet. The detection sensing module 500 is a dedicated detection component of a chip structure.

The lower parts of the inclined bottom plates A321 and B322 are provided with a conduit 326 for discharging the dirt, and the conduit 326 is inserted into the rectangular opening 212 formed on the bottom plate 210 of the housing 201 and fixed.

The shell 201 in with be equipped with drive arrangement 600 between sample case 300 one side, drive arrangement 600 include ball screw 601, ball screw 601 on be equipped with slip table 610, ball screw 601 both ends be connected fixedly with bearing A602 and bearing B603 respectively, the recess that the both sides of slip table 610 bottom be equipped with on with spout 620 slide rail 621 involuntarily, the both ends of spout 620 be connected fixedly with bearing A602 and bearing B603 respectively, a terminal of ball screw 601 be equipped with gear motor B630, bearing A602 and bearing B603 respectively with the shell 201 in the strong point that both sides were equipped with be connected and fixed. The start of the speed reducing motor B630 can drive the ball screw 601 to rotate so as to drive the sliding table 610 to move smoothly on the sliding groove 620.

The device comprises a sliding table 610, a sampling device 700, a spray pipe 701 and an equipment support 801, wherein the sliding table 610 is provided with the sampling device 700, the spray pipe 701 is a C-shaped groove pipe and is fixedly connected with the top surface and the side surface of the sliding table 610, the upper end of the spray pipe 701 is bent and extends above a drip groove 312, and the lower end of the spray pipe 701 is fixedly connected with the upper end of a hose 702; the sampling device 700 further comprises a micro water suction pump 703, the water outlet end of the micro water suction pump 703 is connected and fixed with the lower end of the hose 702, and the water inlet end of the micro water suction pump 703 is connected and fixed with a stool liquid suction port A110 arranged on the toilet body 100 through a sampling pipeline A704.

The equipment support 801 is a C-shaped groove pipe and is fixedly connected with the side face of the sliding table 610, the upper end of the equipment support 801 is bent and extends into the detection groove 313, the upper tail end of the equipment support 801 is fixedly connected with the top of the photographing and optical detection device 820, and a power supply and communication cable 802 of the photographing and optical detection device 820 is arranged in the equipment support 801 and is respectively communicated with the control module and the data information processing module. The lower end of the equipment bracket 801 is connected and fixed with a conveying device 830, the conveying device 830 comprises a single-tooth turntable 831 and a miniature speed reducing motor, a rotating shaft of the miniature speed reducing motor is connected and fixed with the single-tooth turntable 831, the single-tooth turntable 831 is fixedly installed on a long strip opening 323 arranged on an inclined bottom plate A321, and the tooth tip of the single-tooth turntable 831 penetrates through the long strip opening 323 to enter a test paper clamping groove 311 and can clamp or push the test paper card 400 forwards to a grid of a drip groove 312; then, the single-tooth rotating disc 831 rotates clockwise by 90 degrees or 180 degrees again to enable the tooth tips to leave the long strip opening 323, so that the sliding table 610, the spraying pipe 701 and the equipment support 801 can smoothly move to the set isolation bin 310 to carry out next work (the tooth tips of the single-tooth rotating disc 831 leave the long strip opening 323 as a normal state).

Further, in order to enable all the devices hung on the device bracket 801 to work more accurately and stably in the moving process, the lower end of the device bracket 801 is connected and fixed with a sleeve 841 of a guide rail device 840, the guide rail device 840 further comprises a guide rail 842, the guide rail 842 is lubricated to pass through an inner hole of the sleeve 841, and two ends of the guide rail 842 are equidistantly and parallelly arranged relative to two ends of the ball screw 601 and are connected and fixed with supporting points arranged on two sides in the shell 201; the sleeve 841 is synchronously linked with the sliding table 610 through the equipment support 801.

The photographing and photo-detecting device 820 includes a light source emitting component, a camera and a data exchange module, and a detection window of the photographing and photo-detecting device 820 is fixed to the position of the test paper card 400 in the dropping liquid tank 312. The photographing and photodetecting device 820 mainly functions to scan and detect the test paper card 400 by different light sources, record and store the change process and result of the chemical reaction of the test paper card 400, and then transmit the detected data back to the data information processing module. The photographing and photo-detecting device 820 also has the functions of detecting whether the test paper card 400 is in the drip tank 312, when the photographing and photo-detecting device 820 detects that no test paper card 400 is in the drip tank 312 and the number of times reaches a set value, the system judges that no test paper card 400 exists in the drip tank 312 and then moves to the other separation bins 310 of the same type, and simultaneously, the system sends and displays the information and the graphic representation that no test paper card 400 exists in the separation bins 310. The test paper cards with different purposes determine different detection types and directions.

The stool liquid detection instrument 200 further comprises a power supply module, and the power supply module is communicated with the control module through a wire cable; the control module is respectively communicated with the electromagnetic valve A120, the data information processing module, the detection sensing module 500, the discharge device 330, the driving device 600, the sampling device 700, the photographing and light detecting device 820, the conveying device 830 and the display 900 through wires and cables; the data information processing module is respectively communicated with the detection sensing module 500, the photographing and light detecting device 820 and the display 900 through wires and cables.

The stool liquid detecting instrument 200 is provided with a bluetooth device, an internet interface and a wireless communication component and can be interconnected and intercommunicated with a computer or mobile terminal equipment, and the computer or the mobile terminal equipment can access the stool liquid detecting instrument 200 conditionally (namely, log in through a password) and can read, write and extract data information of the copied stool liquid detecting instrument 200.

The display 900 is disposed on the cover 202 (according to actual requirements, the display 900 may also be disposed on the front side or one side of the housing 201), and the power supply module, the control module and the data information processing module are disposed at corresponding positions inside the housing 201.

The conduit 326 provided at the lower end of the stool liquid detecting apparatus 200 is inserted into the square through hole 102 provided at the rear end of the toilet body 100 and fixed.

Further, the urine detection device 200 may be circular, that is, the housing 201 and the sample box 300 are circular and rotate around the nozzle 701 of the sampling device 700, and the sample box 300 is provided with a pipe capable of discharging contaminants at the center.

The using method and the detection program of the utility model are as follows:

the toilet body 100 as described above can be used as a conventional toilet when the stool liquid detection is not required.

When the excrement liquid detection is needed, the item code needed to be detected can be selected and determined through a mobile terminal device (such as a mobile phone or a tablet personal computer) or directly on the excrement liquid detection instrument 200, at the moment, the control module starts the micro water suction pump 703 to drain the excrement liquid to the cleaning bin 350 and then automatically closes the excrement liquid (the sliding table 610, the spray pipe 701 and the equipment support 801 are always stopped at the position of the cleaning bin 350), and the excrement liquid flows into a preset sewage pipe or a preset sewage tank through the conduit 326; then the control module starts the driving device 600, and the sliding table 610, the spraying pipe 701 and the equipment support 801 are accurately moved to the set isolation bin 310 of the item to be detected; next, the control module starts the conveying device 830, the tooth tips of the single-tooth rotating disc 831 penetrate through the strip opening 323 and enter the test paper clamping grooves 311 to push the test paper cards 400 to the drip groove 312 (then the single-tooth rotating disc 831 rotates clockwise 90 degrees or 180 degrees again to enable the tooth tips to leave the strip opening 323); then the control module starts the sampling device 700 again, and the micro water suction pump 703 pumps, drains and drips the urine just discharged by the detected person onto the test paper card 400; at this time, the test paper card 400 is subjected to a chemical reaction, and the photographing and light detecting device 820 starts to work to record and store the change process and the result of the chemical reaction of the test paper card 400 and transmit the detected data back to the data information processing module; the data information processing module compares the preset data of the system with the returned data and converts the result of the data comparison into readable and visible data information for real-time storage, and the data information processing module transmits or sends the readable and visible data information to the display 900 or the mobile terminal device or the cloud server (corresponding user ID).

In addition, the detection sensing module 500 can also detect the urine pumped from the sampling device 700 directly, i.e. without using the test paper card 400, the pumped urine directly drips through the hole 324 onto the detection sensing module 500, and the detection sensing module 500 transmits the detected data back to the data information processing module; the data information processing module compares the preset data with the returned data according to the system and converts the data comparison result into readable and visible data information for real-time storage, and the data information processing module transmits or sends the readable and visible data information to the display 900 or the mobile terminal device or the cloud server (corresponding user ID).

After the secondary detection is finished, the control module starts the electromagnetic valve A120 to work and sprays water into the container 104 of the toilet bowl body 100 for cleaning, then the control module starts the discharging device 330, the gate plate 331 rotates downwards to be opened, and the test paper card 400 slides downwards from the flat opening 315 into the conduit 326; the control module starts the sampling device 700, and the micro water suction pump 703 sucks and discharges the just cleaned water into the drip tank 312 for cleaning, and makes the sewage flow to the conduit 326 and flow into the preset sewage pipe or tank; the shutter plate 331 rotates upward to close the flat opening 315 within a predetermined time. The control module then activates the drive 600 and the slide 610 together with the nozzle 701 and the device carrier 801 is moved precisely into the position of the cleaning magazine 350.

Embodiment II

The second embodiment is to add a sampling point based on the first embodiment. The specific adjustment is as follows:

as shown in fig. 2 and fig. 6, a pot-bottom-shaped funnel 130 capable of storing water is arranged in the container 104, a stool liquid suction port B131 is arranged at the bottom of the funnel 130, the stool liquid suction port B131 is fixedly connected with the water inlet end of an electromagnetic valve B720 through a sampling pipeline B705, the water outlet end of the electromagnetic valve B720 is fixedly connected with a sampling pipeline a704 through a three-way pipe, the tail end of the sampling pipeline a704 is fixedly connected with the water outlet end of an electromagnetic valve C730, and the water inlet end of the electromagnetic valve C730 is fixedly connected with the stool liquid suction port a110 through the sampling pipeline a 704. The electromagnetic valve B720 and the electromagnetic valve C730 are respectively communicated with the control module through electric wires and cables, the control module controls the electromagnetic valve B720 and the electromagnetic valve C730 to work, and the electromagnetic valve B720 and the electromagnetic valve C730 are in a normally closed state.

In the using process, when the excrement liquid suction port B131 needs to be sampled, the electromagnetic valve B720 is firstly opened, and then the micro water suction pump 703 is started; when the excrement suction port A110 needs to be sampled, the electromagnetic valve C730 is firstly opened, and then the micro water suction pump 703 is started; when it is desired to sample both the port A110 and the port B131 simultaneously, solenoid valve B720 and solenoid valve C730 are actuated to restart the micro suction pump 703.

The purpose of setting a plurality of sampling points is to make the detection have one more choice and enhance the accuracy of the detection result.

Example III of the embodiment

In the third embodiment, a water spray flushing point is added on the basis of the first embodiment and the second embodiment. The specific adjustment is as follows:

as shown in fig. 7, a direct injection nozzle 150 is disposed in the container 104, the direct injection nozzle 150 is fixedly connected to a water outlet end of an independent electromagnetic valve through a pipe, and a water inlet end of the independent electromagnetic valve is fixedly connected to a tap water pipe. The independent electromagnetic valve is communicated with the control module through a wire cable, and the control module controls the operation of the independent electromagnetic valve. The purpose of the direct spray head 150 is to enhance cleaning and aging of the interior of the container 104.

When extra flushing cleaning is needed, a flushing button on site can be used, and control can be performed through the mobile terminal device.

According to the actual use requirement, the stool liquid detecting instrument 200 can be arranged in the cabinet body of a series of invisible (hidden) type toilet bowls or parallel rotating (rotating) type toilet bowls invented by the inventor, and the toilet bowl body 100 is changed into a rotating (rotating) type toilet bowl for matching use.

The utility model can be widely used in hospitals, schools, hotels, office buildings and other public places and homes.

The foregoing is a further description of the utility model in connection with specific preferred embodiments and is not intended to limit the utility model to the particular forms disclosed; for those skilled in the art to which the utility model relates, several simple deductions or alternative embodiments can be made without departing from the general concept of the utility model, and all should be considered as belonging to the protection scope of the utility model.

Claims (9)

1. The utility model provides a toilet bowl with medical science detection device, it includes toilet bowl body and excrement liquid detecting instrument, the toilet bowl body include container and blowdown return bend, its characterized in that: a liquid excrement suction port A is arranged in the container or the sewage discharge elbow where water can be stored;

the stool liquid detection instrument comprises a sample box and a sampling device, wherein the sampling device pumps the stool liquid in the stool liquid suction port A to a test paper card in the sample box.

2. A toilet bowl provided with a medical detection device according to claim 1, wherein: the excrement liquid detection instrument further comprises a power supply module, and the power supply module is communicated with the control module through a wire cable; the control module is respectively communicated with the electromagnetic valve A, the data information processing module, the detection sensing module, the discharging device, the driving device, the sampling device, the photographing and light detecting device, the conveying device and the display through wires and cables; the data information processing module is respectively communicated with the detection sensing module, the photographing and optical detection device and the display through wires and cables;

the excrement liquid detection instrument is provided with a Bluetooth device, an internet interface and a wireless communication part and can be interconnected and communicated with a computer or mobile terminal equipment, and the computer or the mobile terminal equipment can conditionally access the excrement liquid detection instrument and can read, write and extract data information of the copied excrement liquid detection instrument.

3. A toilet bowl provided with a medical detection device according to claim 1, wherein: the sample box comprises a plurality of grid isolation bins, each isolation bin comprises a test paper clamping groove, a dripping groove and a detection groove, and the test paper clamping grooves and the bottoms of the detection grooves are downwards inclined towards the middle to form an inclined bottom plate A and an inclined bottom plate B; the test paper clamping groove is communicated with the bottom of the liquid dropping groove, and a transparent glass plate which inclines outwards is arranged in the middle of the detection groove; the lower end of the liquid dropping groove is communicated with the lower end of the detection groove, a flat opening is formed at the intersection of the inclined bottom plate A and the inclined bottom plate B, and a discharge device is arranged on the outer wall of the flat opening;

the test paper clamping groove is provided with a strip opening on the corresponding inclined bottom plate A, and the lower parts of the inclined bottom plate A and the inclined bottom plate B are provided with guide pipes.

4. A toilet bowl provided with a medical detection device according to claim 1, wherein: a pot-bottom-shaped funnel capable of storing water is arranged in the container, and a liquid suction port B is arranged at the bottom of the funnel; the container is internally provided with a direct injection nozzle.

5. A toilet bowl provided with a medical examination device according to claim 1 or 3, characterized in that: one side of the sample box is provided with a cleaning bin.

6. A toilet bowl provided with a medical detection device according to claim 2, characterized in that: the driving device comprises a ball screw, a sliding table is arranged on the ball screw, two ends of the ball screw are respectively fixedly connected with a bearing support A and a bearing support B, a sliding groove is formed in the bottom of the sliding table, two ends of the sliding groove are respectively fixedly connected with the bearing support A and the bearing support B, a speed reduction motor B is arranged at one tail end of the ball screw, and the bearing support A and the bearing support B are respectively connected and fixed with supporting points arranged on two sides in the shell; the speed reducing motor B can drive the ball screw to rotate so as to drive the sliding table to move on the sliding groove stably;

the sliding table is respectively connected and fixed with the spray pipe and the equipment support.

7. A toilet bowl provided with a medical detection device according to claim 2, characterized in that: the photographing and light detecting device comprises a light source emitting component, a camera and a data exchange module.

8. A toilet bowl provided with a medical detection device according to claim 3, wherein: and a detection sensing module is arranged at the bottom of the liquid dropping groove.

9. A lavatory provided with a medical detection device according to claim 6, characterized in that: the equipment support is a C-shaped groove pipe and is fixedly connected with the sliding table, the upper end of the equipment support is bent and extends into the detection groove, the upper tail end of the equipment support is fixedly connected with the top of the photographing and optical detection device, and a power supply and a communication cable of the photographing and optical detection device are arranged in the equipment support pipe; the lower end of the equipment support is connected and fixed with a sleeve of the guide rail device, and the lower tail end of the equipment support is connected and fixed with the conveying device.

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