CN114382147B - Urine infiltration preventing structure of intelligent closestool - Google Patents

Abstract

The invention relates to the technical field of toilets and discloses a urine infiltration preventing structure of an intelligent closestool, which comprises a bucket body, wherein a urination area with an upward opening and an external space isolated from the urination area are formed in the bucket body, a sampling port for a test paper box to move between the external space and the urination area is formed in the bucket body, a swinging door for closing or opening the sampling port is arranged at the sampling port, and a detection device for detecting urine on the test paper box is arranged in the external space; the bucket body is provided with a sunken area deviating from the urination area, the sampling port is formed at the bottom of the sunken area, and when the swinging door seals the sampling port, the swinging door is arranged in the sunken area, and the outer peripheral side wall of the swinging door is abutted with the inner side wall of the sunken area; when the swinging door is opened, the test paper box can pass through the sampling port in the external space and the urination area, when the swinging door is closed, the swinging door is embedded in the concave area, the sampling port can be completely sealed, the concave area is arranged, and the sampling port deviates from the urination area, so that urine can be prevented from penetrating through the sampling port.

Description

Urine infiltration preventing structure of intelligent closestool

Technical Field

The invention relates to the technical field of toilets, in particular to a urine permeation preventing structure of an intelligent toilet.

Background

Urine detection is a detection mode of medicine, and comprises routine urine analysis, so that the purposes of preventing, diagnosing, curative effect observing, prognosis judging and the like on diseases such as urinary, circulatory, liver, gall bladder, endocrine and the like are achieved through detection and analysis of urine.

At present, urine detection is carried out by a direct user on a test paper box, and then the test paper box is sent to a special detection instrument for detection, so that the whole operation is troublesome.

The closestool is a device for sanitary excretion, a user can urinate on the closestool, a detection device can be arranged in the outer space of the closestool in order to realize the function of urine detection on the closestool, and when the user urinates, the test paper box is conveyed to a urination area through the sampling port to collect urine, and the collected urine is used for detection in the detection device.

Be provided with the sampling mouth on the closestool, the test paper box passes through the sampling mouth and removes in outside space and urination district, and at the time, urine in the urination district gets into in the outside space through the sampling mouth easily.

Disclosure of Invention

The invention aims to provide a urine infiltration preventing structure of an intelligent closestool, and aims to solve the problem that urine in a urination area easily infiltrates into an external space through a sampling port in the prior art.

The invention discloses a urine infiltration preventing structure of an intelligent closestool, which comprises a bucket body, wherein a urine-spraying area with an upward opening and an external space isolated from the urine-spraying area are formed in the bucket body, a sampling port for a test paper box to move between the external space and the urine-spraying area is formed in the bucket body, the sampling port is communicated with the urine-spraying area and the external space, a swinging door for closing or opening the sampling port is arranged at the sampling port, and a detection device for detecting urine on the test paper box is arranged in the external space;

be equipped with the sunken sunk zone that deviates from the district of urinating on the staving, the sampling mouth forms in the bottom of sunk zone, works as when swing door closure sampling mouth, the swing door is arranged in sunk zone, the periphery lateral wall and the inside wall butt in sunk zone of swing door.

Further, the upper end of the swinging door is hinged with the barrel body, and the lower end of the swinging door is movably arranged in a vacant state.

Further, the swing door is provided with a closed side wall facing the urination area and a connecting side wall facing away from the urination area, the connecting side wall of the swing door is connected with a connecting rod structure, and the connecting rod structure drives the swing door to open or close the sampling port.

Further, the middle part of the connecting side wall of the swing door is convexly provided with a connecting seat, and the connecting rod structure is hinged with the connecting seat.

Further, along the extending direction from the outer space to the urination zone, the inner side wall of the recess zone is obliquely arranged away from the recess zone.

Further, the closed side wall of the swing door is provided with a plurality of urine storage tanks, the urine storage tanks are arranged at intervals, the adjacent urine storage tanks are communicated through the communication tank, and the urine storage tanks deviate from the edge arrangement of the closed side wall.

Further, the inner side wall of the concave area is provided with a partition groove, and the partition groove is circumferentially arranged along the circumference of the concave area.

Further, the outer peripheral edge of the closed side wall is convexly provided with a bending plate, the bending plate is circumferentially arranged along the outer peripheral edge of the closed side wall, and the bending plate is curvedly arranged towards the inner side wall of the urination area along the direction away from the outer peripheral edge of the closed side wall; when the swinging door is arranged in the concave area and the sampling port is closed, the outer end of the bending plate is propped against the inner side wall of the urination area.

Further, the inner side wall of the concave area is provided with a surrounding groove, the surrounding groove is arranged around the periphery of the concave area, the outer end of the bending plate is convexly provided with embedded ribs, and the embedded ribs are arranged along the outer end of the bending plate in an extending way; when the swinging door is arranged in the concave area and the sampling port is closed, the embedded ribs are embedded in the enclosing groove.

Further, two guide blocks are convexly arranged on the connecting side wall, a guide channel is arranged between the two guide blocks, and two sides of the guide channel are respectively provided with an adsorption layer; when the sampling port is opened by the swing door, the test paper box passes through the guide channel in the process of returning to the external space from the urination area after urine is attached to the test paper box, and the two sides of the test paper box are abutted to the adsorption layer.

Compared with the prior art, the urine infiltration preventing structure of the intelligent closestool provided by the invention has the advantages that when the swing door is opened, the test paper box can pass through the sampling port in the external space and the urination area, when the swing door is closed, the swing door is embedded in the concave area, the sampling port can be completely sealed, and the concave area is arranged, so that the sampling port deviates from the urination area, and urine infiltration through the sampling port can be avoided.

Drawings

FIG. 1 is a schematic perspective view of a urine permeation prevention structure of a smart toilet provided by the invention;

FIG. 2 is a partial perspective view of the urine penetration preventing structure of the intelligent toilet according to the present invention;

FIG. 3 is a partial perspective view of the urine penetration preventing structure of the intelligent toilet provided by the invention;

FIG. 4 is an exploded perspective view of the urine penetration preventing structure of the intelligent toilet provided by the invention;

FIG. 5 is a schematic cross-sectional view of a swing door provided by the present invention;

fig. 6 is a schematic cross-sectional view of a sampling port provided by the present invention.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

The implementation of the present invention will be described in detail below with reference to specific embodiments.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that, if there is an azimuth or positional relationship indicated by terms such as "upper", "lower", "left", "right", etc., based on the azimuth or positional relationship shown in the drawings, it is only for convenience of describing the present invention and simplifying the description, but it is not indicated or implied that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus terms describing the positional relationship in the drawings are merely illustrative and should not be construed as limitations of the present patent, and specific meanings of the terms described above may be understood by those skilled in the art according to specific circumstances.

Referring to fig. 1-6, a preferred embodiment of the present invention is provided.

The urine infiltration preventing structure of the intelligent closestool comprises a bucket body 100, wherein an opening-up urination area 101 and an external space which is isolated from the urination area 101 are formed in the bucket body 100, a sampling port 701 for the test paper box 500 to move between the external space and the urination area 101 is formed in the bucket body 100, and the sampling port 701 is communicated with the urination area 101 and the external space. Thus, the test paper cassette 500 can enter the urination area 101 from the external space through the sampling port 701, urine is collected in the urination area 101, and after the test paper cassette 500 collects urine, the test paper cassette 500 is returned from the urination area 101 to the external space through the sampling port 701.

The sampling port 701 is provided with a swing door 400 for closing or opening the sampling port 701, and the external space is provided with a detection device for detecting urine on the test paper box 500, and the detection device can take a photograph or other detection means by detecting the urine attached to the test paper box 500.

The barrel body 100 is provided with a recessed area 700 which is recessed away from the urination area 101, a sampling port 701 is formed at the bottom of the recessed area 700, when the sampling port 701 is closed by the swinging door 400, the swinging door 400 is arranged in the recessed area 700, and the outer peripheral side wall of the swinging door 400 is abutted with the inner side wall of the recessed area 700.

The above-mentioned intelligent closestool prevents urine infiltration structure, when swing door 400 was opened, test paper box 500 can pass through sampling port 701 in the outside space with the district 101 of urinating, and after swing door 400 was closed, swing door 400 embedded in recessed area 700, can carry out complete closure to sampling port 701, and through setting up recessed area 700, sampling port 701 deviates from the district 101 of urinating and arranges to can avoid urine to permeate through sampling port 701.

The upper end of the swing door 400 is hinged with the tub 100, and the lower end of the swing door 400 is movably disposed in a vacant state, so that other structures are convenient to push the operation of the swing door 400, and the swing door 400 is convenient to open or close.

The swing door 400 has a closed side wall facing toward the urination zone 101 and a connecting side wall facing away from the urination zone 101, and the connecting side wall of the swing door 400 is connected with a link structure which drives the swing door 400 to open or close the sampling port 701. Alternatively, there may be other various structures for opening or closing the swing door 400.

The middle part of the connecting side wall of the swing door 400 is convexly provided with a connecting seat, and the connecting rod structure is hinged with the connecting seat, so that the connection between the connecting rod and the connecting seat is facilitated.

Along the extending direction of the outer space to the urination zone 101, the inner side wall of the recessed zone 700 is arranged obliquely away from the recessed zone 700, so that even if urine falls onto the inner side wall of the recessed zone 700, the inner side wall of the recessed zone 700 is arranged obliquely, so that the urine on the inner side wall of the recessed zone 700 falls into the urination zone 101.

The closed side wall of the swing door 400 is provided with a plurality of urine storage grooves 401, the plurality of urine storage grooves 401 are arranged at intervals, and the adjacent urine storage grooves 401 are communicated through a communication groove, and the urine storage grooves 401 are arranged at the edge deviating from the closed side wall. When the swing door 400 is in an open state, the closed side wall of the swing door 400 is horizontally arranged, at this time, even if urine falls on the closed side wall, the urine can be temporarily stored in the urine storage tank 401, and when the swing door 400 swings downward to close the sampling port 701, the urine in the urine storage tank 401 falls down into the urination region 101, and does not infiltrate into the sampling port 701.

The inner sidewall of the recessed area 700 is provided with a partition groove 703, and the partition groove 703 is circumferentially arranged along the circumference of the recessed area 700, so that when urine exists on the inner sidewall of the recessed area 700, under the partition of the partition groove 703, the urine is prevented from further penetrating into the external space. Can play a role in isolating urine from penetrating.

In this embodiment, the outer peripheral edge of the closed side wall is provided with a curved plate 402 protruding outwards, the curved plate 402 being arranged circumferentially along the outer peripheral edge of the closed side wall, the curved plate 402 being arranged curved towards the inner side wall of the urination zone 101 in a direction away from the outer peripheral edge of the closed side wall; when the swing door 400 is placed in the recessed area 700 and the sampling port 701 is closed, the outer end of the curved plate 402 is pressed against the inner side wall of the urination zone 101.

Thus, after the swinging door 400 seals the sampling port 701, the bending plate 402 can seal the butt joint gap between the swinging door 400 and the concave area 700, so that urine is prevented from penetrating through the butt joint gap between the swinging door 400 and the concave area 700, and secondly, when the swinging door 400 is in an open state, even if urine falls on the sealing side wall, the urine can fall downwards along the bending plate 402 when diffusing towards the periphery of the sealing side wall, and deviates from the swinging door 400, so that the penetration of the urine is further reduced.

The inner side wall of the concave area 700 is provided with a surrounding groove 702, the surrounding groove 702 is arranged around the periphery of the concave area 700, the outer end of the bending plate 402 is convexly provided with embedded ribs 403, and the embedded ribs 403 are arranged along the outer end of the bending plate 402 in an extending way; when the swing door 400 is placed in the recessed area 700 and the sampling port 701 is closed, the embedded ribs 403 are embedded in the enclosing groove 702.

Thus, when the swing door 400 is placed in the recessed area 700, the sampling port 701 is closed, the embedded ribs 403 are embedded in the enclosing groove 702, and the periphery of the recessed area 700 can be closed in a blocking manner.

Two guide blocks 404 are convexly arranged on the connecting side wall, a guide channel 405 is arranged between the two guide blocks 404, and two sides of the guide channel 405 are respectively provided with an adsorption layer 406; when the sampling port 701 is opened by the swing door 400, the test paper box 500 passes through the guide channel 405 in the process that the urine scattering area 101 returns to the external space after urine is attached to the test paper box 500, and two sides of the test paper box 500 abut against the adsorption layer 406.

Since the test paper cassette 500 is attached with urine when the test paper cassette 500 enters the external space from the urination area 101, at this time, in order to prevent the urine from overflowing from the test paper cassette 500 and falling into the external space, the urine on both sides of the test paper cassette 500 can be absorbed by the adsorption layers 406 on both sides of the guide channel 405.

The embodiment also provides an intelligent closestool, and the urine permeation preventing structure can be applied to the intelligent closestool.

The intelligent closestool comprises the bucket body 100, wherein a urination area 101 and an external space are arranged in the bucket body 100, an opening of the urination area 101 is arranged upwards, and the external space is arranged in an isolated mode with the urination area 101. The barrel body 100 is provided with a sampling port 701, the sampling port 701 is communicated with the urination area 101 and the external space, the sampling port 701 is provided with a swinging door 400 for closing or opening the sampling port 701, when the test paper box 500 needs to be sent to the urination area 101, the test paper box 500 penetrates through the sampling port 701, the swinging door 400 opens the sampling port 701, and after the test paper box 500 exits from the urination area 101, the swinging door 400 closes the sampling port 701.

The detection device is arranged in the outer space of the barrel body 100, and comprises a pushing structure and a feeding structure, wherein the pushing structure is provided with a detection plate 303, the detection plate 303 shoots urine patterns on the test paper box 500, the feeding structure sends the test paper box 500 into the pushing structure, the pushing structure clamps the test paper box 500 and pushes the test paper box 500 to the urination area 101 through a sampling port 701, and the test paper box 500 with urine moves to the lower part of the detection plate 303 to shoot the urine patterns by the detection plate 303.

The detection board 303 is provided with a camera, the camera transmits the urine pattern on the test paper box 500 to a control center, and the control center compares the standard color with the standard color according to the color of the urine pattern, so that a urine detection result is obtained.

In this embodiment, when the pushing structure clamps the test paper box 500 and moves toward the sampling port 701, the pushing structure opens the swing door 400, and when the pushing structure clamps the test paper box 500 and moves the test paper box 500 below the detection plate 303, the pushing structure closes the swing door 400. Thus, the test paper box 500 can be sent to the urine-spraying area 101 through the sampling opening 701, and when the test paper box 500 is placed in the external space, the swing door 400 seals the sampling opening 701, so that urine in the urine-spraying area 101 is prevented from entering the external space through the sampling opening 701 under the condition that the urine is not detected.

The plurality of test paper boxes 500 are arranged in parallel in sequence to form a test paper box roll, adjacent test paper boxes 500 are connected through connecting sheets, parallel intervals 501 are arranged between the adjacent test paper boxes 500, the connecting sheets are formed in the parallel intervals 501, and the plurality of test paper boxes are rolled to form the test paper box roll.

The feeding structure comprises a rolling shaft 503, a feeding gear 502 is arranged on the rolling shaft 503, the rolling shaft 503 drives the feeding gear 502 to rotate, gear teeth of the feeding gear 502 are embedded in the parallel intervals 501, and the feeding gear 502 rotates to drive the test paper box 500 on the test paper box roll to horizontally move towards the pushing structure. Thus, the rolling shaft 503 drives the feeding gear 502 to rotate for a set number of turns, so that the test paper box 500 can be horizontally moved into the pushing structure.

The pushing structure comprises a moving seat 300 moving towards or away from the sampling port 701, a chuck 307 moving up and down relative to the moving seat 300 is arranged on the moving seat 300, the detection plate 303 is arranged above the moving seat 300, the chuck 307 is arranged on the moving seat 300 and can move along with the moving seat 300, and the detection plate 303 is arranged above the moving seat 300 and cannot move along with the moving seat 300.

The feeding structure moves the test paper box 500 onto the moving seat 300, the clamp 307 moves downward to clamp the test paper box 500, the moving seat 300 moves toward the sampling port 701, and moves the test paper box 500 to the urination area 101 through the sampling port 701, the moving seat 300 moves away from the sampling port 701, and moves the test paper box 500 with urine attached to the lower side of the detection plate 303.

The cartridge 500 placed on the movable base 300 can be fixed by moving the chuck 307 downward, so that the movable base 300 can be moved conveniently, and the cartridge 500 is driven to pass through the sampling port 701 and be sent to the urination area 101.

In this embodiment, the side of the chuck 307 is provided with a blade, and when the chuck 307 moves downward to clamp the test paper cassette 500, the blade cuts off the connecting piece on the side of the test paper cassette 500 synchronously, so that the test paper cassette 500 clamped by the chuck 307 can be separated from the test paper cassette roll.

The lower part of the movable seat 300 is provided with a conveying belt 200 which drives the movable seat 300 to move, the conveying belt 200 is driven along the moving direction of the movable seat 300, the movable seat 300 is provided with an upper connecting block 202, the conveying belt 200 is provided with a lower connecting block 201 which moves along with the conveying belt 200, the lower connecting block 201 is provided with a groove, and the upper connecting block 202 is embedded in the groove.

By the cooperation between the upper connecting block 202 and the lower connecting block 201, the movable seat 300 can be moved along with the movement of the conveying belt 200, so that the movable seat 300 can move towards or away from the sampling port 701.

In this embodiment, in order to realize that the pushing structure opens or closes the swing door 400, the moving seat 300 is connected with a rack 301, the rack 301 is arranged to extend along the moving direction of the moving seat 300, the front part of the upper end surface of the rack 301 is provided with straight rack teeth, the straight rack teeth are meshed with a transmission gear 305, and the transmission gear 305 is connected with the swing door 400 through a connecting rod structure;

when the moving seat 300 moves towards the sampling port 701 with the rack 301, the straight rack 301 is meshed with the transmission gear 305, the transmission gear 305 drives the connecting rod structure to open the swing door 400, and when the pushing structure clamps the test paper box 500 and moves the test paper box 500 to the lower side of the detection plate 303, the straight rack 301 is meshed with the transmission gear 305, and the transmission gear 305 drives the connecting rod structure to close the swing door 400.

The rack 301 moves along with the movement of the movable seat 300, when the movable seat 300 moves towards the sampling port 701, the rack 301 is meshed with the transmission gear 305, the swing door 400 is opened through the connecting rod structure, when the movable seat 300 moves away from the sampling port 701, and after the test paper box 500 enters the external space, the rack 301 is meshed with the transmission gear 305, and then the swing door 400 is closed, so that the opening or closing of the swing door 400 does not interfere the operation of the test paper box 500 for entering and exiting the sampling port 701.

The connecting rod structure comprises a rotating rod 306 and a swinging rod 304, wherein the rotating rod 306 is connected to the transmission gear 305 and rotates synchronously with the transmission gear 305, one end of the swinging rod 304 is hinged with the rotating rod 306, and the swinging door 400 at the other end of the swinging rod 304 is hinged; the swing door 400 is pushed to open or close by the driving swing lever 304 in response to the forward and reverse rotation of the transmission gear 305.

Of course, the link structure may be other structures, not limited to the above-described rotation lever 306 and swing lever 304.

The rear portion of the upper surface of the rack 301 is arranged flat, and when the transmission gear 305 is located on the rear portion of the upper surface of the rack 301, there is a space between the transmission gear 305 and the rear portion of the upper surface of the rack 301. Thus, when the test paper box 500 is withdrawn from the sampling port 701, the transmission gear 305 corresponds to the rear portion of the upper surface of the rack 301 when the test paper box 500 does not completely enter the external space, at this time, the swing door 400 is not closed yet, and when the test paper box 500 completely enters the external space, the transmission gear 305 is engaged with the straight teeth of the rack 301, thereby driving the swing door 400 to be closed.

Under the pushing structure, a recovery box 600 is provided, the recovery box 600 is provided with a recovery cavity with an opening facing the arrangement, when the test paper box 500 moves back to the external space, and after the test paper box 500 is photographed by the detection plate 303, the clamp 307 releases the clamp of the test paper box 500, and the test paper box 500 falls into the recovery cavity from top to bottom.

The bottom of the movable seat 300 is provided with a positioning groove, the rear end of the rack 301 is provided with a positioning block, the length of the positioning groove is greater than that of the positioning block along the moving direction of the movable seat 300, that is, after the positioning block is placed in the positioning groove, the positioning block can move relative to the positioning groove, so that when the movable seat 300 drives the test paper box 500 to start moving, the movable seat 300 firstly moves for a set distance and then drives the rack 301 to move, and the swing door 400 can be closed only after the test paper box 500 moves in an external space.

The rear end of the rack 301 is connected with a spring 308, the front end of the spring 308 is connected with the rear end of the rack 301, the rear end of the spring 308 is fixedly arranged, and the rack 301 is compressed or stretched in the process of being driven to move by the moving seat 300, so that elastic movement of the rack 301 is realized.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (6)

1. The urine infiltration preventing structure of the intelligent closestool is characterized by comprising a bucket body, wherein a urine-spraying area with an upward opening and an external space which is isolated from the urine-spraying area are formed in the bucket body, a sampling port for a test paper box to move between the external space and the urine-spraying area is formed in the bucket body, the sampling port is communicated with the urine-spraying area and the external space, a swinging door for closing or opening the sampling port is arranged at the sampling port, and a detection device for detecting urine on the test paper box is arranged in the external space;

the bucket body is provided with a sunken area deviating from the urination area, the sampling port is formed at the bottom of the sunken area, when the swinging door seals the sampling port, the swinging door is arranged in the sunken area, and the peripheral side wall of the swinging door is abutted with the inner side wall of the sunken area;

the swing door is provided with a closed side wall facing the urination area and a connecting side wall facing away from the urination area, the connecting side wall of the swing door is connected with a connecting rod structure, and the connecting rod structure drives the swing door to open or close the sampling port;

the outer peripheral edge of the closed side wall is outwards provided with a bending plate in a protruding way, the bending plate is arranged along the outer peripheral edge of the closed side wall in a surrounding way, and the bending plate is arranged towards the inner side wall of the urination area in a bending way along the direction away from the outer peripheral edge of the closed side wall; when the swing door is arranged in the concave area and the sampling port is closed, the outer end of the bending plate is propped against the inner side wall of the urination area;

the inner side wall of the concave area is provided with a surrounding groove, the surrounding groove is arranged around the periphery of the concave area, the outer end of the bending plate is convexly provided with embedded ribs, and the embedded ribs are arranged along the outer end of the bending plate in an extending way; when the swinging door is arranged in the concave area and the sampling port is closed, the embedded ribs are embedded in the enclosing groove;

two guide blocks are convexly arranged on the connecting side wall, a guide channel is arranged between the two guide blocks, and two sides of the guide channel are respectively provided with an adsorption layer; when the sampling port is opened by the swing door, the test paper box passes through the guide channel in the process of returning to the external space from the urination area after urine is attached to the test paper box, and the two sides of the test paper box are abutted to the adsorption layer.

2. The urine penetration preventing structure of the intelligent toilet according to claim 1, wherein the upper end of the swing door is hinged with the tub, and the lower end of the swing door is movably arranged in a hollow state.

3. The urine penetration preventing structure of the intelligent toilet according to claim 1, wherein the connecting seat is convexly arranged at the middle part of the connecting side wall of the swing door, and the connecting rod structure is hinged with the connecting seat.

4. The urine penetration preventing structure of a smart toilet according to claim 1 or 2, wherein an inner sidewall of the recessed area is obliquely disposed away from the recessed area along an extending direction of the external space to the urination area.

5. The urine infiltration preventing structure of the intelligent toilet according to claim 1, wherein the closed side wall of the swing door is provided with a plurality of urine storage grooves, the plurality of urine storage grooves are arranged at intervals, and adjacent urine storage grooves are communicated through a communication groove, and the urine storage grooves are arranged at an offset from the edge of the closed side wall.

6. The urine penetration preventing structure of a smart toilet according to claim 1 or 2, wherein the inner side wall of the recessed area is provided with a partition groove circumferentially arranged along the circumference of the recessed area.