CN216485043U - Full-automatic intelligent urine examination device - Google Patents

Abstract

The utility model provides a full-automatic intelligent urine test device which comprises a shell, wherein a urine collecting component, a urine detection component, a cleaning component, an intelligent control component, a power supply component and a liquid drainage component are arranged in the shell; the urine collecting component is provided with an open structure and is used for collecting urine and then detecting the urine when a user goes to the toilet; the urine detection component is used for detecting the urine collected by the urine collection component; the cleaning assembly is used for cleaning residual urine in the shell after detection is finished; the liquid discharge assembly is used for discharging urine after detection and cleaned sewage; the intelligent control assembly is electrically connected with the power supply assembly and is used for controlling the urine detection assembly and the liquid discharge assembly to operate.

Description

Full-automatic intelligent urine examination device

Technical Field

The utility model relates to the technical field of medical detection instruments, in particular to a full-automatic intelligent urine detection device.

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. The urine examination not only has guiding significance for diagnosing and treating diseases of the urinary system, but also has reference value for judging and diagnosing certain diseases.

At present, the urine detection is mainly the conventional detection of human bodies in places such as hospitals and clinics, and people often only can go to the hospitals to carry out related detection during physical examination, so that the detection frequency is low. Although some urine test strips are available on the market, the operation is troublesome, the data accuracy is not high, and the initiative detection will be low. However, the detected value of urine has close relation with the health of urinary system, diabetes, gout and the like, wherein the pH value and the conductivity of the urine can be used for remarkably judging nephropathy, diabetes, gout, urinary tract infection and the like, and the occurrence of the diseases can be effectively prevented through diet regulation and regulation. Therefore, if the urine value can be monitored in real time, the method has great significance for health monitoring and early warning of related projects. The existing urine detection process is complicated, the urine collection and the urine detection are independent steps, the time spent on the collection and the detection is long, and the detection is not convenient enough.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide a full-automatic intelligent urine test device which can conveniently collect urine and directly detect the urine so as to solve the problems of complicated urine detection process, low detection timeliness and low detection result precision in the prior art.

In order to achieve the purpose, the utility model is realized by the following technical scheme: a full-automatic intelligent urine test device comprises a shell, wherein a urine collecting component, a urine detection component, a cleaning component, an intelligent control component, a power supply component and a liquid drainage component are arranged in the shell;

the urine collection assembly is provided with an open structure and is used for collecting urine when a user goes to the toilet and then detecting the urine;

the urine detection assembly is used for detecting urine collected by the urine collection assembly and is detachably connected with the shell;

the cleaning assembly is used for cleaning residual urine in the shell after detection is finished;

the liquid discharge assembly is used for discharging urine after detection and cleaned sewage;

the intelligent control assembly is electrically connected with the power supply assembly and is used for controlling the urine detection assembly and the liquid discharge assembly to operate.

Further, the urine collection assembly comprises a collection bin arranged on the lower portion of one side of the shell, the top of the collection bin is of an open structure, and the collection bin is communicated with the interior of the shell.

Further, the inside overflow hole that still is provided with of urine collection subassembly, the upper end that highly is slightly less than the storehouse is collected to the setting height in overflow hole, discharge excessive urine when the overflow hole is used for collecting the urine.

Further, the urine detection component comprises a PH temperature composite detection probe, and the PH temperature composite detection probe is used for detecting the PH value and the temperature value of urine.

Further, the urine detection assembly further comprises a conductivity probe for detecting a conductivity value of urine.

Further, it includes clean water storehouse, washing passageway and supersonic generator to wash the subassembly, the clean water storehouse sets up the one side of keeping away from the collection storehouse at the casing, the top in clean water storehouse sets up to open structure, the clean water storehouse is used for storing the clear water, wash passageway and the inside intercommunication of casing, wash the clear water that the passageway is used for circulating in the clean water storehouse to collecting the storehouse in, supersonic generator is used for washing the probe and is attached to the residual urine of collecting the storehouse internal surface.

Further, the flowing back subassembly sets up to first drainage unit, first drainage unit includes water pump and flowing back passageway, the flowing back passageway communicates with the casing is inside, the water pump is connected with the flowing back passageway.

Further, the flowing back subassembly still sets up to second flowing back unit, second flowing back unit includes first motor, first gear, water purification piston and flowing back piston, first motor sets up in the casing, first gear is fixed on the output shaft of first motor, the top of water purification piston and flowing back piston is provided with the ratch respectively and meshes with the both sides of first gear through the ratch, the water purification piston is used for controlling the break-make of the clear water in the water purification storehouse, the flowing back piston is used for controlling the break-make of urine or sewage in collecting the storehouse.

Further, the flowing back subassembly still sets up to third flowing back unit, third flowing back unit includes second motor, rack, connecting rod and valve, be provided with the second gear on the output shaft of second motor, second gear and rack mesh mutually, the connecting rod is fixed in the rack bottom, the bottom and the valve of connecting rod are articulated mutually, the valve is connected with the bottom of casing is rotated, the second motor is used for carrying out the transmission through second gear and rack, drives the connecting rod and reciprocates in order to control opening or closing of valve.

The utility model has the beneficial effects that:

1. the device has strong adaptability of the whole structure, can be adapted to most toilets on the market, reduces the use threshold of users, and can easily realize the detection of urine of the users while the users use the toilets daily, thereby avoiding the troubles of artificial sampling and inspection;

2. the pH temperature composite detection probe and the conductivity detection probe can be used for quickly detecting corresponding parameters of urine, so that the reliability and the rapidness of detection data are improved;

3. through setting up the cleaning assembly, can wash equipment inside fast, avoid the trouble of follow-up maintenance equipment, guarantee the used repeatedly detection effect of this device simultaneously.

Drawings

Other features, objects and advantages of the utility model will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is an axial view of the present invention in accordance with one embodiment;

FIG. 2 is a side sectional view of the present invention in accordance with one embodiment;

FIG. 3 is an elevational, cross-sectional view of the present invention in one embodiment;

FIG. 4 is a partial sectional view of the second liquid discharge unit of the second embodiment in connection with the housing;

FIG. 5 is a schematic view of a second liquid discharge unit according to a second embodiment;

FIG. 6 is a sectional front view of the housing and the third liquid discharge unit in the third embodiment;

FIG. 7 is a cross-sectional side view of the housing and a third liquid discharge element according to a third embodiment;

FIG. 8 is an axial view structural view of a housing in the third embodiment;

FIG. 9 is a sectional view of the toilet according to the third embodiment of the present invention;

fig. 10 is a schematic view of an installation structure of the toilet bowl according to the first embodiment of the present invention.

In the figure: 1. a urine test device; 11. a urine collection assembly; 111. a collection bin; 112. an overflow aperture; 12. a urine detection assembly; 121. a PH temperature composite detection probe; 122. a conductivity probe; 13. a housing; 131. a top cover; 132. a partition plate; 14. cleaning the assembly; 141. a purified water bin; 142. cleaning the channel; 143. an ultrasonic generator; 15. an intelligent control component; 16. a power supply component; 17. a drainage assembly; 171. a first liquid discharge unit; 1711. a water pump; 1712. a liquid discharge channel; 172. a second liquid discharge unit; 1721. a first motor; 1722. a first gear; 1723. a water purifying piston; 1724. a drain piston; 173. a third liquid discharge unit; 1731. a second motor; 1732. a rack; 1733. a connecting rod; 1734. a shutter; 18. a ribbon cable; 2. a toilet bowl.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.

In the first embodiment, referring to fig. 1-3, 9 and 10, a fully automatic intelligent urine test device 1 is strong in adaptability of the whole structure, and can be adapted to a plurality of toilets 2 on the market, so that the threshold for users to use is reduced, users can easily detect their own urine while using the toilets 2 daily, and the trouble of manual sampling and inspection is avoided.

The urine test device 1 comprises a shell 13, a top cover 131 is arranged on the top of the shell 13, the top cover 131 can be detached and can be in a buckling or hinged connection mode, and the internal intelligent control assembly 15 and the power supply assembly 16 can be overhauled and maintained.

The shell 13 is internally provided with a urine collecting component 11, a urine detecting component 12, a cleaning component 14, an intelligent control component 15, a power supply component 16 and a drainage component 17;

the urine collection assembly 11 is provided with an open structure and is used for collecting urine and then detecting the urine when a user goes to the toilet;

the urine detection component 12 is used for detecting urine collected by the urine collection component 11, the urine detection component 12 is detachably connected with the shell 13, and when different parameter values in the urine need to be measured, the urine detection component 12 with a detachable structure can facilitate subsequent replacement of an internal detection probe;

the cleaning component 14 is used for cleaning residual urine in the casing 13 after detection is finished;

the liquid discharge assembly 17 is used for discharging urine after detection and sewage after cleaning;

the intelligent control assembly 15 is electrically connected with the power supply assembly 16, the intelligent control assembly 15 is used for controlling the urine detection assembly 12 and the liquid discharge assembly 17 to operate, the intelligent control assembly 15 is connected with a water level detector, the water level detector can detect the water level in the collection bin 111, and a wireless transmission unit is further arranged in the intelligent control assembly 15 and used for transmitting detected data to the personal terminal.

Urine collection assembly 11 is including setting up collection storehouse 111 in casing 13 one side lower part, the top of collecting storehouse 111 sets up to open structure, collect storehouse 111 and the inside intercommunication of casing 13.

The urine collection assembly 11 is further provided with an overflow hole 112, the height of the overflow hole 112 is slightly lower than the upper end of the collection bin 111, and the overflow hole 112 is used for discharging excessive urine when collecting urine.

Urine detection subassembly 12 includes the compound test probe 121 of PH temperature, the compound test probe 121 of PH temperature is used for detecting the PH value and the temperature value of urine.

The urine testing assembly 12 further includes a conductivity probe 122, the conductivity probe 122 being configured to detect a conductivity value of urine.

Cleaning assembly 14 includes clean water storehouse 141 and washs passageway 142, clean water storehouse 141 sets up the one side of keeping away from collection storehouse 111 at casing 13, clean water storehouse 141's top sets up to open structure, clean water storehouse 141 is used for storing the clear water, wash passageway 142 and the inside intercommunication of casing 13, wash passageway 142 and be used for circulating the clear water in clean water storehouse 141 to collecting in the storehouse 111, still be provided with supersonic generator 143 in the cleaning assembly 14, supersonic generator 143 can wash the probe and attach to the residual urine of collecting the storehouse 111 internal surface.

The liquid discharge assembly 17 is a first liquid discharge unit 171, the first liquid discharge unit 171 includes a water pump 1711 and a liquid discharge passage 1712, the liquid discharge passage 1712 is communicated with the inside of the housing 13, and the water pump 1711 is connected with the liquid discharge passage 1712.

The urine test device 1 is operated as follows:

n001: when a user uses the toilet bowl 2, the collection bin 111 guides urine to the interior of the collection bin 111 along the trend through the open structure, and the excessive urine directly flows into the toilet bowl 2 from the overflow hole 112 positioned at the rear side of the shell 13;

n002: when the liquid level is over the water level detector, the intelligent control assembly 15 triggers the urine detection assembly 12 to detect the urine in the collection bin 111 through the PH temperature composite detection probe 121 and the conductivity probe 122;

n003: after the detection is finished, the intelligent control assembly 15 triggers the liquid discharge assembly 17, and the detected urine is pumped to the closestool 2 through the water pump 1711 and the liquid discharge channel 1712;

n004: meanwhile, the wireless transmission unit on the intelligent control assembly 15 processes and transmits the measured data to the personal terminal, and the detection result and the corresponding prompt are displayed on the terminal;

n005: when the detected urine is exhausted, the intelligent control assembly 15 triggers the cleaning assembly 14 to discharge the clean water stored in the clean water bin 141 into the collection bin 111 through the cleaning channel 142, and the probe and the urine attached to the inner surface of the collection bin 111 are cleaned by water flow and ultrasonic waves emitted by the ultrasonic generator 143;

n006: after the cleaning is finished, the intelligent control assembly 15 triggers the liquid discharge assembly 17 again, and the cleaned sewage is discharged to the closestool 2 through the water pump 1711 and the liquid discharge channel 1712; and ending the urine detection work.

In the second embodiment, please refer to fig. 4 and 5, the difference between the second embodiment and the first embodiment is the arrangement of the drainage assembly 17, wherein the drainage assembly 17 is further arranged as a second drainage unit 172, the second drainage unit 172 includes a first motor 1721, a first gear 1722, a clean water piston 1723 and a drainage piston 1724, the first motor 1721 is arranged in the housing 13, the first gear 1722 is fixed on an output shaft of the first motor 1721, the tops of the clean water piston 1723 and the drainage piston 1724 are respectively provided with a rack bar and are meshed with two sides of the first gear 1722 through the rack bar, the clean water piston 1723 is used for controlling the on-off of clean water in the clean water bin 141, and the drainage piston 1724 is used for controlling the on-off of urine or sewage in the collecting bin 111. Wherein the first gear 1722 is arranged as an intermittent gear, the outer ring of the first gear 1722 is provided with teeth less than half of a turn, the water purifying piston 1723 and the liquid discharging piston 1724 at two sides can be separately controlled, and the teeth are only meshed with the toothed bar at one side at the same time.

The first motor 1721 operates as follows:

s001: when the urine detection is finished, the intelligent control component 15 triggers the liquid discharge component 17 to operate;

s002: the first motor 1721 positioned at the upper part of the collecting bin 111 starts to work, and drives the liquid discharge piston 1724 through the first gear 1722 in a matching way, so that the liquid discharge channel 1712 is in a passage state;

s003: at this time, the urine detected in the collection chamber 111 flows into the toilet 2 through the hole at the bottom of the collection chamber 111;

s004: after the liquid discharge is finished, the intelligent controller triggers the cleaning assembly 14;

s005: at this time, the motor drives the water purifying piston 1723 to open the channel between the water purifying bin 141 and the collecting bin 111;

s006: the clean water in the clean water tank 141 flows into the collecting tank 111;

s007: when purified water enters the collection bin 111, the ultrasonic generator 143 starts to clean the probe of the urine detection assembly 12 and residual urine on the inner surface of the collection bin 111;

s008: after the cleaning operation is finished, the intelligent control assembly 15 triggers the liquid discharge assembly 17 again at this time, and the motor drives the liquid discharge piston 1724 again to open the channel between the collection bin 111 and the toilet bowl 2, that is, the drain hole at the bottom of the collection bin 111 is opened, so that the sewage is discharged into the toilet bowl 2.

S009: after the secondary liquid drainage is finished, the motor drives the liquid drainage piston 1724 to reset, namely the liquid drainage port is closed. And ending the whole detection work.

Third embodiment referring to fig. 6-9, the third embodiment is different from the first embodiment in the arrangement of the drainage assembly 17 and the installation structure of the device when the device is connected to the toilet bowl 2, wherein, the liquid discharge assembly 17 is further provided as a third liquid discharge unit 173, the third liquid discharge unit 173 includes a second motor 1731, a rack 1732, a connecting rod 1733 and a shutter 1734, a second gear is disposed on an output shaft of the second motor 1731, the second gear is engaged with the rack 1732, the connecting rod 1733 is fixed at the bottom of the rack 1732, the bottom of the connecting rod 1733 is hinged with the valve 1734, the valve 1734 is rotatably connected to the bottom of the housing 13, the second motor 1731 is used for driving the rack 1732 to move up and down through the second gear and the rack 1732, thereby moving the link 1733 up and down to control the opening or closing of the shutter 1734.

In the installation mode of the installation structure when connected to the toilet bowl 2, the power supply module 16 is connected to the casing 13 via the ribbon cable 18, the power supply module 16 is externally provided with a power supply compartment, the intelligent control module 15 is also provided in the power supply compartment, the power supply module 16 can be provided with 1-2 batteries as a power supply, and the ribbon cable 18 is used for transmitting detected data, control signals and current. When in use, the power supply is hung on the edge of the closestool 2 through the ribbon cable 18, the power supply bin is arranged outside the closestool 2, and the shell 13 is arranged on the inner side of the closestool 2. The specific detection process is as follows:

t001: when a user goes to toilet, the whole shell 13 is suspended inside the toilet 2 through the ribbon cable 18, and the open structure at the top of the collection bin 111 guides urine into the collection bin 111;

t002: the intelligent control component 15 triggers the urine detection component 12, and then the PH temperature composite detection probe 121 and the conductivity probe 122 detect the urine in the collection bin 111;

t003: after the test is finished, the intelligent control component 15 processes the measured data and transmits the processed data to the personal terminal;

t004: after the test is finished, the intelligent control component 15 triggers the second motor 1731 to drive the rack 1732 and the connecting rod 1733 to move, at this time, the valve 1734 at the bottom of the collecting bin 111 is opened, the urine in the collecting bin 111 is discharged to the toilet bowl 2, and when the urine is discharged, the second motor 1731 is controlled to rotate reversely to drive the valve 1734 to close. And ending the urine detection work.

Finally, it should be noted that: the above-mentioned embodiments are only specific embodiments of the present invention, which are used for illustrating the technical solutions of the present invention and not for limiting the same, and the protection scope of the present invention is not limited thereto, although the present invention is described in detail with reference to the foregoing embodiments, those skilled in the art should understand that: any person skilled in the art can modify or easily conceive the technical solutions described in the foregoing embodiments or equivalent substitutes for some technical features within the technical scope of the present disclosure; such modifications, changes or substitutions do not depart from the spirit and scope of the embodiments of the present invention, and they should be construed as being included therein. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (9)

1. A full-automatic intelligent urine test device, the urine test device (1) comprises a shell (13), and is characterized in that a urine collecting component (11), a urine detecting component (12), a cleaning component (14), an intelligent control component (15), a power supply component (16) and a liquid drainage component (17) are arranged in the shell (13);

the urine collecting component (11) is provided with an open structure and is used for detecting after urine is collected when a user goes to the toilet;

the urine detection assembly (12) is used for detecting urine collected by the urine collection assembly (11), and the urine detection assembly (12) is detachably connected with the shell (13);

the cleaning component (14) is used for cleaning residual urine in the shell (13) after detection is finished;

the liquid discharge assembly (17) is used for discharging urine after detection and cleaned sewage;

the intelligent control assembly (15) is electrically connected with the power supply assembly (16), and the intelligent control assembly (15) is used for controlling the urine detection assembly (12) and the liquid drainage assembly (17) to operate.

2. The fully automatic intelligent urine test device according to claim 1, wherein the urine collection assembly (11) comprises a collection chamber (111) arranged at the lower part of one side of the housing (13), the top of the collection chamber (111) is arranged to be an open structure, and the collection chamber (111) is communicated with the inside of the housing (13).

3. The fully automatic intelligent urine test device according to claim 2, wherein an overflow hole (112) is further arranged inside the urine collection assembly (11), the height of the overflow hole (112) is slightly lower than the upper end of the collection bin (111), and the overflow hole (112) is used for discharging excessive urine when collecting urine.

4. The fully automatic intelligent urinalysis device according to claim 1, wherein the urine detection module (12) comprises a PH temperature composite detection probe (121), and the PH temperature composite detection probe (121) is used for detecting the PH value and the temperature value of urine.

5. The fully automated intelligent urinalysis device according to claim 4, wherein the urine test assembly (12) further comprises a conductivity probe (122), the conductivity probe (122) being used to detect the conductivity value of urine.

6. The fully automatic intelligent urine test device according to claim 1, wherein the cleaning assembly (14) comprises a clean water bin (141), a cleaning channel (142) and an ultrasonic generator (143), the clean water bin (141) is arranged on one side of the shell (13) far away from the collection bin (111), the top of the clean water bin (141) is arranged to be an open structure, the clean water bin (141) is used for storing clean water, the cleaning channel (142) is communicated with the inside of the shell (13), the cleaning channel (142) is used for circulating the clean water in the clean water bin (141) to the collection bin (111), and the ultrasonic generator (143) is used for cleaning a probe and collecting residual urine attached to the inner surface of the collection bin (111).

7. The fully automatic intelligent urinalysis device according to claim 1, wherein the drainage assembly (17) is provided as a first drainage unit (171), the first drainage unit (171) comprises a water pump (1711) and a drainage channel (1712), the drainage channel (1712) is communicated with the inside of the housing (13), and the water pump (1711) is connected with the drainage channel (1712).

8. The fully automatic intelligent urine test device according to claim 1, wherein the drainage assembly (17) is further provided as a second drainage unit (172), the second drainage unit (172) comprises a first motor (1721), a first gear (1722), a water purification piston (1723) and a drainage piston (1724), the first motor (1721) is arranged in the housing (13), the first gear (1722) is fixed on an output shaft of the first motor (1721), toothed bars are respectively arranged at the tops of the water purification piston (1723) and the drainage piston (1724) and are meshed with two sides of the first gear (1722) through the toothed bars, the water purification piston (1723) is used for controlling the on-off of clean water in the water purification bin (141), and the drainage piston (1724) is used for controlling the on-off of urine or sewage in the collection bin (111).

9. The fully automatic intelligent urinalysis device according to claim 1, wherein the liquid discharge assembly (17) is further provided as a third liquid discharge unit (173), the third liquid discharge unit (173) comprises a second motor (1731), a rack (1732), a connecting rod (1733) and a valve (1734), a second gear is arranged on an output shaft of the second motor (1731), the second gear is meshed with the rack (1732), the connecting rod (1733) is fixed at the bottom of the rack (1732), the bottom of the connecting rod (1733) is hinged to the valve (1734), the valve (1734) is rotatably connected with the bottom of the housing (13), and the second motor (1731) is used for driving through the second gear and the rack (1732) to drive the connecting rod (1733) to move up and down to control the opening or closing of the valve (1734).

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