CN115494225A - Detection device, closestool and detection method - Google Patents

Abstract

The invention discloses a detection device, a closestool and a detection method, wherein the detection device comprises a detection module and a container body for storing the detection module, wherein: the container body is internally provided with a plurality of mutually independent accommodating channels; the detection module comprises a detection element, the liquid to be detected is detected through the detection element, the detection module is provided with a plurality of detection modules and is respectively arranged in the containing channels, and each detection module can independently extend out of the corresponding containing channel. Install detection module respectively through a plurality of independent passageways that hold, make each detection module separate independently mutually, the exclusive use can not pollute each other to need not frequent change detection device, convenient to use health.

Description

Detection device, closestool and detection method

Technical Field

The invention relates to the technical field of urine test equipment, in particular to a detection device, a closestool and a detection method.

Background

People in modern society pay more and more attention to health, urine is one of important metabolites reflecting physical health conditions, and detection of the urine is developing from dependence on a specific place (hospital) and specific personnel (medical personnel) to common toilet places and measurable direction of people. Therefore, the toilet with the urine test function is produced.

The urine detection device that has now on the market relies on the urine test paper to accomplish usually and detects for the device of this detecting element of storage is unified fixed placing mostly, and does not have independent the separating between each detecting element, for avoiding mutual contamination between each detecting element, needs in time to take off after using up at every turn and abandons, wastes time and energy, experiences and feels not good.

Disclosure of Invention

The invention aims to provide a device, a toilet and a method for detecting liquid to be detected, wherein a plurality of independent accommodating channels are arranged in a container body of a storage container, and detection modules are respectively arranged in the independent accommodating channels, so that the detection modules are independently separated and used independently, and the problems in the prior art are avoided.

In order to realize the purpose of the invention, the technical scheme adopted by the invention is as follows:

a test device comprising a test module and further comprising a container body for storing the test module, wherein:

a container body having a plurality of independent receiving passages therein;

the detection module comprises a detection element, the liquid to be detected is detected through the detection element, the detection module is provided with a plurality of detection modules and is respectively arranged in the containing channels, and each detection module can independently stretch out of the containing channel corresponding to the detection module.

Further, the detection device further comprises a transmission mechanism, wherein the transmission mechanism is provided with a transmission piece, and the transmission piece can drive the detection module to move.

Furthermore, the detection device also comprises a driving mechanism, the container body and/or the transmission mechanism can move, and the driving mechanism is provided with a first driving component in transmission fit with the container body and/or the transmission mechanism.

Still further, the container body is rotatable, the container body is cylindrical, the accommodating passages are arranged to penetrate in the axial direction of the container body, and the accommodating passages are arranged in sequence in the circumferential direction of the container body.

Still further, the first driving assembly comprises a driving shaft, the container body is provided with an inserting hole, the driving shaft is in circumferential limit fit with the inserting hole, and the driving shaft drives the container body to rotate; one of the driving shaft and the inserting hole is provided with a limiting rib, the other of the driving shaft and the inserting hole is provided with a limiting groove, and the limiting rib is matched with the limiting groove; the inserting hole is positioned in the center of the container body.

Furthermore, the driving mechanism further comprises a first power part, the first power part can drive the first driving assembly to move, and the first power part is a motor.

Furthermore, the detection device also comprises a blocking element which is arranged in one of the accommodating channels, and the transmission piece can drive the blocking element to move.

Further, the transmission member is a rack, and the transmission mechanism further comprises a gear set meshed with the rack and a motor driving the gear set.

Furthermore, the detection device further comprises a fixing frame, and the container body is detachably arranged on the fixing frame.

Furthermore, the detection module also comprises a detection box, and the detection element is arranged in the detection box.

Furthermore, two ends of the box body of the detection box are communicated to form a through channel, and the detection element is in sliding and sealing connection with the through channel, so that the detection element can extend out of the through channel or be accommodated back into the through channel.

Further, the detection element comprises a bracket and detection test paper laid on the bracket.

The invention also provides a closestool which comprises the detection device, wherein the urinal of the closestool is provided with a detection hole for the detection element to extend out for detecting the liquid to be detected.

Further, in the toilet, the detection device further comprises a driving mechanism and a blocking element, and the driving mechanism is in transmission fit with the container body so as to drive the container body to move; the blocking element is telescopically arranged in one of the accommodating channels, and can be in sealing fit with the detection hole after extending out;

the position of the detection hole corresponds to the detection module or the plugging element, during detection, the driving mechanism drives the container body to move, so that the detection module corresponds to the detection hole, and during non-detection, the driving mechanism drives the container body to move, so that the plugging element corresponds to the detection hole.

Further, the closestool also comprises a transmission mechanism, when the detection module corresponds to the detection hole, the transmission mechanism drives the detection element to extend out of the detection hole for detection, and when the blocking element corresponds to the detection hole, the transmission mechanism drives the blocking element to extend out for blocking the detection hole.

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

providing a container body for storing a detection module, wherein a plurality of mutually independent accommodating channels are arranged in the container body, the detection module is arranged in the accommodating channels, the detection module is provided with a detection element for detecting liquid to be detected, and a transmission mechanism is adopted to drive the detection module to extend out of the corresponding accommodating channel; the transmission mechanism is movable or the container body is movable, and the transmission mechanism can drive the detection module to extend out of the corresponding accommodating channel.

Further, the method also comprises the following processes:

when detection is carried out, the container body moves to a position corresponding to one detection module and the detection hole, and the detection module is driven by the transmission mechanism to extend out of the corresponding accommodating channel;

after the detection is finished, the detection module returns to the original accommodating channel; alternatively, the detection module is discarded.

Optionally, the detection method further includes the following processes:

after the detection is finished, the container body moves to the next detection module to correspond to the detection hole;

when the detection is carried out again, the next detection module extends out of the corresponding accommodating channel;

after the detection is finished again, the detection module returns to the original accommodating channel; alternatively, the detection module is discarded.

Optionally: the detection method further comprises the following processes:

when the container body is detected again, the container body moves to the position of the next detection module corresponding to the detection hole, so that the other detection module extends out of the corresponding accommodating channel;

after the detection is finished again, the detection module returns to the original accommodating channel; alternatively, the detection module is discarded.

Compared with the prior art, the beneficial effects of the invention at least comprise the following:

1. in the detection device provided by the invention, the detection modules are respectively arranged in the plurality of independent accommodating channels, so that the detection modules are independently separated and used independently without mutual pollution, the detection device does not need to be frequently replaced, and the use is convenient and sanitary;

2. when the detection device provided by the invention is used, after all the detection modules are used up, the whole container body can be detached and replaced by a new container body, the device is simple and convenient, cleaning is not required each time, a user cannot contact liquid to be detected on the detection element, and the device is clean and sanitary;

3. in the detection device provided by the invention, the container body and/or the transmission mechanism can move, and the driving mechanism is provided with a first driving component in transmission fit with the container body and/or the transmission mechanism; the transmission mechanism is provided with a transmission part, the container body moves or the transmission mechanism moves, so that when a detection module in the container body corresponds to the transmission part, the transmission part can drive the detection module to move, the detection module can be automatically replaced by matching the driving mechanism and the transmission mechanism, the use is convenient, and manual replacement is not needed;

4. when the detection device provided by the invention is used for detecting the liquid to be detected, the container body moves to a position where one detection module corresponds to the detection hole, and the detection module is driven by the transmission mechanism to extend out of the corresponding accommodating channel; after the detection of the detection liquid is finished, the detection module returns to the original accommodating channel; or the detection module is discarded, so that a waste recovery box does not need to be separately arranged, the product volume is reduced, and the space is saved;

5. in the detection device provided by the invention, the containing channel in the container body can be also provided with the plugging element, and after detection is finished, the detection hole formed in the toilet bowl can be sealed by the plugging element, so that the detection device is more sanitary, meanwhile, the detection device is prevented from contacting the toilet bowl for a long time, is in use and is communicated at present, and the use flexibility and reliability of the detection device are improved.

Drawings

FIG. 1: a schematic perspective view of a detection apparatus provided in an embodiment of the present invention;

FIG. 2: a cross-sectional view of a detection device provided in an embodiment of the present invention in one direction;

FIG. 3: a container body of the detection device provided by an embodiment of the invention is a three-dimensional schematic diagram;

FIG. 4: the container body of the detection device provided by the embodiment of the invention is provided with a three-dimensional schematic diagram of a first driving assembly;

FIG. 5: a schematic diagram of a detection apparatus provided in another embodiment of the present invention;

FIG. 6: the cross section of the closestool provided by the embodiment of the invention in the non-detection state is in the extending state of the plugging element;

FIG. 7: an enlarged view of the detection device in fig. 6;

FIG. 8: in the toilet provided by one embodiment of the invention, the section of the detection box is not in an extending state at the beginning of detection;

FIG. 9: an enlarged view of the detection device in fig. 8;

FIG. 10: when the closestool provided by the embodiment of the invention is used for detection, the detection box is in a cross section under the extending state;

FIG. 11: an enlarged view of the detection device is shown in fig. 10.

In the figure:

1. the detection device comprises a detection device 11, a container body 111, an accommodating channel 12, a detection module 121, an inner cavity 122, a through channel 123, a support 1231, a mounting groove 1232, a sealing piece 13, a blocking element 14, a driving mechanism 141, a first driving assembly 1411, a limiting groove 142 and a first power piece; 15. plug-in holes 151 and limiting ribs;

2. detecting test paper;

31. the transmission mechanism 311, the rack 312, the gear set 32 and the fixing frame;

4. a toilet seat 41, a detection hole 42 and a containing cavity.

Detailed Description

In the prior art, test paper boxes or test paper in the detection device are easy to pollute each other, and the detection device, the closestool and the detection method can overcome the defects because the test paper boxes or the test paper in the detection device need to be taken down and discarded in time after being used each time, and the problems of time and labor waste and poor experience feeling exist. For a more clear presentation, the invention is described in detail below with reference to the accompanying drawings.

Referring to fig. 1-4, the present invention firstly provides a detection apparatus, where the detection apparatus 1 includes a container body 11 and a detection module 12 stored in the container body 11, the container body 11 has a plurality of independent accommodating channels 111 therein, the detection module 12 has a plurality of modules and is respectively installed in the accommodating channels 111 (each module 12 is installed in each channel), each detection module 12 can independently extend out of its corresponding accommodating channel 111, and the detection module 12 is implemented by way of sliding-fitting each detection module 12 with its corresponding accommodating channel 111 to extend out of the accommodating channel 111; the detection module 12 includes a detection element for detecting the liquid to be detected, and the detection element includes a detection tool, such as the detection test paper 2, and in other embodiments, it may also be other common detection tools such as a detection card, a detection pen, and the like. The test module may be configured with an interior cavity 121, the interior cavity 121 for storing test elements.

In particular, the container body 11 may be a shell, and the receiving channel 111 includes two opposite end portions and a side wall connecting the two end portions, and in some embodiments, the side wall is integrally connected (refer to a ring-shaped side wall in fig. 1-4), that is, the cross section of the receiving channel is a hollow closed figure, such as a circle in fig. 1-4, a triangle, a quadrangle, a pentagon, a hexagon, an octagon, etc., as long as the receiving channel can be separated from each other independently and slidably fit with the detecting module 12. The detecting modules 12 may be at least installed in two of the accommodating channels 111, that is, at least two accommodating channels are installed with detecting modules 12, so that the user does not need to clean the discarded detecting device 1 after each detection, and the detecting modules 12 are slidably engaged with the accommodating channels 111 to extend out of the accommodating channels.

In an embodiment, referring to fig. 2, the detection module 12 includes a detection box, the detection box has an inner cavity 121, two ends of a box body of the detection box are penetrated to form a through channel 122, a detection element is disposed in the detection box, the detection element includes a detection test paper 2 and a bracket 123, the bracket 123 is slidably connected with the through channel 122 in a sealing manner, so that the detection element can extend out of the through channel 122 or be accommodated back into the through channel 122, and the detection test paper 2 is laid on the bracket 123, so that the detection test paper 2 is in a closed environment before and after use, and is not affected by moisture before use, and does not emit a peculiar smell after use, thereby affecting the environment, and the like. Specifically, two ends of the bracket 123 are adapted to the height of the through channel 122, two ends of the bracket 123 are further provided with mounting grooves 1231, sealing elements 1232 are mounted in the mounting grooves 1231, and the sealing elements 1232 may be sealing rings, preferably Y-shaped rings with good sealing performance. The test strip 2 is laid on the support 123.

Referring to fig. 1-4, the detecting device 1 may further include a driving mechanism 14, and the driving mechanism 14 is in transmission fit with the container body 11 to drive the container body 11 to move. The driving mechanism 14 may include a first driving assembly 141 and a first power member 142, the first power member 142 providing a driving force for the first driving assembly 141. The detection device 1 may further comprise a blocking element 13. Specifically, when detecting, the detecting module 12 extends out of the accommodating passage 111 to detect by the detecting element thereof, and when not detecting, the blocking element 13 extends out of the accommodating passage 111 to block.

Referring to fig. 1 to 4, in a preferred embodiment, the container body 11 is cylindrical, the accommodating passage 111 is arranged to penetrate in an axial direction of the container body 11, and the accommodating passages 111 are sequentially arranged in a circumferential direction of the container body 11. The first driving assembly 141 includes a driving shaft, and the first power member 142 is a motor. The container body 11 is provided with a plug hole 15, and the driving shaft is in circumferential limit fit with the plug hole 15. More specifically, referring to fig. 3 and 4, a limiting rib 151 is disposed in the insertion hole 15, the driving shaft is provided with a limiting groove 1411, and the limiting rib 151 and the limiting groove 1411 are adapted to enable the driving shaft to be stably connected with the container body 11, so that the driving effect is good and the driving shaft is not easy to loosen. It is easy to think that the arrangement positions of the limiting ribs 151 and the limiting grooves 1411 can be interchanged (not shown), that is, the limiting grooves 1411 are arranged in the inserting holes 15, and the limiting ribs 151 are arranged on the driving shaft. The insertion hole 15 is located at the center of the container body 11, so that the driving mechanism 14 is more stably installed, the movement of the driving mechanism and the movement of the container body 11 are more stable, and the driving mechanism can be better adapted to the detection hole 41 of the toilet. In the present embodiment, the drive mechanism 14 drives the container body 11 to rotate, so that the accommodating passage 111 also rotates along with the container body (so that switching of a target accommodating passage in the container body 111, which is a passage corresponding to a position where the liquid to be detected is detected, can be achieved). The container body 11 is cylindrical, so the rotation effect is the best, in other embodiments, the container body 1 may be prism-shaped, and the effect is better as the prism is closer to the cylindrical shape as the number of the prism is larger.

In another embodiment, the driving mechanism 14 drives the container body 11 to slide to a preset position. Specifically, referring to fig. 5, the container body 11 has a plurality of independently disposed receiving passages 111 therein, the plurality of receiving passages 111 are sequentially arranged in a sliding direction, and the driving mechanism 14 drives the container body 11 to slide up and down, so that the plurality of receiving passages 111 are sequentially arranged in a vertical direction. In other embodiments, the plurality of receiving channels 111 may be arranged in a horizontal direction or other directions, so long as the direction is consistent with the direction in which the driving mechanism 14 drives the container body 1 to slide.

In one embodiment, the detection device further includes a transmission mechanism 31, and the transmission mechanism 31 has a transmission member, and the transmission member can drive the detection module to move, and specifically, the transmission member can extend into or withdraw from the accommodating channel 111 to be in transmission connection with the detection module 12 or the blocking element 13, so as to drive the detection module 12 or the blocking element 13 to extend out of the accommodating channel 111.

In one embodiment, referring to fig. 6-11, the transmission member is a rack 311, the rack 311 is detachably engaged with the detection module 12 or the blocking member 13, and the transmission mechanism 31 further includes a gear set 312 engaged with the rack 311, and a motor (not shown) driving the gear set 312.

The detection device for the liquid to be detected further comprises a fixing frame 32, and the container body 11 is detachably arranged on the fixing frame.

In one embodiment, the detecting device comprises a driving mechanism 14 and a transmission mechanism 31, wherein the driving mechanism is in transmission connection with the container body 11 so as to drive the container body 11 to move. Under the combined action of the drive means 14 and the transport means 31, the movement of the container body and the interaction of the detection module 12 or the blocking element 13 out of the receiving channel 111 can be realized.

In another embodiment, the detecting device 1 also includes a driving mechanism 14 and a transmission mechanism 31, the transmission mechanism 31 can drive the detecting module 12 or the blocking element 13 to move, but unlike the previous embodiment, the driving mechanism 14 is not connected to the container body 11 (not shown), but is connected to the transmission mechanism 31 through the first driving component, and the transmission mechanism 31 is driven to move through the movement (for example, rotation or sliding) of the driving mechanism 14, so as to switch the target object connected to the transmission mechanism 31, that is, switch between the detecting modules 12 or the detecting modules 12 and the blocking element 13.

The invention also provides a closestool 4, and the closestool 4 comprises the detection device 1 for the liquid to be detected. Referring to fig. 6-11, the urinal of the toilet 4 is provided with a detection hole 41 for the detection tool to extend out for detecting the liquid to be detected. Specifically, the front wall of the toilet bowl may be provided with a receiving cavity 42, the detection device 1 is installed in the receiving cavity 42, and the receiving cavity 42 is communicated with the toilet bowl through the detection hole 41. The position of the detection hole 41 corresponds to the detection module 12 or the blocking element 13, during detection, the driving mechanism 14 drives the container body 11 to move, so that the detection module 12 corresponds to the detection hole 41, and during non-detection, the driving mechanism 14 drives the container body 11 to move, so that the blocking element 13 corresponds to the detection hole 41.

Further, when the detection module 12 corresponds to the detection hole 41, the transmission mechanism 31 drives the detection element to extend out from the detection hole 41 for detection, and when the blocking element 13 corresponds to the detection hole 41, the transmission mechanism 31 drives the blocking element 13 to extend out to block the detection hole 41.

Referring to fig. 6 to 11, as an example, the process of detecting urine by urinating using the above toilet may include the following processes:

when the device 1 is not in use, the blocking element 13 protrudes outside the housing channel 111 to seal the detection hole 41;

when a user needs to detect liquid to be detected, the transmission mechanism 31 is operated to drive the blocking element 13 to return to the accommodating channel 111, then the driving mechanism 14 is operated to drive the container body 11 to move, the state that the initial blocking element 13 corresponds to the detection hole 21 is switched to the state that the detection module 12 corresponds to (is communicated with) the detection hole 41, then the transmission mechanism 31 is operated to drive the detection element (the bracket 123 and the detection test paper 2) to extend for a certain distance, then the transmission mechanism 31 drives the detection element and the detection box to extend out of the accommodating channel 111 together, and then the detection element extends into a urinal from the detection hole 41 to receive urine for detection;

after the detection is finished, the transmission mechanism 31 is operated to drive the used detection element to retreat into the detection box, and further drive the detection module 12 to retreat into the original accommodating channel 111 (or the used detection module is directly discarded without retreating); the container body 11 is driven to move by operating the driving mechanism 14, the state that the detection module 12 corresponds to (is communicated with) the detection hole 41 is switched to the state that the blocking element 13 corresponds to the detection hole 41, and then the transmission mechanism 31 is operated to drive the blocking element 13 to extend out of the accommodating channel 111 to block the detection hole 41.

The invention also provides a detection method of the liquid to be detected, which comprises the following processes:

providing a container body for storing a detection module, wherein the container body is internally provided with a plurality of mutually independent accommodating channels, the detection module is arranged in the accommodating channels, the detection module is provided with a detection element for detecting liquid to be detected, and a transmission mechanism is adopted to drive the detection module to extend out of the corresponding accommodating channel; the transmission mechanism is movable or the container body is movable, and the transmission mechanism can drive the detection module to extend out of the corresponding accommodating channel;

in one embodiment, when detection is carried out, the container body moves to a position corresponding to one detection module and the detection hole, and the detection module is driven to extend out of the corresponding accommodating channel through the transmission mechanism;

after the detection is finished, the detection module returns to the original accommodating channel; alternatively, the detection module is discarded.

The detection method of the above embodiment may further include the following steps:

after the detection is finished, the container body moves to the position of the next detection module corresponding to the detection hole;

when the detection is carried out again, the next detection module extends out of the corresponding accommodating channel;

after the detection is finished again, the detection module returns to the original accommodating channel; alternatively, the detection module is discarded.

Or the detection method of the above embodiment may further include the following process:

when the container body is detected again, the container body moves to the position of the next detection module corresponding to the detection hole, so that the other detection module extends out of the corresponding accommodating channel;

after the detection is finished again, the detection module returns to the original accommodating channel; alternatively, the detection module is discarded.

The container is driven to move by the driving mechanism or the transmission mechanism is driven by the driving mechanism to move, so that the container body is separated from each other, the detection modules and/or the plugging elements which are independently arranged can be switched to be connected with the transmission part of the transmission mechanism, so that when detection is needed, the detection modules extend out of the corresponding accommodating channels, when plugging is needed, the plugging elements extend into the corresponding accommodating channels, when next detection is needed, the other detection module extends out of the corresponding accommodating channels to perform detection and the like, and the detection modules and/or the plugging elements can be automatically replaced/switched by matching of the driving mechanism and the transmission mechanism.

Although the present invention has been described in detail in the foregoing embodiments, it should be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention.

Claims (17)

1. A detection device, characterized by: including the detection module, still include the container body that is used for storing the detection module, wherein:

a container body having a plurality of independent receiving passages therein;

the detection module comprises a detection element, the detection element is used for detecting the liquid to be detected, the detection module is provided with a plurality of detection modules and is respectively arranged in the accommodating channels, and each detection module can independently stretch out of the corresponding accommodating channel.

2. The detection device according to claim 1, wherein: still include transmission device, transmission device has the driving medium, the driving medium can drive the detection module activity.

3. The detection device according to claim 2, wherein: the container comprises a container body and/or a transmission mechanism, and is characterized by further comprising a driving mechanism, wherein the container body and/or the transmission mechanism can move, and the driving mechanism is provided with a first driving component in transmission fit with the container body and/or the transmission mechanism.

4. The detection device according to claim 3, wherein: the container body is rotatable, the container body is cylindric, hold the passageway and link up the setting along the axial of container body, and hold the passageway and arrange in proper order along the circumference of container body.

5. The detection device according to claim 4, wherein: the first driving assembly comprises a driving shaft, the container body is provided with an inserting hole, the driving shaft is in circumferential limit fit with the inserting hole, and the driving shaft drives the container body to rotate; one of the driving shaft and the inserting hole is provided with a limiting rib, the other of the driving shaft and the inserting hole is provided with a limiting groove, and the limiting rib is matched with the limiting groove; the inserting hole is positioned in the center of the container body.

6. The detection device according to claim 3, wherein: the driving mechanism further comprises a first power part, the first power part can drive the first driving assembly to move, and the first power part is a motor.

7. The detection device according to claim 2, wherein: the blocking component is arranged in one of the accommodating channels, and the transmission part can drive the blocking component to move.

8. The detection device according to claim 2, wherein: the transmission part is a rack, and the transmission mechanism further comprises a gear set meshed with the rack and a motor driving the gear set.

9. The detection device according to claim 1, wherein: the container body is detachably arranged on the fixing frame.

10. The detection device according to claim 1, wherein: the detection module further comprises a detection box, and the detection element is arranged in the detection box.

11. The detection device according to claim 10, wherein: the two ends of the box body of the detection box are communicated to form a through channel, and the detection element can be in sliding and sealing connection with the through channel, so that the detection element can extend out of the through channel or be accommodated into the through channel.

12. The detection device according to claim 1, wherein: the detection element comprises a bracket and detection test paper paved on the bracket.

13. A toilet, characterized in that: the detection device comprises the detection device of any one of claims 1 to 12, and a detection hole is formed in a urinal of the closestool so that the detection element can extend out to detect the liquid to be detected.

14. The toilet of claim 13, wherein:

the detection device further comprises a driving mechanism and a blocking element, wherein the driving mechanism is in transmission fit with the container body so as to drive the container body to move; the plugging element is telescopically arranged in one of the accommodating channels, and can be in sealing fit with the detection hole after extending out;

the position of the detection hole corresponds to the detection module or the plugging element, during detection, the driving mechanism drives the container body to move, so that the detection module corresponds to the detection hole, and during non-detection, the driving mechanism drives the container body to move, so that the plugging element corresponds to the detection hole.

15. The toilet of claim 14, wherein: the detection device is characterized by further comprising a transmission mechanism, when the detection module corresponds to the detection hole, the transmission mechanism drives the detection element to stretch out from the detection hole for detection, and when the plugging element corresponds to the detection hole, the transmission mechanism drives the plugging element to stretch out to plug the detection hole.

16. A method of detection, characterized by: the method comprises the following steps:

providing a container body for storing a detection module, wherein the container body is internally provided with a plurality of mutually independent accommodating channels, the detection module is arranged in the accommodating channels, the detection module is provided with a detection element for detecting liquid to be detected, and a transmission mechanism is adopted to drive the detection module to extend out of the corresponding accommodating channel; the transmission mechanism is movable or the container body is movable, and the transmission mechanism can drive the detection module to extend out of the corresponding accommodating channel.

17. The detection method according to claim 16, characterized in that: the method comprises the following steps:

when detection is carried out, the container body moves to a position corresponding to one detection module and the detection hole, and the detection module is driven by the transmission mechanism to extend out of the corresponding accommodating channel;

after the detection is finished, the detection module returns to the original accommodating channel; alternatively, the detection module is discarded.

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