CN220961754U - Aging test station of intelligent closestool core - Google Patents

Abstract

The utility model discloses an aging test station of an intelligent closestool core, which comprises an aging test table and a visual identifier, wherein the visual identifier is arranged above the aging test table, and the detection end of the visual identifier is aligned to the installation position of the aging test table; the aging test bench is used for installing a test tool seat for assembling the machine core and performing aging detection on the machine core; the visual identifier is used for shooting images of the movement. According to the aging test station for the intelligent closestool core, the intelligent degree of the aging test of the intelligent closestool core is improved, the aging test process of the intelligent closestool core is more comprehensive, and the test precision is higher, so that the defects in the prior art are overcome.

Description

Aging test station of intelligent closestool core

Technical Field

The utility model relates to the technical field of intelligent closestool detection equipment, in particular to an aging test station of an intelligent closestool core.

Background

Along with the rapid development of economy, consumers attach importance to quality of life, intelligent sanitary wares enter more and more families, and the popularity of intelligent toilets used in places such as families, high-grade hotels and the like as typical representatives with the characteristics of health, comfort, sanitation and the like is higher and higher. In the production process of the intelligent closestool, the movement is required to be assembled, the assembled movement is subjected to safety electrical performance test and aging test, and the movement after the test is qualified is assembled with the upper cover and the ceramic base in a whole machine.

In the existing intelligent toilet production process, the assembly process and the detection process are generally finished separately, and particularly, the aging test of the movement is generally detected by a test bench which is separated from the assembly line and is independent, and the detection process is as follows: the assembled machine core is firstly taken off line from an assembly line, then is transported to a test bench for off-line detection, the test bench needs to manually take over, plug in, test and record, and finally the machine core after the detection is qualified is taken on line again.

In the aging detection process of the intelligent closestool core, data such as water temperature, air outlet temperature and water quantity during core cleaning in the aging test process are generally only collected, so that whether functions such as a buttock washing function, a drying function and a gynecological washing function of the intelligent closestool can be normally realized or not is judged according to the data, and the problems that water leakage, pipeline yellowing and damage and the like occur due to aging in the operation process of the core are often ignored.

In addition, quality control of the core product mainly depends on manual testing by an assembler, for example, whether the water temperature and the air temperature are qualified or not is confirmed by manual touching, and the confirmation mode cannot accurately judge performance indexes such as heating response speed, heating period temperature uniformity and the like, so that more hidden danger products flow to the market; further, after the product test of the movement is finished, water in the product parts and the pipeline can only be discharged by manually blowing compressed air, the air pressure is not controlled in the blowing and draining process, and the product has no protective measures, so that individual products are blown out by the compressed air in the blowing and draining process.

Disclosure of utility model

The utility model aims to provide an aging test station for an intelligent closestool core, which is beneficial to improving the intelligent degree of aging test of the intelligent closestool core, so that the aging test process of the intelligent closestool core is more comprehensive, the test precision is higher, and the defects in the prior art are overcome.

To achieve the purpose, the utility model adopts the following technical scheme:

The aging test station of the intelligent closestool core comprises an aging test table and a visual identifier, wherein the visual identifier is arranged above the aging test table, and the detection end of the visual identifier is aligned to the installation position of the aging test table;

The aging test bench is used for installing a test tool seat for assembling the machine core and performing aging detection on the machine core; the visual identifier is used for shooting images of the movement.

Preferably, the aging test bench comprises a mounting seat, a detection seat and an aging test system, wherein the mounting seat is arranged in the detection seat, the mounting seat is used for mounting the test tool seat assembled with the movement, the aging test system is connected with the detection seat, and the aging test system is used for performing aging detection on the movement through the detection seat;

The detection seat comprises a detection frame, an electric connection seat and a water-gas connection seat; the electric connecting seat and the water-gas connecting seat are respectively arranged at two sides of the detection frame, and are both positioned at the rear end of the mounting seat;

The test tool seat comprises an installation bottom plate, a tool plate, an electric connector and a water-air connector; the tooling plate is arranged at the front end of the mounting bottom plate and is used for mounting the movement; the electric connector and the water-gas connector are respectively arranged at two sides of the rear end of the mounting bottom plate, the electric connector is used for connecting an electric interface of the movement with the electric connecting seat, the aging test system is used for supplying power to the movement through the electric connecting seat and the electric connector, the water-gas connector is used for connecting a water-gas interface of the movement with the water-gas connecting seat, and the aging test system is used for introducing water and ventilation to the movement through the water-gas connecting seat and the water-gas connector;

The detection seat further comprises a detection bracket, a thermometer and a weighing meter, and the thermometer and the weighing meter are electrically connected to the aging test system; the detection support is arranged above the rear end of the detection support, the thermometer and the weighing meter are both arranged at the front end of the detection support, the thermometer is used for detecting the water temperature and the air outlet temperature of the movement, and the weighing meter is used for detecting the water quantity of the movement during cleaning.

Preferably, the detection seat further comprises two sliding cylinders, and the two sliding cylinders are respectively arranged on two sides of the detection frame and positioned at the rear end of the installation seat;

The sliding cylinder is arranged between the detection frame and the electric connecting seat, and the electric connecting seat can be close to and far away from the mounting seat through the sliding cylinder;

the other sliding cylinder is arranged between the detection frame and the water-gas connecting seat, and the water-gas connecting seat can be close to and far away from the installation seat through the sliding cylinder.

Preferably, the aging test system comprises a water supply port, a constant pressure air supply port and a three-way valve, wherein the three-way valve comprises a first interface, a second interface and a third interface, the first interface is connected with the water supply port, the second interface is connected with the constant pressure air supply port, and the third interface is connected with the water-gas connecting seat.

Preferably, a switch valve and a one-way valve are arranged between the water supply port and the first interface, and between the constant-pressure air supply port and the second interface.

Preferably, the aging test bench further comprises a jacking material receiving machine;

The jacking material receiving machine comprises a second mounting frame and a material receiving belt; the second installation frame is installed in the bottom of mount pad, connect the material belt install with reciprocating in the top of second installation frame, just connect the material plane of material belt can outstanding with shrink in the mounting plane of mount pad.

Preferably, the jacking material receiving machine further comprises a second driver and a guide rod;

The second driver is arranged between the second mounting frame and the material receiving belt, the output end of the second driver is connected with the material receiving belt, and the second driver is used for driving the material receiving belt to move up and down;

The guide rod is arranged between the second installation frame and the material receiving belt, the top of the guide rod is fixedly connected with the material receiving belt, and the bottom of the guide rod penetrates through the second installation frame and is movably connected with the second installation frame.

Preferably, the detection frame comprises a first blocking arm, a mounting arm and a second blocking arm, wherein the first blocking arm, the mounting arm and the second blocking arm are connected end to end in sequence and jointly enclose a U-shaped detection area, and the detection area is used for accommodating the test tool seat.

Preferably, the detection seat further comprises an in-place sensor electrically coupled to the receiving belt; the in-place sensor is arranged at the rear end of the mounting seat and is used for detecting in-place conditions of the test tool seat assembled with the movement.

Preferably, the detection seat further comprises an in-place baffle plate, the in-place baffle plate is installed between the installation seat and the installation arm, the in-place baffle plate protrudes out of the inner side wall of the installation arm, and the in-place baffle plate is used for blocking movement of the test fixture seat.

The technical scheme provided by the embodiment of the utility model can have the following beneficial effects:

1. The visual recognition for shooting the movement image is additionally arranged in the aging test station, so that the intelligent closestool is more comprehensive in the aging test process and higher in test precision.

2. In order to save the time of manual connection, the structure of a detection seat in the aging test table and a test tool seat for installing a core to be detected is improved, so that a circuit, a waterway and a gas circuit between an aging test system and the core are quickly connected, and the detection efficiency of an aging test process is improved.

3. In order to improve the detection precision in the aging test process, a thermometer for detecting the water temperature and the air-out temperature of the movement and a weighing meter for detecting the water quantity of the movement during cleaning are additionally arranged in the detection seat, and the thermometer and the weighing meter are electrically connected to the aging test system so as to realize the automatic acquisition of various detection data in the aging test system, thereby improving the detection precision in the aging test process.

Drawings

Fig. 1 is a schematic structural diagram of an aging test station for a smart toilet cartridge according to the present utility model.

Fig. 2 is a schematic partial structure of an aging test station for a smart toilet cartridge according to the present utility model.

Fig. 3 is a schematic view of a use state of a test fixture seat in an aging test station of an intelligent toilet core according to the present utility model.

Fig. 4 is a schematic structural view of an aging test station in an aging test station of an intelligent toilet core according to the present utility model.

Fig. 5 is a front view of the aging test station of the intelligent toilet cartridge of the present utility model.

Fig. 6 is a schematic structural diagram of a jacking and receiving machine in an aging test station of an intelligent toilet core.

Fig. 7 is a schematic diagram showing connection between an aging test system and a water-gas connection seat in an aging test station of an intelligent toilet core according to the present utility model.

Wherein: the aging test bench 321, the mounting seat 3211, the detection seat 3212, the detection frame 32121, the first blocking arm 32121a, the mounting arm 32121b, the second blocking arm 32121c, the electric connection seat 32122, the water-gas connection seat 32123, the detection bracket 32124, the sliding cylinder 32125, the in-place sensor 32126, the in-place blocking plate 32127, the jacking receiver 3213, the second mounting frame 32131, the receiving belt 32132, the second driver 32133, the guide rod 32134, the water supply port 32141, the constant-pressure air supply port 32142, the three-way valve 32143, the switching valve 32144, the one-way valve 32145 and the visual identifier 322;

A movement 6;

test fixture seat 7, mounting plate 71, tooling plate 72, electrical connector 73, aqueous vapor connector 74.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

The technical scheme provides an aging test station of an intelligent closestool core, which comprises an aging test table 321 and a visual identifier 322, wherein the visual identifier 322 is arranged above the aging test table 321, and a detection end of the visual identifier 322 is aligned to an installation position of the aging test table 321;

The aging test board 321 is used for installing a test tool seat 7 for assembling the machine core 6 and performing aging detection on the machine core 6; the visual identifier 322 is used to take an image of the movement 6.

In the prior art, in the aging test process of the movement 6 of the intelligent toilet, data such as water temperature, air outlet temperature and water quantity when the movement 6 is clean in the aging test process are generally only collected, so that whether functions such as a buttock washing function, a drying function and a gynecological washing function of the intelligent toilet can be normally realized or not can be judged according to the data, and the problems that water leakage, pipeline yellowing, damage and the like occur due to aging of the movement 6 in the operation process are often ignored.

Therefore, in order to make the aging test process of the intelligent toilet more comprehensive and the test accuracy higher, the scheme provides an aging test station of the intelligent toilet core, as shown in fig. 1-7, in which a visual identification 322 for shooting the image of the core 6 is added. In some embodiments, the visual recognition 322 may take a group of pictures before the test fixture seat 7 enters the aging test station and before leaving the aging test station, and by comparing specific areas (such as the connection pipe) in the two groups of pictures, and combining with the existing algorithm, recognize whether the areas have problems of water leakage, pipeline yellowing, breakage, and the like, so as to improve the aging test precision of the intelligent toilet core.

Further, the burn-in board 321 includes a mounting base 3211, a testing base 3212, and a burn-in system, wherein the mounting base 3211 is mounted inside the testing base 3212, the mounting base 3211 is used for mounting the test fixture base 7 assembled with the movement 6, the burn-in system is connected with the testing base 3212, and the burn-in system is used for performing burn-in test on the movement 6 through the testing base 3212;

The detection seat 3212 comprises a detection frame 32121, an electrical connection seat 32122 and a water-gas connection seat 32123; the electrical connection base 32122 and the water-gas connection base 32123 are respectively installed on two sides of the detection frame 32121, and the electrical connection base 32122 and the water-gas connection base 32123 are both located at the rear end of the installation base 3211;

The test tool seat 7 comprises a mounting bottom plate 71, a tool plate 72, an electric connector 73 and a water-gas connector 74; the tooling plate 72 is erected at the front end of the mounting bottom plate 71, and the tooling plate 72 is used for mounting the movement 6; the electrical connector 73 and the water-air connector 74 are respectively installed at two sides of the rear end of the installation base 71, the electrical connector 73 is used for connecting an electrical interface of the movement 6 with the electrical connecting seat 32122, the aging test system is used for supplying power to the movement 6 through the electrical connecting seat 32122 and the electrical connector 73, the water-air connector 74 is used for connecting a water-air interface of the movement 6 with the water-air connecting seat 32123, and the aging test system is used for supplying water and air to the movement 6 through the water-air connecting seat 32123 and the water-air connector 74;

The detection seat 3212 further comprises a detection bracket 32124, a thermometer and a weighing meter, and the thermometer and the weighing meter are electrically connected to the aging test system; the detection support 32124 is disposed above the rear end of the detection frame 32121, the thermometer and the weighing meter are both mounted at the front end of the detection support 32124, the thermometer is used for detecting the water temperature and the air-out temperature of the movement 6, and the weighing meter is used for detecting the water quantity of the movement 6 during cleaning.

Because the aging test process of the existing intelligent toilet core 6 is generally performed by manual intervention, such as manual connection, power plug-in, test and recording, the efficiency and the precision of the aging test are difficult to ensure.

Therefore, in order to improve the intelligentization degree of the aging test process of the intelligent toilet bowl movement 6, the present solution proposes an aging test bench 321 for performing intelligent online detection on the movement 6, where the aging test bench 321 includes a mounting base 3211 for mounting a test fixture base 7 on which the movement 6 is assembled, and an aging test system (not shown in the figure) for performing aging detection on the movement 6 through the detection base 3212. It should be noted that, the aging test system of this scheme is the intelligent control system that is arranged in carrying out aging test to intelligent closestool core 6 among the prior art, and it can supply power operation to core 6, still can provide the water and the gas that need in the aging test process to core 6, but also can be according to the each item data of present algorithm analysis aging test in-process simultaneously to judge whether core 6 passes aging test.

Specifically, in order to save the time of manual connection, the structure of the detection seat 3212 in the aging test bench 321 and the test tool seat 7 for installing the core 6 to be detected is improved, so that the circuit, the waterway and the air circuit between the aging test system and the core 6 are quickly connected, and the detection efficiency of the aging test process is improved.

More specifically, in order to improve the detection precision in the aging test process, the present solution further adds a thermometer for detecting the water temperature and the air-out temperature of the movement 6 and a weighing meter for detecting the water quantity when the movement 6 is clean in the detection seat 3212, and electrically connects the thermometer and the weighing meter to the aging test system, so as to realize automatic collection of each item of detection data in the aging test system, thereby improving the detection precision in the aging test process.

Further, the detecting seat 3212 further includes two sliding cylinders 32125, where the two sliding cylinders 32125 are respectively installed on two sides of the detecting frame 32121 and located at a rear end of the installing seat 3211;

A sliding cylinder 32125 is installed between the detecting rack 32121 and the electrical connection base 32122, and the electrical connection base 32122 can be close to and far away from the installation base 3211 through the sliding cylinder 32125;

The other sliding cylinder 32125 is installed between the detecting rack 32121 and the water-gas connecting seat 32123, and the water-gas connecting seat 32123 can be close to and far away from the installation seat 3211 through the sliding cylinder 32125.

Further, in order to realize automatic connection and disconnection of a circuit, a water path and a gas path between the aging test system and the movement 6, the scheme is further provided with a sliding cylinder 32125 in the detection seat 3212, so that the electric connection seat 32122 can be close to and far away from the installation seat 3211 through the sliding cylinder 32125, and meanwhile, the water-gas connection seat 32123 can be close to and far away from the installation seat 3211 through the sliding cylinder 32125.

When the electrical connection base 32122 approaches the installation base 3211 through the sliding air cylinder 32125, the electrical connection base 32122 is connected with the electrical connector 73, so that the aging test system supplies power to the movement 6; when the water-air connecting seat 32123 is close to the mounting seat 3211 through the sliding air cylinder 32125, the water-air connecting seat 32123 is connected to the water-air connector 74, so that the aging test system can supply water and air to the movement 6.

When the electrical connection block 32122 is far away from the installation block 3211 by the sliding cylinder 32125, the electrical connection block 32122 and the electrical connector 73 are disconnected, so that a circuit between the burn-in test system and the movement 6 is cut off; when the water-air connection base 32123 is far away from the mounting base 3211 through the sliding cylinder 32125, the water-air connection base 32123 is disconnected from the water-air connector 74, so that the water path and the air path between the aging test system and the movement 6 are cut off.

Further described, the aging test system includes a water supply port 32141, a constant pressure air supply port 32142, and a three-way valve 32143, and the three-way valve 32143 includes a first port connected to the water supply port 32141, a second port connected to the constant pressure air supply port 32142, and a third port connected to the water-air connection block 32123.

In a preferred embodiment of the present disclosure, the water supply port 32141 and the constant pressure air supply port 32142 of the burn-in test system share one water-air connection seat 32123 through the three-way valve 32143, which is beneficial to make the structural arrangement of the test seat 3212 in the burn-in test bench 321 and the test fixture seat 7 for mounting the movement 6 to be tested simpler and more compact.

Specifically, when the movement 6 needs to supply water, the first interface and the third interface of the three-way valve 32143 are communicated with each other, and the water supply port 32141 is communicated with the water-gas connection seat 32123 through the three-way valve 32143, so as to realize waterway communication. When the movement needs to blow and drain water, the second interface and the third interface of the three-way valve 32143 are communicated with each other, and the constant-pressure air supply port 32142 can be communicated with the water-air connection seat 32123 through the three-way valve 32143, so that air passage communication is realized.

In addition, because the constant-pressure air supply port 32142 in the aging test system in the scheme provides the compressed air for constant-pressure treatment, the movement 6 is not blown out in the water blowing and air exhausting process, and the damage rate of the movement 6 is further reduced.

Further, an on-off valve 32144 and a check valve 32145 are provided between the water supply port 32141 and the first port, and between the constant pressure air supply port 32142 and the second port.

As one preferable example of the embodiment, the scheme is also provided with a switch valve 32144 and a one-way valve 32145 between the waterway and the air channel, so as to avoid water channeling and ensure the normal operation of the aging test process.

Further describing, the burn-in board 321 further includes a jacking and receiving machine 3213;

The jacking material receiving machine 3213 comprises a second installation rack 32131 and a material receiving belt 32132; the second mounting frame 32131 is mounted at the bottom of the mounting seat 3211, the receiving belt 32132 is mounted at the top of the second mounting frame 32131 in a vertically movable manner, and the receiving plane of the receiving belt 32132 may protrude and shrink on the mounting plane of the mounting seat 3211.

In another preferred embodiment of the present solution, in order to ensure the effective installation of the test fixture seat 7 assembled with the organic core 6 on the installation seat 3211, so as to ensure the effective proceeding of the burn-in test process, the present solution further adds a jacking material receiving machine 3213 in the burn-in test bench 321.

Specifically, the test fixture seat 7 of the organic movement 6 is assembled, the test fixture seat 7 is firstly received by the receiving belt 32132 protruding from the installation plane of the installation seat 3211 and is conveyed to the inside of the detection seat 3212, and then the receiving belt 32132 moves downwards and contracts to the installation plane of the installation seat 3211, so that the test fixture seat 7 is placed on the installation plane of the installation seat 3211, and the installation of the test fixture seat 7 on the installation seat 3211 is completed.

Further describing, the jacking and receiving machine 3213 further includes a second driver 32133 and a guide rod 32134;

The second driver 32133 is installed between the second installation frame 32131 and the receiving belt 32132, and an output end of the second driver 32133 is connected to the receiving belt 32132, and the second driver 32133 is used for driving the receiving belt 32132 to move up and down;

The guide rod 32134 is installed between the second installation frame 32131 and the receiving belt 32132, the top of the guide rod 32134 is fixedly connected with the receiving belt 32132, and the bottom of the guide rod 32134 passes through the second installation frame 32131 and is movably connected with the second installation frame 32131.

As one preferable embodiment, the second driver 32133 drives the receiving belt 32132 to move up and down, and the guide rod 32134 ensures the stability of the up and down movement of the receiving belt 32132, so as to be beneficial to ensuring the effective implementation of the lifting function and the conveying function of the lifting receiving machine 3213.

Note that, the second driver 32133 in this embodiment may be a driving cylinder, which is not limited herein.

Preferably, at least four guide rods 32134 are provided, and the four guide rods 32134 are uniformly distributed around the second driver 32133.

To further illustrate, the detecting rack 32121 includes a first blocking arm 32121a, a mounting arm 32121b and a second blocking arm 32121c, where the first blocking arm 32121a, the mounting arm 32121b and the second blocking arm 32121c are sequentially connected end to end and jointly enclose a U-shaped detecting area, and the detecting area is used for accommodating the test fixture 7.

As another preferable aspect of the foregoing embodiment, the detection frame 32121 of the present embodiment encloses a U-shaped detection area, which is favorable for avoiding the test fixture seat 7 from separating from the interior of the detection seat 3212, so as to ensure smooth proceeding of the burn-in process and reduce the damage rate of the movement 6.

Further described, the detection seat 3212 further includes an in-place sensor 32126, the in-place sensor 32126 being electrically coupled to the receiving belt 32132; the in-place sensor 32126 is installed at the rear end of the installation seat 3211, and the in-place sensor 32126 is used for detecting an in-place condition of the test fixture seat 7 assembled with the machine core 6.

Further, the detection seat 3212 of the present solution further includes an in-place sensor 32126 electrically coupled to the receiving belt 32132. When the in-place sensor 32126 detects that the test fixture 7 has been conveyed into place by the receiving belt 32132, then the receiving belt 32132 electrically coupled to the in-place sensor 32126 stops operating to prevent further advancement of the test fixture 7.

Further, the detecting base 3212 further includes an in-place baffle 32127, the in-place baffle 32127 is mounted between the mounting base 3211 and the mounting arm 32121b, the in-place baffle 32127 protrudes from an inner side wall of the mounting arm 32121b, and the in-place baffle 32127 is used for blocking movement of the testing fixture base 7.

Still further, the detection seat 3212 of the present embodiment further includes an in-place baffle 32127, and the in-place baffle 32127 installed between the installation seat 3211 and the installation arm 32121b can prevent the test fixture seat 7 from going forward due to inertia or the material receiving belt 32132 failing to stop in time, so as to prevent the test fixture seat 7 and even the movement 6 from being damaged.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the present application. As used herein, the singular is also intended to include the plural unless the context clearly indicates otherwise, and furthermore, it is to be understood that the terms "comprises" and/or "comprising" when used in this specification are taken to specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

The relative arrangement of the components and steps, numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present utility model unless it is specifically stated otherwise. Meanwhile, it should be understood that the sizes of the respective parts shown in the drawings are not drawn in actual scale for convenience of description. Techniques, methods, and apparatus known to one of ordinary skill in the relevant art may not be discussed in detail, but should be considered part of the specification where appropriate. In all examples shown and discussed herein, any specific values should be construed as merely illustrative, and not a limitation. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further discussion thereof is necessary in subsequent figures.

In the description of the present utility model, it should be understood that the azimuth or positional relationships indicated by the azimuth terms such as "front, rear, upper, lower, left, right", "lateral, vertical, horizontal", and "top, bottom", etc., are generally based on the azimuth or positional relationships shown in the drawings, merely to facilitate description of the present utility model and simplify the description, and these azimuth terms do not indicate and imply that the apparatus or elements referred to must have a specific azimuth or be constructed and operated in a specific azimuth, and thus should not be construed as limiting the scope of protection of the present utility model; the orientation word "inner and outer" refers to inner and outer relative to the contour of the respective component itself.

Spatially relative terms, such as "above … …," "above … …," "upper surface on … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial location relative to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "above" or "over" other devices or structures would then be oriented "below" or "beneath" the other devices or structures. Thus, the exemplary term "above … …" may include both orientations "above … …" and "below … …". The device may also be positioned in other different ways (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

In addition, the terms "first", "second", etc. are used to define the components, and are only for convenience of distinguishing the corresponding components, and the terms have no special meaning unless otherwise stated, and therefore should not be construed as limiting the scope of the present utility model.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present application and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that embodiments of the application described herein may be implemented in sequences other than those illustrated or otherwise described herein.

The technical principle of the present utility model is described above in connection with the specific embodiments. The description is made for the purpose of illustrating the general principles of the utility model and should not be taken in any way as limiting the scope of the utility model. Other embodiments of the utility model will be apparent to those skilled in the art from consideration of this specification without undue burden.

Claims (10)

1. An intelligent closestool core's ageing test station, its characterized in that: the device comprises a burn-in test table and a visual identifier, wherein the visual identifier is arranged above the burn-in test table, and the detection end of the visual identifier is aligned to the installation position of the burn-in test table;

The aging test bench is used for installing a test tool seat for assembling the machine core and performing aging detection on the machine core; the visual identifier is used for shooting images of the movement.

2. The aging test station for a smart toilet cartridge of claim 1, wherein: the aging test bench comprises a mounting seat, a detection seat and an aging test system, wherein the mounting seat is arranged in the detection seat, the mounting seat is used for mounting the test tool seat for assembling the machine core, the aging test system is connected with the detection seat, and the aging test system is used for performing aging detection on the machine core through the detection seat;

The detection seat comprises a detection frame, an electric connection seat and a water-gas connection seat; the electric connecting seat and the water-gas connecting seat are respectively arranged at two sides of the detection frame, and are both positioned at the rear end of the mounting seat;

The test tool seat comprises an installation bottom plate, a tool plate, an electric connector and a water-air connector; the tooling plate is arranged at the front end of the mounting bottom plate and is used for mounting the movement; the electric connector and the water-gas connector are respectively arranged at two sides of the rear end of the mounting bottom plate, the electric connector is used for connecting an electric interface of the movement with the electric connecting seat, the aging test system is used for supplying power to the movement through the electric connecting seat and the electric connector, the water-gas connector is used for connecting a water-gas interface of the movement with the water-gas connecting seat, and the aging test system is used for introducing water and ventilation to the movement through the water-gas connecting seat and the water-gas connector;

The detection seat further comprises a detection bracket, a thermometer and a weighing meter, and the thermometer and the weighing meter are electrically connected to the aging test system; the detection support is arranged above the rear end of the detection support, the thermometer and the weighing meter are both arranged at the front end of the detection support, the thermometer is used for detecting the water temperature and the air outlet temperature of the movement, and the weighing meter is used for detecting the water quantity of the movement during cleaning.

3. The aging test station for a smart toilet cartridge of claim 2, wherein: the detection seat further comprises two sliding cylinders, and the two sliding cylinders are respectively arranged on two sides of the detection frame and positioned at the rear end of the installation seat;

The sliding cylinder is arranged between the detection frame and the electric connecting seat, and the electric connecting seat can be close to and far away from the mounting seat through the sliding cylinder;

the other sliding cylinder is arranged between the detection frame and the water-gas connecting seat, and the water-gas connecting seat can be close to and far away from the installation seat through the sliding cylinder.

4. The aging test station for a smart toilet cartridge of claim 2, wherein: the aging test system comprises a water supply port, a constant-pressure air supply port and a three-way valve, wherein the three-way valve comprises a first connector, a second connector and a third connector, the first connector is connected with the water supply port, the second connector is connected with the constant-pressure air supply port, and the third connector is connected with the water-gas connecting seat.

5. The aging test station for a smart toilet cartridge of claim 4, wherein: and a switch valve and a one-way valve are arranged between the water supply port and the first interface, and between the constant-pressure air supply port and the second interface.

6. The aging test station for a smart toilet cartridge of claim 2, wherein: the aging test bench also comprises a jacking material receiving machine;

The jacking material receiving machine comprises a second mounting frame and a material receiving belt; the second installation frame is installed in the bottom of mount pad, connect the material belt install with reciprocating in the top of second installation frame, just connect the material plane of material belt can outstanding with shrink in the mounting plane of mount pad.

7. The aging test station for a smart toilet cartridge of claim 6, wherein: the jacking material receiving machine further comprises a second driver and a guide rod;

The second driver is arranged between the second mounting frame and the material receiving belt, the output end of the second driver is connected with the material receiving belt, and the second driver is used for driving the material receiving belt to move up and down;

The guide rod is arranged between the second installation frame and the material receiving belt, the top of the guide rod is fixedly connected with the material receiving belt, and the bottom of the guide rod penetrates through the second installation frame and is movably connected with the second installation frame.

8. The aging test station for a smart toilet cartridge of claim 2, wherein: the detection frame comprises a first blocking arm, a mounting arm and a second blocking arm, wherein the first blocking arm, the mounting arm and the second blocking arm are connected end to end in sequence and jointly enclose into a U-shaped detection area, and the detection area is used for accommodating the test fixture seat.

9. The aging test station for a smart toilet cartridge of claim 6, wherein: the detection seat further comprises an in-place sensor, and the in-place sensor is electrically coupled with the material receiving belt; the in-place sensor is arranged at the rear end of the mounting seat and is used for detecting in-place conditions of the test tool seat assembled with the movement.

10. The aging test station for a smart toilet cartridge of claim 8, wherein: the detection seat further comprises an in-place baffle plate, the in-place baffle plate is installed between the installation seat and the installation arm, the in-place baffle plate protrudes out of the inner side wall of the installation arm, and the in-place baffle plate is used for blocking movement of the test fixture seat.