CN215391125U

CN215391125U - Water-saving aluminum foil cleaning machine for button cell production process

Info

Publication number: CN215391125U
Application number: CN202121497177.9U
Authority: CN
Inventors: 刘红兵; 梁勇; 周将军
Original assignee: Sichuan Tayyu New Energy Technology Co ltd
Current assignee: Sichuan Tayyu New Energy Technology Co ltd
Priority date: 2021-07-02
Filing date: 2021-07-02
Publication date: 2022-01-04
Anticipated expiration: 2031-07-02

Abstract

The utility model discloses a water-saving aluminum foil cleaning machine for a button cell production process, which comprises a cleaning machine main body, a cleaning cylinder main body, a first water tank structure, a second water tank structure, a third water tank structure, a first peristaltic pump structure, a second peristaltic pump structure and a third peristaltic pump structure, wherein a main body switch and a prompting sound box are integrally arranged on one side of the cleaning machine main body, a cleaning machine platform and a support mechanism are integrally arranged at the upper end of the cleaning machine main body, a sprinkler is fixedly arranged on the support mechanism, a first sprinkler interface, a second sprinkler interface and a third sprinkler interface are arranged on the sprinkler, water is circularly supplied and cleaned through two groups of water tank structures, the purpose of saving water in the whole cleaning process is achieved, through the integral automatic flow, the cleaning is uniform, the problem of good and bad cleaning time is avoided, and a worker is not required to be singly employed to carry out the whole cleaning operation, this also saves a part of the expenditure.

Description

Water-saving aluminum foil cleaning machine for button cell production process

Technical Field

The utility model relates to the technical field of cleaning equipment, in particular to a water-saving aluminum foil cleaning machine for a button cell production process.

Background

The existing aluminum foil cleaning machine wastes water, and the water cost of industrial water is several times of that of common families, so that the cleaning cost is saved by saving water; moreover, the whole cleaning process needs manual operation, and also needs considerable labor cost, and the problems of uneven cleaning, good time and bad time can be caused by manual cleaning, so that a water-saving aluminum foil cleaning machine for button cell production process needs to be provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a water-saving aluminum foil cleaning machine for a button cell production process, which achieves the purpose of saving water in the cleaning process by circularly supplying water for cleaning through two groups of water tank structures, achieves uniform cleaning through an integral automatic flow, does not have the problem of good and bad cleaning time, and can also save part of expenditure by singly hiring workers to carry out cleaning operation in the whole process so as to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: a water-saving aluminum foil cleaning machine for a button cell production process comprises a cleaning machine main body, a cleaning cylinder main body, a first water tank structure, a second water tank structure, a third water tank structure, a first peristaltic pump structure, a second peristaltic pump structure and a third peristaltic pump structure, wherein a main body switch and a prompt sound box are integrally arranged on one side of the cleaning machine main body;

the front surface of the cleaning cylinder main body is fixedly provided with a first automatic brake, a second automatic brake and a third automatic brake, a third automatic brake switch is integrally arranged on the third automatic brake, and the cleaning cylinder main body is arranged on a cleaning machine platform;

the first water tank structure, the second water tank structure and the third water tank structure are arranged in the same way and comprise a water tank base, a base hole, a bearing plate, a water tank main body, a water tank upper cover, a sensor base, a weight sensor and a sensor upper cover, wherein the base hole is formed in the front of the water tank base;

the upper water tank cover of the first water tank structure is provided with a first water tank water outlet and a first water tank water inlet, the upper water tank cover of the second water tank structure is provided with a second water tank water outlet and a second water tank water inlet, and the upper water tank cover of the third water tank structure is provided with a third water tank water outlet and a third water tank water inlet;

the first peristaltic pump structure, the second peristaltic pump structure and the third peristaltic pump structure are arranged in the same manner and comprise a peristaltic pump, a peristaltic pump fixing frame and a peristaltic pump base, wherein the peristaltic pump fixing frame is integrally arranged at the upper end of the peristaltic pump base, and the peristaltic pump is installed in the peristaltic pump fixing frame in a buckling manner;

the peristaltic pump upper end integration of first peristaltic pump structure is provided with first peristaltic pump inlet and first peristaltic pump outlet, the peristaltic pump upper end integration of second peristaltic pump structure is provided with second peristaltic pump inlet and second peristaltic pump outlet, the peristaltic pump upper end integration of third peristaltic pump structure is provided with third peristaltic pump inlet and third peristaltic pump outlet.

Preferably, clean jar main part sets up to upper end open structure, clean jar main part openly has seted up three group's holes and is the equidistance and distributes, the rear end mouth of pipe intercommunication of first automatic floodgate, second automatic floodgate and third automatic floodgate is installed on three group's holes of clean jar main part.

Preferably, the front end pipe orifice of the first automatic brake is communicated with the water inlet of the first water tank through a water pipe, the water outlet of the first water tank is communicated with the water inlet of the first peristaltic pump through a water pipe, and the water outlet of the first peristaltic pump is communicated with the first connector of the sprayer through a water pipe.

Preferably, a front end pipe orifice of the second automatic brake is communicated with a water inlet of the second water tank through a water pipe, a water outlet of the second water tank is communicated with a water inlet of the second peristaltic pump through a water pipe, and a water outlet of the second peristaltic pump is communicated with a second connector of the sprayer through a water pipe.

Preferably, a front end pipe orifice of the third automatic brake is communicated with a wastewater tank through a water pipe, a water inlet of the third water tank is communicated with a water tap through a water pipe, a water outlet of the third water tank is communicated with a water inlet of a third peristaltic pump through a water pipe, and a water outlet of the third peristaltic pump is communicated with a third connector of the sprayer through a water pipe.

Preferably, the weight sensor of the first water tank structure is electrically connected to the first automatic gate, the peristaltic pump of the first peristaltic pump structure and the peristaltic pump of the second peristaltic pump structure, and the main body switch is electrically connected to the peristaltic pump of the first peristaltic pump structure and the sprayer.

Preferably, the weight sensor of the second water tank structure is electrically connected to the second automatic gate, the peristaltic pump of the second peristaltic pump structure and the peristaltic pump of the third peristaltic pump structure.

Preferably, the weight sensor of the third water tank structure is electrically connected to the third automatic brake, the peristaltic pump of the third peristaltic pump structure, the prompt sound and the main body switch.

Compared with the prior art, the utility model has the beneficial effects that:

1. the water is circularly supplied and cleaned by two groups of water tanks, and one group of water tank is used for running water cleaning, so that the running water cleaning in the whole process is avoided, and the purpose of saving water in the cleaning process is achieved;

2. through whole automatic flow, wash evenly, can not take place the problem that the good time is bad when wasing, also need not hire the workman alone and come the full journey to wash the operation to this also can save a part of expenditure.

Additional features and advantages of the utility model will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model. The objectives and other advantages of the utility model will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

FIG. 1 is a schematic view of the cleaning machine of the present invention;

FIG. 2 is a schematic view of the cleaning cylinder of the present invention;

FIG. 3 is a schematic disassembled view of the peristaltic pump of the present invention;

FIG. 4 is a schematic view of a three-in-one structure of the present invention;

FIG. 5 is a schematic diagram of the water tank of the present invention with a disassembled structure;

FIG. 6 is a schematic view of the structure of the water tank of the present invention;

FIG. 7 is a schematic view of the assembly of the water tank of the present invention;

FIG. 8 is a schematic structural view of the overall assembly of the present invention.

In the figure: 1. a washer body; 2. a faucet; 3. a wastewater tank; 4. a washer platform; 11. a support mechanism; 12. a sprinkler; 13. a sprinkler first interface; 14. a sprinkler second interface; 15. a sprinkler third interface; 16. a main body switch; 17. a prompt sound box; 20. cleaning the cylinder main body; 21. a first automatic brake; 22. a second automatic brake; 23. a third automatic brake; 24. a third automatic brake switch; 30. a first tank structure; 31. a first water tank outlet; 32. a first tank inlet; 40. a second tank structure; 41. a water outlet of the second water tank; 42. a second tank inlet; 50. a third tank structure; 51. a water outlet of the third water tank; 52. a third tank inlet; 60. a first peristaltic pump structure; 61. a pumping port of the first peristaltic pump; 62. a first peristaltic pump drain; 70. a second peristaltic pump structure; 71. a pumping hole of a second peristaltic pump; 72. a second peristaltic pump drain; 80. a third peristaltic pump configuration; 81. a water pumping port of a third peristaltic pump; 82. a third peristaltic pump drain; 3a, a water tank base; 3b, base holes; 3c, a bearing plate; 3d, a water tank main body; 3e, covering the water tank; 3f, a sensor base; 3g, a weight sensor; 3h, covering the sensor; 6a, a peristaltic pump; 6b, a peristaltic pump fixing frame; 6c, peristaltic pump base.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, the present invention provides a technical solution: a water-saving aluminum foil cleaning machine for a button cell production process comprises a cleaning machine main body 1, a cleaning cylinder main body 20, a first water tank structure 30, a second water tank structure 40, a third water tank structure 50, a first peristaltic pump structure 60, a second peristaltic pump structure 70 and a third peristaltic pump structure 80.

As shown in fig. 1, a main body switch 16 and a prompt sound 17 are integrally arranged on one side of a cleaning machine main body 1, a cleaning machine platform 4 and a support mechanism 11 are integrally arranged at the upper end of the cleaning machine main body 1, a sprinkler 12 is fixedly installed on the support mechanism 11, and a first connector 13, a second connector 14 and a third connector 15 of the sprinkler are arranged on the sprinkler 12; thus, the structure of the cleaning machine main body is arranged.

As shown in fig. 2, the cleaning cylinder body 20 is configured to be an upper end opening structure, three sets of holes are formed in the front surface of the cleaning cylinder body 20 and are distributed at equal intervals, the rear end pipe ports of the first automatic brake 21, the second automatic brake 22 and the third automatic brake 23 are communicated and installed on the three sets of holes of the cleaning cylinder body 20, the third automatic brake 23 is integrally provided with a third automatic brake switch 24, so that the structure of the cleaning cylinder body is set, and the cleaning cylinder body 20 is placed on the washing machine platform 4, so that the connection relationship between the cleaning cylinder body 20 and the washing machine body 1 is completed.

As shown in fig. 5-7, the first tank structure 30, the second tank structure 40 and the third tank structure 50 are arranged in the same manner: comprises a water tank base 3a, a base hole 3b, a bearing plate 3c, a water tank main body 3d, a water tank upper cover 3e, a sensor base 3f, a weight sensor 3g and a sensor upper cover 3h, wherein the front surface of the water tank base 3a is provided with the base hole 3b, the inner part of the water tank base 3a is provided with a groove, the bearing plate 3c is arranged in the groove of the water tank base 3a, the water tank main body 3d is arranged on the bearing plate 3c, the water tank upper cover 3e is inserted on the water tank main body 3d, the inner part of the sensor base 3f is provided with the groove, the weight sensor 3g is arranged in the groove of the sensor base 3f, the sensor upper cover 3h is inserted on the upper end of the sensor base 3f, the rear end of the sensor base 3f is provided with a hole, the rear end hole of the sensor base 3f is communicated with the base hole 3b, so that the weight sensor 3g can pass through the rear end hole of the sensor base 3f and the base hole 3b, the weight sensor 3g can be electrically connected to the bearing plate 3c, so that the weight sensor can sense the weight of the water tank main body 3d and the internal water through the bearing plate 3 c;

the upper water tank cover 3e of the first water tank structure 30 is provided with a first water tank water outlet 31 and a first water tank water inlet 32, the upper water tank cover 3e of the second water tank structure 40 is provided with a second water tank water outlet 41 and a second water tank water inlet 42, and the upper water tank cover 3e of the third water tank structure 50 is provided with a third water tank water outlet 51 and a third water tank water inlet 52;

the inside of the water tank main body 3d of the first water tank structure 30 is filled with the detergent water, the inside of the water tank main body 3d of the second water tank structure 40 is filled with the clear water, and the inside of the water tank main body 3d of the third water tank structure 50 is empty, so that the tap water is filled inwards through the tap 2 when the water tank is used; the structure of the three groups of water tanks is arranged.

As shown in fig. 3-4, the first peristaltic pump structure 60, the second peristaltic pump structure 70 and the third peristaltic pump structure 80 are arranged in the same manner, and include a peristaltic pump 6a, a peristaltic pump fixing frame 6b and a peristaltic pump base 6c, wherein the peristaltic pump fixing frame 6b is integrally arranged at the upper end of the peristaltic pump base 6c, and the peristaltic pump 6a is installed in the peristaltic pump fixing frame 6b in a snap-fit manner;

a first peristaltic pump water pumping port 61 and a first peristaltic pump water discharging port 62 are integrally formed at the upper end of the peristaltic pump 6a of the first peristaltic pump structure 60, a second peristaltic pump water pumping port 71 and a second peristaltic pump water discharging port 72 are integrally formed at the upper end of the peristaltic pump 6a of the second peristaltic pump structure 70, and a third peristaltic pump water pumping port 81 and a third peristaltic pump water discharging port 82 are integrally formed at the upper end of the peristaltic pump 6a of the third peristaltic pump structure 80; the above is the structural arrangement of three groups of peristaltic pumps.

Referring to fig. 8, the following are arrangements of water pipe communication:

the front end pipe orifice of the first automatic brake 21 is communicated with a first water tank water inlet 32 through a water pipe, a first water tank water outlet 31 is communicated with a first peristaltic pump water inlet 61 through a water pipe, and a first peristaltic pump water outlet 62 is communicated with the first connector 13 of the sprayer through a water pipe;

the front end pipe orifice of the second automatic brake 22 is communicated with a second water tank water inlet 42 through a water pipe, a second water tank water outlet 41 is communicated with a second peristaltic pump water inlet 71 through a water pipe, and a second peristaltic pump water outlet 72 is communicated with the second connector 14 of the sprayer through a water pipe;

the front end pipe orifice of the third automatic brake 23 is communicated with a wastewater pool 3 through a water pipe, the third water tank water inlet 52 is communicated with a water tap 2 through a water pipe, the third water tank water outlet 51 is communicated with a third peristaltic pump water inlet 81 through a water pipe, and a third peristaltic pump water outlet 82 is communicated with a third connector 15 of the sprinkler through a water pipe; the above-mentioned water pipe intercommunication setting between for overall structure.

The following is the electrical connection relationship of the overall structure:

the body switch 16 is electrically connected to the peristaltic pump 6a of the first peristaltic pump structure 60 and the sprayer 12;

the weight sensor 3g of the first water tank structure 30 is electrically connected to the first automatic gate 21, the peristaltic pump 6a of the first peristaltic pump structure 60 and the peristaltic pump 6a of the second peristaltic pump structure 70;

the weight sensor 3g of the second water tank structure 40 is electrically connected to the second automatic gate 22, the peristaltic pump 6a of the second peristaltic pump structure 70 and the peristaltic pump 6a of the third peristaltic pump structure 80;

the weight sensor 3g of the third water tank structure 50 is electrically connected to the third automatic gate 23, the peristaltic pump 6a of the third peristaltic pump structure 80, the prompt sound 17 and the main body switch 16.

The working principle is as follows: putting the aluminum foil to be cleaned into the cleaning cylinder body 20, opening the water tap 2, filling tap water into the water tank body 3d of the third water tank structure 50 through the water pipe of the third water tank water inlet 52, and closing the water tap 2 after the water tank body is filled with tap water; then the body switch 16 is opened, the sprayer 12 is activated with the peristaltic pump 6a of the first peristaltic pump arrangement 60; the worker can now temporarily leave the cleaning machine unattended.

By activating the peristaltic pump 6a of the first peristaltic pump structure 60, the first peristaltic pump water inlet 61 sucks the liquid detergent inside the tank main body 3d of the first tank structure 30 through the water pipe of the first tank water outlet 31, and the water pipe of the first peristaltic pump water outlet 62 discharges the liquid detergent toward the sprinkler first connector 13, whereby the sprinkler 12 sprays the liquid detergent to start washing.

When the detergent in the water tank main body 3d of the first water tank structure 30 is drained completely, the empty water tank main body 3d generates a certain weight, the weight sensor 3g senses the weight of the water tank main body 3d through the bearing plate 3c to close the peristaltic pump 6a of the first peristaltic pump structure 60, and simultaneously the first automatic gate 21 is opened, and the first automatic gate 21 drains the detergent water in the cleaning cylinder main body 20 back to the water tank main body 3d through the water pipe at the first water tank water inlet 32 so as to be used again in the next cleaning; when the tank body 3d is filled with the liquid detergent, the weight sensor 3g senses the weight of the tank body 3d to turn off the first automatic gate 21 and turn on the peristaltic pump 6a of the second peristaltic pump structure 70.

By activation of the peristaltic pump 6a of the second peristaltic pump structure 70, the second peristaltic pump water inlet 71 sucks in the fresh water inside the tank body 3d of the second tank structure 40 through the water pipe of the second tank water outlet 41, and the water pipe of the second peristaltic pump water outlet 72 discharges the fresh water toward the sprinkler second port 14, whereby the sprinkler 12 sprays the fresh water to start washing.

When the clean water in the water tank main body 3d of the second water tank structure 40 is completely drained, the empty water tank main body 3d generates a certain weight, the weight sensor 3g senses the weight of the water tank main body 3d through the bearing plate 3c to close the peristaltic pump 6a of the second peristaltic pump structure 70, and simultaneously opens the second automatic gate 22, the second automatic gate 22 drains the clean water in the cleaning cylinder main body 20 back to the water tank main body 3d through the water pipe at the second water tank water inlet 42, so as to be used again in the next cleaning; when the water tank body 3d is filled with clean water, the weight sensor 3g senses the weight of the water tank body 3d to close the second automatic gate 22 and open the peristaltic pump 6a of the third peristaltic pump structure 80.

By activation of the peristaltic pump 6a of the third peristaltic pump structure 80, the third peristaltic pump water inlet 81 sucks in the tap water inside the tank main body 3d of the third tank structure 50 through the water pipe of the third tank water outlet 51, and the water pipe of the third peristaltic pump water outlet 82 discharges the tap water toward the sprinkler third port 15, whereby the sprinkler 12 sprays the tap water to start cleaning.

When tap water in the water tank main body 3d of the third water tank structure 50 is drained completely, the empty water tank main body 3d generates a certain weight, the weight sensor 3g senses the weight of the water tank main body 3d through the bearing plate 3c to close the peristaltic pump 6a of the third peristaltic pump structure 80, and simultaneously open the third automatic gate 23 and the prompt sound 17 and close the main body switch 16; tap water of the cleaning cylinder main body 20 is discharged into the wastewater tank 3 through a front end water pipe of the third automatic brake 23, the prompt sound 17 plays music to remind that the cleaning is finished, and the main body switch 16 closes the sprayer 12; after the worker comes and the water in the cleaning cylinder main body 20 is completely drained to the wastewater pool 3, the third automatic brake switch 24 is closed, and the aluminum foil washed in the cleaning cylinder main body 20 is taken out.

The control mode of the device is automatically controlled by a controller, a control circuit of the controller can be realized by simple programming of a person skilled in the art, and the device is powered by an external power supply, belonging to the common knowledge in the field.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a button cell production technology is with water conservation aluminium foil cleaning machine, includes cleaning machine main part (1), clean jar main part (20), first water tank structure (30), second water tank structure (40), third water tank structure (50), first peristaltic pump structure (60), second peristaltic pump structure (70), third peristaltic pump structure (80), its characterized in that: a main body switch (16) and a prompt sound box (17) are integrally arranged on one side of the cleaning machine main body (1), a cleaning machine platform (4) and a support mechanism (11) are integrally arranged at the upper end of the cleaning machine main body (1), a sprinkler (12) is fixedly installed on the support mechanism (11), and a first sprinkler connector (13), a second sprinkler connector (14) and a third sprinkler connector (15) are arranged on the sprinkler (12);

a first automatic brake (21), a second automatic brake (22) and a third automatic brake (23) are fixedly arranged on the front surface of the cleaning cylinder main body (20), a third automatic brake switch (24) is integrally arranged on the third automatic brake (23), and the cleaning cylinder main body (20) is arranged on the cleaning machine platform (4);

the first water tank structure (30), the second water tank structure (40) and the third water tank structure (50) are arranged in the same way and comprise a water tank base (3a), a base hole (3b), a bearing plate (3c), a water tank main body (3d), a water tank upper cover (3e), a sensor base (3f), a weight sensor (3g) and a sensor upper cover (3h), wherein the base hole (3b) is formed in the front of the water tank base (3a), a groove is formed in the water tank base (3a), the bearing plate (3c) is placed in the groove of the water tank base (3a), the water tank main body (3d) is placed on the bearing plate (3c), the water tank upper cover (3e) is inserted in the water tank main body (3d), a groove is formed in the sensor base (3f), and the weight sensor (3g) is placed in the groove of the sensor base (3f), the rear end of the sensor base (3f) is provided with a hole, the hole at the rear end of the sensor base (3f) is communicated with the base hole (3b), the sensor upper cover (3h) is inserted into the upper end of the sensor base (3f), and the weight sensor (3g) is electrically connected to the bearing plate (3 c);

a first water tank water outlet (31) and a first water tank water inlet (32) are formed in a water tank upper cover (3e) of the first water tank structure (30), a second water tank water outlet (41) and a second water tank water inlet (42) are formed in a water tank upper cover (3e) of the second water tank structure (40), and a third water tank water outlet (51) and a third water tank water inlet (52) are formed in a water tank upper cover (3e) of the third water tank structure (50);

the peristaltic pump comprises a first peristaltic pump structure (60), a second peristaltic pump structure (70) and a third peristaltic pump structure (80), and is characterized in that the first peristaltic pump structure, the second peristaltic pump structure and the third peristaltic pump structure are arranged in the same manner, the first peristaltic pump structure, the second peristaltic pump structure and the third peristaltic pump structure comprise a peristaltic pump (6a), a peristaltic pump fixing frame (6b) and a peristaltic pump base (6c), the peristaltic pump fixing frame (6b) is integrally arranged at the upper end of the peristaltic pump base (6c), and the peristaltic pump (6a) is installed in the peristaltic pump fixing frame (6b) in a buckling manner;

peristaltic pump (6a) upper end integration of first peristaltic pump structure (60) is provided with first peristaltic pump mouth of pumping (61) and first peristaltic pump outlet (62), peristaltic pump (6a) upper end integration of second peristaltic pump structure (70) is provided with second peristaltic pump mouth of pumping (71) and second peristaltic pump outlet (72), peristaltic pump (6a) upper end integration of third peristaltic pump structure (80) is provided with third peristaltic pump mouth of pumping (81) and third peristaltic pump outlet (82).

2. The water-saving aluminum foil cleaning machine for the button cell production process according to claim 1, characterized in that: clean jar main part (20) set up to upper end open structure, clean jar main part (20) openly seted up three group's holes and be the equidistance and distribute, the rear end mouth of pipe intercommunication of first automatic floodgate (21), second automatic floodgate (22) and third automatic floodgate (23) is installed on three group's holes of clean jar main part (20).

3. The water-saving aluminum foil cleaning machine for the button cell production process according to claim 2, characterized in that: the front end pipe orifice of the first automatic brake (21) is communicated with a first water tank water inlet (32) through a water pipe, a first water tank water outlet (31) is communicated with a first peristaltic pump water inlet (61) through a water pipe, and a first peristaltic pump water outlet (62) is communicated with a first connector (13) of the sprayer through a water pipe.

4. The water-saving aluminum foil cleaning machine for the button cell production process according to claim 2, characterized in that: the front end pipe orifice of the second automatic brake (22) is communicated with a second water tank water inlet (42) through a water pipe, a second water tank water outlet (41) is communicated with a second peristaltic pump water inlet (71) through a water pipe, and a second peristaltic pump water outlet (72) is communicated with a second connector (14) of the sprayer through a water pipe.

5. The water-saving aluminum foil cleaning machine for the button cell production process according to claim 2, characterized in that: the front end pipe orifice of the third automatic brake (23) is communicated with a wastewater tank (3) through a water pipe, the third water tank water inlet (52) is communicated with a water tap (2) through a water pipe, the third water tank water outlet (51) is communicated with a third peristaltic pump water outlet (81) through a water pipe, and a third peristaltic pump water outlet (82) is communicated with a third connector (15) of the sprinkler through a water pipe.

6. The water-saving aluminum foil cleaning machine for the button cell production process according to claim 1, characterized in that: the weight sensor (3g) of the first water tank structure (30) is electrically connected with the first automatic brake (21), the peristaltic pump (6a) of the first peristaltic pump structure (60) and the peristaltic pump (6a) of the second peristaltic pump structure (70), and the main body switch (16) is electrically connected with the peristaltic pump (6a) of the first peristaltic pump structure (60) and the sprayer (12).

7. The water-saving aluminum foil cleaning machine for the button cell production process according to claim 1, characterized in that: and the weight sensor (3g) of the second water tank structure (40) is electrically connected with the second automatic brake (22), the peristaltic pump (6a) of the second peristaltic pump structure (70) and the peristaltic pump (6a) of the third peristaltic pump structure (80).

8. The water-saving aluminum foil cleaning machine for the button cell production process according to claim 1, characterized in that: the weight sensor (3g) of the third water tank structure (50) is electrically connected with the third automatic brake (23), the peristaltic pump (6a) of the third peristaltic pump structure (80), the prompt sound (17) and the main switch (16).