CN110884267B - Cleaning device - Google Patents

Abstract

The application discloses belt cleaning device. This belt cleaning device includes: the device comprises a part to be cleaned, a first cleaning part, a second cleaning part, a control part and a measuring part; the first cleaning component and the component to be cleaned form a first circulating system, when a first measurement value of the first turbidimeter is larger than or equal to a first threshold value, the first circulating system is started, the second cleaning component and the component to be cleaned form a second circulating system, when the first measurement value of the first turbidimeter is smaller than the first threshold value and larger than a second threshold value, the first circulating system is closed, and the second circulating system is started. The size of solution turbidity is measured through the measuring part to and the control unit passes through the switch of above-mentioned measuring data control valve, treats the self-cleaning of cleaning element with the cleaner that realizes utilizing the difference, has realized belt cleaning device's automation.

Description

Cleaning device

Technical Field

The application relates to the field of cleaning, in particular to a cleaning device.

Background

Ink jet printing technology has been applied to paper and is now increasingly applied to the display field.

In the prior art, after inkjet printing is finished or before ink is added, the ink box needs to be cleaned, most cleaning modes are manual cleaning, the cleaning device is not automatic, and a large amount of cost needs to be consumed for cleaning every time.

Therefore, a cleaning device is needed to solve the above technical problems.

Disclosure of Invention

The application provides a cleaning device to solve the technical problem of cost waste caused by manual cleaning of an ink box.

In order to solve the above problems, the technical solution provided by the present application is as follows:

a cleaning device, comprising:

a component to be cleaned;

the first cleaning component comprises a first solvent container, a first recovery container, a first pipeline connecting the first solvent container and the first recovery container, and a second pipeline connecting the first solvent container and the component to be cleaned, and the first cleaning component and the component to be cleaned form a first circulating system;

the second cleaning part comprises a second solvent container, a second recovery container, a third pipeline connecting the second solvent container and the second recovery container, and a fourth pipeline connecting the second solvent container and the part to be cleaned, and the second cleaning part and the part to be cleaned form a second circulating system;

a control component;

the measuring component is electrically connected with the control component and comprises a first turbidimeter for measuring the solution in the component to be cleaned;

when the first measurement value of the first turbidimeter is greater than or equal to a first threshold value, the first circulation system is started, and the flow direction of the liquid in the first circulation system is from the first cleaning part to the part to be cleaned and from the part to be cleaned to the first cleaning part;

when the first measurement value of the first turbidimeter is smaller than the first threshold value and larger than a second threshold value, the first circulation system is closed, the second circulation system is opened, and the flow direction of liquid in the second circulation system is from the second cleaning part to the part to be cleaned and from the part to be cleaned to the second cleaning part.

In the cleaning apparatus of the present application,

the first cleaning component further comprises a first pressure device positioned on the first pipeline, the second cleaning component further comprises a second pressure device positioned on the third pipeline, and the first pressure device and the second pressure device are used for providing circulating power of the first circulating system and the second circulating system;

when the first pressure device is started, the first circulating system is started, and the flowing direction of liquid in the first circulating system is from the first cleaning part to the part to be cleaned and from the part to be cleaned to the first cleaning part;

when the second pressure device is started, the second circulating system is started, and the flowing direction of liquid in the second circulating system is from the second cleaning part to the part to be cleaned and from the part to be cleaned to the second cleaning part.

In the cleaning apparatus of the present application,

the first cleaning part also comprises a three-way valve and a fifth pipeline for connecting the three-way valve and the inlet of the part to be cleaned;

the three-way valve is connected with the first pipeline, the inlet of the first solvent container and the inlet of the component to be cleaned;

a first solvent is arranged in the first solvent container, and the first solvent is arranged in the first recovery container;

when the first measurement value of the first turbidimeter is greater than a third threshold value, the three-way valve is closed corresponding to a valve of the first solvent container, the three-way valve is opened corresponding to the first pipeline and a valve of the component to be cleaned, the first pressure device is opened, the first circulation system is opened, and the flow direction of liquid in the first circulation system is from the first recovery container to the first pipeline, from the first pipeline to the first pressure device, from the first pressure device to the three-way valve, from the three-way valve to the fifth pipeline, from the fifth pipeline to the component to be cleaned, and from the component to be cleaned to the first recovery container;

when the first measurement value of the first turbidimeter is less than or equal to the third threshold value and greater than the first threshold value, a valve of the first solvent container corresponding to the three-way valve is opened, the first pressure device is opened, the first circulation system is opened, and the flow direction of the liquid in the first circulation system is from the first solvent container to the second pipeline, from the second pipeline to the part to be cleaned, from the part to be cleaned to the first recovery container, from the first recovery container to the first pipeline, from the first pipeline to the first pressure device, from the first pressure device to the three-way valve, and from the three-way valve to the first solvent container;

wherein the third threshold is greater than the first threshold.

In the cleaning device of the present application, the first solvent container includes a first sub-solvent container and a second sub-solvent container, and the first sub-solvent container and the second sub-solvent container include independent valves and independent pipelines;

when the first measurement value of the first turbidimeter is greater than the third threshold value, the inlet and outlet valves of the first sub-solvent container are opened, the inlet and outlet valves of the second sub-solvent container are closed, the first pressure device is opened, the first circulation system is opened, and the flow direction of the liquid in the first circulation system is from the first sub-solvent container to the second pipeline, from the second pipeline to the part to be cleaned, from the part to be cleaned to the first recovery container, from the first recovery container to the first pipeline, from the first pipeline to the first pressure device, and from the first pressure device to the first sub-solvent container;

when the first measurement value of the first turbidimeter is less than or equal to the third threshold value and greater than the first threshold value, the inlet and outlet valves of the first sub-solvent container are closed, the inlet and outlet valves of the second sub-solvent container are opened, the first pressure device is opened, the first circulation system is opened, and the flow direction of the liquid in the first circulation system is from the second sub-solvent container to the second pipeline, from the second pipeline to the part to be cleaned, from the part to be cleaned to the first recovery container, from the first recovery container to the first pipeline, from the first pipeline to the first pressure device, and from the first pressure device to the second sub-solvent container;

wherein the third threshold is greater than the first threshold.

In the cleaning apparatus of the present application, the measuring means further includes a second turbidity meter for measuring the solution in the first recovery tank;

the first recovery container comprises a first emptying valve and a first emptying pipeline corresponding to the first emptying valve;

when a second measurement value of the second turbidimeter is greater than a fourth threshold value, a valve connecting the first recovery container and the first pipeline is closed, and the first emptying valve is opened;

the first emptying valve and the first emptying pipeline are used for discharging the liquid in the first recovery container out of the first circulation system;

wherein the fourth threshold is greater than the third threshold.

In the cleaning apparatus of the present application,

the first solvent container also comprises a first solvent replenishing container and a pipeline for connecting the first solvent container and the first solvent replenishing container, and the first solvent replenishing container is used for replenishing the first solvent;

when the ratio of the volume of liquid in the first recovery vessel to the volume of the first recovery vessel is less than a fifth threshold, the first drain valve is closed and the valve of the first solvent makeup vessel is opened.

In the cleaning apparatus of the present application,

the first cleaning component also comprises a first moving component corresponding to the first pipeline;

when the first measurement value of the first turbidimeter is greater than or equal to a first threshold value, the first recovery tank is moved to a first position by the first moving part, and a orthographic projection of a first solvent discharge port of the part to be cleaned to the ground surface is located within an inlet of the first recovery tank;

the second cleaning component also comprises a second moving component corresponding to the third pipeline;

when the first measurement value of the first turbidimeter is smaller than the first threshold value and larger than the second threshold value, the second recovery container is moved to a second position by the second moving member, and the orthographic projection of the second solvent discharge port of the member to be cleaned to the ground is located in the inlet of the second recovery container.

In the cleaning apparatus of the present application,

the solution in the second solvent container is a second solvent;

the solubility of the object to be cleaned in the part to be cleaned in the second solvent is greater than the solubility of the object to be cleaned in the first solvent.

In the cleaning apparatus of the present application,

the cleaning device also comprises a third cleaning component;

the third cleaning component comprises a third solvent container, a third recovery container, a sixth pipeline for connecting the third solvent container with the third recovery container, and a seventh pipeline for connecting the third solvent container with the component to be cleaned, and the third cleaning component and the component to be cleaned form a third circulating system.

In the cleaning apparatus of the present application,

the solution in the third solvent container is a solution to be worked;

when the third circulation system is started, the first turbidimeter is closed, and the flow direction of the liquid in the third circulation system is from the third solvent container to the seventh pipeline, from the seventh pipeline to the part to be cleaned, from the part to be cleaned to the third recovery container, from the third recovery container to the sixth pipeline, and from the sixth pipeline to the third solvent container.

Has the advantages that: the size of solution turbidity is measured through the measuring part to and the control unit passes through the switch of above-mentioned measuring data control valve, treats the self-cleaning of cleaning element with the cleaner that realizes utilizing the difference, has realized belt cleaning device's automation.

Drawings

In order to illustrate the embodiments or the technical solutions in the prior art more clearly, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the application, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of a first embodiment of a cleaning apparatus according to the present application;

FIG. 2 is a schematic view of a second embodiment of the cleaning apparatus of the present application;

FIG. 3 is a schematic view of a third embodiment of the cleaning apparatus of the present application;

FIG. 4 is a schematic view of a fourth embodiment of the cleaning apparatus of the present application;

FIG. 5 is a schematic view of a fifth embodiment of the cleaning apparatus of the present application;

fig. 6 is a partial orthographic view of a fourth structural schematic of the cleaning device of the present application.

Detailed Description

The following description of the various embodiments refers to the accompanying drawings, which are included to illustrate specific embodiments that can be implemented by the application. Directional phrases used in this application, such as [ upper ], [ lower ], [ front ], [ rear ], [ left ], [ right ], [ inner ], [ outer ], [ side ], etc., refer only to the directions of the attached drawings. Accordingly, the directional terminology is used for purposes of illustration and understanding, and is in no way limiting. In the drawings, elements having similar structures are denoted by the same reference numerals.

In the prior art, after inkjet printing is finished or before ink is added, the ink box needs to be cleaned, most cleaning modes are manual cleaning, the cleaning device is not automatic, and a large amount of cost needs to be consumed for cleaning every time. Based on this, this application proposes a cleaning device.

Referring to fig. 1 to 6, the cleaning apparatus 100 includes:

the part to be cleaned 200;

a first cleaning unit 300 including a first solvent container 310, a first recovery container 320, a first pipe 330 connecting the first solvent container 310 and the first recovery container 320, and a second pipe 340 connecting the first solvent container 310 and the unit to be cleaned 200, the first cleaning unit 300 and the unit to be cleaned 200 forming a first circulation system;

a second cleaning unit 400 including a second solvent container 410, a second recovery container 420, a third pipeline 430 connecting the second solvent container 410 and the second recovery container 420, and a fourth pipeline 440 connecting the second solvent container 420 and the unit to be cleaned 200, wherein the second cleaning unit 400 and the unit to be cleaned 200 form a second circulation system;

a control component;

a measuring part 600 electrically connected with the control part, wherein the measuring part 600 comprises a first turbidimeter 610 for measuring the solution in the part to be cleaned 200;

when the first measurement value of the first turbidimeter 610 is greater than or equal to a first threshold value, the first circulation system is turned on, and the flow direction of the liquid in the first circulation system is from the first cleaning part 300 to the part to be cleaned 200, and from the part to be cleaned 200 to the first cleaning part 300;

when the first measurement value of the first turbidimeter 610 is smaller than the first threshold value and larger than the second threshold value, the first circulation system is closed, the second circulation system is opened, and the flowing direction of the liquid in the second circulation system is from the second cleaning part 400 to the part to be cleaned 200 and from the part to be cleaned 200 to the second cleaning part 400.

The size of solution turbidity is measured through the measuring part to and the control unit passes through the switch of above-mentioned measuring data control valve, treats the self-cleaning of cleaning element with the cleaner that realizes utilizing the difference, has realized belt cleaning device's automation.

The technical solution of the present application will now be described with reference to specific embodiments.

Referring to fig. 1 to 6, the cleaning apparatus 100 includes:

the part to be cleaned 200.

The first cleaning component 300 includes a first solvent container 310, a first recycling container 320, a first pipeline 330 connecting the first solvent container 310 and the first recycling container 320, and a second pipeline 340 connecting the first solvent container 310 and the component to be cleaned 200, wherein the first cleaning component 300 and the component to be cleaned 200 form a first circulation system.

The second cleaning unit 400 includes a second solvent container 410, a second recovery container 420, a third pipeline 430 connecting the second solvent container 410 and the second recovery container 420, and a fourth pipeline 440 connecting the second solvent container 410 and the unit to be cleaned 200, and the second cleaning unit 400 and the unit to be cleaned 200 form a second circulation system.

And a control component.

A measuring part 600 electrically connected with the control part, wherein the measuring part 600 comprises a first turbidimeter 610 for measuring the solution in the part 200 to be cleaned.

When the first measurement value of the first turbidimeter 610 is greater than or equal to the first threshold value, the first circulation system is turned on, and the flow direction of the liquid in the first circulation system is from the first cleaning part 300 to the part to be cleaned 200, and from the part to be cleaned 200 to the first cleaning part 300.

When the first measurement value of the first turbidimeter 610 is smaller than the first threshold value and larger than the second threshold value, the first circulation system is closed, the second circulation system is opened, and the flowing direction of the liquid in the second circulation system is from the second cleaning part 400 to the part to be cleaned 200 and from the part to be cleaned 200 to the second cleaning part 400.

In this embodiment, the volumes of the first solvent container 310, the first recovery container 320, the second solvent container 410, and the second recovery container 420 are 25 ml to 500 ml, and the specific volume is determined according to the volume of the component 200 to be cleaned and the components of the object to be cleaned, and is not limited herein.

In this embodiment, all the containers, the pipelines, and the outlet valves are made of materials that do not react with the cleaning agent, the solvent of the solution to be worked, and the solution to be worked, including glass and ceramic.

In this embodiment, the first threshold is greater than the second threshold, and the first threshold and the second threshold may be specifically set according to an actual situation, and are not limited to specific sizes.

In this embodiment, the first cleaning component 300 further includes a first pressure device 350 located on the first pipeline 330, the second cleaning component 400 further includes a second pressure device 450 located on the third pipeline 430, and the first pressure device 350 and the second pressure device 450 are used for providing circulating power of the first circulating system and the second circulating system. When the first pressure means 350 is turned on, the first circulation system is turned on, and the flow direction of the liquid in the first circulation system is from the first cleaning part 300 to the part to be cleaned 200, and from the part to be cleaned 200 to the first cleaning part 300. When the second pressure device 450 is turned on, the second circulation system is turned on, and the flow direction of the liquid in the second circulation system is from the second cleaning part 400 to the part to be cleaned 200, and from the part to be cleaned 200 to the second cleaning part 400, please refer to fig. 1 specifically.

In this embodiment, the first cleaning part 300 includes a three-way valve 360 and a fifth pipeline 370 connecting the three-way valve 360 and the inlet of the part to be cleaned 200. The three-way valve 360 connects the first pipe 330, the inlet of the first solvent container 310, and the inlet of the member to be cleaned 200. A first solvent is disposed in the first solvent container 310, and the first solvent is disposed in the first recovery container 320. When the first measurement value of the first turbidimeter 610 is greater than the third threshold value, the three-way valve 360 is closed corresponding to the valve of the first solvent container 310, the three-way valve 360 is opened corresponding to the valve of the first pipeline 330 and the component 200 to be cleaned, the first pressure device 350 is opened, the first circulation system is opened, and the flow direction of the liquid in the first circulation system is from the first recovery container 320 to the first pipeline 330, from the first pipeline 330 to the first pressure device 350, from the first pressure device 350 to the three-way valve 360, from the three-way valve 360 to the fifth pipeline 370, from the fifth pipeline 370 to the component 200 to be cleaned, and from the component 200 to be cleaned to the first recovery container 320. When the first measurement of the first turbidimeter 610 is less than or equal to the third threshold and greater than the first threshold, the valve of the first recovery vessel 320 corresponding to the three-way valve 360 is closed, the valve of the first solvent vessel 310 corresponding to the three-way valve 360 is opened, the first pressure device 350 is turned on, the first circulation system is turned on, and the flow direction of the liquid in the first circulation system is from the first solvent container 310 to the second pipe 340, from the second pipe 340 to the member to be cleaned 200, from the member to be cleaned 200 to the first recovery container 320, from the first recovery container 320 to the first pipe 330, from the first pipe 330 to the first pressure device 350, from the first pressure device 350 to the three-way valve 360, and from the three-way valve 360 to the first solvent container 310. Wherein the third threshold is greater than the first threshold.

The control component changes the circulation direction of the three-way valve through comparison between the first measurement value of the first turbidimeter and the third threshold value and the first threshold value, circulates the first solvent in batches, automatically cleans the component to be cleaned, makes full use of the cleaning agent, reduces material consumption, reduces cost, and improves the utilization rate of the cleaning agent, and please refer to fig. 2 specifically.

In this embodiment, the third threshold is greater than the first threshold, and the third threshold may be specifically set according to an actual situation, and is not limited to a specific size.

In this embodiment, the first solvent container 310 includes a first sub-solvent container 311 and a second sub-solvent container 312, and the first sub-solvent container 311 and the second sub-solvent container 312 include independent valves and independent pipelines. When the first measurement value of the first turbidimeter 610 is greater than the third threshold value, the inlet and outlet valves of the first sub-solvent container 311 are opened, the inlet and outlet valves of the second sub-solvent container 312 are closed, the first pressure device 350 is opened, the first circulation system is opened, and the flow direction of the liquid in the first circulation system is from the first sub-solvent container 311 to the second pipeline 340, from the second pipeline 340 to the component to be cleaned 200, from the component to be cleaned 200 to the first recovery container 320, from the first recovery container 320 to the first pipeline 330, from the first pipeline 330 to the first pressure device 350, and from the first pressure device 350 to the first sub-solvent container 311. When the first measurement value of the first turbidimeter 610 is less than or equal to the third threshold value and greater than the first threshold value, the inlet and outlet valves of the first sub-solvent container 311 are closed, the inlet and outlet valves of the second sub-solvent container 312 are opened, the first pressure device 350 is opened, the first circulation system is opened, and the flow direction of the liquid in the first circulation system is from the second sub-solvent container 312 to the second pipeline 340, from the second pipeline 340 to the part to be cleaned 200, from the part to be cleaned 200 to the first recovery container 320, from the first recovery container 320 to the first pipeline 330, from the first pipeline 330 to the first pressure device 350, and from the first pressure device 350 to the second sub-solvent container 312. Wherein the third threshold is greater than the first threshold.

The control component controls the working states of the first sub-solvent container and the second sub-solvent container respectively by comparing the first measurement value of the first turbidimeter with the third threshold value and the first threshold value, and performs circulation respectively to automatically clean the component to be cleaned, so that the cleaning agent is fully utilized, the consumption of materials is reduced, the cost is reduced, and the utilization rate of the cleaning agent is improved, which is shown in fig. 3.

In this embodiment, the third threshold is greater than the first threshold, and the third threshold may be specifically set according to an actual situation, and is not limited to a specific size.

In this embodiment, the measuring unit 600 further includes a second turbidimeter 620 for measuring the solution in the first recovery container 320. The first recovery container 320 includes a first emptying valve 321 and a first emptying pipe 322 corresponding to the first emptying valve 321. When the second measurement value of the second turbidimeter 620 is greater than the fourth threshold value, the valve connecting the first recovery tank 320 and the first pipe 330 is closed, and the first drain valve 321 is opened. The first emptying valve 321 and the first emptying pipeline 322 are used for discharging the liquid in the first recycling container 320 out of the first recycling system. Wherein the fourth threshold is greater than the third threshold.

The control component controls the opening and closing of the discharge valve of the first recycling container by comparing the second measurement value of the second turbidimeter with the fourth threshold value and the third threshold value, so that the cleaning agent with a certain dissolved amount to be cleaned is discharged from the first circulation system, and automatic waste liquid discharge is realized, specifically, refer to fig. 2 to 5.

In this embodiment, the fourth threshold is greater than the third threshold, and the fourth threshold may be specifically set according to an actual situation, and the specific size is not limited herein.

In this embodiment, the first solvent container 310 further includes a first solvent replenishing container 313 and a pipeline connecting the first solvent container 310 and the first solvent replenishing container 313, and the first solvent replenishing container 313 is used for replenishing the first solvent. When the fourth threshold is greater than the third threshold and the ratio of the volume of the liquid in the first recovery tank 320 to the volume of the first recovery tank 320 is less than the fifth threshold, the first drain valve 321 is closed and the valve of the first solvent replenishment tank 313 is opened.

After the waste liquid is completely discharged, the first solvent replenishing container replenishes the solvent, and a ratio of a volume of the liquid in the first recovery container to a volume of the first recovery container is smaller than a fifth threshold, which is an indication that the waste liquid is completely discharged, specifically refer to fig. 4.

In this embodiment, the fifth threshold may be specifically set according to actual conditions, for example, the viscosity of the cleaning agent, the requirement of the cleaning degree, and the like, and the specific size is not limited herein.

In this embodiment, the second recycling container 420 further includes a second emptying valve 421 and a second emptying pipe 422 corresponding to the second emptying valve 421. The second emptying valve 421 may be periodically opened according to specific conditions such as cleaning frequency and cleaning intensity, so as to discharge the waste liquid in the second recycling container 420 and maintain the cleaning effect of the second cleaning agent in the second circulation system, as shown in fig. 2 to 5.

In this embodiment, the first cleaning part 300 further includes a first moving part 380 corresponding to the first pipe 330. When the first measurement value of the first turbidimeter 610 is greater than or equal to a first threshold value, the first recovery container 320 is moved to a first position by the first moving member 380, and a forward projection of the first solvent outlet 210 of the to-be-cleaned part 200 to the ground is located in the inlet of the first recovery container 320. The second cleaning part 400 further includes a second moving part 460 corresponding to the third pipe 430. When the first measurement value of the first turbidimeter 610 is smaller than the first threshold value and larger than the second threshold value, the second recovery tank 420 is moved to the second position by the second moving member 460, and the orthographic projection of the second solvent outlet 220 of the to-be-cleaned member 200 to the ground is located in the inlet of the second recovery tank 420, please refer to fig. 4 and fig. 6 specifically.

In this embodiment, the first moving member 380 includes a first rail 381 and a first rail connecting portion 382. The first track connecting portion 382 plays a role of fixed connection, and when the first recycling container 320 is moved to the first position by the first moving member 380, the outlet valve of the first recycling container 320 is connected to the first pipeline 330, as shown in fig. 4 and 6.

In this embodiment, the second moving member 460 includes a second rail 461 and a second rail connecting part 462. The second rail connecting part 462 plays a role of fixed connection, and when the second recovery tank 420 is moved to the second position by the second moving part 460, the outlet valve of the second recovery tank 420 is connected to the third pipeline 430, as shown in fig. 4 and 6.

In this embodiment, the component 200 to be cleaned further includes a seventh pipeline connecting the first solvent outlet 210 and the first recovery container 320, and an eighth pipeline connecting the second solvent outlet 220 and the second recovery container 420. The discharge port of the part to be cleaned is connected with the recovery container, so that splashing in the solution circulation process is prevented, and particularly splashing of dangerous and harmful solutions with corrosivity and the like is prevented.

In this embodiment, the solution in the second solvent container 410 is the second solvent. The solubility of the object to be cleaned in the part to be cleaned 200 in the second solvent is greater than the solubility of the object to be cleaned in the first solvent. Different kinds of cleaning agents circulate in different circulating systems, so that the mutual influence of the different kinds of cleaning agents is avoided. Meanwhile, the capacity of the second solvent for dissolving the objects to be cleaned is higher than the capacity of the first solvent for dissolving the objects to be cleaned, so that the objects to be cleaned which are not cleaned in the first circulating system are better cleaned, and a better cleaning effect of automatic cleaning is achieved.

In this embodiment, the cleaning device 100 further includes a third cleaning component 500. The third cleaning component 500 includes a third solvent container 510, a third recovery container 520, a sixth pipeline 530 connecting the third solvent container 510 and the third recovery container 520, and a seventh pipeline 540 connecting the third solvent container 510 and the component to be cleaned 200, and the third cleaning component 500 and the component to be cleaned 200 form a third circulation system, please refer to fig. 5 specifically.

In this embodiment, the third cleaning component 500 further comprises a third pressure device 550 on the sixth pipeline 530.

In this embodiment, the cleaning device 100 further includes at least one third cleaning component 500. According to the actual conditions of different cleaning requirements of the parts to be cleaned, the working environment of the working parts and the like, different cleaning agents are added to realize automatic cleaning.

In this embodiment, the solution in the third solvent container 510 is a solution to be worked. When the third circulation system is turned on, the first turbidimeter 610 is turned off, and the liquid in the third circulation system flows through the third solvent container 510 to the seventh pipeline 540, through the seventh pipeline 540 to the part to be cleaned 200, through the part to be cleaned 200 to the third recovery container 520, through the third recovery container 520 to the sixth pipeline 530, and through the sixth pipeline 530 to the third solvent container 510. Through the third circulation system, the part to be cleaned is rinsed with the working solution to be treated, the working solution to be treated is the same as the working solution, it is ensured that when the working solution is added, the working environment of the part to be cleaned is the same as the working environment of the working part, and automatic cleaning and automatic rinsing are realized, specifically referring to fig. 5.

In this embodiment, the solution in the third solvent container 510 is a solution to be worked. When the third pressure device 550 is turned on, the third circulation system is turned on, the first turbidimeter 610 is turned off, and the liquid in the third circulation system flows in the direction from the third solvent container 510 to the seventh pipeline 540, from the seventh pipeline 540 to the part to be cleaned 200, from the part to be cleaned 200 to the third recovery container 520, from the third recovery container 520 to the sixth pipeline 530, from the sixth pipeline 530 to the third pressure device 550, and from the third pressure device 550 to the third solvent container 510. Through the third circulation system, the part to be cleaned is rinsed with the working solution to be treated, the working solution to be treated is the same as the working solution, it is ensured that when the working solution is added, the working environment of the part to be cleaned is the same as the working environment of the working part, and automatic cleaning and automatic rinsing are realized, specifically referring to fig. 5.

The application discloses belt cleaning device. This belt cleaning device includes: the device comprises a part to be cleaned, a first cleaning part, a second cleaning part, a control part and a measuring part; the first cleaning component and the component to be cleaned form a first circulating system, when a first measurement value of the first turbidimeter is larger than or equal to a first threshold value, the first circulating system is started, the second cleaning component and the component to be cleaned form a second circulating system, when the first measurement value of the first turbidimeter is smaller than the first threshold value and larger than a second threshold value, the first circulating system is closed, and the second circulating system is started. The size of solution turbidity is measured through the measuring part to and the control unit passes through the switch of above-mentioned measuring data control valve, treats the self-cleaning of cleaning element with the cleaner that realizes utilizing the difference, has realized belt cleaning device's automation.

In summary, although the present application has been described with reference to the preferred embodiments, the above-described preferred embodiments are not intended to limit the present application, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present application, so that the scope of the present application shall be determined by the appended claims.

Claims (10)

1. A cleaning device, comprising:

a component to be cleaned;

the first cleaning component comprises a first solvent container, a first recovery container, a first pipeline connecting the first solvent container and the first recovery container, and a second pipeline connecting the first solvent container and the component to be cleaned, and the first cleaning component and the component to be cleaned form a first circulating system;

the second cleaning part comprises a second solvent container, a second recovery container, a third pipeline connecting the second solvent container and the second recovery container, and a fourth pipeline connecting the second solvent container and the part to be cleaned, and the second cleaning part and the part to be cleaned form a second circulating system;

a control component;

the measuring component is electrically connected with the control component and comprises a first turbidimeter for measuring the solution in the component to be cleaned;

when the first measurement value of the first turbidimeter is greater than or equal to a first threshold value, the first circulation system is started, and the flow direction of the liquid in the first circulation system is from the first cleaning part to the part to be cleaned and from the part to be cleaned to the first cleaning part;

when the first measurement value of the first turbidimeter is smaller than the first threshold value and larger than a second threshold value, the first circulation system is closed, the second circulation system is opened, and the flow direction of liquid in the second circulation system is from the second cleaning part to the part to be cleaned and from the part to be cleaned to the second cleaning part.

2. The cleaning device of claim 1,

the first cleaning component further comprises a first pressure device positioned on the first pipeline, the second cleaning component further comprises a second pressure device positioned on the third pipeline, and the first pressure device and the second pressure device are used for providing circulating power of the first circulating system and the second circulating system;

when the first pressure device is started, the first circulating system is started, and the flowing direction of liquid in the first circulating system is from the first cleaning part to the part to be cleaned and from the part to be cleaned to the first cleaning part;

when the second pressure device is started, the second circulating system is started, and the flowing direction of liquid in the second circulating system is from the second cleaning part to the part to be cleaned and from the part to be cleaned to the second cleaning part.

3. The cleaning device of claim 2,

the first cleaning part also comprises a three-way valve and a fifth pipeline for connecting the three-way valve and the inlet of the part to be cleaned;

the three-way valve is connected with the first pipeline, the inlet of the first solvent container and the inlet of the component to be cleaned;

a first solvent is arranged in the first solvent container, and the first solvent is arranged in the first recovery container;

when the first measurement value of the first turbidimeter is greater than a third threshold value, the three-way valve is closed corresponding to a valve of the first solvent container, the three-way valve is opened corresponding to the first pipeline and a valve of the component to be cleaned, the first pressure device is opened, the first circulation system is opened, and the flow direction of liquid in the first circulation system is from the first recovery container to the first pipeline, from the first pipeline to the first pressure device, from the first pressure device to the three-way valve, from the three-way valve to the fifth pipeline, from the fifth pipeline to the component to be cleaned, and from the component to be cleaned to the first recovery container;

when the first measurement value of the first turbidimeter is less than or equal to the third threshold value and greater than the first threshold value, a valve of the first solvent container corresponding to the three-way valve is opened, the first pressure device is opened, the first circulation system is opened, and the flow direction of the liquid in the first circulation system is from the first solvent container to the second pipeline, from the second pipeline to the part to be cleaned, from the part to be cleaned to the first recovery container, from the first recovery container to the first pipeline, from the first pipeline to the first pressure device, from the first pressure device to the three-way valve, and from the three-way valve to the first solvent container;

wherein the third threshold is greater than the first threshold.

4. The cleaning device of claim 2, wherein the first solvent container comprises a first sub-solvent container and a second sub-solvent container, and the first sub-solvent container and the second sub-solvent container comprise independent valves and independent pipelines;

when the first measurement value of the first turbidimeter is greater than the third threshold value, the inlet and outlet valves of the first sub-solvent container are opened, the inlet and outlet valves of the second sub-solvent container are closed, the first pressure device is opened, the first circulation system is opened, and the flow direction of the liquid in the first circulation system is from the first sub-solvent container to the second pipeline, from the second pipeline to the part to be cleaned, from the part to be cleaned to the first recovery container, from the first recovery container to the first pipeline, from the first pipeline to the first pressure device, and from the first pressure device to the first sub-solvent container;

when the first measurement value of the first turbidimeter is less than or equal to the third threshold value and greater than the first threshold value, the inlet and outlet valves of the first sub-solvent container are closed, the inlet and outlet valves of the second sub-solvent container are opened, the first pressure device is opened, the first circulation system is opened, and the flow direction of the liquid in the first circulation system is from the second sub-solvent container to the second pipeline, from the second pipeline to the part to be cleaned, from the part to be cleaned to the first recovery container, from the first recovery container to the first pipeline, from the first pipeline to the first pressure device, and from the first pressure device to the second sub-solvent container;

wherein the third threshold is greater than the first threshold.

5. The cleaning apparatus according to claim 3 or 4, wherein the measuring means further comprises a second turbidimeter for measuring the solution in the first recovery tank;

the first recovery container comprises a first emptying valve and a first emptying pipeline corresponding to the first emptying valve;

when a second measurement value of the second turbidimeter is greater than a fourth threshold value, a valve connecting the first recovery container and the first pipeline is closed, and the first emptying valve is opened;

the first emptying valve and the first emptying pipeline are used for discharging the liquid in the first recovery container out of the first circulation system;

wherein the fourth threshold is greater than the third threshold.

6. The cleaning device of claim 5,

the first solvent container also comprises a first solvent replenishing container and a pipeline for connecting the first solvent container and the first solvent replenishing container, and the first solvent replenishing container is used for replenishing the first solvent;

when the ratio of the volume of liquid in the first recovery vessel to the volume of the first recovery vessel is less than a fifth threshold, the first drain valve is closed and the valve of the first solvent makeup vessel is opened.

7. The cleaning device of claim 1,

the first cleaning component also comprises a first moving component corresponding to the first pipeline;

when the first measurement value of the first turbidimeter is greater than or equal to a first threshold value, the first recovery tank is moved to a first position by the first moving part, and a orthographic projection of a first solvent discharge port of the part to be cleaned to the ground surface is located within an inlet of the first recovery tank;

the second cleaning component also comprises a second moving component corresponding to the third pipeline;

when the first measurement value of the first turbidimeter is smaller than the first threshold value and larger than the second threshold value, the second recovery container is moved to a second position by the second moving member, and the orthographic projection of the second solvent discharge port of the member to be cleaned to the ground is located in the inlet of the second recovery container.

8. The cleaning device of claim 1,

the solution in the second solvent container is a second solvent;

the solubility of the object to be cleaned in the part to be cleaned in the second solvent is greater than the solubility of the object to be cleaned in the first solvent.

9. The cleaning device of claim 1,

the cleaning device also comprises a third cleaning component;

the third cleaning component comprises a third solvent container, a third recovery container, a sixth pipeline for connecting the third solvent container with the third recovery container, and a seventh pipeline for connecting the third solvent container with the component to be cleaned, and the third cleaning component and the component to be cleaned form a third circulating system.

10. The cleaning device of claim 9,

the solution in the third solvent container is a solution to be worked;

when the third circulation system is started, the first turbidimeter is closed, and the flow direction of the liquid in the third circulation system is from the third solvent container to the seventh pipeline, from the seventh pipeline to the part to be cleaned, from the part to be cleaned to the third recovery container, from the third recovery container to the sixth pipeline, and from the sixth pipeline to the third solvent container.

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