CN210026703U - Supply and discharge control system for cleaning ink box - Google Patents

Abstract

The utility model provides a wash confession of ink horn and arrange control system, its system includes: a circulating water supply device, a cleaning device and a control device; the control device is connected with the circulating water supply device and the cleaning device and used for giving instructions to the circulating water supply device and the cleaning device; the circulating water supply device is communicated with the cleaning device through a pipeline, so that the circulating water supply device and the cleaning device form a water circulation loop; the circulating water supply device is used for providing cleaning liquid according to a water supply control instruction issued by the control device; and the cleaning device is used for cleaning the ink box through the cleaning liquid according to the cleaning control instruction sent by the control device. The utility model discloses carry out cyclic utilization to the water resource, promote the cyclic utilization rate of water resource, reduce ink horn cleaning cost to reduce the manufacturing cost of ink horn regeneration.

Description

Supply and discharge control system for cleaning ink box

Technical Field

The utility model relates to an ink horn regeneration field indicates a supply row control system who washs ink horn especially.

Background

Modern ink cartridges refer primarily to the components of an ink jet printer that store printing ink and ultimately complete printing. The ink box is characterized in that the ink box is processed in an automatic processing mode, the modern ink box mainly comprises a shell, a cover body and sponge inside the shell, and after the sponge is arranged in the shell, an automatic production line needs to cover the cover body on the shell to complete the assembly of the ink box.

In the field of ink cartridge recycling, it is necessary to perform a cleaning process on an old ink cartridge recovered. With the continuous deterioration of water environment, water resources are becoming precious day by day. Because the ink horn is washd more than once to the ink horn on the ink horn production line, there is comparatively clean washing liquid in the in-process of wasing the ink horn, at present, the waste water direct drainage sewer pipe after wasing the ink horn on the ink horn production line, when the polluted environment, do not carry out cyclic utilization to the water resource, the water resource has been wasted greatly, the cyclic utilization rate of how to promote the water resource reduces the ink horn cleaning cost, thereby reduce the manufacturing cost of ink horn regeneration, be the problem that needs to solve urgently.

Disclosure of Invention

The utility model aims at providing a wash confession row control system of ink horn realizes carrying out cyclic utilization to the water resource, promotes the cyclic utilization rate of water resource, reduces ink horn cleaning cost to reduce the manufacturing cost of ink horn regeneration.

The utility model provides a technical scheme as follows:

the utility model provides a wash confession of ink horn and arrange control system, include:

a circulating water supply device, a cleaning device and a control device;

the control device is connected with the circulating water supply device and the cleaning device and used for giving instructions to the circulating water supply device and the cleaning device;

the circulating water supply device is communicated with the cleaning device through a pipeline, so that the circulating water supply device and the cleaning device form a water circulation loop;

the circulating water supply device is used for providing cleaning liquid according to a water supply control instruction issued by the control device;

and the cleaning device is used for cleaning the ink box through the cleaning liquid according to the cleaning control instruction sent by the control device.

Further, the circulating water supply device comprises a circulating water supply barrel, a wastewater collection barrel, wastewater purification equipment, an electric valve, a pipeline and a wastewater pump;

the circulating water supply barrel is communicated with the cleaning device through a first pipeline, and a first electric valve is arranged at the first pipeline;

the cleaning device is communicated with the wastewater collecting barrel through a second pipeline, the second pipeline is provided with a second electric valve and is communicated with the wastewater purifying equipment through a third pipeline, and the third pipeline is provided with a third electric valve; the cleaning device is used for cleaning the ink box according to the cleaning liquid to generate wastewater;

the wastewater purification equipment is communicated with the circulating water supply barrel through a fourth pipeline, the wastewater pump is arranged on the fourth pipeline, and the wastewater purification equipment is used for purifying the first wastewater;

the first electric valve is used for controlling the opening and closing state of the first electric valve according to the water supply control instruction, so that the state that the cleaning liquid flows into the cleaning device from the circulating water supply barrel through the first pipeline is controlled;

the second electric valve is used for controlling the on-off state of the second electric valve according to the water supply control instruction, so that the state that the first wastewater flows into the wastewater collecting barrel from the cleaning device through the second pipeline is controlled;

the third electric valve is used for controlling the on-off state of the third electric valve according to the water supply control instruction, so that the state that the first wastewater flows into the wastewater purification equipment from the wastewater collecting barrel through the third pipeline is controlled;

and the wastewater pump is used for providing the cleaning liquid after purification treatment for the circulating water supply barrel through a fourth pipeline according to the water supply control instruction.

Further, the circulating water supply device also comprises a circulating water purification device and a circulating water pump;

the circulating water purification equipment is communicated with the cleaning device through a fifth pipeline and is communicated with the circulating water supply barrel through a sixth pipeline; the fifth pipeline is provided with a fourth electric valve, the circulating water pump is arranged in the fifth pipeline, and the circulating water purification equipment is used for purifying the second wastewater;

the fourth electric valve is used for controlling the on-off state of the fourth electric valve according to the water supply control instruction, so that the state that the second wastewater flows into the circulating water purification equipment from the cleaning device through the fifth pipeline is controlled;

and the circulating water pump is used for controlling the cleaning liquid after purification treatment to be supplied to the circulating water supply barrel through the sixth pipeline according to the water supply control instruction.

Further, the wastewater purification equipment comprises a drain outlet and a first liquid level sensor for detecting the liquid level height;

the fifth electric valve and the first liquid level sensor are connected with the control device, one end of the fifth electric valve is connected with the sewage draining outlet, the other end of the fifth electric valve is connected with a seventh pipeline, and the seventh pipeline is communicated with the sewer pipeline;

and the fifth electric valve is used for controlling the conduction state of the sewage draining outlet and the sewer pipeline so as to control the capacity of the cleaning liquid purified in the wastewater purification equipment.

Further, the cleaning device comprises a clamp for fixedly clamping the ink box and a cleaning device;

and the cleaning device controls the cleaning device to clean the ink box fixedly clamped by the clamp according to the cleaning control instruction.

Further, a second liquid level sensor for detecting the liquid level height is arranged in the circulating water supply barrel;

the circulating water supply device also comprises a pure water supply barrel and a pure water pump;

the pure water supply barrel is communicated with the circulating water supply barrel through an eighth pipeline;

the pure water pump is arranged at the eighth pipeline and close to the water outlet of the pure water supply barrel and used for supplying pure water to the circulating water supply barrel through the eighth pipeline according to the water supply control instruction.

Further, a second liquid level sensor for detecting the liquid level height is arranged in the circulating water supply barrel;

the circulating water supply device also comprises a pure water supply barrel and a pure water pump;

the pure water supply barrel is communicated with the cleaning device through an eighth pipeline;

the pure water pump is arranged at the eighth pipeline and close to the water outlet of the pure water supply barrel, and is used for supplying pure water to the cleaning device through the eighth pipeline according to the water supply control instruction.

Through the utility model provides a pair of wash confession row control system of ink horn can carry out cyclic utilization to the water resource, promotes the cyclic utilization rate of water resource, reduces ink horn cleaning cost to reduce the manufacturing cost of ink horn regeneration.

Drawings

The above features, technical features, advantages and implementations of a supply and discharge control system for a cleaning cartridge will be further described in a clearly understandable manner with reference to the accompanying drawings.

FIG. 1 is a schematic diagram of a supply and discharge control system for cleaning an ink cartridge according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of another embodiment of the supply and discharge control system for cleaning the ink cartridge according to the present invention.

Detailed Description

In order to more clearly illustrate embodiments of the present invention or technical solutions in the prior art, specific embodiments of the present invention will be described below with reference to the accompanying drawings. It is obvious that the drawings in the following description are only examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be obtained from these drawings without inventive effort.

For the sake of simplicity, only the parts relevant to the present invention are schematically shown in the drawings, and they do not represent the actual structure as a product. In addition, in order to make the drawings concise and understandable, components having the same structure or function in some of the drawings are only schematically illustrated or only labeled. In this document, "one" means not only "only one" but also a case of "more than one".

An embodiment of the present invention, as shown in fig. 1, is a supply and discharge control system for cleaning an ink cartridge, comprising:

a circulating water supply device 1, a cleaning device 2 and a control device 3;

the control device 3 is connected with the circulating water supply device 1 and the cleaning device 2 and used for sending instructions to the circulating water supply device 1 and the cleaning device 2;

the circulating water supply device 1 is communicated with the cleaning device 2 through a pipeline, so that the circulating water supply device 1 and the cleaning device 2 form a water flow circulation loop;

the circulating water supply device 1 is used for providing cleaning liquid according to a water supply control instruction issued by the control device 3;

the cleaning device 2 is used for cleaning the ink box through the cleaning liquid according to the cleaning control instruction sent by the control device 3.

Specifically, in the present embodiment, the control device 3 is connected to the circulating water supply device 1 and the cleaning device 2 via a connection line, for example, an electric wire. Or the circulating water supply device 1, the cleaning device 2 and the control device 3 are all provided with wireless communication chips such as WIFI chips, and the control device 3 is connected with the circulating water supply device 1 and the cleaning device 2 through a wireless network.

The circulating water supply device 1 is communicated with the cleaning device 2 through a pipeline, the circulating water supply device 1 supplies cleaning fluid to the cleaning device 2 under the control of the control device 3, the cleaning device 2 cleans the cleaning fluid flowing into the cleaning device under the control of the control device 3, then the cleaning device 2 discharges the cleaning fluid cleaning the ink box to the circulating water supply device 1, the circulating water supply device 1 purifies the cleaning fluid cleaning the ink box, new cleaning fluid is supplied to the cleaning device 2 again for continuous cleaning, the steps are repeated, a water flow circulation loop is formed, water resources are recycled, water resources are saved, the recycling rate of the water resources is improved, the cleaning cost of the ink box is reduced, and the production cost of ink box regeneration is reduced.

Preferably, circulating water feeding device 1 passes through the water inlet intercommunication of pipeline and belt cleaning device 2, and the pipeline of belt cleaning device 2 water inlet department is equipped with the flowmeter, after the washing liquid that circulating water feeding device 1 provided flows in belt cleaning device 2's water inlet through this pipeline, perhaps after the liquid flow that the washing liquid that circulating water feeding device 1 provided flows in belt cleaning device 2's water inlet through this pipeline reaches preset flow, controlling means 3 assigns the washing control instruction to belt cleaning device 2 again, control belt cleaning device 2 uses the washing liquid to carry out ink horn cleaning operation according to the washing control instruction.

Based on the foregoing embodiment, as shown in fig. 2, the method includes:

the circulating water supply device 1 comprises a circulating water supply barrel 13, a wastewater collection barrel 14, wastewater purification equipment 15, an electric valve, a pipeline and a wastewater pump 181;

the circulating water supply barrel 13 is communicated with the cleaning device 2 through a first pipeline 121, and a first electric valve 111 is arranged at the first pipeline 121;

the cleaning device is communicated with the wastewater collecting barrel 14 through a second pipeline 122, the second pipeline 122 is provided with a second electric valve 112 and is communicated with the wastewater purifying equipment 15 through a third pipeline 123, and the third pipeline 123 is provided with a third electric valve 113; the cleaning device is used for cleaning the ink box according to the cleaning liquid to generate wastewater;

the wastewater purification device 15 is communicated with the circulating water supply tank 13 through a fourth pipeline 124, the wastewater pump 181 is arranged on the fourth pipeline 124, and the wastewater purification device 15 is used for purifying the first wastewater;

the first electrically operated valve 111 is used for controlling the opening and closing state thereof according to the water supply control instruction, so as to control the state that the cleaning liquid flows into the cleaning device 2 from the circulating water supply barrel 13 through the first pipeline 121;

the second electrically operated valve 112 is configured to control an on-off state thereof according to the water supply control command, so as to control a state that the first wastewater flows from the washing device 2 into the wastewater collection tank 14 through the second pipe 122;

the third electrically operated valve 113 is configured to control an on-off state thereof according to the water supply control instruction, so as to control a state that the first wastewater flows from the wastewater collection tank 14 into the wastewater purification apparatus 15 through the third pipe 123;

the wastewater pump 181 is configured to supply the cleaning solution after the purification treatment to the circulating water supply tank 13 through the fourth pipe 124 according to the water supply control instruction.

Specifically, the first pipe 121 communicates the water outlet 133 of the circulating water supply tank 13 with the water inlet 23 of the cleaning device 2, the second pipe 122 communicates the first water outlet 21 of the cleaning device 2 with the water inlet 141 of the wastewater collection tank 14, the third pipe 123 communicates the water outlet 142 of the wastewater collection tank 14 with the water inlet 151 of the wastewater purification apparatus 15, and the fourth pipe 124 communicates the first water outlet 153 of the wastewater purification apparatus 15 with the first water inlet 131 of the circulating water supply tank 13. When the ink cartridge needs to be cleaned and is placed in the cleaning device, the control device 3 controls the first electric valve 111 disposed at the first pipeline 121 to open, so that the cleaning agent in the circulating water supply tank 13 flows into the water inlet 23 of the cleaning device 2 through the first pipeline 121. Because first pipeline 121 department is equipped with first flowmeter (not shown in the figure), count the real-time liquid flow of the cleaner that flows to belt cleaning device 2 through first pipeline 121 from circulating water supply bucket 13 through first flowmeter, when real-time liquid flow reaches and predetermines the flow threshold value, control first electric valve 111 and close to control belt cleaning device 2 carries out the ink horn and washs according to the cleaner. Because the ink box needs to be cleaned repeatedly, after putting into belt cleaning device 2 from the ink box and wasing, belt cleaning device 2 makes statistics of the real-time cleaning number of times, when the real-time cleaning number of times is less than the preset number of times threshold value, belt cleaning device 2 sends the completion signal of wasing to controlling means 3 after wasing the completion, controlling means 3 controls second electric valve 112 located second pipeline 122 department to open, thereby make the waste water after belt cleaning device 2 washs the ink box discharge to waste water collecting vessel 14 from belt cleaning device 2's first delivery port 21 through second pipeline 122. Meanwhile, the control device 3 controls the third electric valve 113 arranged at the third pipeline 123 to open, so that the wastewater flows into the wastewater purification device 15 from the water outlet of the wastewater collection tank 14 through the third pipeline 123, the wastewater purification device 15 performs purification treatment on the first wastewater according to a water supply control instruction issued by the control device 3, and controls the wastewater pump 181 to provide the purified cleaning agent for the circulating water supply tank 13 through the fourth pipeline 124 according to the water supply control instruction. First waste water is for placing the ink horn behind belt cleaning device 2, and belt cleaning device 2 uses the cleaner to carry out preliminary cleaning (supposing to wash once, and of course here is only an example, and concrete preliminary abluent number of times can set up according to ink horn washing experience) the waste water that produces after the ink horn, and controlling means 3 controls second electric valve 112 and opens to carry out deep purification through waste water clarification plant 15 to the higher first waste water of dirty degree.

Based on the foregoing embodiment, as shown in fig. 2, the method includes:

the circulating water supply apparatus 1 further includes a circulating water purifying device 16 and a circulating water pump 182;

the circulating water purifying device 16 is communicated with the washing device 2 through a fifth pipeline 125 and communicated with the circulating water supply barrel 13 through a sixth pipeline 126; the fifth pipeline 125 is provided with a fourth electric valve 114, the circulating water pump 182 is arranged in the fifth pipeline 125, and the circulating water purification device 16 is used for purifying the second wastewater;

the fourth electrically operated valve 114 is configured to control an on-off state thereof according to the water supply control instruction, so as to control a state that the second wastewater flows from the cleaning device 2 into the circulating water purification apparatus 16 through the fifth pipeline 125;

the circulating water pump 182 is configured to control to supply the cleaning solution after the purification treatment to the circulating water supply tank 13 through the sixth pipeline 126 according to the water supply control instruction.

Specifically, the fifth pipe 125 communicates with the second water outlet 22 of the cleaning device 2 and the water inlet 161 of the circulating water purification apparatus 16, and the sixth pipe 126 communicates with the water outlet 162 of the circulating water purification apparatus 16 and the second water inlet 132 of the circulating water supply tank 13. When the ink cartridge needs to be cleaned and is placed in the cleaning device, the control device 3 controls the first electric valve 111 disposed at the first pipeline 121 to open, so that the cleaning agent in the circulating water supply tank 13 flows into the water inlet 23 of the cleaning device 2 through the first pipeline 121. Because first pipeline 121 department is equipped with first flowmeter (not shown in the figure), count the real-time liquid flow of the cleaner that flows to belt cleaning device 2 through first pipeline 121 from circulating water supply bucket 13 through first flowmeter, when real-time liquid flow reaches and predetermines the flow threshold value, control first electric valve 111 and close to control belt cleaning device 2 carries out the ink horn and washs according to the cleaner. Because the ink box needs to be cleaned repeatedly, after the ink box is put into the cleaning device 2 for cleaning, the cleaning device 2 counts the real-time cleaning times, when the real-time cleaning times is equal to or higher than the preset times threshold, the cleaning device 2 sends a cleaning completion signal to the control device 3 after cleaning, the control device 3 controls the fourth electric valve 114 arranged at the fifth pipeline 125 to be opened, and therefore the wastewater after the cleaning device 2 cleans the ink box is discharged from the second water outlet 22 of the cleaning device 2 to the circulating water purification equipment 16 through the fifth pipeline 125. The circulating water purifying device 16 purifies the second wastewater according to the water supply control instruction issued by the control device 3, and controls the circulating water pump 182 to supply the purified cleaning agent to the circulating water supply tank 13 through the sixth pipeline 126 according to the water supply control instruction. The second waste water is the waste water that is produced after placing the ink horn in belt cleaning device 2, belt cleaning device 2 uses the cleaner to wash the ink horn many times (suppose that wash twice and above, certainly here is only an example, the abluent number of times of specific many times can set up according to the ink horn washing experience), and controlling means 3 controls fourth electric valve 114 to open to carry out shallow purification treatment to the lower second waste water of dirty degree through circulating water pump 182.

Based on the foregoing embodiment, as shown in fig. 2, the method includes:

the wastewater purification apparatus 15 includes a drain and a first liquid level sensor 171 for detecting a liquid level height;

the fifth electric valve 115 and the first liquid level sensor 171 are connected with the control device 3, one end of the fifth electric valve 115 is connected with the sewage discharge outlet, the other end of the fifth electric valve 115 is connected with a seventh pipeline 127, and the seventh pipeline 127 is communicated with the sewer pipeline;

and the fifth electric valve 115 is used for controlling the conduction state of the sewage draining outlet and the sewer pipeline so as to control the capacity of the cleaning liquid purified in the wastewater purification equipment 15.

Specifically, the seventh pipe 127 communicates the drain outlet 152 of the wastewater purifying apparatus 15 with the sewer pipe. In order to prevent the capacity of the purifying cavity of the waste water purifying equipment 15 from being insufficient, but the cleaning liquid contained in the circulating water supply barrel 13 is enough, and in order to prevent the waste water purifying equipment 15 from working normally, the purified first waste water flows into the sewer pipeline through the sewage outlet. That is, when the liquid level sensor 171 detects that the liquid level value of the waste liquid in the waste water purifying device 15 is greater than the first preset height value, the control device 3 issues a blowdown start control instruction to the fifth electric valve 115, and the fifth electric valve 115 is opened so that the blowdown port 152 is communicated with the sewer pipeline, and the wastewater after purification treatment is discharged into the sewer pipeline. When the liquid level sensor 171 detects that the liquid level value of the waste liquid in the waste water purification device 15 is less than or equal to the first preset height value, the control device 3 issues a blowdown stop control instruction to the fifth electric valve 115, and the fifth electric valve 115 is closed, so that the blowdown port 152 is not communicated with a sewer pipe, and the waste liquid newly entering the sewer pipe is continuously purified. Or after the cleaning device 2 completes the cleaning task for the ink cartridge (for example, the ink cartridge needs to be cleaned repeatedly 3 times in the cleaning task, and the cleaning is finished 3 times), the control device 3 issues a blowdown start control instruction to the fifth electric valve 115, and the fifth electric valve 115 is opened so as to communicate the blowdown port 152 with the sewer pipe, so that the purified wastewater is discharged into the sewer pipe. Because the waste water discharged into the sewer pipeline is purified by the waste water purifying equipment 15, the waste water after the ink box is cleaned can be prevented from being directly discharged into the sewer pipeline, and the environmental pollution is reduced.

Based on the foregoing embodiments, the method includes:

the cleaning device 2 comprises a clamp (not shown in the figure) for fixedly clamping the ink box and a cleaning device (not shown in the figure);

and the cleaning device 2 controls the cleaning device to clean the ink box fixedly clamped by the clamp according to the cleaning control instruction.

Preferably, the cleaning device comprises a vacuum gun (not shown in the figures).

Preferably, the cleaning device comprises a sprayer (not shown in the figures).

Preferably, the cleaning device comprises a sprayer and a vacuum gun (not shown in the figures).

Specifically, the sprayer atomizes the cleaning liquid according to the cleaning control command, aligns the spray head with the shell of the ink box, cleans the shell of the ink box through the spray sprayed by the spray head, and inputs the cleaned cleaning liquid into the circulating water supply device. The vacuum gun is aligned to the ink injection hole of the ink box according to the cleaning control instruction, residual ink of the ink box is adsorbed and removed, cleaning liquid is injected through the ink injection hole to clean the ink bin of the ink box, and the cleaned cleaning liquid is input into the circulating water supply device.

In the field of ink cartridge recycling, it is necessary to perform a cleaning process on an old ink cartridge recovered. In the production and processing process, after the ink box is assembled, ink is injected into the ink box until a proper amount of ink is injected into the ink box, and the ink box is initially finished; however, in the ink filling process, because a certain gap exists between the ink box and the needle, in the ink filling process, part of the ink falls on the cover of the ink box and adheres to the cover of the ink box in the process of taking out the ink filling needle.

If residual ink exists in the recovered old ink box, the recovered old ink box is not favorable for the outgoing quality of the ink box, and after the ink box is processed, the residual ink on the cover of the ink box is not favorable for a user to install the ink box on a printer, and the residual ink on the ink box can be continuously attached to the printer, so that the aesthetic degree of the printer is influenced. The shell of the ink box is cleaned by spraying formed by the cleaning fluid, so that the cleaning efficiency is high, and water resources are saved. The ink bin of the ink box is cleaned by using the vacuum gun, so that the cleaning degree of the ink box is improved. Through the utility model discloses wash the ink horn by inside to outside, promote the clean degree of ink horn.

Based on the foregoing embodiment, as shown in fig. 2, the method includes:

a second liquid level sensor 172 for detecting the liquid level is arranged in the circulating water supply barrel 13;

the circulating water supply device also comprises a pure water supply barrel (not shown in the figure) and a pure water pump (not shown in the figure);

the pure water supply tank is communicated with the circulating water supply tank 13 through an eighth pipeline (not shown in the figure);

the pure water pump is arranged at the eighth pipeline and close to the water outlet of the pure water supply barrel, and is used for supplying pure water to the circulating water supply barrel 13 through the eighth pipeline according to the water supply control instruction.

Specifically, the eighth pipe communicates the water outlet of the pure water supply tank and the third water inlet of the circulating water supply tank 13. When the cleaning liquid in the circulating water supply tank 13 is made insufficient, that is, when the second liquid level sensor 172 detects that the liquid level value of the cleaning liquid in the circulating water supply tank 13 is greater than the second preset height value, the control device 3 controls the pure water pump to operate so as to cause the pure water pump to flow the pure water in the pure water supply tank into the circulating water supply tank 13, so as to increase the cleaning liquid capacity in the circulating water supply tank 13.

Based on the foregoing embodiments, the method includes:

a second liquid level sensor 172 for detecting the liquid level is arranged in the circulating water supply barrel 13;

the circulating water supply device also comprises a pure water supply barrel (not shown in the figure) and a pure water pump (not shown in the figure);

the pure water supply tank is communicated with the cleaning device 2 through an eighth pipeline (not shown in the figure);

the pure water pump is arranged at the eighth pipeline and close to the water outlet of the pure water supply barrel, and is used for supplying pure water to the cleaning device 2 through the eighth pipeline according to the water supply control instruction.

Specifically, the eighth pipe communicates the water outlet of the pure water supply tank and the third water inlet of the cleaning device 2. When the cleaning liquid in the circulating water supply tank 13 is insufficient, that is, the second liquid level sensor 172 detects that the liquid level value of the cleaning liquid in the circulating water supply tank 13 is greater than the second preset height value, the control device 3 controls the pure water pump to operate, so that the pure water pump flows the pure water in the pure water supply tank into the cleaning device 2, and the cleaning device 2 continues to clean according to the pure water. Or, cleaning device 2 makes statistics of self and accomplishes washing many times, when will carrying out the washing for the last time, controlling means 3 control pure water pump carries out work to make the pure water pump with the pure water inflow cleaning device 2 in the pure water supply bucket, make cleaning device 2 continue to wash according to the pure water, leave over the washing liquid including other impurity in avoiding the ink horn.

The waste water purification device 15 is internally provided with a purification component, in order to adjust the color of the ink in the ink cartridge, the viscosity and the stability of the ink, organic pigments, thickeners and dispersants may be present in the ink, and the purification component needs to perform purification treatment by using corresponding materials according to the characteristics of the ink.

The inside of the circulating water purification equipment 16 is provided with a filter component, the filter component comprises a plurality of layers of filter membranes, the material of the filter membranes is polymers such as polyethylene, polypropylene and the like, and at least one of nylon and inorganic ceramics, and the aperture of the filter membranes is 0.05-3 μm. The second waste liquid collected is filtered for many times through the multilayer filter membrane, impurities are removed more thoroughly, and the purification degree of the second waste water is improved.

It should be noted that the above embodiments can be freely combined as necessary. The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. A supply and discharge control system for cleaning an ink cartridge, comprising:

a circulating water supply device, a cleaning device and a control device;

the control device is connected with the circulating water supply device and the cleaning device and used for giving instructions to the circulating water supply device and the cleaning device;

the circulating water supply device is communicated with the cleaning device through a pipeline, so that the circulating water supply device and the cleaning device form a water circulation loop;

the circulating water supply device is used for providing cleaning liquid according to a water supply control instruction issued by the control device;

and the cleaning device is used for cleaning the ink box through the cleaning liquid according to the cleaning control instruction sent by the control device.

2. The supply and discharge control system for cleaning the ink cartridge according to claim 1, wherein:

the circulating water supply device comprises a circulating water supply barrel, a wastewater collection barrel, wastewater purification equipment, an electric valve, a pipeline and a wastewater pump;

the circulating water supply barrel is communicated with the cleaning device through a first pipeline, and a first electric valve is arranged at the first pipeline;

the cleaning device is communicated with the wastewater collecting barrel through a second pipeline, the second pipeline is provided with a second electric valve and is communicated with the wastewater purifying equipment through a third pipeline, and the third pipeline is provided with a third electric valve; the cleaning device is used for cleaning the ink box according to the cleaning liquid to generate wastewater;

the wastewater purification equipment is communicated with the circulating water supply barrel through a fourth pipeline, the wastewater pump is arranged on the fourth pipeline, and the wastewater purification equipment is used for purifying the first wastewater;

the first electric valve is used for controlling the opening and closing state of the first electric valve according to the water supply control instruction, so that the state that the cleaning liquid flows into the cleaning device from the circulating water supply barrel through the first pipeline is controlled;

the second electric valve is used for controlling the on-off state of the second electric valve according to the water supply control instruction, so that the state that the first wastewater flows into the wastewater collecting barrel from the cleaning device through the second pipeline is controlled;

the third electric valve is used for controlling the on-off state of the third electric valve according to the water supply control instruction, so that the state that the first wastewater flows into the wastewater purification equipment from the wastewater collecting barrel through the third pipeline is controlled;

and the wastewater pump is used for providing the cleaning liquid after purification treatment for the circulating water supply barrel through a fourth pipeline according to the water supply control instruction.

3. The supply and discharge control system for cleaning the ink cartridge according to claim 2, wherein:

the circulating water supply device also comprises circulating water purification equipment and a circulating water pump;

the circulating water purification equipment is communicated with the cleaning device through a fifth pipeline and is communicated with the circulating water supply barrel through a sixth pipeline; the fifth pipeline is provided with a fourth electric valve, the circulating water pump is arranged in the fifth pipeline, and the circulating water purification equipment is used for purifying the second wastewater;

the fourth electric valve is used for controlling the on-off state of the fourth electric valve according to the water supply control instruction, so that the state that the second wastewater flows into the circulating water purification equipment from the cleaning device through the fifth pipeline is controlled;

and the circulating water pump is used for controlling the cleaning liquid after purification treatment to be supplied to the circulating water supply barrel through the sixth pipeline according to the water supply control instruction.

4. The supply and discharge control system for cleaning the ink cartridge according to claim 2, wherein:

the wastewater purification equipment comprises a sewage draining outlet and a first liquid level sensor for detecting the liquid level height;

a fifth electric valve and the first liquid level sensor are connected with the control device, one end of the fifth electric valve is connected with the sewage draining outlet, the other end of the fifth electric valve is connected with a seventh pipeline, and the seventh pipeline is communicated with a sewer pipeline;

and the fifth electric valve is used for controlling the conduction state of the sewage draining outlet and the sewer pipeline so as to control the capacity of the cleaning liquid purified in the wastewater purification equipment.

5. A supply and discharge control system for a cleaning cartridge according to any one of claims 1 to 4, wherein:

the cleaning device comprises a clamp for fixedly clamping the ink box and a cleaning device;

and the cleaning device controls the cleaning device to clean the ink box fixedly clamped by the clamp according to the cleaning control instruction.

6. The supply and discharge control system for cleaning the ink cartridge according to claim 5, wherein:

a second liquid level sensor for detecting the liquid level height is arranged in the circulating water supply barrel;

the circulating water supply device also comprises a pure water supply barrel and a pure water pump;

the pure water supply barrel is communicated with the circulating water supply barrel through an eighth pipeline;

the pure water pump is arranged at the eighth pipeline and close to the water outlet of the pure water supply barrel and used for supplying pure water to the circulating water supply barrel through the eighth pipeline according to the water supply control instruction.

7. The supply and discharge control system for cleaning the ink cartridge according to claim 5, wherein:

a second liquid level sensor for detecting the liquid level height is arranged in the circulating water supply barrel;

the circulating water supply device also comprises a pure water supply barrel and a pure water pump;

the pure water supply barrel is communicated with the cleaning device through an eighth pipeline;

the pure water pump is arranged at the eighth pipeline and close to the water outlet of the pure water supply barrel, and is used for supplying pure water to the cleaning device through the eighth pipeline according to the water supply control instruction.

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