JPH08117528A - Filter washing apparatus - Google Patents

Abstract

PURPOSE: To efficiently remove the contaminant bonded to the outer surface of a filter in a laborsaving manner by supplying a washing soln. to the inside of the filter to discharge the same to the outside and ejecting the washing soln. to the outer surface of the filter rotated on a work turntable. CONSTITUTION: A work turntable 4 is provided in a washing chamber 3 in a rotatable manner and a contaminated filter 1 is arranged on the work turntable 4. A washing soln. 2 of a glycol ether type detergent is circulated by a pump 6 to be supplied to the inside of the filter 1 to be discharged to the outside while the spray of the washing soln. 2 is ejected on the outer surface of the rotated filter 1 from a spray nozzle 8. By this constitution, the contaminant bonded to the filter is efficiently removed without relying on labor.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a filter cleaning device applied to a fuel filter, a hydraulic oil filter, a lubricating oil filter, an air conditioner filter for electronic equipment, etc. in an aircraft, and other general consumer filters.

[0002]

2. Description of the Related Art Conventionally, a hepa filter, which is made of paper and is inexpensive, has been widely used as a filter for general consumers. For example, a filter for an aircraft engine has a high temperature of about 180 ° C. Therefore, hepa filters cannot be used, and wire mesh filters made of stainless steel are often used. In this filter, pollutants mixed with metal abrasion powder and engine oil adhere to each other in a flight time of 500 to 700 hours, but the price per filter is as high as 100,000 to 200,000 yen, so wash the filter. After removing the contaminants, it is dried and reused.

FIG. 3 is an explanatory view of a conventional filter cleaning device used for a fuel filter, a hydraulic oil filter, a lubricating oil filter, an air-conditioning filter for electronic equipment, etc. in an aircraft and other general consumer filters. is there. In the figure, engine oil or the like flows from the inlet on the outer surface of the filter 1 to the inside of the filter 1, and after contaminants contained in the engine oil or the like are removed on the outer surface of the filter 1, it flows out from the outlet at the end of the filter 1. . In this process, contaminants contained in engine oil and the like adhere to the concave and convex portions of the filter 1. In the conventional filter cleaning device, by operating the spray gun 15 shown in FIG. 3A, cleaning with 1-1-1 trichloroethane in the solvent tank 13 pressurized to ¹ to 7 kg / cm ² G with nitrogen gas is performed. The solvent 14 is sprayed and the spray gun 15 is used to clean the outer surface and the inner surface of the filter 1. After performing this step, the filter 1 is cleaned by the ultrasonic cleaner 16 shown in FIG. 1B to facilitate removal of contaminants adhering to the outside of the filter 1. Then, the spray gun 15 is used again to clean the outer surface and the inner surface of the filter 1. Such an operation is repeated until the contaminants attached to the filter 1 are removed, and the filter 1 is washed.

[0004]

As described above, in the conventional filter cleaning device, the spray gun 15, the ultrasonic cleaner 16 and the like are used, and the filter 1 is manually cleaned to clean the filter 1 efficiently. It's bad, just one person only 2 a day
Only about three filters 1 can be washed.
Further, since the cleaning solvent 14 of 1-1-1 trichloroethane is used, the concentration of the cleaning solvent 14 in the working environment air is regulated. In addition, the odor of the cleaning solvent 14 drifts indoors. Further, there is a problem that the cleaning solvent 14 is completely abolished by the end of 1995 because it vaporizes and destroys the ozone layer.

[0005]

SUMMARY OF THE INVENTION A filter cleaning device according to the present invention is intended to solve the above problems, and a work rotating table for rotating a filter and a means for supplying cleaning liquid to the inside of the filter and discharging it to the outside. And means for injecting a cleaning liquid onto the outer surface of the rotating filter.

Further, the filter cleaning device according to the present invention is
A work rotating table for rotating the filter; a means for supplying the cleaning liquid to the inside of the filter and discharging it to the outside; and a means for injecting the cleaning liquid on the rotating outer surface of the filter,
The cleaning liquid is supplied to the inside of the filter and discharged to the outside, and then the cleaning liquid is sprayed to the outer surface of the filter.

Further, the filter cleaning device according to the present invention is
A work rotating table for rotating the filter, a means for supplying the cleaning liquid to the inside of the filter and discharging the cleaning liquid to the outside, and spraying a cleaning liquid formed on the rotating outer surface of the filter to be thinner than the gap between the convex portions of the outer surface of the filter. And a configuration including means.

Further, the filter cleaning device according to the present invention is
A work rotating table for rotating a filter, a means for supplying a cleaning liquid using a glycol ether-based cleaning agent to the inside of the filter and discharging the cleaning liquid to the outside, and a cleaning liquid using a glycol ether-based cleaning agent for the outer surface of the rotating filter. And a means for doing so.

[0009]

That is, in the filter cleaning device according to the present invention, the cleaning liquid is supplied to the inside of the filter and discharged to the outside, and the cleaning liquid is jetted to the outer surface of the filter rotated by the work rotating table. By flowing the filter from the inside to the outside of the filter, the contaminants attached to the outer surface of the filter are removed and the contaminants attached to the outer surface of the filter are easily removed. Further, by spraying the cleaning liquid on the outer surface of the filter, contaminants attached to the outer surface of the filter are efficiently removed.

Further, in the filter cleaning device according to the present invention, the cleaning liquid is supplied to the inside of the filter and discharged to the outside, and then the cleaning liquid is sprayed onto the outer surface of the filter rotated by the work rotating table. By flowing the cleaning liquid from the inside to the outside of the filter, the contaminants attached to the outer surface of the filter are removed and the contaminants attached to the outer surface of the filter are easily removed. Next, the cleaning liquid is sprayed on the outer surface of the filter, so that the contaminants attached to the outer surface of the filter are efficiently removed.

Further, in the filter cleaning device according to the present invention, the cleaning liquid is supplied to the inside of the filter and discharged to the outside, and is formed on the outer surface of the filter which is rotated by the work rotating table to be thinner than the gap between the convex portions of the outer surface of the filter. The cleaned cleaning liquid is sprayed, and by flowing the cleaning liquid from the inside to the outside of the filter, the contaminants attached to the outer surface of the filter are removed and the contaminants attached to the outer surface of the filter are easily removed. Further, since the cleaning liquid formed on the outer surface of the filter to be thinner than the gap between the convex portions on the filter outer surface is sprayed, the contaminants adhering to the gap between the convex portions on the outer surface of the filter are efficiently removed.

Further, in the filter cleaning apparatus according to the present invention, the cleaning liquid using the glycol ether cleaning agent is supplied to the inside of the filter and discharged to the outside, and the glycol ether cleaning is performed on the outer surface of the filter rotated by the work rotating table. A cleaning liquid that uses an agent is sprayed.By flowing the cleaning liquid from the inside to the outside of the filter, contaminants attached to the outer surface of the filter are removed and contaminants attached to the outer surface of the filter are easily removed. . Further, by spraying the cleaning liquid on the outer surface of the filter, contaminants attached to the outer surface of the filter are efficiently removed. Further, by using the glycol ether type cleaning agent as the cleaning liquid, the ozone layer is prevented from being destroyed, and the cleaning liquid can be regenerated by distillation, so that wastewater treatment equipment is not required.

[0013]

1 and 2 are explanatory views of a filter cleaning apparatus according to an embodiment of the present invention. In the figure, the filter cleaning apparatus according to the present embodiment is applied to a fuel filter in an aircraft, a hydraulic oil filter, a lubricating oil filter, an air conditioning filter for electronic devices, and other general consumer filters. As shown in FIG. 3, a work rotary table 4 is rotatably provided in the cleaning chamber 3. The contaminated filter 1 is installed on the work rotary table 4, and the pump 6 is installed.
Flow of cleaning liquid 2 and spray nozzle 8 circulated by
Filter 1 with cleaning liquid 2 sprayed from
The cleaning is performed automatically and efficiently in a short time. The cleaning liquid 2 flows from the inside of the filter 1 to the outside by the pump 6 and is sprayed from the spray nozzle 8 toward the outside of the filter 1 by switching the three-way valve 18. The cleaning liquid 2 has a depletion coefficient of ozone of zero and can be regenerated by distillation and is a glycol ether type cleaning agent (for example, trade name K-5527-D manufactured by Dai-ichi Kogyo Seiyaku Co., Ltd.).
Etc.) are used, the ozone layer is not destroyed even when vaporized, and wastewater treatment equipment is not required. Reference numeral 17 in the figure is a filter made of synthetic fiber or the like.

The flow rate of the cleaning liquid 2 when flowing from the inside to the outside of the filter 1 is adjusted to 60 liters per minute by the flow meter 7, and the cleaning is performed for about 5 minutes. The work rotating table 4 is adapted to rotate once per minute. Further, the cleaning liquid 2 supplied to the spray nozzle 8 is adjusted to 3 to 9 kg / cm ² G by the indication value of the pressure gauge 10 by adjusting the bypass valve 9, and the cleaning time is 5 minutes to 20 minutes.
In minutes, the filter 1 makes one revolution per minute. Spray nozzle 8
Is a metal such as stainless steel or cemented carbide steel, and several or several tens of discharge ports 11 of the cleaning liquid 2 having a diameter of 1 mm or less, preferably 0.5 mm or less are processed at 1 mm intervals. Efficiently remove contaminants adhering to the outer surface. The width of the spray nozzle 8 is about 1 cm longer than the diameter of the filter 1. The filter 1 is made of a wire mesh and has an irregular outer periphery as shown in FIG. 2. The concave portion 21 is about 1 to 1.5 mm, and the gap between the convex portions 22 is 0.5.
It is formed to about mm.

Using this filter cleaning device, the filter 1
When cleaning the cleaning liquid 2, first, the filter 1 is set on the work rotary table 4 in the cleaning chamber 3, and the cleaning liquid 2 is supplied from above into the filter 2 by using the pump 6 from the cleaning liquid tank 5. Flow from the inside to the outside of the filter 1. The flow rate of the cleaning liquid 2 is adjusted to about 60 liters per minute by the flow meter 7, and cleaning is performed for about 5 minutes. The work rotating table 4 rotates at about 1 rotation per minute. Next, by supplying the cleaning liquid 2 in the cleaning liquid tank 5 to the spray nozzle 8 using the pump 6, the cleaning liquid 2 is supplied from the spray nozzle 8 to the filter 1 set on the work rotary table 4 in the cleaning chamber 3. The contaminants that have been sprayed and adhered to the outer surface of the filter 1 are removed. Spray nozzle 8
The fluid pressure of the cleaning liquid 2 supplied to 3~9kg / cm ² G becomes in indicated value of the pressure gauge 10 by adjusting the bypass valve 9, preferably 7~9kg / cm ² G. Cleaning time is 5
The rotation speed of the filter 1 is maintained at about 1 rotation per minute in the period from 20 minutes to 20 minutes. The filter 1 is made of wire mesh and has an uneven outer periphery, so that contaminants adhering to the protrusions 22 can be removed relatively easily.
Since the contaminants attached to the filter 1 cannot be easily removed, the cleaning liquid 2 is caused to flow from the inside to the outside of the filter 1 to remove the contaminants attached to the convex portions on the outer surface of the filter 1 and to the concave portion 21 on the outer surface of the filter 1. Makes it easy to remove adhered contaminants. Next, the cleaning liquid 2 is formed into a thin and sharp rod shape of 0.5 mm or less by the ejection port 11 of the spray nozzle 8 and is sprayed onto the outer surface of the filter 1 to perform spray cleaning, thereby adhering to the recess 21 on the outer surface of the filter 1. Contaminants present can also be removed efficiently.

In a conventional filter cleaning device, a spray gun, an ultrasonic cleaning machine, etc. are used, and the cleaning efficiency is poor because the filter is manually relied on to clean the filter. The filter can only be washed to a limited extent. In addition, since the 1-1-1 cleaning solvent with trichloroethane is used, the concentration of the cleaning solvent in the working environment is regulated. In addition, the odor of the cleaning solvent drifts indoors. Further, there is a problem that the cleaning solvent is completely abolished by the end of 1995 because it vaporizes and destroys the ozone layer. However, in this filter cleaning device, the diameter of the discharge port 11 of the cleaning liquid 2 in the spray nozzle 8 is set to 0. 0.5 mm or less, one spray nozzle 8 is provided with a plurality of cleaning liquid 2 discharge ports 11, and the cleaning by the liquid flow of the cleaning liquid 2 from the inside of the filter 1 to the outside and the cleaning by the spray liquid using the spray nozzle 8 are automated. Then, the filter 1 is cleaned in the cleaning chamber 3, and the cleaning liquid 2 is flown from the inside to the outside of the filter 1 and then spray cleaning is performed using the spray nozzle 8 to adhere to the outer surface of the filter 1. It is possible to efficiently remove the pollutants that are present. Further, by setting the diameter of the discharge port 11 of the cleaning liquid 2 in the spray nozzle 8 to 0.5 mm or less, it is possible to efficiently remove the contaminants adhering to the recess 21 of the filter 1, especially the gap of 0.5 mm. Further, the cleaning liquid 2 can be regenerated by using a glycol ether-based cleaning agent for the cleaning liquid 2, and the cleaning liquid 2 can be distilled and reused by using a vacuum distillation apparatus. Further, by cleaning the filter 1 in the cleaning chamber 3, the cleaning liquid 2 does not splash into the room, the working environment is improved, and the safety of the worker is maintained. In addition, the cleaning work which has hitherto been performed manually is automated and labor-saving by using the filter cleaning device.

[0017]

The filter cleaning device according to the present invention is constructed as described above, and the contaminants adhering to the outer surface of the filter are efficiently removed. Labor is saved and the work environment is improved.

[Brief description of drawings]

1A is a flow system diagram of a filter cleaning device according to an embodiment of the present invention, FIG. 1B is an external view of a spray nozzle thereof, and FIG. 1C is a transverse sectional view. .

2A is an external view of the filter, FIG. 2B is a sectional view taken along line BB in FIG. 2A, and FIG. 2C is a sectional view of a main part of the filter.

FIG. 3A is a sectional view of a conventional spray-type cleaning device, and FIG. 3B is a sectional view of a conventional ultrasonic-type cleaning device.

[Explanation of symbols]

 1 Filter 2 Cleaning Solution 3 Cleaning Chamber 4 Work Rotating Table 5 Cleaning Solution Tank 6 Pump 7 Flow Meter 8 Spray Nozzle 9 Bypass Valve 10 Pressure Gauge 11 Cleaning Solution Discharge Port 17 Filter 18 Three-way Valve 19 Inlet 20 Outlet 21 Recess 22 22 Convex

Claims (4)

[Claims] 1. A work rotary table for rotating a filter,
A filter cleaning device comprising means for supplying a cleaning liquid to the inside of the filter and discharging the cleaning liquid to the outside, and means for injecting the cleaning liquid on the outer surface of the rotating filter. 2. The filter cleaning device according to claim 1, wherein the cleaning liquid is supplied to the inside of the filter and discharged to the outside, and then the cleaning liquid is sprayed to the outer surface of the filter. 3. The filter cleaning device according to claim 1, wherein a cleaning liquid that is thinner than a gap between convex portions of the filter outer surface is jetted onto the rotating outer surface of the filter. 4. The filter cleaning device according to claim 1, wherein a glycol ether-based cleaning agent is used as the cleaning liquid.