JP2002166116A - Filter element washing apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a filter element washing apparatus capable of washing even a filter element, to which not only dust but also an oil contaminant or tar adhere, to certainly remove dust, the oil contaminant or tar and regenerating the filter element many times to use the same. SOLUTION: The filter element washing apparatus A is equipped with a washing tank for washing the filter element, a filter element attaching means capable of attaching the filter element in a freely detachable manner and a filter element rotary means capable of totating the filter element around its axial line along with the filter element attaching means.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a filter element for cleaning filter elements used for various filters, for example, air filters for diesel engines of large machines, air filters for marine engines, air filters for air conditioners and the like. The present invention relates to a cleaning device.

[0002]

2. Description of the Related Art Conventionally, land transportation, which plays a central role in physical distribution, is carried out by diesel trucks. Diesel trucks use filter elements used for air filters for diesel engines and the like. As diesel trucks continue to run day and night,
Sand dust that other automobiles roll up and soot, which is particulate suspended matter exhausted by diesel, adhere to the air filter, which is the main part of the intake port. These particulate matter and oil contained in the exhaust gas are combined and firmly adhere to the outer surface of the filter element, and gradually become clogged. An air filter that has clogged has increased airflow resistance,
Since sufficient intake cannot be obtained, the balance between fuel and intake in the engine is lost, causing incomplete combustion. As a result, the output of the engine is reduced, and the driver depresses the accelerator more than usual, resulting in a reduction in fuel efficiency. In order not to fall into such a situation, it is necessary to periodically remove and regenerate the deposit attached to the filter element before use. Conventionally, such adhering matter has been removed by applying mechanical vibration to the filter element or blowing compressed air from the outside, so-called air blow.

[0003]

However, the above-mentioned conventional operation of removing and cleaning the deposits on the filter element has the following problems to be solved. That is, when oil stains or tars adhere to the filter element, the filter element cannot be sufficiently removed merely by using the above-described mechanical removal method, and it is difficult to regenerate the filter element. The maintenance cost had to be increased. Further, the removed filter element is a composite part made of various materials such as paper, metal, rubber, and plastics, and is difficult to recycle as resource waste. Therefore, it has been disposed of as industrial waste. The present invention has been made in view of such circumstances, and not only sand, soot, but also filter elements to which oil stains, tar, and the like have adhered are reliably removed and regenerated many times before use. It is an object of the present invention to provide a filter element cleaning device capable of performing the above-mentioned operations.

[0004]

To achieve the above object, a filter element cleaning apparatus according to the present invention comprises: a cleaning tank for cleaning a filter element; filter element mounting means for detachably mounting the filter element; A filter element rotating means capable of rotating the element about an axis together with the filter element mounting means is provided.

[0005] These filter element cleaning devices include:
It is desirable that the filter element attaching means is one that presses and fixes the filter element between the filter element and the holding plate by using a vertically movable holding lid provided on the upper part of the cleaning tank. Further, the filter element mounting means provides a lower link fixed body at the lower part of the rotary mounting shaft, provides an upper link fixed body at the upper part, an element pressing body forming a part of the link mechanism presses the inner surface of the filter element, It is desirable that the element be fixed to the rotary mounting shaft.

Further, the filter element cleaning apparatus of the present invention is disposed in a cleaning tank so as to be movable up and down and surrounding the filter element, and can inject at least one of air and water toward the outer surface of the filter element. Preferably, it is provided with an outer fluid ejection means.

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail with reference to an embodiment shown in the accompanying drawings. First, Figure 1
The configuration of the filter element cleaning device A according to the first embodiment of the present invention will be described with reference to FIG. In the present embodiment described below, a cylindrical filter element 14 having a large number of pleats used as a part of an air filter for a diesel engine is illustrated as a filter element, but other types of filter elements are used. Needless to say, for example, a solution filtration filter and the like can be effectively cleaned and regenerated by the filter element cleaning apparatus A according to the present invention.

As shown in the figure, a substantially central portion of an upper pedestal 12 supported by a plurality of support legs 11 on a floor 10 has cleaning water (preferably a surfactant, A washing tank 13 filled with water containing a foaming agent or the like is attached. As shown in FIG. 1, a cylindrical filter element 14 is installed in a washing tank 13 in a immersed state. On the other hand, the filter element 14 is detachably mounted on a holding plate 46 installed below the rotary mounting shaft 15 which is an example of filter element mounting means. A sprocket 22 is fixed to the lower end of the rotary mounting shaft 15, and the sprocket 22 is linked with an sprocket 20 fixed to an output shaft of a rotary motor 19 mounted on the lower surface of the upper gantry 12 by an endless belt 21. Have been.

Further, as shown in FIG.
It is also preferable to provide a filtration chamber 41 in 3. That is,
The inside of the cleaning tank 13 is partitioned by a partition wall 40 into a cleaning chamber for immersing and cleaning the filter element 14 and a filtration chamber 41. By separately providing the filtration chamber 41, sand and soot mixed in the washing water can be removed during the circulation of the washing water.

In the filtration chamber 41, a filtration filter 42 for circulating and using the cleaning water through the water supply pipe 31 is provided. At the lower part of the filtration chamber 41, a filtration filter 42 is provided.
Sediment outlet 4 for discharging sediment accumulated in the upper part
3 is provided, and the sediment outlet 43 is always closed by a lid.

Next, the filter element 14 is moved to the cleaning tank 1.
A description will be given of the filter element mounting means fixed inside the filter element 3. As shown in FIG. 3, the opening / closing lid 18 of the cleaning tank 13 is opened, and the central opening 17 of the filter element 14 is
It is inserted from above the rotary mounting shaft 15. Then, the filter element 14 is installed on a holding plate 46 provided below the rotary mounting shaft 15, and is fixed to a bolt provided at the upper end of the rotary mounting shaft 15 by a filter element fixing screw 45.

As described above, the filter element 14 is inserted from above the cleaning tank 13 and brought into contact with the filter element holding plate 46, and then screwed to the upper end of the rotary mounting shaft 15 by the fixing screw 45. Rotary mounting shaft 15
, The filter element 14 can be integrally and firmly attached. On the other hand, by loosening the fixing screw 45, the filter element 14 can be easily removed upward from the rotary mounting shaft 15.

The central opening 17 of the filter element 14
If the filter element 14 has a large diameter, the filter element 14 may not be able to be fixed to the rotary mounting shaft 15 with the fixing screw 45, and as shown in FIG.
The filter element 14 is pressed and fixed between the filter element 14 and the holding plate 46 by using a vertically movable holding lid 47 provided on the upper part of the filter element 14.

In this case, a holding lid rotating shaft 48 is attached to the center of the holding lid 47, and the upper end of the holding lid rotating shaft 48 is connected to the rotating handle 55. Also,
A screw hole 50 opened at the center of a cleaning tank opening / closing lid 18 provided at the top of the cleaning tank 13 to be freely opened and closed is screwed into the holding lid rotating shaft 48, and is provided above the holding lid rotating shaft 48. By rotating the rotary handle 55 right and left, the holding lid 47 can be raised and lowered.

[0015] The lifting lid 47 which can be raised and lowered is lowered, and
The filter element 14 can be pressed, and the filter element 14 can be firmly fixed on the holding plate 46 without using the fixing screw 45 on the rotation mounting shaft 15. When the filter element 14 is fixed to the rotation mounting shaft 15 using the fixing screw 45 described above,
Since it is not necessary to use the holding lid 47, the rotating handle 55 is turned to move up and down near the cleaning tank opening / closing lid 59.

Further, the filter element 14 can be firmly fixed in the cleaning tank 13 by another mounting method. For example, as shown in FIG. 5, a method of fixing the filter element 14 from the inner surface side using a link mechanism L is also suitably applied. In FIG. 5, a lower link fixed body 51 is provided below the rotary mounting shaft 15, and an upper link fixed body 52 is provided above the rotary mounting shaft 15. When the link mechanism L is in the expanded (open) state shown by the solid line in FIG. 6, the element pressing body 53 forming a part of the link mechanism L is in a state of pressing the inner surface of the filter element 14,
The filter element 14 is firmly fixed integrally with the rotary mounting shaft 15. On the other hand, when the link mechanism L is in the contracted (closed) state shown by the broken line in FIG.
Is released from the state in which it is inscribed in the filter element 14, and the filter element 14 can be removed from the holding plate 46. Since the link mechanism L is attached to the rotary mounting shaft 15 by the lower link fixed body 51 and the upper link fixed body 52, when the rotary mounting shaft 15 is rotated, it is in an expanded state shown by a solid line due to centrifugal force, and The element 14 can be integrally and firmly fixed to the rotary mounting shaft 15.

When the rotation is stopped, the link mechanism L is in a contracted state and the element pressing body 53 is not in a state of pressing the inner surface of the filter element 14, so that the filter element 14 can be removed. In addition,
When the rotation of the rotary mounting shaft 15 is stopped, the element pressing body 53 is automatically released from the state of being inscribed in the filter element 14, and the lower link fixing body 51 and the upper It is preferable that an intermediate sliding body 54 is pivotally mounted on the rotary mounting shaft 15 vertically slidably between the link fixing body 52 (see FIG. 5).

The intermediate sliding member 54 and the element pressing member 5
3 and a lower end 58 of the intermediate sliding member 5.
If the pulling force is applied upward by the spring 56 or the like, when the rotation of the rotary mounting shaft 15 is stopped, the intermediate sliding body 54 is pulled upward by the action of the spring 56, and the link mechanism L is in a contracted state. The element pressing body 53 is separated from the inner surface of the filter element 14. When the rotary mounting shaft 15 is rotating, the element pressing body 53 tends to spread outward due to centrifugal force (becomes expanded), so that the intermediate sliding body 54 moves downward against the force of the spring 56. And the link mechanism L is in the expanded state. The link mechanism L is provided radially in the circumferential direction of the rotary mounting shaft 15 in three units (120-degree angle intervals) or four units (90-degree intervals), and is provided with three or four element pressing bodies 53 for the filter element 14. The pressing force can be evenly applied to the inner surface of the substrate.

The upper end of the spring 56 is fixed to the upper end of the rotary mounting shaft 15. Element pressing body 5
It is desirable that the surface of the filter element 3 in contact with the inner surface of the filter element 14 be covered with an elastic body such as rubber so as not to damage the inner surface of the filter element.

As shown in FIG. 6, in the washing tank 13, both a water injection pipe 28 having a water injection hole 27 and an air injection pipe 30 having an air injection hole 29 are provided around the outer periphery of the cylindrical filter element 14. Alternatively, it is desirable that either of them is disposed at an interval of about 90 °. And
The upper ends of the water injection pipe 28 and the air injection pipe 30 are connected to one end of a water supply pipe 31 and one end of a compressed air supply pipe 32 via upper and lower annular pipes 28a and 30a, respectively. The other end of the water supply pipe 31 is connected to a circulation tank 61 via a circulation pump 62, and the other end of the compressed air supply pipe 32 is connected to a discharge port of the compressor 26. With the above-described configuration, the outer fluid ejecting means B can be formed, and the water and the compressed air can be ejected strongly toward the outer surface of the filter element 14.

The outer fluid injection means B formed by the water injection pipe 28 and the air injection pipe 30 is configured to be able to move up and down by a motor driven crank mechanism 44 installed on the upper gantry 12. Therefore, with the filter element 14 immersed in the cleaning tank 13,
The water and the compressed air can be jetted to the outside of the filter element 14 while only the air jet pipe 30 and the air jet pipe 30 are reciprocated upward and downward, and the dirt outside the filter element 14 can be efficiently removed. The up and down movement of the outer fluid ejecting means B can be performed not only by the crank mechanism 44 driven by a motor but also by reciprocating drive using, for example, an air cylinder. In this case, the compressor 26 can be used to supply compressed air to the lifting cylinder. By the above operation, not only fine dust adhering to the filter element but also oil stains and tar adhering stubbornly can be reliably removed.

FIG. 7 shows a control panel 49 of the filter element cleaning apparatus A. As shown, on the control panel 49,
A large number of switches for controlling the rotary mounting shaft 15, the circulation pump 62, the outer fluid ejecting means B, and the like, a status display lamp, a timer, and the like are provided.

The preferred dimensions of the above device are as follows: Cleaning tank: about 120 liters Filter element 14: 200 mm to 300 mm in outer shape
φ, height: 300 mm to 500 mm, and a guide for the size of a truck using the above filter element is a 4 t car to 10 t car and a trailer. Also, as the motor 19 used as an example of the filter element rotating means of the present invention used for rotating the rotary mounting shaft 15, a 0.4 kW, three-phase, 200 V motor with an inverter is preferably used. In addition, the detergent is preferably a nonionic surfactant as a surfactant, and as an antifoaming agent,
Silicone defoamer for wastewater treatment (Asahi Chemical Industry Co., Ltd.)
It is preferable to add Asahi silicone AF142). This antifoaming agent has excellent foam suppressing properties, foam breaking properties, sustainability and the like, and has improved water dilutability. When used in the apparatus of the present invention, the filter element can be efficiently cleaned and regenerated. it can.

Next, the results of cleaning the filter element using the cleaning apparatus of the present invention are shown below. Table 1 shows the results of a ventilation test of a filter element of a new product, a clogged product before cleaning, and a cleaned product obtained by cleaning the clogged product using the cleaning apparatus. From this result, although the air permeability of the clogged product has dropped to less than half that of the new product,
The cleaned product cleaned by the cleaning device of the present invention had an air permeability equivalent to that of a new product.

Table 2 shows the fuel consumption rate test results of the air filter. The cleaning product by the cleaning device of the present invention has the same performance as a new product even in fuel consumption rate,
It was a good result. The fixed fuel efficiency is 8.8 for clogged products
The value of 8 was changed to 8.99 for the washed product, which was within the range of the new value (9.07 to 8.95), so that the product had the performance restored to the same state as the new product. became. In addition, the intake air pressure of a clogged product shows an extremely bad value, while the cleaned product shows a value equivalent to that of a new product.

[0026] The filter element cleaning apparatus of the present invention comprises:
The above configuration is basically used, but the following configuration can be added. As shown in FIG. 8, the filter element 14 from the cleaning tank 13 can be taken out and taken in as follows. That is, the lifting cylinder 18 having the base of the horizontal swivel boom 37 fixed to the upper end thereof.
Is rotatably supported by a cylinder support cylinder 34 fixedly installed on the floor 10. A sprocket 35 is fixed to the lower end of the elevating cylinder 18. The sprocket 35 is linked with an sprocket 37 fixed to an output shaft of a rotary motor 36 attached to an outer peripheral surface of a cylinder support cylinder 34 by an endless belt 38. Have been.

An elevating means having a horizontal swiveling boom 37 is vertically installed at a position adjacent to the washing tank 13, and the filter element 14 is held in a cantilever shape at the upper end of an elevating cylinder 18 which is an example of the elevating means. You can do so.
The upper end of the filter element 14 is connected to the base end of the lifting / lowering means, so that the filter element can be easily taken in and out of the cleaning tank 13 and can be easily moved with the adjacent preparation tank 16 (see FIG. 9). .

With the above-described structure, the horizontal turning boom 37 can be turned around the axis of the lifting cylinder 18 by driving the rotary motor 36, and the filter element 14 is moved between the cleaning tank 13 and the preparation tank 16. Can be easily moved. The operation in this case will be described. After the filter element 14 is raised just above the preparation tank 16 by driving the elevating cylinder 18, the horizontal swiveling boom 37 is swung to remove the filter element 14 from the cleaning tank 1.
Then, the filter element 14 is immersed in the washing water in the washing tank 13 by driving the elevating cylinder 18. These operations can also be performed by the switches of the control panel 49 described above.

Further, as shown in FIG. 9, a preparation tank 16 can be provided. At a position adjacent to the cleaning tank 13 on the upper gantry 12 and at a position on the turning locus of the tip of the horizontal turning boom 37, a preparation tank 16 capable of detachably storing the filter element 14 is provided. Can also. Before washing in the washing tank 13, the filter element 14 is immersed in the preparation tank 16 for several minutes to several tens of minutes to remove pebbles, coarse particles, and the like in advance. The cleaning of the filter element 14 can be performed effectively. The preparation tank 16 may be used to perform a coagulation treatment of a drainage treatment of the filter element cleaning water, so that only a dirt component is coagulated and separated. In this case, the cleaning water in the circulation tank 61 is supplied by using the circulation pump 62, or a separate water absorption pump is provided for the treatment.

Next, as for the cleaning operation of the filter element 14 by the filter element cleaning apparatus A having the above-described configuration, a case where the fixing method of the filter element is performed using the link mechanism L will be described. (1) Install the link mechanism L for fixing and holding the filter element 14 in a contracted state. (2) Insert the filter element 14 into the cleaning tank 13. (3) The circulation pump 62 is started, and the cleaning liquid is introduced into the cleaning tank 13. (4) Preliminary cleaning is carried out by allowing to stand for about 10 minutes. (5) Open the valve at the lower part of the cleaning tank 13 and transfer the cleaning liquid to the circulation tank 61. (6) Cover the cleaning tank lid 18 and put the cleaning tank 13 in a sealed state. (7) The power of the motor for driving the rotation mounting shaft 15 of the control panel 49 is turned on. (8) After driving the rotary mounting shaft 15, the circulation pump 62, the outer fluid ejecting means B, and the like for a predetermined time, the element cleaning device stops. (9) After that, while rotating the filter element 14 at a high speed integrally with the rotary mounting shaft 15 by driving the rotary motor 19, the washing water adhering to the filter element 14 is removed. That is, this operation is a post-processing step of the cleaning operation in the cleaning tank 13. The above series of operations and the drive timing and time of each device can be set in advance by a timer or the like.

[0031]

[Table 1]

[0032]

[Table 2]

[0033]

As described above, according to the present invention,
The filter element detachably mounted on the filter element mounting means is immersed in the cleaning solution in the cleaning tank,
Rotation not only removes particulate dust such as sand and soot adhering to the filter element, but also removes fine dust adhering to the filter element in the cleaning tank, oil stains and tar adhering stubbornly to the filter element. Since the filter element is removed, even a filter element that is used under extremely bad conditions can be surely reproduced and used.

[Brief description of the drawings]

FIG. 1 is a partial cross-sectional front view of a filter element cleaning apparatus according to an embodiment of the present invention in a state where a filter element is immersed in a cleaning tank.

FIG. 2 is a partial cross-sectional front view of a filter element cleaning device provided with a filtration chamber.

FIG. 3 is a sectional front view showing a state in which an opening / closing lid of a cleaning tank is opened and a filter element is inserted.

FIG. 4 is a schematic side view showing a method of fixing a filter element to a cleaning tank.

FIG. 5 is a schematic side view showing another method for fixing the filter element to the cleaning tank.

FIG. 6 is a perspective view illustrating the structure of an outside air / water injection unit.

FIG. 7 is an explanatory diagram showing a switch group of a control panel of the filter element cleaning device.

FIG. 8 takes out the filter element from the cleaning tank,
It is a schematic side view which shows an intake means.

FIG. 9 is a schematic plan view showing a state where a preparation tank is provided.

[Explanation of symbols]

 A: Filter element cleaning device, L: Link mechanism 10: Floor surface, 11: Support leg, 12: Upper mount, 13: Cleaning tank, 14: Filter element, 15: Rotating mounting shaft, 16: Preparation tank, 17: Center Opening 18: Lifting cylinder 19, 36: Rotating motor 20, 20, 35, 37: Sprocket 21, 38: Endless belt, 26: Compressor, 27: Water injection hole, 28: Water injection pipe, 29: Air injection hole, 30: air injection pipe, 30a: lower annular pipe, 31: water supply pipe, 32: compressed air supply pipe, 34: cylinder support cylinder, 37: horizontal revolving boom, 40: partition wall, 41: filtration chamber , 42: filtration filter, 43: sediment outlet, 44: crank mechanism, 45: fixing screw, 46: holding plate, 47: holding lid, 48: holding lid rotating shaft, 49: control Board 51: lower link fixed body 52: upper link fixed body 53: the element pressing body 54: the intermediate slide member 55: rotary handle, 58: lower end 59: cleaning tank lid 62: circulation pump,

 ────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Yuji Asada 2-19-27 Koizumi, Shinnanyo-shi, Yamaguchi Pref. Asada Co., Ltd. Company Arima Koki (72) Inventor Nobuo Harada 2-118-24, Kokai, Tokuyama-shi, Yamaguchi Pref.Shunan Regional Industrial Promotion Center

Claims (4)

[Claims] 1. A cleaning tank for cleaning a filter element, filter element mounting means capable of detachably mounting the filter element, and a filter element rotating means for rotating the filter element together with the filter element mounting means around an axis. Means for cleaning the filter element. 2. The filter element mounting means presses and fixes a filter element between the filter element and a holding plate by using a vertically movable holding lid provided on an upper part of a washing tank. The filter element cleaning device according to claim 1. 3. The filter element mounting means comprises: a lower link fixed body provided at a lower portion of a rotary mounting shaft; an upper link fixed body provided at an upper portion; and an element pressing body forming a part of a link mechanism is provided on an inner surface of the filter element. 2. The filter element cleaning apparatus according to claim 1, wherein the filter element is pressed to fix the filter element to a rotary mounting shaft. 4. An external fluid ejecting means which is disposed in the washing tank so as to be movable up and down and surrounds the filter element, and is capable of ejecting at least one of air and water toward an outer surface of the filter element. The filter element cleaning device according to any one of claims 1 to 3, wherein: