JP2013252481A - Air filter regeneration method and air filter regeneration device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air filter regeneration method which saves the labor of a worker, does not cause the exposure of dust, and is not limited on the implementation of a schedule, and to provide a filter regeneration device.SOLUTION: A cylindrical air filter 200 including a dust-removing mechanism having a hollow part 210 at least one end of which is opened, and composed of a filtering material 220 for capturing dust contained in air which flows in from the side of an external peripheral face is rotatably placed on an inclined plate 12 having a support 11 abutting on the external peripheral face of the plate in the circumferential direction. Compressed air is blown to the internal peripheral face of the cylindrical air filter 200 while rotating the cylinder air filter 200 on the inclined plate 12 by imparting vibration to the cylinder air filter 200 via the inclined plate 12, and the dust adhered on the cylindrical air filter 200 is removed by the vibration and the blowing of the compressed air, thereby regenerating an air filtering function.

Description

  The present invention relates to an air filter regeneration method and an air filter regeneration device for regenerating an air filter used for an intake port of a heavy machinery engine.

  Many heavy machinery used for excavation and material loading / unloading use diesel engines. A diesel engine, which is a compression ignition type positive displacement internal combustion engine, sucks only air into a cylinder, compresses it with a high compression ratio, and as a result, the fuel is heated to a temperature higher than the spontaneous ignition of the fuel. Is sprayed in the form of a mist to spontaneously ignite, and combustion is maintained at an equal pressure during fuel supply. In heavy machinery engines, if the air filter used at the intake port is clogged severely, the amount of intake air is reduced and fuel consumption and output are both reduced. Therefore, it is necessary to perform cleaning or replacement.

  Generally, an air filter is provided at an intake port of a vehicle engine in order to separate dust contained in the atmosphere and supply clean air. The air filter is reduced in intake air to the engine or contaminated with intake air due to clogging. Therefore, the air filter is periodically cleaned to maintain its function, and is reused. For example, dust collected on the filter medium is removed using a vacuum cleaner having a suction nozzle to regenerate the filter medium (see, for example, Patent Document 1).

  In addition, for example, in a wet filter that removes sludge contained in a used machining fluid used for electric discharge machining, the filter is regenerated by applying vibration to the filter and removing the adhered sludge. (For example, refer to Patent Document 2).

JP 2007-260671 A No. 03-046826

  By the way, in the case of air filters used for heavy machinery used for excavation, material loading / unloading, etc., especially for engines for underground vehicles, the amount of dust in the mine mine has a large amount, so it has been necessary to frequently perform cleaning work.

  Conventionally, the air filter is washed by air blowing or the like at a well-ventilated location outside the mine, and the exposure of the dust and the amount of work of the worker have been problems. For example, in order to collect the dust scattered by the air blowing, a great effort is required. In terms of dust exposure, it was necessary to wear a dust mask and dust garment.

  Moreover, the air filter for underground vehicles has various shapes and sizes depending on the use of the vehicle. The shape is basically a hollow cylindrical shape, but there is a type in which one bottom surface portion is closed. The size is large, outer diameter 340mm, inner diameter 240mm, height 500mm, medium size outer diameter 310mm, inner diameter 200mm, height 480mm, small size outer diameter 210mm, inner diameter 110mm, height 390mm, etc. is there.

  It was necessary to regularly clean the air filters of various sizes, and the amount of air filter cleaning work was very large, and the labor and exposure of workers to dust was a problem. In addition, since dust is diffused around, it is necessary to select a rainy day or the like that can limit the work location and suppress the diffusion of dust.

  In the technique disclosed in Patent Document 1, since cleaning is performed only by the air blowing mechanism, the effect is insufficient, and the slide mechanism of the air nozzle is included, and thus the technique is complicated.

  Further, since the technique disclosed in Patent Document 2 is a technique corresponding to a wet filter, it cannot be directly applied to regenerate an air filter used for an intake port of a heavy machinery engine.

  Accordingly, an object of the present invention is to provide an air filter regeneration method and an air filter regeneration device that eliminates the labor of workers, eliminates dust exposure, and does not limit the implementation schedule in view of the conventional situation as described above. is there.

  Other objects of the present invention and specific advantages obtained by the present invention will become more apparent from the description of embodiments described below.

  In order to solve the conventional problems as described above, in the present invention, dust is removed and regenerated by dust sieving by vibration and air blowing by blowing air on an air filter to which dust has adhered. .

  That is, the present invention has a filter function of a cylindrical air filter having a dust removing mechanism that has a hollow portion that is open at least at one end surface and is made of a filter medium that captures dust contained in air flowing from the outer peripheral surface side. A method for regenerating an air filter, wherein the cylindrical air filter is mounted on an inclined plate having a support portion in contact with an outer peripheral surface of the cylindrical air filter so as to be rotatable in a circumferential direction. By applying vibration to the air filter through the inclined plate, while rotating the cylindrical air filter on the inclined plate, the compressed air is blown onto the inner peripheral surface of the cylindrical air filter, and the vibration and the compression are applied. The air filter function is regenerated by removing dust adhering to the cylindrical air filter by blowing air.

  Further, the present invention provides a filter function of a cylindrical air filter having a dust removing mechanism that has a hollow portion that is open at least at one end surface, and includes a filter medium that captures dust contained in air flowing from the outer peripheral surface side. An air filter regenerating apparatus for regenerating, wherein the cylindrical air filter is mounted on an inclined plate having a support portion in contact with an outer peripheral surface of the cylindrical air filter so as to be rotatable in a circumferential direction. A vibration applying portion for applying vibration to the inclined plate, a housing provided with a support frame for supporting the inclined plate via a cushioning material, and a position to be inserted into the hollow portion of the cylindrical air filter. The cylindrical air filter having a spray nozzle pipe, and having a compressed air spray section that blows compressed air onto the inner peripheral surface of the cylindrical air filter through the spray nozzle pipe; Above vibration The compressed air is blown onto the inner peripheral surface of the cylindrical air filter by the compressed air spraying part while rotating the cylindrical air filter on the inclined plate by applying vibration by the additional portion through the inclined plate. Thus, the air filter function is regenerated by removing dust adhering to the cylindrical air filter by the vibration by the vibration applying unit and the blowing of compressed air by the compressed air blowing unit.

  In the air filter regenerator according to the present invention, for example, the mounting portion includes a guide roller having guide surfaces that are in rolling contact with both end surfaces of the cylindrical air filter that is rotatably mounted on the inclined plate. And an air filter rotating rail may be provided on the upper surface of the inclined plate.

  Further, in the air filter regeneration device according to the present invention, the inclined plate has an inclination of 7 to 8 degrees with respect to a horizontal plane, and the vibration adding unit applies a vibration having a frequency of 55 to 60 Hz to the inclined plate. It can be added.

  Furthermore, the air filter regeneration device according to the present invention includes, for example, a suction collection unit that sucks and collects dust that is separated from the cylindrical air filter and floats, and the housing sets the cylindrical air filter. It has a door and a transparent window, and can be sealed.

  According to the present invention, it is possible to provide an air filter regeneration method and an air filter regeneration device that saves the labor of an operator, does not expose dust, and does not limit the implementation schedule.

It is a top view which shows the structure of the air filter reproduction | regeneration apparatus to which this invention is applied. It is a side view which shows the structure of the said air filter reproduction | regeneration apparatus. It is a cross-sectional top view of the air spray nozzle pipe with which the said air filter reproduction | regeneration apparatus was equipped. FIG. 4 is a partially longitudinal plan view (A) and a longitudinal sectional view (B) showing a structural example of a cylindrical air filter regenerated by the air filter regeneration device. It is an external appearance perspective view of the said air filter reproduction | regeneration apparatus.

  Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS.

  The air filter regeneration apparatus 100 to which the present invention is applied regenerates the filter function by removing dust from the cylindrical air filter 200 to which dust is adhered by sieving the dust by vibration and blowing the dust by blowing air. For example, as shown in FIG. 1, air connected to an apparatus main body 110 into which a cylindrical air filter 200 to be regenerated is inserted, and an air blowing nozzle pipe 41 in the apparatus main body 110 via an air hose 111. It comprises a compressor 120 and a vacuum cleaner 130 connected to the suction nozzle 80 in the apparatus main body 110 via an air hose 112.

  The air filter regenerator 100 has a hollow portion 210 having at least one open end surface, and a cylindrical air having a dust removing mechanism including a filter medium 220 that captures dust contained in the air flowing from the outer peripheral surface side. As shown in FIGS. 1 and 2, the filter function of the filter 200 is regenerated. The filter 200 has a support portion 11 that is in contact with the outer peripheral surface of the cylindrical air filter 200. A mounting unit 10 on which the cylindrical air filter 200 is rotatably mounted, a vibration applying unit 20 that applies vibration to the inclined plate 12, and a support frame that supports the inclined plate 12 via a buffer material 31. 32 has an air blowing nozzle tube 41 at a position where it is inserted into the hollow portion 210 of the cylindrical air filter 200, and compression is performed via the air blowing nozzle tube 41. The gas comprises compressed air blowing portion 40 which blows in the inner peripheral surface of the cylindrical air filter 200.

  Here, FIG. 1 is a plan view of the air filter regeneration device 100 shown with the top plate 35 of the apparatus main body 110 removed, and FIG. 2 shows the air filter regeneration with the side plate 36 of the apparatus body 110 removed. 2 is a plan view of the device 100. FIG.

  As shown in FIG. 2, the casing 30 of the apparatus main body 110 in the air filter regeneration apparatus 100 is movable by mounting casters 37 on the bottom surface of the bottom plate 33.

  A support frame 32 having legs 34 fixed to the bottom plate 33 is provided inside the housing 30. The inclined plate 12 on which the regenerated cylindrical air filter 200 is placed is installed on the support frame 32 together with the vibrator 21 that functions as the vibration applying unit 20. The inclined plate 12 is installed on the support frame 32 via a cushioning material 31 using a rubber hose.

  A support arm is erected on the lower end edge portion of the inclined plate 12 as a support portion 11 that supports the outer peripheral surface of the cylindrical air filter 200 placed on the inclined plate 12.

  The inclined plate 12 having the support portion 11 in contact with the outer peripheral surface of the cylindrical air filter 200 functions as the mounting portion 10 on which the cylindrical air filter 200 is mounted so as to be rotatable in the circumferential direction.

  The vibrator 21 functions as a vibration applying unit 20 that applies vibration to the inclined plate 12 supported by the support frame 32 via the buffer material 31.

  In this embodiment, the vibration frequency of the vibrator 21 is 57.5 Hz. The inclined plate 12 on which the cylindrical air filter 200 is placed is installed with an inclination angle θ of about 7 to 8 degrees with respect to the horizontal plane.

  The cylindrical air filter 200 placed on the inclined plate 12 performs a rotational motion in the circumferential direction in the direction of arrow A shown in FIG. 2 by transmitting vibrations from the vibrator 21.

  That is, in the air filter regeneration device 100, the vibrator 21 and the inclined plate 12 function as a rotation driving unit that rotates the cylindrical air filter 200.

  Further, the inclined plate 12 is provided with a guide rail 13 for guiding the rotational movement of the cylindrical air filter 200 and a pair of guide rollers 14 for guiding both end faces of the cylindrical air filter 200.

  Further, the air filter regenerator 100 is provided with an air blowing nozzle tube 41 at a position where it is inserted into the hollow portion 210 of the cylindrical air filter 200 placed on the inclined plate 12.

  As shown in the cross-sectional plan view of FIG. 3, the air blowing nozzle tube 41 is provided with a plurality of nozzle holes 42 on the tube surface on the side corresponding to the inclined plate 12. The air blowing nozzle pipe 41 is supplied with compressed air from an air compressor 120 connected to the apparatus main body 110 via an air hose 111, so that the plurality of nozzle holes 42 of the air blowing nozzle pipe 41 are formed. Thus, the compressed air is jetted toward the inclined plate 12 side.

  That is, in the air filter regenerating apparatus 100, the air blowing nozzle pipe 41 in the apparatus main body 110 connected to the air compressor 120 via the air hose 111 allows compressed air supplied from the air compressor 120 to flow into the cylinder. It functions as the compressed air spraying part 40 sprayed on the inner peripheral surface of the shaped air filter 200.

  Here, the cylindrical air filter 200 regenerated by the air filter regenerating apparatus 100 has a hollow portion 210 having at least one open end surface, and a filter medium 220 that captures dust contained in air flowing from the outer peripheral surface side. For example, it is a cylindrical air filter for underground vehicles equipped with a dust removing mechanism.

  For example, as shown in FIG. 4A and FIG. 4B, a structure example of the cylindrical air filter 200 is housed in a cylindrical casing 230 containing a dust removing mechanism made of a filter medium 220 having a hollow portion 210, and a lid. This is a bottomed cylindrical air filter closed by a member 240.

  4A is a longitudinal plan view of the cylindrical air filter 200 shown with a part cut away, and FIG. 4B is cut along the line BB in FIG. 4A. It is sectional drawing of the cylindrical air filter 200 shown.

  As shown in FIG. 4A, the cylindrical casing 230 includes an inner cylinder 211 and an outer cylinder 212 formed with a plurality of through holes 211a and 212a, and ring-shaped end plates 213 and 214, respectively. A dust removing mechanism made of the filter medium 220 is accommodated in a cylindrical accommodation space between the inner cylinder 211 and the outer cylinder 212, and the accommodation space is closed by ring-shaped end plates 213 and 214.

  As shown in FIG. 4B, the filter medium 220 is formed by repeatedly bending a filter material such as filter paper or non-woven fabric into a pleated shape, and connecting the ends with a connecting member, whereby the fold line extends in the axial direction. It is formed in a substantially cylindrical shape and functions as a dust removing mechanism that captures dust on the outer peripheral surface thereof.

  In the cylindrical air filter 200, air flows from the outer peripheral side of the filter medium 220 to the inside (center), dust is removed, and the air is supplied to the engine through the hollow portion 210 at the center.

  In this air filter regenerator 100, the cylindrical air filter 200 mounted on the inclined plate 12 has a plurality of the air blowing nozzle tubes 41 in a state where the air blowing nozzle tubes 41 are inserted into the hollow portions 210 thereof. The compressed air is jetted toward the inclined plate 12 through the nozzle hole 42, whereby dust adhering to the cylindrical air filter 200 is blown off.

  When the dust adhering to the cylindrical air filter 200 is blown off by the injection of compressed air to remove the dust, the cylindrical air filter 200 placed on the inclined plate 12 is vibrated by the vibrator 21. 2 is transmitted through the inclined plate 12 to perform a rotational motion in the direction of the arrow A shown in FIG. 2, the compressed air can be sprayed on the entire inner surface by the rotational motion.

  In this air filter regenerator 100, vibrations from the vibrator 21 are transmitted to the cylindrical air filter 200 via the inclined plate 12, thereby filtering out dust due to vibrations and a plurality of nozzles of the air blowing nozzle tube 41. Dust is removed by blowing compressed air through the holes 42.

  That is, in the air filter regenerator 100, vibrations from the vibration applying unit 20 are applied to the cylindrical air filter 200 placed on the inclined plate 12 through the inclined plate 12, thereby adding the vibration on the inclined plate 12. While rotating the cylindrical air filter 200, the compressed air spraying section 40 sprays compressed air onto the inner peripheral surface 201 of the cylindrical air filter 200, and the vibration applied by the vibration applying section 20 and the compressed air spraying section. By blowing the compressed air by 40, dust adhering to the cylindrical air filter 200 is removed, and the air filter function is regenerated.

  In this air filter regenerator 100, vibrations from the vibrator 21 are transmitted to the cylindrical air filter 200 via the inclined plate 12, thereby filtering out dust due to vibrations and a plurality of nozzles of the air blowing nozzle tube 41. By blowing compressed air through the hole 42, dust can be efficiently removed and the cylindrical air filter 200 can be quickly regenerated.

  That is, in the air filter regenerator 100, the rotation and vibration used for dust removal are realized by the same and simple mechanism.

  In order to shorten the required time, it is also possible for an operator to blow air on the inner and outer surfaces using an air gun through a small hole in the side wall of the housing 30 as an auxiliary.

  Further, in this air filter regenerator 100, the dust having a large particle size and screened off from the cylindrical air filter 200 is gathered on the chute 51 provided at the lower part of the support frame 32 down the inclined plate 12, and the dust is collected. It is recovered in the recovery container 50. Further, the dust that has fallen in the housing 30 with a small particle size is collected by the vacuum cleaner 130 via the suction nozzle 80.

  Here, the casing 30 of the air filter regenerator 100 is hermetically sealed so that dust does not leak out. FIG. 5 shows an external perspective view of the air filter regeneration device 100 with the door 38 for setting the cylindrical air filter 200 removed. The housing 30 of the air filter regeneration device 100 includes a door 38 for setting the cylindrical air filter 200 in the device main body 110 and a transparent window 39 for checking the inside of the device main body 110 on the side plate 36. The progress of dust removal can be confirmed.

  In the air filter regenerating apparatus 100, the suction nozzle 80 in the apparatus main body 110 connected to the vacuum cleaner 130 via the air hose 112 sucks and collects dust that is separated from the cylindrical air filter 200 and floats. Functions as a dust collection unit.

  The filter regeneration operation using the air filter regeneration device 100 is performed as follows.

  First, the cylindrical air filter 200 to which dust adheres is placed on the support frame 32 while the air blowing nozzle 41 is inserted into the opening. At this time, the cylindrical air filter 200 is set so as to be in contact with the guide rail 13 and the guide roller 14 that guide the rotational motion of the cylindrical air filter 200.

  That is, the cylindrical air filter 200 is mounted on the inclined plate 12 having the support portion 11 that is in contact with the outer peripheral surface of the cylindrical air filter 200 so as to be rotatable in the circumferential direction.

  Here, there are various types of the cylindrical air filter 200, but in the air filter regeneration device 100, the air spray nozzle 41 may be set so as to be inserted into the cylindrical air filter 200. From a large cylindrical air filter 200 having an outer diameter of 340 mm, an inner diameter of 240 mm, and a height of 500 mm, to a medium-sized cylindrical air filter 200 having an outer diameter of 310 mm, an inner diameter of 200 mm, and a height of 480 mm. In the range up to a small cylindrical air filter 200 having a diameter of 210 mm, an inner diameter of 110 mm, and a height of 390 mm, it is not necessary to individually adjust the member position on the apparatus side.

  Then, after setting the cylindrical air filter 200, the door 38 is closed, and the vacuum cleaner 130 and the air filter regeneration device 100 are activated. The cylindrical air filter 200 rotates spontaneously (in the example, 3 to 5 minutes / rotation). ) In the meantime, air blowing is performed simultaneously with vibration, and dust removal of the cylindrical air filter 200 is completed.

  That is, by applying vibration to the cylindrical air filter 200 via the inclined plate 12, the cylindrical air filter 200 is rotated on the inclined plate 12, while the inner surface of the cylindrical air filter 200 is rotated. The compressed air is sprayed, and the dust adhering to the cylindrical air filter 200 is removed by the vibration and the compressed air spraying to regenerate the air filter function.

  Thereafter, the power is turned off, the door 38 is opened, and the cylindrical air filter 200 is taken out.

  The dust collected in the dust collection container 50 and the vacuum cleaner 130 may be appropriately removed according to the capacity, and the apparatus main body 110 may be appropriately cleaned.

  Although including repetition, if the filter function of the cylindrical air filter 200 is regenerated by the air filter regenerator 100, there is almost no time for collecting dust and the risk of exposure to dust is greatly reduced.

  That is, by using this air filter regenerator 100, the trouble of collecting dust is taken in and out of the cylindrical air filter 200, the dust collecting container 50, and the vacuum cleaner 130, except when auxiliary air blowing is performed. It becomes only the exchange of the filter of this, and it becomes quite easy work compared with the past. Specifically, the time required in the past was 0.6 man · hour / piece, whereas when a technician assists with an air gun, 0.2 man · hour / piece, in a fully automatic case 1 o'clock / piece.

  In addition, the restrictions on work locations and work days have been eased by eliminating the risk of worker exposure to dust and surrounding dust contamination.

  Furthermore, since the mechanism of the air filter regeneration device 100 is very simple, it is possible to reduce the time and effort required for maintenance and education.

  DESCRIPTION OF SYMBOLS 10 Mounting part, 11 Support part, 12 Inclination board, 13 Guide rail, 14 Guide roller, 20 Vibration addition part, 21 Vibrator, 30 Case, 31 Buffer material, 32 Support stand, 33 Bottom plate, 34 Leg part, 35 Top Plate, 36 Side plate, 37 Caster, 38 Door, 39 Transparent window, 40 Compressed air spray section, 41 Air spray nozzle tube, 42 Nozzle hole, 50 Dust collection container, 51 Chute, 80 Suction nozzle, 100 Air filter regenerator, 111 , 112 Air hose, 120 Air compressor, 130 Vacuum cleaner, 200 Cylindrical air filter, 210 Hollow part, 220 Filter medium, 230 Cylindrical casing

Claims (5)

An air filter regeneration method for regenerating the filter function of a cylindrical air filter having a dust removal mechanism comprising a filter medium that captures dust contained in air flowing from the outer peripheral surface side and having a hollow portion with at least one end surface opened Because
The cylindrical air filter is placed on an inclined plate having a support portion in contact with the outer peripheral surface of the cylindrical air filter so as to be rotatable in a circumferential direction,
While rotating the cylindrical air filter on the inclined plate by applying vibration to the cylindrical air filter through the inclined plate, compressed air is blown to the inner peripheral surface of the cylindrical air filter,
An air filter regeneration method for regenerating an air filter function by removing dust adhering to the cylindrical air filter by blowing the vibration and the compressed air. An air filter regenerator that regenerates the filter function of a cylindrical air filter having a dust removing mechanism that has a hollow part that is open at least at one end surface and that is made of a filter medium that captures dust contained in the air flowing from the outer peripheral surface side. Because
A mounting portion on which the cylindrical air filter is mounted on an inclined plate having a support portion that is in contact with the outer peripheral surface of the cylindrical air filter;
A vibration applying unit for applying vibration to the inclined plate;
A housing provided with a support frame for supporting the inclined plate via a cushioning material;
A blowing nozzle pipe at a position to be inserted into the hollow portion of the cylindrical air filter, and a compressed air blowing section for blowing compressed air onto the inner peripheral surface of the cylindrical air filter through the blowing nozzle pipe,
The compressed air is blown while rotating the cylindrical air filter on the inclined plate by applying the vibration by the vibration applying portion to the cylindrical air filter placed on the inclined plate through the inclined plate. The part is sprayed with compressed air on the inner peripheral surface of the cylindrical air filter, and dust adhering to the cylindrical air filter is removed by vibration by the vibration applying part and blowing of compressed air by the compressed air blowing part. An air filter regenerator that regenerates the air filter function.   The mounting portion is provided with guide rollers having guide surfaces that are brought into rolling contact with both end surfaces of the cylindrical air filter that is rotatably mounted on the inclined plate, and an air on the upper surface of the inclined plate. The air filter regeneration device according to claim 2, wherein a filter rotating rail is provided. The inclined plate has an inclination of 7 to 8 degrees with respect to a horizontal plane,
4. The air filter regeneration device according to claim 2, wherein the vibration adding unit adds vibration having a frequency of 55 to 60 Hz to the inclined plate. 5. A dust collecting part for sucking and collecting dust floating from the cylindrical air filter;
5. The air filter regeneration device according to claim 2, wherein the casing includes a door for setting a cylindrical air filter and a transparent window, and is sealed.