KR101071342B1 - Dust collecting filter including dust cleaning device - Google Patents

Abstract

SUMMARY OF THE INVENTION An object of the present invention is to provide a dust collecting filter having a structure in which dust is attached to an outer surface of the filter member to remove dust attached to the outside of the filter member so as to spray compressed air to the outside of the filter member. . Accordingly, the dust collecting filter of the present invention is disposed vertically and has a cylindrical filter member having a circular cross section, a compressed air supply pipe installed in the inner center of the filter member and supplied with compressed air, and the compressed air supply pipe and the interior thereof are A connection support which is connected to and receives the compressed air and rotates around the compressed air supply pipe, and is installed at both ends of the connection support to inject the compressed air in a direction penetrating the filter member from the inside to the outside; To include a compressed air injection pipe having a plurality of dust injection nozzles, wherein the filter member comprises a tapered shape that the diameter gradually decreases while going downward, the plurality of dust discharge injection holes in the tapered shape The compressed air injection pipe is obliquely lowered so that the distances from the inner surface of the filter member are all constant. The crab is characterized in that the arrangement.

Description

Dust collecting filter including dust collecting device {Dust collecting filter including dust cleaning device}

The present invention relates to a dust collecting filter including a dust collecting device, and more particularly, to provide a dust collecting device that can remove dust such as dust attached to the outer surface of the dust collecting filter using compressed air, and the dropping of the dust is more preferable. The present invention relates to a dust collecting filter in which the filter member is formed in a tapered shape so as to be effectively produced.

Dust collection filter is widely installed to remove the dust contained in the air generated during the work process or introduced into the room and to discharge clean air.

As the dust collecting filter as described above, dust is accumulated on the outer surface of the dust collecting function and the dust collecting function is degraded, it is necessary to remove dust adhering to the outer surface every set period.

FIG. 1 shows an example of a dust collecting filter equipped with a dust collecting device for removing dust attached to the surface of the dust collecting filter at regular intervals.

1, the air pipe 1 is installed in the vicinity of the central axis of the cylindrical filter member 2, and the compressed air supply pipe 8 is connected. Since the air pipe 1 includes a plurality of injection holes 3 along the vertical direction, compressed air is injected toward the inner circumferential surface of the filter member 2.

In addition, in front of a part of the injection port 3 of the air pipe 1 is provided with a rotary blade (5) fixed to the air pipe (1) and bent to change the direction of the compressed air injected from the injection port (3), The upper part of the pipe 1 is fixed rotatably by a bearing 7. Accordingly, when compressed air is injected toward the rotary blade 5, the compressed air hits the rotary blade 5 and the rotation of the air pipe 1 starts.

In addition, the plurality of injection holes 3 rotate around the inner circumferential surface of the filter member 2 by the rotation of the air pipe 1 to inject compressed air to the filter member 2 and attach it to the outer circumferential surface of the filter member 2. Eliminate dust.

After the dust removal action occurs for a predetermined time, the dust collection action occurs again as air is introduced from the outside of the filter member 2 to the inside by the relatively weak pressure.

However, in the conventional dust collecting filter as described above, since the compressed air is not injected close to the surface of the filter member 2, the pressure for removing the dust attached to the outer circumferential surface does not work effectively. In order to approach near the inner surface of the filter member 2, the air pipe 1 is enlarged, and the vibration is largely generated during rotation, which causes a problem that the burden of the upper bearing 7 increases.

Further, in the process of falling dust dropped by compressed air at the point “A” shown in FIG. 1, the phenomenon of reattachment to the point “B” is caused by the attraction of static electricity or the like. In other words, when the dust removal process is performed periodically, the dust falling from the upper part of the filter member 2 falls adjacent to the filter member 2 which is vertically erected in the falling process, so that the dust is dropped on the lower surface of the filter member 2 again. The phenomenon of sticking occurs. Such a phenomenon is more pronounced when the exhaustion process is completed and stopped, rather than an intermediate point in which one cycle of exhaustion process is in progress. This causes a decrease in the efficiency of the dust collection process which is resumed following the exhaustion process.

The present invention has been made in order to solve the above problems, an object of the present invention is provided with a dust extraction device inside the filter to inject compressed air to the outside of the filter member is dust attached to the outer surface of the filter member It is to provide a dust collecting filter having a structure that can be removed more effectively.

The dust collecting filter of the present invention for achieving the above object, the cylindrical filter member having a vertical cross section and a circular cross section, a compressed air supply pipe is installed in the inner center of the filter member supplied compressed air, and A connecting support which is in communication with the compressed air supply pipe and is supplied with the compressed air and rotates around the compressed air supply pipe, and is installed at both ends of the connecting support so that the filter member penetrates from the inside to the outside. Comprising a compressed air injection pipe having a plurality of dust injection nozzles for injecting the compressed air to the filter member, the filter member comprises a tapered shape that the diameter gradually decreases while going downward, the plurality of the tapered shape The exhausting injection hole of the pressure so that all the distance from the inner surface of the filter member is constant The air injection pipe is disposed obliquely, and the connection support and the compressed air supply pipe are connected by bearings, and the connection support or the connection support is tangential to the rotational trajectory rotating about the compressed air supply pipe. The compressed air injection pipe is formed separately from the rotary injection hole, the compressed air is injected from the rotary injection hole to rotate the connection support, the connection support is rotated symmetrically around the compressed air supply pipe It extends radially outward from the compressed air supply pipe, characterized in that the compressed air injection pipe is also installed so as to be rotationally symmetrical about the compressed air supply pipe.
In addition, the present invention is installed on the upper end of the filter member in the configuration and the upper cover plate having a through hole to flow the air inside the filter member in an upward direction, and is installed at the lower end of the filter member of the filter member A lower cover plate for sealing a lower end is installed, and the compressed air supply pipe is fixed to the upper cover plate by a connecting rod installed in the through hole in the through hole of the upper cover plate. The lower end of the compressed air supply pipe is coupled to the vertical support is fixed to the center of the lower cover plate, the metal protection net is installed along the inner circumference of the filter member between the compressed air injection pipe and the inner peripheral surface of the filter member It is another feature.
In the present invention, the tapered portion is formed only in the upper portion of the filter member, the cylindrical portion is formed in the lower portion of the filter member, the connecting support and the compressed air injection pipe is an upper portion corresponding to the tapered portion The connecting support and the compressed air injection pipe of the lower portion corresponding to the cylindrical upper support and compressed air injection pipe is composed of the connecting support and compressed air injection pipe of the upper portion and the connecting support and compressed air injection pipe of the lower portion Another feature is that rotatable independently of each other.

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The dust collecting filter according to the present invention configured as described above has the following effects.

First, in the dust collecting filter of the present invention, since the tapered portion is included in the filter member, dust falling off from the outer surface of the filter member is minimized from being reattached to the lower outer surface of the filter member by static electricity or the like.

Second, the dust collecting filter of the present invention is a state in which the compressed air injection pipe is approaching the inner surface of the filter member by the connecting support, and each injection hole is approaching at regular intervals to inject the compressed air so that the overall uniform pressure is effective. Dust exhaustion is possible.

Third, the present invention is a structure in which the connecting support and the compressed air injection pipe is rotated in a state where the compressed air supply pipe is fixed to the center of the filter member, so that the weight of the rotating part is not large and vibration is minimized due to the rotation. In addition, since the upper and lower ends of the compressed air supply pipe are fixed at the same time, the vibration caused by the rotation is greatly reduced.

Fourth, the present invention is installed so that the connecting support and the compressed air injection pipe is rotationally symmetrical about the compressed air supply pipe, even the rotation of the filter member and the compressed air injection pipe is always constant even by the rotation, so that the uniform air pressure Since there is no eccentricity, vibration caused by rotation can be minimized.

1 is a cross-sectional configuration diagram of a dust collecting filter installed inside a conventional dust collecting device
2 is an installation state in which the dust collecting filter is installed in the dust collecting apparatus according to the embodiment of the present invention;
3 is a cross-sectional view of the dust collecting filter according to an embodiment of the present invention.
Figure 4 is a perspective view showing a dust removal apparatus installed in the filter member according to an embodiment of the present invention
5 is an explanatory view of the rotation of the dust removal device and the injection action of compressed air in the dust collecting filter according to an embodiment of the present invention.
6 is an explanatory view for explaining the action of the tapered portion of the filter member according to the embodiment of the present invention;
7 is a configuration in which the filter member according to the embodiment of the present invention is modified to have a tapered shape as a whole along the longitudinal direction.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described in detail with reference to the drawings.

2 shows a state in which a dust collecting filter according to an embodiment of the present invention is installed in a dust collecting apparatus, FIG. 3 shows a cross section of a dust collecting filter according to an embodiment of the present invention, and FIG. 4 shows an embodiment of the present invention. Is a perspective view showing a dust removal apparatus installed in the filter member according to the present invention.

2 to 4, the dust collecting filter according to the embodiment of the present invention is disposed in the vertical and the cylindrical filter member having a circular cross section, and installed in the inner center of the filter member 40 and compressed Compressed air supply pipe 10 is supplied with air, the compressed air supply pipe 10 and the interior communication is connected to receive the compressed air and to rotate around the compressed air supply pipe 10 (21, 22) ) And a plurality of dust discharge injection holes 214 and 224 which are respectively installed at both ends of the connection support 21 and 22 to inject the compressed air in a direction penetrating the filter member 40 from the inside to the outside. Including compressed air injection pipe (212, 222), wherein the filter member 40 includes a tapered portion (41) whose diameter gradually decreases in the downward direction, and the plurality of dust exhausted from the tapered portion (41) The injection hole (214, 224) is the filter unit Both the distance away from the inside surface (40) is constant characterized in that the obliquely arranged above the compressed air injection pipe (212 222).

The filter member 40 is vertically disposed in a state where the top cover plate 50 is caught on the partition wall 61 of the dust collector. Dust is removed from the inlet air at the lower side based on the partition wall 61 and the clean air is discharged to the upper side. The filter member 40 is formed in a tubular shape having a circular cross section, and has a structure in which a fold wrinkle is repeatedly formed along a circumference forming the circular cross section as in a general structure.

In addition, the filter member 40 includes a tapered portion 41 whose diameter gradually decreases while going downward. The tapered portion 41 is preferably formed in the upper portion of the filter member 40 and has a cylindrical portion 42 which is generally cylindrical in the lower portion.

The upper tapered portion 41 is formed so that its outer surface is oblique so as not to be affected by the outer surface positioned below the dust accumulated on the outer surface.

An upper cover plate 50 having a through hole 54 is installed at an upper end of the filter member 40 to allow air inside the filter member 40 to flow upward. In addition, a lower cover plate 70 is installed at the lower end of the filter member 40 to seal the lower end of the filter member 40.

On the other hand, the compressed air supply pipe 10 is supplied with compressed air to eliminate the dust attached to the outer surface in the process of the dust collecting action of the filter member (40). Compressed air supply pipe 10 is installed perpendicular to the inner center of the filter member 40, the upper end is formed with the inlet 11 of the compressed air, the inlet 11 is the partition wall 61 of the dust collector Compressed air is supplied by being connected to the supply passage 62 connected to the upper side of the). Compressed air supplied through the supply passage 62 is supplied at a predetermined time period set by a separate control device (not shown).

Both ends of the compressed air supply pipe 10 are fixed to the upper cover plate 50 and the lower cover plate 70, respectively. That is, the compressed air supply pipe 10 is fixed by a connecting table 53 installed in the through hole 54 of the upper cover plate 50 installed in the partition wall 61 of the dust collector, and the compressed air supply pipe 10 The lower end of the) is fixed to the center of the lower cover plate 70 by being coupled to the lower vertical support 13 is coupled. Accordingly, even when the high pressure air is supplied to the compressed air supply pipe 10, and the connection support bodies 21 and 22 rotate around the compressed air supply pipe 10, the compressed air supply pipe 10 is supported at the upper and lower ends. It is firmly fixed to minimize the risk of damage due to vibration.

The connection supporting bodies 21 and 22 communicate with the compressed air supply pipe 10 and are empty to receive the compressed air, and are also in communication with the internal hollow portions of the compressed air injection pipes 212 and 222. Therefore, the internal space of the connection support 21, 22 is to be compressed air flows from the compressed air supply pipe 10 is supplied to the compressed air injection pipe (212, 222). In addition, the compressed air supply pipe 10 is installed through the bearings 215 and 225 so as to rotate about the compressed air supply pipe 10.

In addition, the connection support (21, 22) is installed to extend radially outward from the compressed air supply pipe 10, the connection support (21, 22) and compressed air injection pipe (212, 222) is the compressed air supply pipe (10) Rotate symmetry around). Accordingly, even when the connection support bodies 21 and 22 are rotated, the distance between the filter member 40 and the compressed air injection pipes 212 and 222 is always constant so that uniform air pressure is applied and exhaustion occurs uniformly, and there is no eccentricity. Vibration due to rotation is minimized.

Rotating injection holes 216 are separately formed in the vicinity of both ends of the connection support bodies 21 and 22 so as to face the tangential direction of the rotational trajectory rotating around the compressed air supply pipe 10. The rotational injection hole 216 is formed at right angles to the exhausting injection hole (214, 224) to be described later in the direction of injecting compressed air rotational force that the connecting support (21, 22) rotates around the compressed air supply pipe (10) You get The rotary injection hole 216 may be installed in the compressed air injection pipe (212, 222) to be described later.

On the other hand, the compressed air injection pipe (212, 222) is installed at both ends of the connecting support (21, 22). The compressed air injection pipes 212 and 222 are hollow tubes communicating with the insides of the connection supports 21 and 22, and the compressed air injection pipes 212 and 222 spray the compressed air in a direction penetrating the filter member 40 from the inside to the outside. Dust removal injection holes 214 and 224 are installed. The plurality of dust jetting holes 214 and 224 are installed at regular intervals along the length direction of the compressed air injection pipes 212 and 222, and all the dust jetting holes 214 and 224 are adjacent to the filter member 40. The distance from the inner surface of the c) is all set to be constant. Therefore, even in the tapered portion 41 of the filter member 40, the plurality of exhausting injection holes 214 and 224 are compressed air spray pipes 212 and 222 so that the distances from the inner surface of the filter member 40 are all constant. It is arranged at an angle.

Between the compressed air injection pipes 212 and 222 and the inner circumferential surface of the filter member 40, a metal guard net 45 is installed along the inner circumference of the filter member 40. The guard net 45 serves to prevent excessive deformation of the filter member 40 and to protect the internal structure.

In the present embodiment, the support bodies 21 and 22 and the compressed air injection pipes 212 and 222 are provided at the top and the bottom, respectively. The upper support body 21 and the compressed air injection pipe 212 corresponding to the tapered portion 41 of the filter member 40, and the lower support body 22 and compression corresponding to the cylindrical portion 42 Consists of the air injection pipe 222 is compressed air supplied from the same compressed air supply pipe 10, it is configured to rotate independently of each other to facilitate the disassembly and assembly of the dust filter. However, it is also possible to constitute a single compressed air injection pipe (212, 222) to which the upper and lower compressed air injection pipe (212, 222) is connected.

Next, the operation of the dust collecting filter according to the embodiment of the present invention will be described.

5 illustrates the rotation of the dust removal apparatus and the injection of compressed air in the dust collecting filter according to the embodiment of the present invention.

First, when compressed air is supplied from the inlet 11 according to the exhaustion cycle, the compressed air is supplied to the inside of the connecting support 21 and 22 and the compressed air injection pipes 212 and 222 through the compressed air supply pipe 10 so that the compressed air is supplied. It is ejected to the inner surface of the filter member 40 through the exhaust injection holes (214, 224) to pass through the filter member (40). In addition, the compressed air is also ejected to the rotary injection hole 216 to generate a rotational force for rotating the connection support (21, 22), the connection support (21, 22) starts to rotate. Therefore, since the compressed air is ejected from the exhausting injection holes 214 and 224 while the connection supports 21 and 22 rotate, the compressed air is injected to the entire circumference of the filter member 40 by spraying the inner circumference of the filter member 40. It acts to cause dust exhaustion.

6 shows the action according to the tapered portion 41 of the filter member 40 according to this embodiment.

When compressed air injected from the compressed air injection pipes 212 and 222 acts on the filter member 40 at a predetermined pressure, air flows through the filter member 40 to generate dust on the outer surface of the filter member 40. Pushed out. Accordingly, the dust in the position "A" of FIG. 6 is eliminated and falls to the trajectory as shown. The dust that has started to fall from the tapered portion 41 has a distance of “S2” from the outer surface of the cylindrical portion 42 at the “B” position. On the other hand, if the upper portion is formed in a cylindrical shape with the same diameter as the lower portion and the tapered portion 41 is not formed, the dust falling from the "A" position will have a distance of "S1" from the "B" position, This means that the dust falling in the structure in which the tapered portion 41 is formed can fall at a sufficient distance from the lower filter surface. Accordingly, the falling dust is prevented from reattaching to the surface of the lower filter member 40 by static electricity or the like.

Such an effect is more effective at the point where dust is likely to be attached to the cylindrical portion 42 of the lower part by stopping the dusting action and stopping the spraying of compressed air rather than the intermediate point at which one cycle of the dusting action is in progress. This can be called.

FIG. 7 shows an example in which the filter member 40 is modified to have a tapered portion 41 along the longitudinal direction in the configuration of the above-described embodiment.

Accordingly, the compressed air injection pipe 222 'provided at the lower portion is also arranged obliquely so as to correspond to the tapered portion 40'. In other words, the plurality of exhausting injection holes 214 and 224 installed in the compressed air injection pipe 222 'are configured such that the distance from the inner surface of the filter member 40 is constant at the entire upper and lower portions.

By the configuration as described above, even when dust adhered to the lower part of the filter member 40 is eliminated by the compressed air, as described above, a sufficient distance from the outer surface of the filter member 40 'positioned under the filter member 40 is maintained. As a result, the effect of reattaching is reduced.

However, dust attached to the lower part of the filter member 40 is not much less likely to be attached to the lower surface while falling than dust attached to the upper part, so that the overall filter capacity is not reduced due to the reduction of the outer surface. In order to prevent the lower portion of the filter member 40 as in the above-described embodiment, the cylindrical portion 42 may be more preferable.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limited to the particular embodiments set forth herein. It goes without saying that other modified embodiments are possible.

10; Compressed air supply pipe 11; Inlet
13; Vertical supports 21,22; Connection
40,40 '; Filter member 41; Taper Shape
42; Cylindrical upper part 45; Protection net
50; Top cover plate 53; Connecting rod
54; Through hole 61; septum
62; Supply flow path 70; Bottom cover plate
212,222,222 '; Compressed air jet 214,224; Dust Blower
215, 225; Bearing 216; Rotary Jet

Claims (6)

A cylindrical filter member 40 disposed vertically and having a circular cross section,
Compressed air supply pipe 10 is installed in the inner center of the filter member 40 is supplied compressed air,
A connection support (21, 22) which is in communication with the compressed air supply pipe (10) to receive the compressed air and to rotate about the compressed air supply pipe (10);
Compressed air powder which is installed at both ends of the connecting support (21, 22) and has a plurality of dust removal injection holes (214, 224) for injecting the compressed air in a direction penetrating the filter member 40 from the inside to the outside Including officers 212,222,
The filter member 40 includes a tapered portion 41 in which the diameter thereof gradually decreases while going downward.
The compressed air injection pipes 212 and 222 are arranged obliquely in the tapered portion 41 such that the plurality of dust removal injection holes 214 and 224 are spaced apart from the inner surface of the filter member 40.
The connection support (21, 22) and the compressed air supply pipe 10 is connected by a bearing (215, 225),
Rotating powder to the connecting support (21, 22) or the compressed air injection pipe (212, 222) so that the connecting support (21, 22) is in the tangential direction of the rotational trajectory to rotate around the compressed air supply pipe (10) By the slots 216 are formed separately, the connection support (21, 22) is rotated by injecting the compressed air from the rotary injection hole 216,
The connecting support (21, 22) extends radially outward from the compressed air supply pipe 10 so as to be rotationally symmetrical about the compressed air supply pipe (10),
The compressed air injection pipe (212, 222) is also a dust collecting filter comprising a dust extraction device, characterized in that installed to be rotationally symmetrical around the compressed air supply pipe (10) The method of claim 1,
An upper cover plate 50 installed at an upper end of the filter member 40 and having a through hole 54 to flow air in the filter member 40 upward;
A lower cover plate 70 is installed at the lower end of the filter member 40 to seal the lower end of the filter member 40.
The compressed air supply pipe 10 is fixed to the upper cover plate 50 by a connecting rod 53 installed in the through hole 54 in the through hole 54 of the upper cover plate 50.
The lower end of the compressed air supply pipe 10 is coupled to the vertical support 13 is fixed to the center of the lower cover plate 70,
Dust collecting device comprising a dust extraction device, characterized in that between the inner circumferential surface of the compressed air injection pipe (212, 222) and the filter member 40, a metal protection net 45 is installed along the inner circumference of the filter member 40 filter The method of claim 2,
The tapered portion 41 is formed only on the upper portion of the filter member 40,
A cylindrical upper portion 42 is formed below the filter member 40,
The connecting support and the compressed air injection pipe
An upper connection supporter 21 and a compressed air injection pipe 212 corresponding to the tapered portion 41;
Consists of the lower connection support 22 and the compressed air injection pipe 222 corresponding to the cylindrical upper portion 42
Dust collecting filter comprising a dust collecting device, characterized in that the upper connection support 21 and the compressed air injection pipe 212 and the lower connection support 22 and the compressed air injection pipe 222 is rotatable independently of each other. delete delete delete

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