KR102362217B1 - Air filter device for compressed air filtration with improved filter efficiency - Google Patents

Abstract

The present invention relates to an air filter apparatus for filtration of a compressed air which filters the compressed air of an air compressor. More specifically, according to the present invention, a rotational force generating means (50) for generating a rotational force of the compressed air is installed in a cylindrical filter (20) installed inside a filter housing (10), so that a rotational centrifugal force is generated in the compressed air supplied to the inside of the filter. As a result, the compressed air does not pass through only one end face of a filter paper (21) of the cylindrical filter as in a prior art, but is dispersed and passed as a whole, thereby preventing a differential pressure. In addition, as a filtration area is increased, filtration efficiency and filter efficiency are greatly improved, and thus a service life of the filter is longer, thereby reducing an operating cost.

Description

Air filter device for compressed air filtration with improved filter efficiency

The present invention relates to an air filter device for filtration of compressed air that filters compressed air of an air compressor (compressor). It relates to an air filter device for filter efficiency improvement type compressed air filtration that filters while dispersing and passing through the entire filter paper rather than passing only one end face.

In general, before using the compressed air generated by an air compressor (compressor), an air filter device is used to separate and filter foreign substances and moisture generated in the process of generating compressed air.

As shown in FIG. 7, in this conventional air filter device, a cylindrical filter 3 is installed inside the filter housing 2, the compressed air generated by the air compressor (compressor) passes through the cylindrical filter to filter foreign substances, and the condensed water is It is to be collected separately by an auto trap at the bottom.

However, in the conventional air filter device described above, since there is no rotational force in the compressed air supplied to the cylindrical filter 3, the pneumatic pressure of the compressed air acts as one end surface (one end surface to which the pressure of the compressed air acts) rather than the entire cylindrical filter. Since it is filtered, if the filter paper 5 of the cylindrical filter 3 is expanded as shown in FIG. 8, the filtration efficiency and filter efficiency are lowered because the filtration operation is performed in a small area whose use area does not become 1/2 of the total area, As a result, the service life of the filter is shortened and the operating cost of the air filter device is increased.

Registered Patent No. 10-1584320 (Jan. 05, 2016) Registered Patent No. 10-1896219 (August 31, 2018)

The present invention was invented to solve all the problems of the prior art, and since it generates rotational force in the compressed air supplied to the cylindrical filter inside the filter housing, the compressed air does not pass through only one end face of the filter paper of the cylindrical filter. It aims to greatly improve filtration efficiency and filter efficiency while being dispersed throughout.

The present invention, but by installing a cylindrical filter in the filter housing to filter the compressed air generated by the air compressor (compressor); The cylindrical filter is characterized in that the rotational force generating means for generating the rotational force of the compressed air is installed therein so that the compressed air is filtered while being dispersed throughout the filter paper of the cylindrical filter by the rotational centrifugal force.

According to the present invention, the rotational force generating means is characterized in that it consists of a screw forming a spiral rotation guide path.

According to the present invention, the screw penetrates through the through-holes for linearly moving the compressed air from the upper part to the lower part to distribute the pressure of the compressed air, and the number of the through-holes gradually decreases from the upper part to the lower part of the screw. It is characterized by forming and composing.

In the present invention, a rotational force generating means for generating rotational force of compressed air is installed in a cylindrical filter installed inside the filter housing to generate rotational centrifugal force in the compressed air supplied to the inside of the filter. It prevents differential pressure by dispersing and passing through the entire filter rather than passing through only one end face, and greatly improves filtration efficiency and filter efficiency by expanding the filtration area. It has a saving effect.

1 is a front configuration view showing an air filter device of the present invention.
Fig. 2 is a cross-sectional view showing the filter of Fig. 1;
Figure 3 is a front cross-sectional view showing the use state of the air filter device of the present invention.
Figure 4 is an exploded view of a state in which the filter paper is expanded to show the area of use of the filter paper after the filter filtration operation of Figure 3;
5 is a cross-sectional view showing another embodiment of the present invention filter.
Figure 6 is a perspective view showing the screw of Figure 5;
7 is a front cross-sectional view showing a conventional air filter device.
8 is a development view of a state in which the filter paper is developed to show the area of use of the filter paper after the filter filtration operation of FIG. 7 .

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 1 to 4, the air filter device for improved filter efficiency of the present invention provides a cylindrical filter 20 inside the filter housing 10 to provide compression generated by an air compressor (compressor). It is configured to filter the air by a filter.

In particular, the cylindrical filter 20 is configured to filter the compressed air while being dispersed throughout the filter paper of the cylindrical filter 20 by rotational centrifugal force by installing a rotational force generating means 50 for generating rotational force of the compressed air therein. will do

The rotational force generating means 50 is preferably composed of a screw 51 that forms a spiral rotation guide path 52 to rotate the compressed air in a spiral manner.

On the other hand, the screw 51 can be implemented differently as shown in FIGS. 5 and 6 , which is formed by passing through a through hole 51a for linearly moving compressed air from the top to the bottom in the screw 51 . The pressure of the compressed air supplied at high pressure is dispersed, and the number of through holes is gradually reduced from the upper part to the lower part of the screw.

That is, if the entire length of the screw 51 is divided into thirds as shown in the figure, the upper portion 51A has more through-holes, the middle portion 51B has fewer than the upper portions, and the lower portion 51C has no through-holes. The compressed air is configured to pass through the filter paper of the cylindrical filter 20 more dispersed overall.

As unexplained reference numerals, reference numeral 2 denotes an auto trap for discharging condensed water generated during the filtration of compressed air, and reference numerals 31 and 32 denote inlets and outlets of compressed air.

Next, we will look at the operation and operation of the present invention configured as described above.

First, the rotational force generating means 50 for generating the rotational force of compressed air inside the cylindrical filter 20 of the present invention, for example, the screw 51 as shown in the figure is inserted and installed in the longitudinal direction of the cylindrical filter. .

The air filter device of the present invention as described above is to pass the process of filtering compressed air generated by the air compressor (compressor) by the cylindrical filter 20 inside the filter housing.

That is, the high-pressure compressed air flowing into the inlet 31 of the upper part of the cylindrical filter 20 is guided to be discharged spirally by the spiral rotation guide path 52 formed in the screw 51 , and rotational centrifugal force is applied to the compressed air. will be done

As such, the compressed air having rotational centrifugal force by the rotation guide path 52 of the screw is dispersed in the longitudinal direction of the cylindrical filter 20 instead of being concentrated through one end surface of the filter paper in the cylindrical filter 20 as in the prior art. As well as being dispersed in the circumferential direction, it is to be dispersed and passed through the cylindrical filter as a whole.

In particular, the screw 51 passes through the through-holes 51a for linearly moving the compressed air from the upper part to the lower part as in FIGS. 5 and 6, but the number of the through-holes gradually decreases from the upper part to the lower part. For this reason, the high-pressure compressed air supplied to the upper part of the screw 51 moves a part of it in a straight line through the through-hole 51a in addition to the spiral rotation guide path 52 to distribute the pressure of the compressed air, so that the compressed air is removed from the cylindrical filter ( 20) to make it pass through more dispersed overall.

In this way, as the compressed air is uniformly dispersed and passed through the cylindrical filter 20 as a whole, as shown in FIG. 4 , the filtration efficiency and the filter efficiency of the filter are greatly improved because it is filtered while evenly using the whole rather than a part of the filter paper 21 . will be made

As such, the compressed air that has been filtered by the cylindrical filter 20 is discharged and supplied to the compressed air using device through the outlet 32 of the filter housing, and the condensed water generated during the filtration of the compressed air is automatically trapped in the lower part. to be collected and discharged by

Therefore, in the present invention, rotational centrifugal force is generated in the compressed air supplied into the cylindrical filter by the rotational force generating means 50 installed in the cylindrical filter 20 installed in the filter housing, so that the compressed air can Not only does it pass through only one end surface, but it is dispersed throughout, preventing differential pressure and widening the filtration area, greatly improving filtration efficiency and filter efficiency.

10: filter housing
20: cylindrical filter
31: inlet
32: outlet
50: rotational force generating means
51: screw
51a: through hole
52: turn guide way

Claims (3)

In the air filter device for filtration of compressed air by installing a cylindrical filter (20) inside the filter housing (10) to filter compressed air generated by an air compressor (compressor),
The cylindrical filter 20 has a rotational force generating means 50 for generating rotational force of compressed air therein so that the compressed air is filtered while being dispersed throughout the filter paper 21 of the cylindrical filter 20 by rotational centrifugal force. compose,
The rotational force generating means (50) is composed of a screw (51) forming a spiral rotation guideway (52),
The screw 51 penetrates through a through hole 51a for linearly moving the compressed air from the top to the bottom to distribute the pressure of the compressed air,
The entire length of the screw 51 is divided into thirds to form more through-holes 51a in the upper portion 51A, the middle portion 51B is formed to be smaller than the upper portion 51A, and the through-holes are formed in the lower portion 51C. Air filter device for improved filter efficiency, characterized in that it is formed in a shape without (51a) so that the compressed air is more dispersed and passed through the filter paper of the cylindrical filter (20). delete delete

Images