KR102283477B1 - Filter system for improving air purification efficiency - Google Patents

Abstract

The present invention relates to a filter system for improving air purification efficiency. Dust collection filters for air cleaning are configured to be arranged vertically or continuously to face each other in order to improve purification efficiency, expand a filtration area, increase lifespan, and prevent an airflow pressure loss. A resistance due to an inflow airflow can be minimized by a resistance reducing part installed in a part where filters are in contact with each other. A leakage of the airflow due to a gap can be prevented by an air leak blocker installed between filters and between the filter and a door, so as to block the non-filtered air from passing, thereby improving purification ability. By arranging the filters vertically or continuously to face each other, the dust collecting filter for air cleaning has the effect of improving the purification efficiency, long lifespan, expanding the filtration area, and preventing a pressure loss of the airflow.

Description

Filter system for improving air purification efficiency

The present invention relates to a filter system for improving air purification efficiency, and more particularly, by placing filters vertically or continuously or vertically and continuously installing a structure corresponding to each other, expansion of the filtration area, equal division of airflow, loss of airflow pressure It relates to a filter system for preventing air pollution and improving air purification efficiency with improved purification efficiency by smooth flow of airflow.

In general, the V-Bank filter system maximizes the air purification ability by arranging a plurality of filters in a V-shape in the frame to expand the filter area for air filtration and lowers energy consumption. Contributes to reducing maintenance costs.

Such a filter system is not only when the filters are arranged in a V-shape on a plane, but is also arranged in a V-shape on the side.

As a prior art of such a V-bank filter system, there is a "V-bank filter" of Korean Patent Application Laid-Open No. 10-2017-0020672. It has a rectangular filter frame; and a multi-V filter media pack fixed to the inside of the filter frame and filtering foreign substances, wherein the multi-V filter media pack includes a plurality of unit filter media packs connected to each other, and the unit filter media pack includes: A first folded filter media part in which the filter media sheet is folded a plurality of times in a zigzag manner, a connected filter media sheet part extending from an end of the first folded filter media part, and a filter media sheet extending from the connected filter media sheet part in a zigzag manner A second folded filter media part folded a plurality of times to form a V-shape with the first folded filter media part, and a connection filter media sheet part extending from an end of the second folded filter media part, wherein the first and second The folded filter media part is positioned so that the longitudinal direction of each of the bent lines is perpendicular to the air flow direction of the filter frame.

However, this prior art has the following problems.

First, there is a problem in that the air purifying ability is lowered by causing air leakage between the filter and the frame for coupling thereto.

Second, there is a problem in that air leakage is caused between the filters arranged in a row, thereby reducing the air purification ability.

Third, by inducing air resistance in the portion where the filter and the filter are in contact with each other from the front, smooth air flow is disturbed, thereby reducing the purification efficiency.

Fourth, there is a problem in that air leakage is caused between the filter and the door that opens and closes the inside for replacement of the filter, thereby reducing the air purification ability.

Fifth, due to the open structure of the filter frame, there is a problem in that it must be reinforced by lowering the strength.

In addition, since the pre-treatment and post-treatment filters are not V-structured, they are not structured to actively extend the lifespan and prevent air leakage. There is a problem in that operating costs such as filter replacement increase with replacement.

Korean Patent Publication No. 10-2017-0020672

The present invention for solving the problems with the prior art described above

By exchanging the filter media and expanding the filtration area, the performance is greatly improved even under the conditions of low pressure loss, long life, high efficiency and high wind speed. An object of the present invention is to provide a filter system for improving air purification efficiency that prevents the passage of unfiltered air to improve air purification ability.

In addition, the present invention provides a filter system for improving the air purification efficiency by providing a structure that minimizes air resistance in the portion where the filter and the filter are in contact with each other in the front, thereby improving the purification efficiency by the smooth flow of air. aim to

In addition, the present invention prevents air leakage between the filter and the door, between the front and rear ends of the filter, and through the gap between the filters, thereby blocking the passage of unfiltered air to improve the air purification efficiency. An object of the present invention is to provide a filter system for improvement.

In addition, an object of the present invention is to provide a filter system for improving air purification efficiency in which durability can be improved by a reinforcing structure for an open structure in the frame of the filter.

The present invention is a means for achieving the above object,

To maintain performance at high wind speed (2.5~10m/sec), long life, prevent air leakage, reduce initial investment cost, ease of maintenance, improve purification efficiency, expand filtration area, and minimize airflow pressure loss. It is installed on the body frame so that it is arranged continuously or vertically to face each other, and a plurality of filters are arranged in a zigzag up and down on the body frame so that the filters are arranged vertically in a 'V' shape by the holding frame or vertically and continuously to face each other installed to be placed. Air purification efficiency, characterized in that it improves the purification ability by minimizing the resistance caused by the inflow airflow of the filter and the resistance reducing part installed at the part where the filter abuts, preventing air leakage of the filter and blocking the passage of unfiltered air It provides a filter system for improvement.

The body frame of the present invention is characterized in that at least one reinforcing frame installed perpendicular to the opening side is configured.

The holding frame of the present invention is characterized in that a plurality of sliding rails are provided side by side so that a plurality of filters are slidably mounted, respectively, and an air leakage prevention unit is provided for each of the upper and lower sliding rails, the inner side and the inlet side.

The resistance reducing part of the present invention is composed of "<" and "(" characters to induce the flow of air, so that a plurality of airflow resistances and guide grooves are formed to facilitate the flow of air. .

In the filter of the present invention, a plurality of filters are installed in a single or dual structure in a 'V' shape to form a group, so that high wind speed, long life through pre-treatment and post-treatment, long life, air leakage prevention, reduction of initial investment cost of filter installation, filter replacement It is characterized in that the inflow airflow reduces the resistance of the airflow by the resistance reducing unit to facilitate the inflow of air along with the reduction of operating costs, etc.

The filter of the present invention is interposed between the distribution member and the filter, between the other filter and the filter, and between the door and the filter to prevent the occurrence of leaks and a boss and a reinforcing part for firmly fixing the filter.

The filter of the present invention is characterized in that a plurality of filters are formed in a set on the body frame and are vertically and continuously zigzag arranged in a 'V' shape.

The filter of the present invention consists of a set of a plurality of filters on the air inflow side of the body frame and is arranged vertically in a 'V' shape, and a plurality of filters are formed in a set on the air outlet side of the body frame, so that the air It is characterized in that it has a dual structure that is disposed to face the filter on the inflow side in a 'V' shape vertically and continuously.

The filter of the present invention consists of a set of a plurality of filters on the air inflow side of the body frame and is arranged vertically in a 'V' shape, and a single filter is installed in the plurality of filters on the air outlet side of the body frame. It is characterized in that it has a dual structure arranged to face each other in a vertical and continuous manner in a V' shape.

In the filter of the present invention, the single-stage filter 130 is arranged vertically in a 'V' shape on the air-inlet side of the body frame, and the single-stage filter on the side where the air is discharged of the body frame is the side where the air flows It is characterized in that it has a dual structure that is disposed to face each other vertically in a 'V' shape on the filter of the .

In the air leakage preventing unit of the present invention, a gasket is installed so as to be in close contact with the filter by being fitted to a mounting rail provided in the longitudinal direction on one side of the sliding rail on which the filter is slidably fitted in the holding frame, and the gasket is fitted to the mounting rail. The mounting portion to be mounted by; and at least one lip protruding outwardly from the mounting part so as to be in close contact with the filter by restoring force.

According to the present invention, by configuring the filters to be arranged vertically or vertically to correspond to each other, the dust collection filter for air cleaning maintains performance at high wind speed (2.5 to 10 m/sec), prevents air leakage, reduces initial investment cost, and maintenance It has the effect of reducing blowing energy and maintaining the long life of the filter by improving the ease of use and purification efficiency, expanding the filtration area, and minimizing the pressure loss of the filter.

The present invention blocks the air leakage between the filter and the frame and blocks the air leakage between the filters arranged in a line, thereby blocking the passage of unfiltered air, thereby improving the air purification ability.

In addition, the present invention has the effect of reducing the resistance of the inflow airflow, smooth flow of the inflow airflow and improving the purification efficiency by providing a structure that minimizes the resistance of the airflow in the portion where the filter and the filter are in contact with each other in the front.

In addition, the present invention prevents the leakage of airflow through the gap between the filter and the door, thereby blocking the passage of unfiltered airflow and improving the purification ability, as well as durability due to the reinforcement structure for the open structure in the frame of the filter. can improve

1 is a perspective view showing a filter system for improving air purification efficiency of the present invention.
FIG. 2A is a perspective view illustrating a part of a holding frame of the filter system for improving air purification efficiency shown in FIG. 1 .
Figure 2b is a perspective view showing another embodiment of Figure 2a.
Figure 2c is a side view showing another embodiment of the resistance reducing unit and the support frame shown in Figure 2b.
Figure 3a is a side cross-sectional view showing a state in which the filter is mounted on the holding frame shown in Figure 2a.
Figure 3b is a side cross-sectional view showing another embodiment in a state in which the filter is mounted on the holding frame shown in Figure 3a.
3C is a view showing a state in which the reinforcement frame is installed in consideration of air resistance and securing an installation space of the filter shown in FIG. 3A.
3D is a side cross-sectional view showing another embodiment of a state in which the filter is mounted on the holding frame shown in FIG. 3A.
Figure 4a is a cross-sectional view showing another embodiment of the holding frame shown in Figure 3a.
Figure 4b is a cross-sectional view showing another embodiment of the holding frame shown in Figure 4a.
Figure 4c is a cross-sectional view showing another embodiment of the holding frame shown in Figure 4b.
Figure 4d is a cross-sectional view showing another embodiment of the holding frame shown in Figure 4c.
FIG. 5 is a rear view illustrating a state in which a filter fixing steel bar is installed on the rear side of the filter shown in FIG. 1 .
FIG. 6 is a front view schematically illustrating a configuration that allows the filter shown in FIG. 5 to be exchanged from the side through which air is introduced.
7 is a plan view showing an embodiment of the air leakage blocking unit between the filters in the filter system for improving the air purification efficiency of the present invention.
8 is a plan view illustrating another embodiment of the air leakage blocking unit between the filters shown in FIG. 7 .
9 is a plan view showing another embodiment of the air leakage blocking unit between the filters shown in FIG.
10 is a plan view showing another embodiment of the air leakage blocking unit between the filters shown in FIG.
11 is a plan view showing another embodiment of the air leakage blocking unit between the filters shown in FIG.
12 is a side view illustrating a door air leakage blocking unit in the filter system for improving air purification efficiency according to the present invention.
13 is a side view showing another embodiment of the door air leakage blocking unit shown in FIG.
14 is a view showing a first embodiment according to the filter system for improving the air purification efficiency of the present invention.
15 is a view showing a second embodiment according to the filter system for improving the air purification efficiency of the present invention.
16 is a view showing a third embodiment according to the filter system for improving the air purification efficiency of the present invention.
17 is a view showing a fourth embodiment according to the filter system for improving the air purification efficiency of the present invention.

Hereinafter, the configuration of a filter system for improving air purification efficiency according to the present invention will be described.

The filter system for improving air purification efficiency of the present invention maintains performance at high wind speed (2.5-10 m/sec), prevents air leakage, reduces initial investment cost, ease of maintenance, improves purification efficiency, expands filtration area, and filters In order to prevent the pressure loss of the filter 130 is installed in the body frame 110 so as to be arranged vertically or continuously to face each other, and a plurality of filters 130 are provided in the body frame 110 in a vertical zigzag manner. It is installed so that the zigzag arrangement or 'V' shape is arranged vertically in a 'V' shape by the holding frame 120 or 'V' shape is arranged so as to be arranged vertically and continuously while facing each other. The filter 130 and the filter 130 minimize the resistance caused by the inflow air flow by the resistance reducing part 124 installed at the part in contact with each other, and prevent air leakage while blocking the passage of unfiltered air to improve the purification ability. characterized by improvement.

A filter system for improving air purification efficiency of the present invention will be described in detail with reference to the accompanying drawings.

1 to 10, the filter system 100 for improving the air purification efficiency of the present invention includes a body frame 110, a holding frame 120, a filter 130, and an air leakage prevention unit 140 ) is included.

The body frame 110 is installed on the air movement path, is formed to be opened forward and backward, and a door 114 is installed on the side. The main body frame 110 has an upper plate 112 and a lower plate 115 connected to each other vertically by a plurality of vertical bars 111, and a side plate 116 and a door 114 are provided on both sides, respectively, so as to open forward and backward. have a structured structure. In addition, the door 114 is hinged so as to be opened by the rotation of the body frame 110 , and opening and closing may be restricted from the side of the body frame 110 by a locking part provided at an end thereof.

The body frame 110 may provide a cause of a decrease in strength by forming an opening. In order to solve this, at least one reinforcing frame installed perpendicular to any one or both of the front opening and the rear opening ( 117) may be further included.

The reinforcing frame 117 may be a member having various cross-sectional structures in consideration of strength, including square materials, and may have various resistance reduction structures including a streamlined shape or a rhombic shape in consideration of air resistance, and both ends of the body frame The upper and lower ends of the 110 may be coupled by various methods, including a coupling structure such as bolting or welding or flange joints or fittings.

The reinforcing frame 117 may be installed in a vertical state as shown in FIG. 1 , and as shown in FIG. 3c , the reinforcing frame 117 is bent in the same shape as the resistance reducing part 124 , and the air flow on the side in which air is introduced. to smoothly flow into the filter 130 .

The holding frame 120 may be fixed to the holding frame 120 by a coupling structure, etc., in which the upper holding frame 120 and the lower holding frame 120 are connected to each other and the upper and lower holding frames are connected to the front side. It is coupled by welding, bolting, or fitting in a state to surround the end of the 120 .

A plurality of the holding frame 120 is provided in a horizontal structure of a zigzag shape in the vertical direction in the body frame 110 so that the filter 130 is installed to be inclined in a '>' shape.

The holding frame 120 may be fixed inside the body frame 110 using bolting, welding, or a separate bracket.

In addition, the holding frame 120 is made of a pair and may be installed to face each other, in this case, the sliding rail 121 is formed in each longitudinal direction so that the side of the filter 130 is slidably coupled to the opposite side. can

The holding frame 120 may be configured in a 'L' shape so that a plurality of filters 130 can be coupled thereto. When the holding frame 120 is configured in a 'L' shape, the sliding rails 121 are respectively formed in the longitudinal direction, and the plurality of filters 130 are slidably coupled by the sliding rails 121 , respectively. .

In addition, the holding frame 120 may be configured in a 'L' shape in which a partitioning protrusion 120a dividing a space to which a plurality of filters 130 is coupled is formed. When the holding frame 120 is configured in a 'L' shape in which the partitioning protrusion 120a is formed, the sliding rails 121 are respectively formed in the longitudinal direction, and a plurality of filters 130 by the sliding rails 121. are each slidably coupled.

In addition, as another example, the holding frame 120 may be formed in a single number so that one side is opened by having a flat structure having a "C" structure, and the sliding rail 121 so that the side of the filter 130 is slidably coupled to the inside. ) may be formed in the longitudinal direction, and the open side may be installed to face the door 114 .

A holding frame 120 is also installed on the door 114 so that the side of the filter 130 is coupled to prevent air leakage between the door 114 and the filter 130 to prevent leakage.

The holding frame 120 may include a plurality of sliding rails 121 protruding at intervals to minimize a contact area to facilitate sliding of the filter 130 in the longitudinal direction.

In addition, mounting rails 122 provided to extend in the longitudinal direction are respectively formed at both side ends of the sliding rail 121 , and rail grooves 122a to which a gasket is coupled are formed in the mounting rails 122 .

In addition, the holding frame 120 may be provided with a connection frame 123 , and the connection frame 123 is formed in various shapes such as a rectangle and a triangle so as to be supported from one side of the holding frame 120 .

A resistance reducing unit 124 may be installed to reduce air resistance on the side facing the front of the holding frame 120 . The resistance reducing unit 124 has various resistance sensing structures, including a triangular shape or a streamlined shape, in order to reduce air resistance. The resistance reducing part 124 has a cross section of a “<” shape and is installed horizontally in the longitudinal direction on the holding frame 120 .

In addition, the resistance reducing part 124 is not configured only as described above, and the cross section is made in a "(" shape), and the surface of the resistance reducing part 124 formed in the "(" shape) has an easy air flow. A plurality of guide grooves may be formed to minimize a plurality of airflow resistance and facilitate airflow flow.

The resistance reducing unit 124 is not limited to only the “<” and “(” shapes as described above, and can be applied in various shapes as long as it is a shape for reducing the resistance of the airflow.

In addition, the resistance reducing unit 124 is not only installed on the side of the filter 130 through which air is introduced, it may also be installed on one side of the filter 130 on the side where the air is discharged in a purified state.

The resistance reducing unit 124 is installed on the rear surface of the filter 130, that is, on the side where the air is discharged, and as the purified air is discharged, a vortex is generated and introduced into the filter 130 by removing factors that may obstruct the flow of air. When the air to be used and the purified air are discharged from the filter 130, there is no resistance to the flow of the air flow, so that the air is discharged smoothly.

In addition, a resistance reducing part rib 124a may be formed in the resistance reducing part 124 , and the resistance reducing part rib 124a is easily fixed to the connection frame 123 using a bolt or the like.

In addition, fixing parts 125 that are respectively in surface contact with the upper holding frame 120 and the lower holding frame 120 and fixed by welding or bolting may be bent at the upper end and lower end, respectively.

A support frame 126 is installed between the holding frame 120 and the connection frame 123 to support the holding frame 120 . The support frame 126 is preferably formed in a triangular shape so that it can be formed to fit the angle at which the holding frame is installed. The support frame 126 is not limited to a triangular shape, and may be configured in various ways as long as it has a shape capable of supporting the holding frame 120 .

The support frame 126 may have a support frame boss 126a formed therein, and the support frame boss 126a is to facilitate installation of the support frame 26 to the connection frame 126 using bolts or the like. am.

The holding frame 120 may be respectively welded to the connection frame 123 or fixed by a coupling structure such as bolting or fitting.

For example, the holding frame 120 has a plurality of fixing protrusions 120b having fastening holes, and an elastic member 127 is coupled to the fastening holes 120c of the fixing protrusions 120b, and the elastic member ( A boss 132 and an air leakage preventing unit 140 are installed on the side of the holding frame 120 on which the 127 is installed, respectively.

The elastic member 127 facilitates the movement of the filter 130 in the longitudinal direction of the holding frame 120 and at the same time enables the filter 130 to be firmly fixed by the elastic force. In addition, the elastic member 127 may be installed on one side or both sides of the filter 130, and this configuration may be applied differently depending on the installation environment.

In addition, the space between the holding frame 120 and the filter 130 is prevented from being generated by the boss 132 and the air leakage preventing unit 140 respectively installed on the side surface of the elastic member 127 to prevent air leakage. do.

The filter 130 is firmly supported by the organic action of the elastic member 127, the boss 132, and the air leak prevention part 140, and there is no air leakage, so the air purification efficiency is increased.

In addition, a filter fixing gasket 128 may be installed on the holding frame 120 , and the filter fixing gasket 128 is installed on one side of the elastic member 127 as shown in FIG. 4D to filter 130 . The gap between the filter 130 and the filter 130 is prevented so that air does not leak.

The holding frame 120 on which the filter fixing gasket 128 is installed is installed in the lateral direction of the body frame 110 to maintain a close contact between the filter 130 and the filter 130 . In other words, it is possible to prevent a gap from occurring due to contraction of the air leakage blocking unit 150 installed between the filter 130 and the filter 130 .

In addition, since the filter fixing gasket 128 supports the lip 141b of the gasket 141, the lip 141b of the gasket 141 maintains a state in close contact with the side surface of the filter 130, thereby holding the frame 120. A space may occur between and the filter 130 .

And a fixed frame for fixing the filter 130 may be further configured, and this fixed frame is located between the filter 130 installed on the air inlet side and the filter 130 installed on the air outlet side. The holding frame 120 is fixed so that the filter 130 can be positioned inside the body frame 110 in a solid state.

In addition, the fixed frame is provided with a support bar to support the filter 130 positioned inside the body frame 110 so that it can be firmly positioned. The support bar may be formed as one long from the upper part to the lower part of the body frame 110 or may be intermittently installed between the fixed frame and the fixed frame. The intermittent installation of the support bar 128 on the fixed frame is to keep the filter 130 firmly fixed, as well as to facilitate the flow of air.

The filter 130 may be arranged in a 'V' shape in the lateral direction by being fitted to the holding frame 120 through the side opened by the door 114 . The filter 130 may have, for example, a structure in which a filtering member is installed inside the filter frame 130a of a plate-like shape capable of ventilation, and may be maintained in shape by the filter frame 130a. The filter 130 may have various types, combinations, and arrangements according to an air purification method, including a pre-filter, a medium filter, and the like.

The filter frame 130a has a 'C'-shaped cross section so that the filtering member can be firmly fixed. The filter frame 130a may be provided with a filter fixing bar 130b in a radial form around the center, and this filter fixing bar 130b securely fixes the filter member.

In addition, the filter frame 130a may have a filter fixing bar 130c installed on the upper portion of the filter fixing bar 130b in a vertical straight direction. The filter fixing steel bar 130c not only securely fixes the filter member, but also prevents the shape of the filter frame 130a from being deformed, thereby preventing the air purification efficiency from being deteriorated.

In addition, the filter fixing bar 130b and the filter fixing steel bar 130c prevent the shape of the filter member from being deformed from the pressure of the incoming air to prevent the air from being discharged without being purified.

A fixing piece 130d may be installed at each corner of the filter frame 130a.

And the filter 130 may be configured to be exchangeable from the side where air is introduced. The holding frame 120a is detachably configured in any one section of the holding frame 120 in which the filter 130 is installed (the section in which the size of the filter is formed slightly larger), and the holding frame 120a configured to be detachable. ) so that the filter 130 installed in the column (horizontal) direction can be exchanged through the section.

In addition, the connection frame 123, the resistance reducing part 124 and the support frame 126 installed in the section in which the holding frame 120 is detachably configured are also detachably configured.

In the replacement of the filter 130 , the filter 130 is detached from the holding frame 120 or mounted through a section in which the holding frame 120 is detachably configured.

In addition, the filter 130 may be installed in plurality or singular depending on the shape of the holding frame 120 . When the filters 130 are installed in a plurality of forms, the filters 130 having the same function may be installed in a group or filters 130 having different functions may be installed in a group. .

The filter 130 may be provided with a distribution panel 131 for guiding the airflow to easily flow into the filter 130 while preventing the inflowing airflow from flowing in only one side. The distribution panel 131 may be installed in the direction in which the airflow is introduced or in the direction in which the airflow is introduced and the airflow is discharged.

In addition, a boss 132 is installed between the filter 130 and the filter 130 and between the filter 130 and the distribution panel 131 so as to maintain a rigidly fixed state of the filter 130 . The boss 132 prevents the air from leaking between the holding frame 120 and the filter 130 so that the filter 130 installed on the holding frame 120 is maintained in a fixed state without being shaken by the moving air pressure. prevent.

The boss 132 is not installed only between the filter 130 and the filter 130 and between the filter 130 and the distribution panel 131, but is installed between the holding frame 120 and the filter 130 and is installed between the holding frame ( It is preferable to prevent air leakage between the 120 and the filter 130 .

The air leakage preventing unit 140 is provided in the gap with the filter 130 to prevent air leakage.

For example, the air leakage preventing unit 140 may include a gasket 141 fitted to the mounting rail 122 to be in close contact with the filter 130 . The gasket 141 is installed on the inner surface of the holding frame 120, the partition protrusion 120a, the mounting rail 122, etc. as shown in FIG. 4 to prevent air leakage into the space between the filter 130. do.

The mounting rail 122 has a structure of a rail groove 122a having a "T"-shaped cross section so that the gasket 141 is fitted in the longitudinal direction.

The gasket 141 includes a mounting portion 141a to be mounted by being fitted into the rail groove 122a of the mounting rail 122, and at least to protrude outwardly from the mounting portion 141a to have a restoring force and to be in close contact with the filter 130. one or more ribs 141b. The gasket 141 may be made of a material such as rubber or synthetic resin having elasticity, and a variety of ribs 141b including single or three ribs 141b are formed to have restoring force against bending.

The configuration for blocking the leakage is not limited to the air leakage preventing unit 140 , and as another example, the filter 130 is attached to extend in the longitudinal direction within the sliding rail 121 into which the filter 130 is slidably fitted in the holding frame 120 . Thus, it may be formed of an air leakage blocking unit 150 that is in close contact with the filter 130 . The air leakage blocking unit 150 is made of a material such as rubber or elastic synthetic resin, and may be fixed by a bonding structure such as adhesive, bolting, riveting, force fitting, or jamming.

In addition, the air leakage blocking unit 150 may be installed between the filter 130 and the filter 130 or between the door 114 and the filter 130 .

The air leakage blocking unit 150 is not limited to the above configuration, and may be implemented as shown in FIGS. 7 and 8 . For example, the air leakage blocking unit 150 is one of the ends of the filter 130 . It may be attached to any one and may be made of a sealing material interposed between the filter 130 and the other filter 130 slidably mounted together in a line on the holding frame 120 . The sealing material is made of a material such as rubber or a synthetic resin having elasticity, and may be fixed by an adhesive, bolting, riveting, force fitting, or a coupling structure such as jamming.

In addition, the air leakage blocking unit 150 may be formed in plurality so as to be arranged in a line along the boundary between the filters 130 by being attached to each side of the filters 130 in contact with each other. In addition, as shown in FIG. 7 , a single number may be installed in the filter 130 , or a plurality of filters may be installed at intervals in the filter 130 , respectively, as shown in FIG. 8 .

The air leakage blocking unit 150 is not limited to the configuration of FIG. 8 , and may be implemented differently as shown in FIG. 9 , and as another example, the air leakage blocking unit 150 is formed of a right triangle and a plurality of filters 130 . It is attached to each of the ends oppositely, and is interposed between the other filters 130 that are slidably mounted together in a line on the holding frame 120 .

The air leakage blocking unit 150 is made of a material such as rubber or elastic synthetic resin, and may be fixed by a bonding structure such as adhesive, bolting, riveting, force fitting, or jamming.

The air leakage blocking unit 150 is not limited to the configuration of FIG. 9 , and may be implemented differently as shown in FIG. 10 , and as another example, the air leakage blocking unit 150 corresponds to a triangular-shaped member and a triangular shape. A member with a triangular shape groove is formed, that is, it is made of a concave-convex shape and is attached to each end of the plurality of filters 130 , and is interposed between the other filters 130 that are slidably mounted together in a line on the holding frame 120 . .

The air leakage blocking unit 150 is made of a material such as rubber or elastic synthetic resin, and may be fixed by a bonding structure such as adhesive, bolting, riveting, force fitting, or jamming.

The air leakage blocking unit 150 is not limited to the configuration of FIG. 9 , and may be implemented differently as shown in FIG. 10 , and as another example, the air leakage blocking unit 150 is formed in a rectangular shape with a protrusion formed on one side and has a plurality of It is attached to each end of the filter 130 and is interposed between the other filters 130 that are slidably mounted together in a line on the holding frame 120 .

The air leakage blocking unit 150 is made of a material such as rubber or elastic synthetic resin, and may be fixed by a bonding structure such as adhesive, bolting, riveting, force fitting, or jamming.

The air leakage blocking unit 150 may be installed on the inner surface of the door 114 as shown in FIG. 12 to block air leakage through the gap with the filter 130 .

12, the air leakage blocking unit 150 is made of rubber, silicone, or a soft synthetic resin having elasticity, and is fixed by a bonding structure such as adhesive, bolting, riveting, force fitting, or jamming.

The air leakage blocking part 150 is attached to the inner surface of the door 114, and may be formed of a plate-shaped length member so as to be in surface contact with the filter 130 when the door 114 is closed.

The air leakage blocking unit 150 is not limited to the configuration shown in FIG. 12 , and may be implemented differently as shown in FIG. 13 .

Referring to FIG. 13 , a pair of the air leakage blocking unit 150 is attached to the inner surface of the door 114 side by side, and when the door 114 is closed, the filter 130 is mounted between them. , to block air leakage from the gap between the filter 130 and the door 114 .

Each embodiment according to the filter system for improving air purification efficiency of the present invention configured as described above will be described in detail with reference to FIGS. 14 to 17 .

Referring to FIG. 14 , in the filter system 100 for improving air purification efficiency of the present invention, a holding frame 120 is installed in a zigzag form inside a body frame 110 , and a plurality of the holding frame 120 is provided in one set. A single filter 130 made of is installed in a 'V' shape.

The filter system 100 for improving air purification efficiency configured in such a single shape introduces air into the filter 130 while reducing the resistance of the air flow introduced by the resistance reducing unit 124 installed on one side of the holding frame 120 . do.

The air flowing into the filter 130 filters dust and harmful gases including fine dust by the plurality of filters 130 to supply clean air.

In addition, since air is not leaked by the air leakage blocking unit 150 installed between the filter 130 and the filter 130 introduced into the filter 130 and the door 114 and the filter 130, the filter 130 This can prevent the air from being purged.

The filter system 100 for improving the air purification efficiency of the present invention is not limitedly configured as shown in FIG. 14 and may be implemented differently as shown in FIG. 15 .

Referring to FIG. 15 , the filter system 100 for improving air purification efficiency of the present invention comprises a plurality of filters 130 shown in FIG. 14 in a dual form to remove fine dust and harmful gases contained in the air. The filters 130 installed in a 'V' shape are installed to face each other.

In addition, since air is not leaked by the air leakage blocking unit 150 installed between the filter 130 and the filter 130 introduced into the filter 130 and the door 114 and the filter 130, the filter 130 This can prevent the air from being purged.

As shown in FIG. 15 , since the filter 130 installed in a 'V' shape is configured in a dual structure of an opposing shape, dust and harmful gases including fine dust contained in the air are easily purged.

As described above, when the plurality of filters 130 are formed in a set and configured in a dual form, it is preferable to use the filter 130 to purify a large amount of air at once in a narrow place and a large floating population.

The filter system 100 for improving the air purification efficiency of the present invention is not limitedly configured as shown in FIG. 15 , and may be implemented differently as shown in FIG. 16 .

Referring to FIG. 16 , the filter system 100 for improving air purification efficiency of the present invention applies a configuration in which a plurality of filters 130 are configured as a set on the side where air is introduced, and the side where the primary purified air is discharged. is installed in a 'V' shape to face each other so as to purify the air by applying the filter 130 made of a single number.

In addition, since air is not leaked by the air leakage blocking unit 150 installed between the filter 130 and the filter 130 introduced into the filter 130 and the door 114 and the filter 130, the filter 130 This can prevent the air from being purged.

For example, in a configuration in which a plurality of filters 130 are configured as a set, it is possible to filter out dust including fine dust, and to purify harmful gases contained in the air in a dust-purified state in the filter 130 composed of a single number. make it possible

As described above, the filter 130 installed on the side where the air is introduced and the filter 130 on the side where the air is purified and discharged have different functions are installed to increase the efficiency of air purification. do.

It is not limited to the above example, and the function of the filter may be appropriately changed and used according to the installation environment.

The filter system 100 for improving the air purification efficiency of the present invention is not limitedly configured as shown in FIG. 16 and may be implemented differently as shown in FIG. 17 .

Referring to FIG. 17 , in the filter system 100 for improving air purification efficiency of the present invention, the filters 130 made of a single number are installed to face each other and are installed in a 'V' shape.

The filter system 100 for improving air purification efficiency configured as described above is installed in a place with a small floating population and low generation of dust including fine dust so as to circulate harmful gases together with the dust.

In addition, since air is not leaked by the air leakage blocking unit 150 installed between the filter 130 and the filter 130 introduced into the filter 130 and the door 114 and the filter 130, the filter 130 This facilitates air purification.

In the configuration of the filter 130 configured as described above, the filter 130 installed on the air inlet side functions to remove dust including fine dust, and the filter 130 has a function of removing harmful gases on the discharged side ( 130) to increase the efficiency according to air purification is desirable.

As described above, FIGS. 14 to 17 show that by varying the configuration of the filter 130 for purifying air, a large amount of air can be quickly purified in subway stations, bus terminals, underground shopping malls, outlets, etc. to provide clean air. By providing it, the place where the filter system 100 for improving the air purification efficiency of the present invention is installed can always maintain a comfortable state.

In addition, according to the present invention, by blocking the leakage of air between the filter 130 and the body frame 110 and blocking the leakage of air between the filters 130 arranged in a line, the passage of unfiltered air It can improve the air purification ability by blocking

In addition, according to the present invention, by providing a structure that minimizes air resistance in the portion where the filter 130 and the filter 130 are in contact with each other in the front, the purification efficiency can be improved by the smooth flow of air, and the filter 130 ) and by preventing air leakage through the gap between the door 114 and blocking the passage of unfiltered air, it is possible to improve the air purification ability.

In addition, according to the present invention, durability can be improved due to the reinforcement structure with respect to the structure opened in the body frame 110 of the filter 130 .

While this specification contains numerous specific implementation details, they should not be construed as limitations on the scope of any invention or claim, but rather as descriptions of features that may be specific to particular embodiments of particular inventions. should be understood

On the other hand, the embodiments of the present invention disclosed in the present specification and drawings are merely presented as specific examples to aid understanding, and are not intended to limit the scope of the present invention. It is obvious to those of ordinary skill in the art to which the present invention pertains that other modifications based on the technical idea of the present invention can be implemented in addition to the embodiments disclosed herein.

100: filtration area enlarged filter system 110: body frame
111: vertical bar 112: top plate
113: connection bar 114: door
115: lower plate 116: side plate
117: reinforcement frame 120: holding frame
120a: partition projection 120b: fixing projection
120c: fastening hole 121: sliding rail
122: mounting rail 122a: rail groove
123: connection frame 124: resistance reducing part
124a: resistance reducing part rib 125: fixed part
126: support frame 126a: support frame rib
127: elastic member 128: filter fixing gasket
130: filter 130a: filter frame
130b: filter fixing bar 130c: filter fixing steel bar
131: distribution panel 132: boss
140: air leakage prevention unit 141: gasket
141a: mounting portion 141b: lip
150: air leakage blocking unit

Claims (14)

a body frame 110 installed on the air movement path in an open front and rear structure;
a holding frame 120 having a resistance reducing part 124 installed at a portion where the filter 130 abuts against each other and installed on the body frame 110;
The filter 130 is coupled to the holding frame 120 and arranged in a zigzag shape up and down the body frame 110; including,
The holding frame 120 is formed with a plurality of fixing protrusions 120b having fastening holes 120c, and an elastic member 127 is coupled to the fastening holes 120c of the fixing protrusions 120b, and the elastic member A filter system for improving air purification efficiency, characterized in that an air leakage prevention unit 140 including a boss 132 and a gasket 141 is installed on the side of the holding frame 120 on which the 127 is installed. delete delete delete According to claim 1,
The resistance reducing unit 124,
A filter system for improving air purification efficiency, characterized in that a plurality of guide grooves are formed to facilitate the flow of air by being composed of “<” and “(” characters to guide the flow of air. delete According to claim 1,
The holding frame 120,
A filter fixing gasket 128 is installed,
The filter fixing gasket 128 is installed on one side of the elastic member 127 to prevent a gap from occurring due to the contraction of the air leakage blocking unit 150 installed between the filter 130 and the filter 130, and the gasket A filter system for improving air purification efficiency, characterized in that it maintains a state in close contact with the side of the filter 130 by supporting the lip 141b of (141). According to claim 1,
The filter 130 is
A filter system for improving air purification efficiency, characterized in that a plurality of filters 130 are installed in a single or dual structure in a 'V' shape in a group. 9. The method of claim 8,
The filter 130 is
A filter system for improving air purification efficiency, characterized in that the air leakage blocking unit 150 interposed between the filter 130 and the filter 130 and between the door 114 and the filter 130 is configured. According to claim 1,
The filter 130 is
It is characterized in that one section of the holding frame 120 installed in the horizontal direction of the body frame 110 is detachably installed, and the filter 130 is exchanged through the section of the holding frame 120 that is detachably installed. A filter system to improve air purification efficiency. 9. The method of claim 1 or 8,
The filter 130 is
A filter system for improving air purification efficiency, characterized in that a plurality of filters 130 are formed in a set on the body frame 110 and are vertically and zigzag arranged in a 'V' shape. According to claim 1,
The filter 130 is
A plurality of filters 130 are formed in a set on the air inflow side of the body frame 110 and are arranged vertically in a 'V' shape, and a plurality of filters 130 on the air outlet side of the body frame 110 . A filter system for improving air purification efficiency, characterized in that it consists of a set and has a dual structure in which the filter 130 on the side of the air inflow is disposed to face each other vertically in a 'V' shape. According to claim 1,
The filter 130 is
A plurality of filters 130 are formed in a set on the air inflow side of the body frame 110 and are arranged vertically in a 'V' shape, and a single filter 130 is disposed on the air outlet side of the body frame 110 . A filter system for improving air purification efficiency, characterized in that it has a dual structure in which the plurality of filters 130 are vertically opposed in a 'V' shape. According to claim 1,
The filter 130 is
The single-stage filter 130 is arranged vertically and continuously in a 'V' shape on the air inflow side of the body frame 110 , and the single-stage filter 130 is disposed on the air outlet side of the body frame 110 . A filter system for improving air purification efficiency, characterized in that it has a dual structure disposed to face the inflow side filter 130 vertically in a 'V' shape.

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