KR102283478B1 - Metal Filter - Google Patents

Abstract

The present invention relates to a metal filter designed to collect mote and dust, and more particularly, to a metal filter, which comprises: a filtering member of which a section part includes a continuous " "-shaped space part left and right, and in which a space part body is formed with a zigzag double bent part; and a flat plate mesh network installed so that a plurality of filtering members can be stacked by placing the filtering member and the filtering member therebetween, in which a number of the filtering member and the flat plate mesh network are alternately stacked; an edge of the filtering member is made of metal; and a frame formed with a "ㄷ"-shaped section is bound, so that the metal filter has a double structured filtering member and a curved structure with an enlarged collection area, thereby maximizing a contact area due to a double cross contact while passing through a plurality of bent parts.

Description

Metal Filter

"자형 공간부로 형성하되 상기 여과부재의 공간부는 터널형태를 갖고 지그재그의 2중 크로스구조로 여과면적의 확대가 이루어지며, 일반 메쉬인 제1메쉬와 조밀메쉬인 제2메쉬를 2중으로 중첩시켜 복수의 절곡부를 형성한 메탈필터를 다수로 적층하고, 공기유입부과 공기배출부에 여과 작용원리(Principle of filtration)를 적용한 물리 및 충돌 등의 구조로 여과 함으로서 유입되는 분진 및 먼지가 다수의 절곡부를 통과하면서 접촉면적이 극대화되어 효율 및 분진보유용량의 향상과 함께 반영구적으로 사용이 할 수 있도록 포집 면적을 확대한 구조로된 메탈필터에 관한 것이다. The present invention relates to a metal filter capable of collecting dust and dust, and more particularly, the cross-section of the filtration member constituting the metal filter is continuously left and right.

"It is formed as a shape space part, but the space part of the filtering member has a tunnel shape, and the filtration area is enlarged with a zigzag double cross structure. By stacking a plurality of metal filters that form the bent part of the air inlet and filtration with a structure such as physics and collision that applies the principle of filtration to the air inlet and air outlet, the inflowing dust and dust passes through the multiple bends. It is related to a metal filter with a structure in which the collecting area is enlarged so that the contact area is maximized while improving the efficiency and dust holding capacity and can be used semi-permanently.

In general, a metal filter is a filter that collects and separates impurities (mist, dust) contained in the air. Such a metal filter is generally formed of a screen-type mesh network. Therefore, the existing mesh network is in the form of a mesh made by weaving thin wire members so that the contact effect with the passing air is large.

It is constructed in a variety of ways and is also made of various materials.

The metal filter configured in this way allows only pure air to pass after the foreign substances are collected and filtered by the inertia impaction phenomenon in the process of gas containing foreign substances passing through the mesh network. That is, the metal filter can be viewed as a filter for filtering without interfering with the flow of air by obtaining maximum separation efficiency with minimum pressure drop.

However, the filtration member (filter) constituting the conventional metal filter is constructed by overlapping a large number of flat screen meshes, but the screen meshes have different mesh sizes to overlap each other to collect dust. There is a problem that the efficiency and dust holding capacity, which are its performance, are lowered due to the small contact area.

Looking at the prior art in this field, the demister-filled filter media electrostatic filter (hereinafter referred to as "prior art") of Patent Registration No. 10-0603548 (registration date July 13, 2006) is shown in FIG. As shown, the longitudinal wires of the metal are overlapped with each other so as to vertically intersect the transverse wires of the metal and form pores;

An electrostatic pliotron 200 made of innumerable wire rods 210 are messed up to form dense pores by second filtering and collecting dust passing through and adjacent to one side of the demister 100;

A checkerboard-shaped polypropylene plate 310 is formed with the front end of the synthetic resin material overlapping in the longitudinal and lateral directions to filter and collect the dust passing through and adjacent to one side of the electrostatic pliotron 200, but the A plurality of polypropylene plates 310 are adjacent to each other.

Polypropylene filtration network 300 made of overlapping and;

The demister 100, the electrostatic pliotron 200, and the polypropylene filtration network 300 are bundled together to provide a protective guide, and a screen network 400 coupled to the outside thereof, respectively;

The body is made in the form of a rectangular frame to accommodate the demister 100, the electrostatic pliotron 200, and the polypropylene filtering net 300, which are bundled integrally by the screen network 400 inside, the rectangular shape The frame 510 connecting the two is formed of a stainless channel in the shape of a "C" (digwan) that is opened toward the inside, and both ends of the frame 510 are bent at a predetermined angle toward the inside and are combined. The configuration of the filter case 500 in which the front end bending frame 520 is installed has been disclosed to induce the filter member to expand and contract from the outside to the inside and to be fixed more safely and securely.

The prior art is not made of the demister 100 alone, but is made of a combination of the pliotron 200, the polypropylene filtering network 300, and the screen network 400, and the dust is removed by other filtering members adjacent to the demister. to be captured. That is, the dust firstly filtered in the demister is composed of countless wire rods and is configured to be secondary filtered by the filter of the pliotron 200 installed to overlap on one side of the demister, and the demister of the prior art collects dust The contact area is small so that the other filter members are overlapped on one side to prevent the collection efficiency from falling. There is a problem in that the place of use is limited according to the amount of passage.

Republic of Korea Patent Publication No. 10-0603548

"형으로 좌우 연속 반복 형성되고 터널형으로 이루어지되 터널길이 방향으로 형성된 공간부를 지그재그 절곡하여 공기가 바로 통과하지 못하도록 복수의 절곡부에 의한 포집구간을 형성하여 유입공기와의 접촉면적을 극대화함으로 분진 및 먼지의 포집 구간을 넓혀 효과적으로 여과할 수 있도록 하는 목적과,The present invention is to solve the above problems, and the cross-section of the space part of the filtering member constituting the metal filter is "

"It is continuously repeated left and right in the shape of a tunnel, and the space formed in the tunnel length direction is zigzag bent to form a collection section by a plurality of bent parts to prevent air from passing directly through it, thereby maximizing the contact area with the inlet air. and the purpose of widening the dust collection section so that it can be effectively filtered;

" 형으로 형성되며 터널형으로 이루어진 여과부재의 공간부는 터널형태로 지그재그의 2중 크로스구조로 여과면적의 확대가 이루어지고, 일반 메쉬구조로된 제1메쉬와 조밀메쉬 구조로된 제2메쉬를 2중으로 중첩시켜 복수의 절곡부를 형성하여 다수로 적층하고 공기유입부와 공기배출부에서 여과 작용원리(Principle of filtration)를 적용한 물리 및 충돌 등의 구조로 여과함으로서 공기를 따라 유입되는 분진 및 먼지가 복수의 절곡부를 통과 하면서 다중접촉으로 접촉면적이 극대화되어 고 풍속사용, 다량의 오염환경에서도 효율 및 분진보유용량의 향상과 함께 반영구적인 사용이 될 수 있도록 하여 포집 면적을 확대한 메탈필터를 제공 함을 목적으로 한 메탈필터에 관한 것이다. In addition, the present invention is a cross section of the space part of the filtering member "

The space part of the filtering member formed in a tunnel shape is formed in a tunnel shape and the filtration area is expanded with a zigzag double cross structure, and the first mesh with a general mesh structure and the second mesh with a dense mesh structure By overlapping it twice to form a plurality of bent parts and stacking them in multiple numbers, the air inlet and air outlet are filtered with a structure such as physics and collision that applies the principle of filtration to prevent dust and dust flowing along the air. It provides a metal filter with an enlarged collection area by maximizing the contact area through multiple contact while passing through a plurality of bends so that it can be used semi-permanently with improved efficiency and dust holding capacity even in high wind speed and high-pollution environments. It relates to a metal filter for the purpose of

As a means for solving the object of the present invention, the metal filter,

"형 공간부로 이루어지고, 공간부 몸체가 지그재그 2중 크로스형 구조의 절곡부로 형성된 여과부재와;The cross-section of the metal filter formed by overlapping double to form a plurality of bent parts is continuously left and right.

a filtering member consisting of a "shaped space part and the space part body formed by a bent part of a zigzag double cross-type structure;

a flat plate mesh network installed between the filtering member and the filtering member so that the filtering members can be stacked;

It is characterized in that a plurality of the filter member and the flat plate mesh network are alternately stacked, and the filter member edge is made of metal or synthetic resin material and is bound by a frame formed with a "C"-shaped cross section to constitute a metal filter of a double structure.

" 형의 공간부로 구성된 것을 특징으로 한다.The space part of the filtering member is made of a double cross structure and the lower end has a bent inclined surface spread on both sides.

It is characterized in that it is composed of a space part of a shape.

The double-overlapping filtering member is characterized in that it is composed of a first mesh and a second mesh that is a dense mesh having different diameter sizes of the front and rear mesh networks.

The tunnel-type space of the filter member is characterized in that the air inlet side is large and the air outlet side space is small, so that the air inlet side and the air outlet side have different sizes.

The flat plate mesh network is characterized in that it has a double mesh structure in which the first plate mesh and the second plate mesh are overlapped.

The filter member edge is made of a metal or synthetic resin material, and the frame formed with a "C"-shaped cross section is characterized in that drainage holes are formed on both upper and lower sides.

The metal filter is characterized in that a plurality of reinforcing members are formed in a direction crossing the drain hole formed in the frame.

The reinforcing member is characterized in that a plurality of filtering members are selectively installed on both sides of the middle of the metal filter stacked, or on the back or front side.

As described above, the present invention maximizes the collecting contact area while passing the dust and dust flowing in along the air through the space part consisting of a plurality of bent parts having a double cross structure, so that the life can be prolonged even in a high wind speed and a large amount of polluting environment. It relates to a metal filter that can be used semi-permanently with improvement of efficiency and dust holding capacity.

"형의 공간부를 형성함으로서 먼지 및 분진을 깊숙히 많은 양으로 포집할 수 있도록 하는 효과를 가지며, 또한 공기유입부측 보다 공기배출부측이 더 조밀한 메쉬구조로 이루어지며 2중 절곡부에 의해 공기 흐름을 개선하여 포집 및 여과능력을 향상시킨 효과를 가지며, 또한 여과부재는 공기의 유입부측 보다 공기의 배출부측의 메쉬 직경을 더 조밀하게 형성하고 터널형 공간부를 2중으로 절곡하여 먼지 및 분진의 포진 면적을 극대화하여 공기정화효율을 높여 깨끗한 공기를 제공하는 효과를 갖는다.In the present invention, the cross-section of the filtration member having a double cross structure constituting the metal filter is continuously left and right.

"By forming the space part of the mold, it has the effect of collecting a large amount of dust and dust deeply. Also, the air outlet side has a denser mesh structure than the air inlet side, and the air flow is reduced by the double bending part. It has the effect of improving the collection and filtration ability by improving, and the filter member has a denser mesh diameter on the air outlet side than on the air inlet side, and doubles the tunnel-type space to reduce the dust and dust collection area. It has the effect of providing clean air by increasing the air purification efficiency by maximizing it.

In addition, since the metal filter of the present invention does not include a separate filter member, the overall shape is slippery and compact, so it is lightweight and durable, and at the same time has the effect of further improving the dust and dust collecting ability compared to the conventional demister.

1 is an exploded perspective view showing a conventional demister-filled filter media electrostatic filter,
2 is a front view showing a structure in which a plurality of filtering members are stacked as a metal filter according to the present invention;
Figure 3a is a perspective view showing a filtration member constituting the metal filter of the present invention,
Figure 3b is a perspective view showing a state in which the filter member of Figure 3a is separated,
Figure 4a shows the structure of the air inlet 24 side in the filtration member of the metal filter of the present invention,
Figure 4b shows the air outlet side space in the filtration member of the metal filter of the present invention,
5 is an exploded perspective view of a double flat plate mesh network constituting the metal filter of the present invention;
6 is a cross-sectional view of the coupling state of the double flat plate mesh network constituting the metal filter of the present invention;
7 is a partially excerpted perspective view showing a state in which a filter member having a double cross structure and a flat plate mesh network having a double overlap structure are alternately stacked to form the metal filter of the present invention;
8 is a partially enlarged view excerpting a state in which the filtering member constituting the metal filter of the present invention has a double cross structure and is stacked up and down on a flat plate mesh network;
9 is an excerpted partial view showing a state in which a tunnel-type space portion is formed in the double overlapping filter member of the present invention;
10 is an exemplary view of a state in which a reinforcing member is installed on the front or rear surface of the metal filter of the present invention to have durability;
11 is an exemplary view of a state in which a plurality of reinforcing members are installed in the middle part of the filtration member of the metal filter of the present invention to have durability;
12 is an exemplary view showing a state in which a plurality of drain holes are formed on the metal filter frame according to the present invention.
13 is an exemplary view of a state in which a plurality of reinforcing members are installed inside the metal filter of the present invention to have durability.

Hereinafter, it will be described in detail based on the accompanying drawings of the present invention.

2 is a front view of the metal filter of the present invention, in which the filtration member 20 and the flat plate mesh network 30 having the tunnel-type space 21 of the same shape continuously and repeatedly on the left and right are alternately stacked and the edge cross-section The demister 10 is formed by wrapping the part with a "C"-shaped frame 11 .

Figure 3a is a perspective view showing a filtration member constituting the metal filter of the present invention, Figure 3b is a perspective view showing a state in which the filter member of Figure 3a is separated.

"형 공간부(21)로 이루어지고, 상기 터널형 공간부(21)의 몸체는 지그재그 2중 절곡부(22)로 형성한다.The filtration member 20 constituting the metal filter 10 of the present invention has a cross-section of “continuous left and right”

It consists of a "shaped space part 21, and the body of the tunnel-shaped space part 21 is formed by a zigzag double bent part 22.

Two filtration members 20 constituting the metal filter 10 are overlapped to form one filtration member, and the filtration member 20 is disposed with the first mesh 20a of the inlet 24 side and the exhaust. The second mesh 20b on the side of the part 25 has a different mesh size.

The filtering member 20 made of the first mesh 20a and the second mesh 20b is formed of an edge in which both edges are bent.

The body of the tunnel-shaped space 21 of the filtering member 20 has a double cross structure by forming a zigzag double bent portion 22, and dust and dust flowing into the space 21 are formed in a plurality of bent portions In the process of passing while making cross contact with (22), it is possible to maximize dust collection by forming a wide surface contact and multiple collection sections.

The filtering member 20 of the double overlapping structure has a body formed of a first mesh 20a and a second mesh 20b, and the tunnel-type space 21 of the filtering member 20 has an air inlet 24 ) side space is formed large and the discharge unit 25 side space is formed small, so that the air inlet 24 side and the discharge unit 25 side space have different sizes.

The filtration filter shown in FIGS. 3A and 3B may be installed by separately manufacturing the first mesh 20a and the second mesh 20b according to the manufacture, and the first mesh 20a and the second mesh 20a 20b) can be used by connecting the corresponding parts by welding or the like.

The first mesh 20a and the second mesh 20b shown in FIGS. 3A and 3B of the present invention are exemplified as a connected structure for convenience.

Figure 4a shows the structure of the air inlet 24 side in the filtration member of the metal filter of the present invention, Figure 4b shows the air outlet side space in the filtration member of the metal filter of the present invention.

The filtration member 20 constituting the metal filter 10 of the present invention has a double overlapping structure, and the inlet 24 side through which air is introduced increases the diameter of the space 21 as shown in FIG. 4A and , the space 21 on the side of the discharge unit 25 from which the air is discharged has a denser mesh diameter as shown in FIG. 4B , thereby maximizing the dust and dust collecting ability.

In addition, the filtration member 20 of the metal filter 10 of the present invention has a double overlapping structure, and the first mesh 20a has a large mesh diameter, so that large particles in the air are collected and small particles of dust pass through. It is a double mesh structure to be collected in the densely formed second mesh (20b).

Therefore, the metal filter of the present invention has the effect of providing clean air by increasing the air purification efficiency by maximizing the collecting area of dust and dust, and has the advantage of using it for a long time by preventing the dust collecting efficiency from being clogged in a short time.

Figure 5 is an exploded perspective view of the double flat plate mesh network constituting the metal filter of the present invention, Figure 6 is a cross-sectional view showing the coupling state of the double flat plate mesh network constituting the metal filter of the present invention.

The metal filter 10 of the present invention is composed of a combination of the first plate mesh 30a and the second plate mesh 30b as shown in FIG. 5 to form a double flat plate mesh network 30 .

The double flat plate mesh network 30 has edges bent inwardly at both edge ends as shown in FIG. 6 .

Both edge ends of the double plate plate mesh network 30 may be combined by bending or welding so as to be coupled with the edge ends of the filtering member 20 as necessary.

The flat plate mesh network 30 has a double mesh structure in which the first plate mesh 30a and the second plate mesh 30b are overlapped.

The flat plate mesh network 30 may be formed as a double mesh of the same size, but dust can be efficiently collected by double overlapping mesh networks having different sizes.

That is, by installing the first plate mesh 30a with a large hole in the position where the air first contacts, and placing the second plate mesh 30b with a small hole on the back side thereof, dust with large particles is removed from the first plate. It is attached to one side of the hole of the mesh (30a), and dust with small particles sticks to one side of the small hole of the second plate mesh (30b). .

7 is a partially excerpted perspective view showing a state in which a filter member having a double cross structure and a flat plate mesh network having a double overlap structure are alternately stacked to form the metal filter of the present invention. An enlarged view of a partial excerpt of a state in which the filtration member constituting the metal filter and the flat plate mesh network are alternately stacked is shown.

As shown in FIGS. 7 and 8, the metal filter 10 of the present invention is doubly overlapped and the flat plate mesh network 30 is overlapped doubly on the filtering member 20 having the space portion 21. The filter member 20 is stacked by successively repeating the installation of the filter member 20 on the flat plate mesh network 30 again.

"형 공간부(21)는 터널형 공간부(21)로 형성된다.By installing the flat plate mesh network 30 between the filtration member 20 and the filtration member 20 that are stacked, the flat plate mesh network 30 “

The “shaped space 21 is formed of a tunnel-shaped space 21 .

Forming the space 21 in a tunnel shape serves to guide the inflow of air and since the space 21 has a bent portion 22 having a double cross structure, the incoming air is a double bent portion ( 22), it has the effect of maximizing the dust and dust collection area.

In addition, the filtering member 20 and the flat plate mesh network 30 constituting the metal filter 10 of the present invention are alternately stacked to form a stack up to a required height.

In addition, in the metal filter 10, the flat plate mesh network 30 and the filtering member 20 are formed in a double overlapping structure having different hole sizes, respectively, to increase the efficiency of collecting dust and dust.

The air introduced into the metal filter 10 of the present invention does not pass directly into the tunnel-shaped space 21 formed in the filtration member 20 and is in double cross contact with a plurality of bent portions 22 to widen the collection area. At the same time, there is an advantage of improving the collection efficiency and the dust holding capacity by forming a plurality of collection sections by the bent part 22 .

In addition, the filter member 20 of the present invention has a smaller space on the air outlet 25 side than the air inlet 24 side space, and the mesh of the second mesh 20b rather than the first mesh 20a. By making the diameter more dense, it is possible to improve the dust collection performance.

In addition, the present invention has the advantage of providing only clean air by collecting moisture as well as dust introduced with the air by forming the double bent portion 22 in the space portion 21 .

In addition, in the metal filter 10 of the present invention, as shown in Fig. 8, the filtration member 20 is installed on the flat plate mesh network 30, and the flat plate mesh network 30 is installed on the filter member 20, Again, when installing the filter member 20 thereon, the tunnel-type space 21 of the filtering member 20 located at the lower end and the tunnel-type space 21 located at the upper portion are installed at the same position without shifting from each other By stacking the filter member and the filter member so that the vertex of the space of the lower part of the filter member 20 is located at the center of the lower end of the space part 21 of the filtering member 20 located at the upper part, the contact with the mesh network when air is introduced The larger the area, the higher the collection efficiency.

9 is a partial view showing an excerpt of a tunnel-type space formed in the filtering member having a double overlapping structure of the present invention.

The tunnel-shaped space 21 formed in the filtration member 20 of the present invention has a double cross structure by forming a plurality of bent parts 22 in a “W” shape to enlarge the filtration area and to physically move the airflow. Collision occurred and the collection efficiency was maximized.

"형 구조로 이루어져 상부가 꼭지점으로 형성되고 하부는 넓게 형성된 것으로서 상협 하광으로 이루어지고 삼각형의 공간부(21)는 하단부 양측이 외향으로 절곡되어 절곡경사면(23)으로 형성된다.The tunnel-type space 21 formed in the filtration member 20 of the present invention is "

It has a "shaped structure, so that the upper part is formed as a vertex, and the lower part is formed broadly, and is made up of an upper and lower light.

As shown in FIG. 9, the space portion 21 of the present invention is composed of a portion (a) forming a triangular shape and a portion (b) in which a bent inclined surface 23 is formed so as to extend to the lower end thereof.

The filtering member 20 having the space portion 21 has a structure in which two overlapped, and the upper vertex has a shape like “V”.

In addition, the bent inclined surface 23 formed at the lower end of the space is formed at an α angle of about 70° as a lower vertical line on the bent horizontal line.

Forming the bent inclined surfaces 23 on both sides of the lower end (b) of the space part 21 is that the adjacent space parts on both sides of the space part are continuously formed as shown in FIG. In view of the structure, it is to form a network structure having a plurality of angles to further increase the collecting efficiency of dust and dust introduced along the air and to improve the durability of the space 21 .

That is, the filtration member 20 is formed in the form of a mesh network as a whole so that air can pass through the entire filtration member 20, and the filtration member 20 is formed into a triangular tunnel-shaped space 21, and the space portion ( 21) to have a plurality of bent parts 22 in the tunnel direction, so that the air stream passing through the space 21 flows while making cross contact with the bent part 22 several times, thereby increasing the frictional contact area with the air stream. In the end, it works to increase the dust and dust collection area to improve the air filtration efficiency.

10 is an exemplary view of a state in which a reinforcing member is installed on the rear surface of the metal filter of the present invention to have durability, and FIG. It is an exemplary view of the state, and Figure 12 is an exemplary view showing a state in which a plurality of drain holes are formed on the metal filter frame according to the present invention,

13 is an exemplary view of a state in which a plurality of reinforcing members are installed inside the metal filter of the present invention to have durability.

In order to have durability by installing the reinforcing member 50 in the metal filter 10 of the present invention, the reinforcing member 50 is installed to prevent the metal filter 10 from being bent due to washing or wind pressure during use. installed. (See Figs. 10, 11, and 13)

The reinforcing member 50 installed on the rear surface of the metal filter 10 of the present invention is installed on a vertical line of the filtration member constituting the metal filter to support the metal filter.

At this time, the guarantee member 50 is installed in a direction crossing the drain hole 12 formed on the frame 11 of the metal filter 10, and a plurality of drain holes installed on the frame 11 of the metal filter 10 ( 12) allows the water remaining inside the frame 11 to be drained during cleaning.

10 is an exemplary view of a state in which a reinforcing member is installed on the back side of the metal filter of the present invention to have durability. The next piece is installed by means of fixing, such as welding.

11 is an exemplary view of a state in which a plurality of reinforcing members are installed in the middle portion of the filtration member of the metal filter of the present invention to have durability. Fix by welding or piece.

12 shows that a plurality of drain holes 12 are formed on the frame 11 of the metal filter 10 according to the present invention to drain the water remaining inside the frame 11 during cleaning.

In this case, a plurality of drainage holes installed on the frame are formed in a range that does not cause a problem in the durability of the frame.

In addition, the drainage holes installed in the upper and lower frames 11 are not formed in the filtration filter 20, but are installed only on the frame of the metal filter.

13 is an exemplary view of a state in which a reinforcing member is installed inside or outside the rear surface of the metal filter of the present invention to have durability, and is installed inside the metal filter rear frame 11 to have durability.

The reinforcing member 50 installation form shown in FIG. 13 is to have durability by installing the reinforcing member 50 after installing the metal reinforcing piece 51 inside the rear frame 11 located at the edge of the metal filter. .

In addition, the filtering member 20 constituting the metal filter of the present invention exemplifies that the gap between the bent portion 22 of the air inlet portion and the air outlet portion is different, and the first mesh 20a on the air inlet side ) and the air outlet side second mesh (20b) is the mesh size and In order to form the gap between the bent portions to be different from each other, they are formed separately and connected in a welded or butt-matched state.

"형의 공간부(21)로 형성하되 상기 여과부재(20)의 터널형 공간부(21)는 지그재그로 2중 크로스 구조를 갖는 절곡부(22)를 가지므로 공기를 따라 유입되는 먼지 및 분진, 습기와의 접촉면적을 넓혀 포집 성능을 향상시키게 된다.In this way, the cross-sectional shape of the filtration member 20 constituting the metal filter 10 of the present invention is continuously “left and right”.

It is formed with a “shaped space 21, but the tunnel-shaped space 21 of the filter member 20 has a bent portion 22 having a zigzag double cross structure, so dust and dust introduced along the air , it increases the contact area with moisture to improve the collection performance.

In addition, the present invention maximizes the collecting contact area while the dust and dust flowing in along the air passes through the space part consisting of a plurality of bent parts having a double cross structure, so that it can be used for a long time even in a high wind speed and a large amount of polluting environment, efficiency and It is designed to be used semi-permanently with the improvement of the dust holding capacity.

In addition, in the present invention, the shape of the space part 21 is made in a triangular shape, but the lower both sides have a bent inclined surface 23 so that they are wider to both sides so that the collecting ability is improved so that the air conditioning system, the underground air inlet , air purifier filters, subway stations, tunnels, etc. to maximize air filtration efficiency, providing a double-structured filter media and metal filters using a curved structure.

10: metal filter 11: frame
12: drain hole
20: filtration member 20a: first mesh
20b: second mesh 21: space part
22: bending part 23: bending slope
24: inlet 25: outlet
30: flat plate mesh network 31: first plate mesh
32: second plate mesh 50: reinforcing member
51: metal reinforcement piece

Claims (7)

metal filter,
The cross-section formed by forming a plurality of bent portions by double overlapping with the first mesh, which is a general mesh, and the second mesh, which is a dense mesh, having different diameters and sizes of the mesh network is continuous left and right.

a filtering member consisting of a "-shaped space part, and the space part body formed as a bent part of a zigzag double cross-type structure;
A first plate mesh (30a) with a large hole is installed at a position where the air is first contacted, positioned between the double overlapping filter member and the filter member, so that a plurality of filter members can be stacked, and a hole on the back surface A flat plate mesh network consisting of a double mesh network structure overlapped by positioning the small second plate mesh (30b);
A metal filter, characterized in that a plurality of the filter member and the flat plate mesh network are alternately stacked, and the filter member edge is made of a metal material and is bound by a frame formed in a “C” shape to constitute a metal filter having a double structure. According to claim 1,
The space part of the filtering member is made of a double cross-structured bent part, and the lower end has a bent inclined surface spread on both sides.

A metal filter, characterized in that it is composed of a "-shaped space part. delete According to claim 1,
The metal filter, characterized in that the air inlet side of the tunnel-shaped space portion of the double overlapping filtering member is formed to be large on the air inlet side and small on the outlet side, so that the air inlet side and the air outlet side are formed to have different sizes. delete According to claim 1,
The metal filter is a metal filter, characterized in that the plurality of reinforcing members are formed in a direction crossing the drain hole formed on the frame. 7. The method of claim 6,
The reinforcing member is a metal filter, characterized in that it is welded and fixed to the metal reinforcing piece welded inside the frame of the metal filter in which a plurality of filtration members are stacked.

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