KR200457745Y1 - Filter assembly having improved area of filteration - Google Patents

Abstract

Disclosed is a filtration filter assembly having an improved structure for improving the filtration area by minimizing the separation distance between the filter member responsible for air filtration located on the inner side of the filter assembly and the inner side of the ventilation opening to improve the air filtration function. . To this end, there is provided a filtration filter assembly having an improved structure for improving the filtration area in which both ends of each pair of upper and lower frames are bent toward the filter member. When using the filtration filter assembly having the improved structure according to the present invention, the upper and lower parts of the filter member for filtering air is located on the same line as the upper and lower inner walls of the ventilation port, so that the filter having more filtration area under the same outer size conditions It is possible to reduce the pressure loss of the filter can be manufactured, as well as the effect of preventing the adhesive means for positioning the filter member to flow out due to the bent shape of the upper and lower frames.

Description

FILTER ASSEMBLY HAVING IMPROVED AREA OF FILTERATION

The present invention relates to a filter assembly that is installed to purify the air in the ventilation opening, and more particularly, to a filtration filter assembly that can improve the filtration area of the air through the filter assembly in a limited space.

Filters are widely used in various industrial fields, and various types of filters are used according to various industrial fields.

Examples of automobiles include air filters used in air conditioners, oil filters used to filter oil, and the like, and water filters used in water purifiers. In addition, many filters are widely used, and many of these filters are classified according to what they filter.

For example, in the case of an air purification filter used in a nuclear power plant, an air filtration filter is used to prevent the air contaminated with radioactive material from being discharged to the outside through a ventilation opening. The research on the air filter having the function has been made continuously and accordingly the filtration filter products are being developed.

For example, "Filter assembly for nuclear power plants" is disclosed in Republic of Korea Utility Model Publication No. 20-0232222 (registered May 16, 2001).

It is a filter assembly which is installed to purify the air in the ventilation opening of the nuclear power plant, the rectangular box-shaped frame on both sides, the front and rear cover of the rectangular frame shape detachably assembled to both open ends of the frame, and the frame It is detachably installed inside of and has a rectangular box-shaped casing on both sides. And a filter cloth having a plurality of pockets before and after being attached to the inside of the casing and zigzag-folded, a plurality of front and rear aluminum spacers interposed in each of the pockets of the filter cloth, and the front and rear aluminum spacers, respectively. It relates to a filter assembly for a nuclear power plant made of a filter element having a fixed plate for integrally connecting the frame and the front, rear cover and the like.

In addition, Korean Patent Publication No. 10-0347212 (registered on July 22, 2002) discloses a "hepa filter housing having a filter contact driving device".

It secures the filter tray on the top of the screw shaft or cam shaft, loads the filter on the top of the filter tray, forms the filter housing on the upper and side of the filter, and attaches the gaskets to the lower left and right of the filter housing formed on the upper side. The present invention relates to a HEPA filter housing having a filter-tight driving device having a filter inlet cover outside the filter housing.

In this case, we developed the filter contact method, which is a major part of the filter housing, to secure safety, maintenance and economic efficiency in nuclear and special industrial sites using high-efficiency air filtration devices, There is an advantage that can be secured.

In addition, Korean Utility Model Publication No. 20-0200334 (registered on August 08, 2000) discloses a "filter assembly for nuclear power plants."

It is a filter assembly installed in the ventilation hole of the nuclear power plant to purify the air, a rectangular box-shaped frame having both ends open, a rear cover integrally attached to the rear open end of the frame, and detachable inside the frame. And a front cover detachably provided on the front surface of the filter element through an open end of the frame, and a front cover installed on the front surface of the frame to restrain the departure of the front cover. It relates to a filter assembly for a nuclear power plant comprising a clamp means to be in close contact with the front surface.

This technology simplifies the assembly and disassembly of the front cover, improving workability and reducing the time required for replacement of filter elements.

The filter assemblies used in the nuclear power plant mentioned above can be reused for the frame and cover respectively, to prevent damage to the gasket and leakage of contaminated air, and to simplify the assembly and disassembly of the cover, thereby improving workability and ease of maintenance. Although it takes as a technical feature, there is a problem that the air filtration function through the filter assembly is uniform.

More specifically, in the case of the conventional filter assembly, there is a problem in that air separation is not performed by the distance as the distance between the filter element for purifying air and the inner surface of the ventilation opening is separated by the thickness of the filter assembly. That is, there is a problem that the efficiency of air filtration is low. Accordingly, there is a demand for the development of a filter assembly capable of purifying more air under the same conditions.

Therefore, an object of the present invention is to improve the filtration area to improve the air filtration function by minimizing the separation distance between the filter member and the air inlet of the filter member located on the inner surface of the filter assembly filtration having an improved structure It is to provide a filter assembly.

In order to achieve the above object of the present invention, the present invention is installed in the ventilating filter assembly including a filter member which is accommodated in a pair of frames each of the left and right and up and down to purify the air, consisting of the pair Both ends of each of the upper and lower frames to provide a filter filter assembly having an improved structure for improving the filtration area, characterized in that it has a structure bent in the direction of the filter member to accommodate the filter member.

When using a filtration filter assembly having an improved structure for improving the filtration area according to the present invention, the upper and lower parts of the filter member for filtering air are positioned in the same line as the inner wall of the vent port, thereby increasing the number of the vent holes under the same outer size condition. The advantage is that air purification is possible.

And since the cross-sectional area of the limited ventilation port can be used for air filtration without a so-called dead zone, it is not only possible to manufacture a filter having a large filtration area without additionally increasing the size of the ventilation port, but also to supply the same air volume into the ventilation port. The effect of lowering the pressure loss can be expected, and economic benefits can be obtained by improving the durability of the filter.

In addition, as the upper and lower frames of the filtration filter assembly are bent in the direction of the filter member located on the inner side, respectively, it is possible to expect the effect of preventing the adhesive for positioning the filter member from flowing out due to the bent shape.

Hereinafter, with reference to the drawings will be described in detail a filtration filter assembly having an improved structure for improving the filtration area according to an embodiment of the present invention.

1 is a perspective view for explaining a filtration filter assembly having an improved structure for improving the filtration area according to an embodiment of the present invention.

1, the filtration filter assembly according to an embodiment of the present invention is the upper frame 100 to serve as the upper frame, the lower frame 200 to serve as the lower frame, the first side frame (left and right) ( 300, and a second side frame 400 (the upper frame and the lower frame will be referred to as upper and lower frames, the first side frame and the second side frame will be referred to as left and right frames).

The filtration filter assembly assembled with the frames 100, 200, 300, and 400 serving as the upper and lower frames and the left and right frames serves to purify the air discharged to the outside through the ventilation holes. In addition, the filtration filter assembly may be installed at an inlet part through which air is introduced into the ventilation hole depending on the type of ventilation hole to be installed, or may be installed at an outlet part through which the air is discharged.

An assembly structure of each of the upper frame 100, the lower frame 200, the first side frame 300, and the second side frame 400 will be described below.

2 is a front view illustrating a filtration filter assembly having an improved structure for filtration area improvement according to an embodiment of the present invention, and FIG. 3 is an improved structure for filtration area improvement according to an embodiment of the present invention. 4 is a view illustrating a filter member for explaining a filtration filter assembly having a filter filter assembly having an improved structure for improving a filtration area according to an embodiment of the present invention.

2 to 4, the filtration filter assembly according to an embodiment of the present invention is a pair of upper frame 100 and lower frame 200 and the first side frame 300 and the second side frame 400. More specifically, in the present invention, for example, the first and second side frames 300 and 400 may be disposed at both ends (left and right ends) of the upper and lower frames 100 and 200 so that the overall shape may have a rectangular shape.

The assembled filtration filter assembly may be connected to each frame, that is, the first side frame 300 and the second side frame 400 is connected to both ends of the upper frame 100, respectively, It is preferable to assemble a portion where the first side frame 300 and the second side frame 400 are connected to both ends of the lower frame 200 through the fastening member.

To this end, each of the frames may be assembled through screws and bolts or through a fastening member such as a rivet through grooves formed by forming grooves to be fastened to portions connected to each other.

Furthermore, the overall shape of the filtration filter assembly may be assembled differently according to the internal shape of the ventilation hole installed without being limited to the rectangular shape. In this case, the number and size of each frame may vary according to the assembled shape.

As described above, the filtration filter assembly, whose overall shape is assembled into a square shape, has a filter member 10 for purifying air on the inner side thereof.

Figure 5 is a schematic enlarged view for explaining the bending structure of the upper frame of the filtration filter assembly having an improved structure for improving the filtration area according to an embodiment of the present invention.

Referring to Figure 5, the upper frame 100 of the filtration filter assembly according to an embodiment of the present invention is preferably formed so that at least one side or both ends are bent toward the filter member 10 located on the inner side.

In more detail, the upper frame 100 according to an embodiment of the present invention has an overall shape having a substantially rectangular shape, and the first and second side frames 300 and 400 are connected to both ends thereof. The upper frame 100 preferably has two surfaces other than both end surfaces to which the first and second side frames 300 and 400 are connected to extend in the direction of the filter member located on the inner side to form a bending structure.

It is preferable that the bent structure is formed on two surfaces, but it may be designed such that the bent structure is formed only on the adopted surface by adopting one of two surfaces selectively according to the design purpose.

In addition, both end surfaces of the upper frame 100 may be formed to be bent toward the filter member 10, that is, toward the first and second side frames 300 and 400 connected thereto. This is for easier connection with the first and second side frames 300 and 400 located at both ends.

The lower frame 200 may also correspond to the bending structure of the upper frame 100 to form a bending structure.

In more detail, the upper frame 100 is preferably formed such that the bending structure is directed toward the filter member, that is, the bending structure is directed downward, and the lower frame 200 is located in the upper direction when the filter member is located on the upper side. It is preferably formed to face.

Accordingly, as shown in FIG. 5, the upper frame 100 has a bent structure formed on one side thereof, and the lower frame 200 has a bent structure formed on one side thereof. will be. In other words, the shape may be applied to the filtration filter assembly, so that the dimension between the outer end face of the upper frame and the outer end face of the lower frame and the outer end face of the upper and lower parts of the filter member located therein may be substantially matched.

Figure 6 is an embodiment applied to the ventilator for explaining the filtration filter assembly having an improved structure for improving the filtration area according to an embodiment of the present invention.

Referring to FIG. 6, the filtration filter assembly b assembled with the upper and lower frames 100 and 200 and the first and second side frames 300 and 400 including the filter member 10 on an inner side thereof has a gasket. Using the 30 is installed to ensure the airtightness in the ventilation opening (20). The filter filter assembly installed in the ventilation hole 20 has the filter member 10 as the upper frame 100 and the lower frame 200 are bent in the lower and upper directions in which the filter member 10 is located, respectively. The upper and lower portions of the vent hole 20 are positioned on the same line as the upper and lower inner walls, respectively.

More specifically, the end of the bending structure formed on one side of the upper frame 100 is located on the same line as the upper inner wall of the ventilation opening 20, the end of the bending structure formed on one side of the lower frame 200 is It is preferable to be located on the same line as the lower inner wall of the vent 20.

The conventional filtration filter assembly (a) has a structure in which the upper and lower frames (2, 3) unnecessarily protrudes in the inlet vent, thereby reducing the area of the filter member (1) by the length protruding in the inlet vent. .

The present invention adopts a structure in which one side of the upper and lower frames 100 and 200 are bent in the direction in which the filter member 10 is positioned, so that the area of the filter member 10 is wider than that of the conventional filter filter assembly under the same conditions. By lowering the air filtration rate of the filter member 10 compared to the conventional filter assembly can be lowered. According to the improvement of the air filtration rate, the pressure loss of the filter can be improved under the same conditions, and the effect of increasing the air purification efficiency can be obtained.

Furthermore, the filtration filter assembly according to the embodiment of the present invention additionally forms the filter member 10 in the upper and lower frames 100 and 200 as one side of the upper and lower frames 100 and 200 is formed in a bent structure. Adhering means adopted to be located on the side can be prevented from flowing out of the upper and lower frames (100, 200). A more detailed description will be described later.

7 is a schematic configuration diagram of an upper frame and a filter member of the filtration filter assembly having an improved structure for improving the filtration area according to another embodiment of the present invention.

Referring to Figure 7, the filtration filter assembly according to an embodiment of the present invention includes an adhesive means (500). The adhesive means 500 serves as an adhesive so that the filter member 10 located on the inner surface of each of the upper and lower frames 100 and 200 can be more firmly positioned. The adhesive means 500 may be any material as long as it is a material capable of adhering the filter member 10 to the inner surfaces of the upper and lower frames 100 and 200. Preferably, the bonding means 500 may include a liquid type adhesive.

To this end, the bonding means 500 is preferably located on the inner surface of each of the upper and lower frames 100 and 200. When the adhesive means 500 includes a liquid adhesive, the filter member 10 is attached to the adhesive means 500 as the adhesive means 500 is positioned on the inner surfaces of the upper and lower frames 100 and 200. In the process of bonding), a part of the bonding means 500 is pushed toward both ends of the filter member 10 by the contact area of the filter member 10. At this time, a part of the bonding means 500 is prevented from flowing out of the upper and lower frames 100 and 200 by the bent structure of the upper and lower frames 100 and 200.

8 is a view showing a schematic assembly of a filtration filter assembly having an improved structure for improving the filtration area according to an embodiment of the present invention.

Referring to FIG. 8, the filtration filter assembly having an improved structure according to an embodiment of the present invention includes upper and lower frames 100 and 200 positioned on the upper and lower sides, and a first side frame 300 and a second side positioned on the side thereof. Composed (assembled) of the frame 400, and more specifically, the first side frame 300 and the second side frame on the inner side of the bending structure formed on the left and right sides of the pair of upper and lower frames (100, 200), respectively Preferably, the 400 are each assembled in an inserted state.

Each of the frames 100, 200, 300, and 400 constituting the filtration filter assembly may have a first side frame 300 and a second side frame inserted into the upper and lower frames 100 and 200 in addition to the above method. It is also possible to reverse the direction of 400 to combine.

The reason for inserting the side frames 300 and 400 into the upper and lower frames 100 and 200 as described above is that the side frames 300 and 400 serve as pillars of the filtration filter assembly, thereby improving durability of the filtration filter assembly. To improve. Further, to allow the filtration filter assembly to be installed in the ventilation openings, to perform a local area to maintain the shape of the ventilation openings.

Although described above with reference to a preferred embodiment of the present invention, those skilled in the art will be able to variously modify and change the present invention without departing from the spirit and scope of the present invention described in the claims below. It will be appreciated.

1 is a perspective view illustrating a filtration filter assembly having an improved structure for improving the filtration area according to an embodiment of the present invention.

Figure 2 is a front view for explaining a filtration filter assembly having an improved structure for improving the filtration area according to an embodiment of the present invention.

3 is an embodiment in which the filter member for explaining the filtration filter assembly having an improved structure for improving the filtration area according to an embodiment of the present invention is applied.

Figure 4 is a side view for explaining a filtration filter assembly having an improved structure for improving the filtration area according to an embodiment of the present invention.

Figure 5 is a schematic enlarged view for explaining the bending structure of the upper frame of the filtration filter assembly having an improved structure for improving the filtration area according to an embodiment of the present invention.

Figure 6 is an embodiment applied to the ventilator for explaining the filtration filter assembly having an improved structure for improving the filtration area according to an embodiment of the present invention.

7 is a schematic configuration diagram of an upper frame and a filter member of a filtration filter assembly having an improved structure for an air permeation shape according to another embodiment of the present invention.

8 is a view showing a schematic assembly of a filtration filter assembly having an improved structure for improving the filtration area according to an embodiment of the present invention.

Brief description of the main parts of the drawing

10: filter member 20: ventilation hole

30: gasket 100: upper frame

200: lower frame 300: first side frame

400: second side frame 500: bonding means

Claims (5)

In the filtration filter assembly comprising a filter member which is installed in the ventilator and is accommodated in a pair of frames each of the left and right and up and down to purify the air, Both ends of the upper and lower frames of the pair are formed in a structure bent in the direction of the filter member to accommodate the filter member, The first side frame and the second side frame serving as the left and right frame of the upper and lower frames are formed into a structure assembled by being inserted into the bending structure formed on both ends of the upper and lower frames, respectively, An end of the bent structure formed on one side of the upper frame of the upper and lower frames is located on the same line as the upper inner wall of the ventilation port, the end of the bent structure formed on one side of the lower frame of the upper and lower frames is a lower inner wall of the ventilation hole Filter assembly having an improved structure for filtration area improvement, characterized in that installed in the same line as the. The method of claim 1, The filter member having an improved structure for improving the filtering area, characterized in that the filter member is formed in close contact with the inner surface of the upper frame and the lower frame. The method of claim 1, Filtration having an improved structure for improving the filtration area further comprises an adhesive means located in the contact portion of the filter member and the upper and lower frame inner side so that the filter member is fixed to the inner side of the pair of upper and lower frame Filter assembly. The method of claim 3, wherein The filtration filter assembly having an improved structure for improving the filtration area, characterized in that the bonding means do not flow out of the upper and lower frames by the bent shape formed on both ends of the pair of upper and lower frames. delete

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