CN108499283B - Mounting structure of box electrostatic filter and box electrostatic filter device - Google Patents

Abstract

The invention provides a mounting structure of a box type electrostatic filter and a box type electrostatic filter device, comprising: the filter limiting plate is positioned on the rear air outlet side of the frame and is connected to the upper part of the frame, so that the filter limiting plate abuts against the top plate, the left side plate and the right side plate; at least one part of the lower part of the filter limiting plate is bent to form a horizontal limiting plate, the non-bent part of the filter limiting plate forms a vertical limiting plate, the filter limiting plate further comprises a notch positioned on the plane of the horizontal limiting plate, and the notch is arranged corresponding to the vertical limiting plate; the at least one horizontal sealing plate is connected to the at least one horizontal limiting plate and used for covering the notch. The box-type electrostatic filter device provided by the invention has the advantages of remarkably improved purification efficiency, simple structure, low cost and strong practicability.

Description

Mounting structure of box electrostatic filter and box electrostatic filter device

Technical Field

The invention relates to the field of box-type electrostatic filters, in particular to a mounting structure of a box-type electrostatic filter and a box-type electrostatic filter device.

Background

The box-type electrostatic filter device comprises an electrostatic filter and a mounting structure, wherein the electrostatic filter is fixed in the mounting structure. The mounting structure comprises a frame, the bottom of the frame is provided with a convex positioning angle steel which is matched with a groove at the bottom of the electrostatic filter, so that the electrostatic filter is limited on the frame. The frame head is equipped with the spring separation blade, and when static filter fixed in the frame, the spring separation blade contacts with static filter's top, realizes static filter and frame's fixed together with the location angle steel.

When the electrostatic filter is mounted and dismounted in the frame, it is necessary to tilt the electrostatic filter toward the installer first so that the top of the electrostatic filter does not contact the spring catch on the frame head, and then mount or remove it in the tilted direction. There is thus a need to leave sufficient space between the top of the electrostatic filter and the head of the frame to ensure that the electrostatic filter can be installed and removed in an inclined orientation. Therefore, a wind leakage area exists between the top of the electrostatic filter and the head of the frame, and the purification efficiency is affected.

In addition, in order to further increase the purification efficiency, an activated carbon filter is optionally provided in the frame, the activated carbon filter is placed side by side with the electrostatic filter, and it is difficult to position and fix because the activated carbon filter has a small thickness.

Disclosure of Invention

In order to solve the above problems, an object of the present invention is to provide a mounting structure of a box-type electrostatic filter and a box-type electrostatic filter device for positioning and mounting the box-type electrostatic filter and improving the purifying efficiency.

In order to achieve the above object, a first aspect of the present invention provides a mounting structure of a box-type electrostatic filter, comprising:

the frame comprises a top plate, a bottom plate, a left side plate and a right side plate, a front air inlet side and a rear air outlet side;

the filter limiting plate is positioned on the rear air outlet side of the frame and is connected to the upper part of the frame, so that the filter limiting plate abuts against the top plate, the left side plate and the right side plate; at least one part of the lower part of the filter limiting plate is bent to form a horizontal limiting plate, the non-bent part of the filter limiting plate forms a vertical limiting plate, the filter limiting plate further comprises a notch positioned on the plane of the horizontal limiting plate, and the notch is arranged corresponding to the vertical limiting plate;

the at least one horizontal sealing plate is connected to the at least one horizontal limiting plate and used for covering the notch.

According to the first aspect, the filter limiting plate is integrally formed with the frame top plate.

According to the first aspect, two ends of the horizontal limiting plate are respectively and fixedly connected with the left side plate and the right side plate of the frame.

According to the first aspect, the horizontal limiting plates and the vertical limiting plates are arranged in a staggered manner.

According to the first aspect, a vertical sealing plate is arranged on one side of each horizontal sealing plate, and the vertical sealing plates are arranged on two sides of the horizontal sealing plate opposite to the filter limiting plate.

According to the first aspect, the horizontal sealing plate is provided with a plurality of positioning holes for positioning and connecting the horizontal sealing plate with the horizontal limiting plate.

A second aspect of the present invention provides a box-type electrostatic filter device comprising:

the frame comprises a top plate, a bottom plate, a left side plate and a right side plate, a front air inlet side and a rear air outlet side;

the filter limiting plate is positioned on the rear air outlet side of the frame and connected to the upper part of the frame, so that the filter limiting plate abuts against the top plate, the left side plate and the right side plate; at least one part of the lower part of the filter limiting plate is bent to form a horizontal limiting plate, the non-bent part of the filter limiting plate forms a vertical limiting plate, the filter limiting plate further comprises a notch positioned on the plane of the horizontal limiting plate, and the notch is arranged corresponding to the vertical limiting plate;

the at least one horizontal sealing plate is connected to the at least one horizontal limiting plate and used for covering the notch;

the electrostatic filter is positioned at the front side of the filter limiting plate in the frame, the bottom of the electrostatic filter is connected to the bottom plate of the frame, and the head of the electrostatic filter is contacted with the horizontal limiting plate or the horizontal sealing plate;

the active carbon filter is located below the filter limiting plate in the frame and is located at the rear side of the electrostatic filter, the bottom of the active carbon filter is connected to the bottom plate of the frame, and the head of the active carbon filter is in contact with the vertical limiting plate.

According to the second aspect, the box-type electrostatic filter device further includes:

the fixing plate is arranged in the frame, connected with the frame, positioned above the electrostatic filter, elastically connected with the electrostatic filter and provided with a certain compression space with the electrostatic filter.

According to the second aspect, the left and right ends of the fixing plate near the rear air outlet side are respectively provided with a second connecting block connected with the left side plate and the right side plate of the frame, and the second connecting block is provided with a rotating shaft for enabling the fixing plate to rotate around the rotating shaft relative to the frame.

According to the second aspect, the four corners of the bottom plate of the frame are provided with limiting blocks for limiting the bottoms of the electrostatic filter and the activated carbon filter.

The mounting structure of the box-type electrostatic filter is used for mounting the box-type electrostatic filter, and the electrostatic filter and the activated carbon filter are respectively limited and fixed in the horizontal direction and the vertical direction through the horizontal limiting plate and the vertical limiting plate on the filter limiting plate. Meanwhile, the notch on the filter limiting plate is sealed through the horizontal sealing plate, so that air is prevented from directly passing through the air leakage area without purification, and purification efficiency is prevented from being influenced. And the filter limiting plate and the frame top plate are integrally formed, so that the sealing effect can be better realized, and the welding cost is reduced. The box-type electrostatic filter device provided by the invention has the advantages of remarkably improved purification efficiency, simple structure, low cost and strong practicability.

Drawings

FIG. 1 is a schematic view of the mounting structure of a box-type electrostatic filter of the present invention;

FIG. 2 is a left side view of the box-type electrostatic filter device of the present invention, with a left side plate omitted, for illustrating an internal structure of the box-type electrostatic filter device;

FIG. 3 is an enlarged view of a portion of FIG. 2 showing the position of the filter limiting plate;

FIG. 4 is a perspective view of an integrally formed top plate and filter spacing plate of the present invention, illustrating the structure of the filter spacing plate;

FIG. 5 is a top view of the filter limiting plate of the present invention showing the location of the notch in the filter limiting plate;

FIG. 6 is a top view of the seal plate structure of the present invention showing the structure of the seal plate;

FIG. 7 is a left side view of FIG. 6 showing an L-shaped seal plate;

FIG. 8 is a structural perspective view of a filter limiting plate and a sealing plate for illustrating the sealing plate covering a notch in the filter limiting plate;

fig. 9 is a schematic view of the mounting structure of the box-type electrostatic filter in the detached state of the electronic control box.

Detailed Description

Various embodiments of the present invention are described below with reference to the accompanying drawings, which form a part hereof. It is to be understood that, although directional terms, such as "front", "rear", "upper", "lower", "left", "right", etc., may be used in the present invention to describe various example structural parts and elements of the present invention, these terms are used herein for convenience of description only and are determined based on the example orientations shown in the drawings. Since the disclosed embodiments of the invention may be arranged in a variety of orientations, these directional terms are used by way of illustration only and are in no way limiting. Wherever possible, the same or like reference numerals are used throughout the drawings to refer to the same parts.

Before the box-type electrostatic filter mounting structure and the box-type electrostatic filter device are used for a gas output end in an air conditioner box, air to be output in the air conditioner box flows through the electrostatic filter for filtering and purifying and then is output to a using end.

Fig. 1 shows a mounting structure 101 of a box-type electrostatic filter of the present invention. As shown in fig. 1, the mounting structure 101 of the box-type electrostatic filter of the present invention includes a frame 102 for accommodating the filter, a filter limiting plate 108, and a horizontal sealing plate 213. Wherein the frame 102 includes a top panel 106, a bottom panel 107, a left side panel 114, and a right side panel 115. For convenience of description of the present embodiment, the front of the frame 102 in fig. 1 is set as the front air intake side 230, and the rear of the frame 102 is set as the rear air outlet side 240. Thus, the air flow direction is from the front air inlet side 230 and then from the rear air outlet side 240.

A fixing plate 123 is provided on the top of the frame 102, and a space 122 is formed between the fixing plate 123 and the frame top plate 106, and an electronic control box (not shown in the figure) may be accommodated in the space 122, where the electronic control box includes an electrical control part of a product and an electrical component of the electrostatic filter during operation, such as a high-voltage power supply for controlling the operation of the electrostatic filter. An elastic member 121 for fixing the electrostatic filter in a vertical direction is provided below the fixing plate 123. In one example, the elastic member 121 may be an elastic reed.

As shown in fig. 1, the mounting structure of the present invention further includes a filter restrictor plate 108 located on the rear air outlet side 240, the filter restrictor plate 108 being attached to the upper portion of the frame 102 such that the filter restrictor plate 108 abuts the top plate 106, the left side plate 114 and the right side plate 115. In one example, the filter retainer plate 108 and the frame top plate 106 are integrally formed to ensure that there is no air leakage between the filter retainer plate 108 and the frame 102, achieving better sealing, and saving welding costs.

The specific structure of the filter retainer plate 108 is shown in fig. 4 and 5, wherein fig. 4 shows a perspective view of the filter retainer plate 108 integrally formed with the top plate 106. And for a clearer representation of the notch 512, fig. 5 shows a top view of the filter retainer plate 108. As shown in fig. 4, at least a portion of the lower portion of the filter stopper plate 108 is bent to form a horizontal stopper plate 310, and the non-bent portion forms a vertical stopper plate 111. In the example shown in fig. 4 and 5, the lower portion of the filter stopper plate 108 is bent at intervals to form three horizontal stopper plates 310.1, 310.2 and 310.3, and the unbent portion forms two vertical stopper plates 111.1 and 111.2, so that the horizontal stopper plates are staggered with the vertical stopper plates. Wherein, the horizontal limiting plate 310 can contact with the electrostatic filter, thereby limiting the electrostatic filter in the horizontal direction. When the horizontal limiting plate 310 contacts with the electrostatic filter, a space for accommodating the activated carbon filter is formed below the horizontal limiting plate 310, so that the activated carbon filter can be limited in the horizontal direction by contacting with the vertical limiting plate 111 when being placed in the space. The horizontal limiting plates 310.1 and 310.3 at both ends are provided with first connecting blocks 325, so that the filter limiting plate 108 can be fixed with the left and right side plates 114 and 115 of the frame through the first connecting blocks 325. As shown in fig. 5, a gap 512.1 is formed between the horizontal limiting plates 310.1 and 310.2 formed by bending, and a gap 512.2 is also formed between the horizontal limiting plates 310.2 and 310.3. Such that the notches 512.1 and 512.2 lie in the plane of the horizontal stop plate 310 and correspond to the positions of the vertical stop plates 111.1 and 111.2, respectively.

Continuing back to fig. 1, the mounting structure of the present invention further comprises at least one horizontal sealing plate 113, wherein the horizontal sealing plate 113 is connected to the horizontal limiting plate 310 and is used for covering the notch 512 located at the corresponding position of the vertical limiting plate 111, so that air is prevented from flowing into the frame 102 of the present invention from the front air inlet side 230, directly passing through the notch 512 and then flowing out from the rear air outlet side 240, without being filtered by the electrostatic filter.

To further explain the specific shape of the horizontal sealing plate 113, a top view of the horizontal sealing plate 113 is shown in fig. 6, and a left view of fig. 6 is shown in fig. 7. In the example of the present invention shown in fig. 6 and 7, the horizontal sealing plate 113 is in the shape of a single block. As can be seen from fig. 6 and 7, a vertical sealing plate 317 is provided on one side of the horizontal sealing plate 113, and the vertical sealing plate 317 is perpendicular to the horizontal sealing plate 113, thereby forming an L-shape. As an example, the horizontal sealing plate 113 may be bent to form the vertical sealing plate 317 for better sealability and saving welding cost. The structure in which the horizontal sealing plate 113 is assembled with the horizontal stopper plate 310 is shown in fig. 8, in which the horizontal sealing plate 113 is connected with the horizontal stopper plate 310 so that the horizontal sealing plate 113 can cover the notch 512. As an example, the horizontal sealing plate 113 is provided with a positioning hole 651, so that the horizontal sealing plate 113 and the horizontal limiting plate 310 are screw-coupled through the positioning hole.

The horizontal limiting plate 310 is provided with a positioning protrusion 551, and the positioning protrusion 551 may be used to limit the activated carbon filter such that the upper surface of the activated carbon filter abuts against the positioning protrusion 551.

In order to show the internal structure of the box-type electrostatic filter device, a box-type electrostatic filter device accommodating the electrostatic filter 203 in the mounting structure of fig. 1 is shown in fig. 2, a left view is omitted from the left side plate, and a partial enlarged view of fig. 2 at a portion is shown in fig. 3 to show the limiting structure of the filter limiting plate 108. As shown in fig. 2, the electrostatic filter 203 is located inside the frame 102, so that air enters from the front air inlet side 230, needs to be filtered by the electrostatic filter 203, and then flows out from the rear air outlet side 240. In one example, the frame base 107 is provided with a limiting angle 209, which cooperates with a groove in the bottom of the electrostatic filter 203, thereby limiting the movement of the bottom of the electrostatic filter 203 in the horizontal direction. In another example, the movement of the bottom of the electrostatic filter 203 in the horizontal direction may be restricted by providing stoppers 226 at four corners of the bottom of the frame 102. In the example shown in fig. 2, by combining the stopper angle 209 with the stopper 226, the movement of the bottom of the electrostatic filter 203 in the horizontal direction is restrained together. And, the top of the electrostatic filter 203 is in contact with the elastic reed 121, so that the elastic reed 121 presses the top of the electrostatic filter 203, thereby restricting the movement of the electrostatic filter 203 in the vertical direction. Meanwhile, since the elastic reed 121 has a certain deformation space, the electrostatic filter 203 has a certain compression space 204 between the fixing plate 123 in the vertical direction, thereby enabling the electrostatic filter 203 to be detached and installed from the inclined direction.

Still as shown in fig. 2, the box-type electrostatic filter device further includes a filter limiting plate 108, a horizontal sealing plate 113, and a vertical sealing plate 317. As can be seen in the enlarged partial view of the portion a shown in fig. 3, the vertical sealing plate 317 and the filter stopper plate 108 are located on opposite sides of the horizontal sealing plate 113, so that the vertical sealing plate 317 abuts against the head of the electrostatic filter 203, thereby restricting the head of the electrostatic filter 203 and restricting the movement of the electrostatic filter 203 in the horizontal direction. In the embodiment shown in fig. 3 and 8, since the vertical sealing plate 317 is integrally formed with the horizontal sealing plate 113, and the horizontal sealing plate 113 is connected with the horizontal limiting plate 310, the vertical sealing plate 317 can make the electrostatic filter 203 have a larger contact area when being limited by the filter limiting plate 108, and allow a larger error when the electrostatic filter 203 is sealed with the horizontal limiting plate 310, so that the connection between the electrostatic filter 203 and the filter limiting plate 108 is more tightly and stably.

As also shown in fig. 2 and 3, there is a space 218 below the horizontal stop plate 310 to accommodate a carbon filter. The vertical limiting plate 311 and the electrostatic filter 203 each define a boundary of the space 218. In which, as one example, the vertical limiting plate 311 limits the movement of the head of the activated carbon filter in the horizontal direction, and the movement of the bottom of the activated carbon filter in the horizontal direction is limited by the limiting block 226. So that the charcoal filter can be confined in space 218 and prevented from falling out of the rear air outlet side 240. Therefore, after the air to be cleaned enters the electrostatic filter 203 through the front air inlet side 230, the air can be further filtered through the activated carbon filter in the space 218, and finally flows out from the rear air outlet side 240. And, since the horizontal sealing plate 113 covers the gap 512, it is avoided that the air to be purified flows out from the rear air outlet side 240 directly through the gap 512 after passing through the space 204 from the front air inlet side 230, without passing through the electrostatic filter 203.

As also shown in fig. 2, the left and right ends of the fixing plate 123 near the rear air outlet side 240 are respectively provided with a second connection block 228 connected to the frame left side plate 114 and the right side plate 115, although only the second connection block 228 connected to the frame left side plate 114 is shown in fig. 2, it should be understood that a second connection block 228 connected to the frame right side plate 115 is also provided on the right side of the fixing plate 123, so that the fixing plate 123 is connected to the frame 102. The second connection block 228 is provided with a rotation shaft 229, and the fixing plate 123 is hinged to the frame left and right side plates 114 and 115 via the rotation shaft 229. The end of the fixing plate 123 near the front air inlet side 230 is movably connected with the frame 102, for example, by a latch. In the example shown in fig. 2, a locking block 235 is provided on the front air intake side 230 of the head of the frame 102, and when the end of the fixing plate 123 near the front air intake side 230 is locked with the locking block 235, the fixing plate 123 is fixed relative to the frame 102, and when the end of the fixing plate 123 near the air intake side 230 is released from the locking block 235, the fixing plate 123 rotates about the rotation axis 229 relative to the frame 102.

When the electrical components in the electrical control box (not shown) in the space (122) above the fixing plate 123 need to be overhauled, the fixing plate 123 can be rotated around the rotation shaft 229 relative to the frame 102 by loosening one side of the fixing plate 123 movably connected with the frame 102. For more clarity of the disassembled structure of the electronic control box, a schematic diagram of the electronic control box above the fixing plate 123 is shown in fig. 8. As shown in fig. 8, when the fixing plate 123 rotates around the rotation shaft 229, the fixing plate 123 rotates to a certain position, and collides against the first connection block 325 and the vertical sealing plate 317, so that the rotation of the fixing plate 123 is stopped. Therefore, a certain angle can be formed between the fixing plate 123 and the frame 102, so that the electric control box above the fixing plate 123 can not vertically fall out, and maintenance personnel can conveniently maintain the electric control box.

When the electrostatic filter device is mounted by the mounting structure 101, the activated carbon filter is first loaded into the space 218 from the air inlet side 230, the bottom of the activated carbon filter is limited by the limiting block 226, and the head of the activated carbon filter is limited by the vertical limiting plate 111. Then, the electrostatic filter 203 is installed in an inclined direction, the bottom of the electrostatic filter 203 is limited by the limiting angle steel 209 and the limiting block 226, the electrostatic filter 203 is pushed in until the head abuts against the vertical sealing plate 317, and then the head of the electrostatic filter 203 is fixed in the vertical direction by compressing the elastic reed 121, so that the installation process of the electrostatic filter device is completed. In the disassembly, the electrostatic filter 203 is disassembled in the same manner, and then the activated carbon filter is removed.

When the electrostatic filtration is performed, the air in the air conditioner is filtered and purified by the electrostatic filter device from the front air inlet side 230 and then is output to the user end from the rear air outlet side 240. By sealing the filter limiting plate 108 and the horizontal sealing plate 213, air cannot bypass the electrostatic filter 203 and pass through the filtering device, so that the purification efficiency is greatly improved, and the purification efficiency can be improved from 85% to about 95%.

Although the invention will be described with reference to the specific embodiments shown in the drawings, it should be understood that many variations in the mounting structure of the box electrostatic filter of the present invention are possible without departing from the spirit and scope and the background of the teachings of the invention. Those of ordinary skill in the art will also recognize that there are different ways to alter the details of the structure of the disclosed embodiments of the present invention that fall within the spirit and scope of the present invention and the claims.

Claims (8)

1. A mounting structure of a box-type electrostatic filter, characterized by comprising:

a frame (102), the frame (102) comprising a top plate (106), a bottom plate (107), a left side plate (114) and a right side plate (115), a front air intake side (230) and a rear air outlet side (240);

-a filter restrictor plate (108), the filter restrictor plate (108) being located at the rear air outlet side (240) of the frame (102) and being connected at an upper portion of the frame (102) such that the filter restrictor plate (108) abuts against the top plate (106), the left side plate (114) and the right side plate (115); at least one part of the lower part of the filter limiting plate (108) is bent to form at least one horizontal limiting plate (310), the non-bent part forms a vertical limiting plate (111), the filter limiting plate (108) further comprises a notch (512) positioned on the plane of the at least one horizontal limiting plate (310), and the notch (512) is arranged corresponding to the vertical limiting plate (111);

at least one horizontal sealing plate (113), the at least one horizontal sealing plate (113) being connected to the at least one horizontal limiting plate (310) for covering the gap (512),

wherein the filter retainer plate (108) is integrally formed with the top plate (106) of the frame (102), and

one side of each horizontal sealing plate (113) is provided with a vertical sealing plate (317), and the vertical sealing plates (317) are arranged on two sides of the horizontal sealing plates (113) opposite to the filter limiting plates (108).

2. The mounting structure of a box-type electrostatic filter according to claim 1, wherein:

two ends of the at least one horizontal limiting plate (310) are fixedly connected with the left side plate (114) and the right side plate (115) of the frame respectively.

3. The mounting structure of a box-type electrostatic filter according to claim 1, wherein:

the at least one horizontal limiting plate (310) and the vertical limiting plate (111) are arranged in a staggered manner.

4. The mounting structure of a box-type electrostatic filter according to claim 1, wherein:

the at least one horizontal sealing plate (113) is provided with a plurality of positioning holes (651) for positioning and connecting the at least one horizontal sealing plate (113) with the at least one horizontal limiting plate (310).

5. A box-type electrostatic filter device comprising:

a frame (102), the frame (102) comprising a top plate (106), a bottom plate (107), a left side plate (114) and a right side plate (115), a front air intake side (230) and a rear air outlet side (240);

-a filter restrictor plate (108), the filter restrictor plate (108) being located at the rear air outlet side (240) of the frame (102) and being connected to an upper portion of the frame (102) such that the filter restrictor plate (108) abuts the top plate (106), the left side plate (114) and the right side plate (115); at least one part of the lower part of the filter limiting plate (108) is bent to form at least one horizontal limiting plate (310), the non-bent part forms a vertical limiting plate (111), the filter limiting plate (108) further comprises a notch (512) positioned on the plane of the at least one horizontal limiting plate (310), and the notch (512) is correspondingly arranged with the vertical limiting plate (111);

at least one horizontal sealing plate (113), the at least one horizontal sealing plate (113) being connected to the at least one horizontal limiting plate (310) for covering the gap (512);

-an electrostatic filter (203), the electrostatic filter (203) being located in front of the filter limiting plate (108) within the frame (102), the bottom of the electrostatic filter (203) being connected to the bottom plate (107) of the frame, the head of the electrostatic filter (203) being in contact with the at least one horizontal limiting plate (310) or the at least one horizontal sealing plate (113);

an activated carbon filter located below the filter limiting plate (108) within the frame (102) and on the rear side of the electrostatic filter (203), the bottom of the activated carbon filter being connected to the bottom plate (107) of the frame, the head of the activated carbon filter being in contact with the vertical limiting plate (111),

wherein the filter retainer plate (108) is integrally formed with the top plate (106) of the frame (102), and

one side of each horizontal sealing plate (113) is provided with a vertical sealing plate (317), and the vertical sealing plates (317) are arranged on two sides of the horizontal sealing plates (113) opposite to the filter limiting plates (108).

6. The box-type electrostatic filter device according to claim 5, further comprising:

the fixing plate (123) is arranged in the frame (102), connected with the frame (102), located above the electrostatic filter (203), elastically connected with the electrostatic filter (203), and provided with a certain compression space (204) between the electrostatic filter (203).

7. The box-type electrostatic filter device according to claim 6, wherein:

the fixing plate (123) is provided with second connecting blocks (228) connected with the left side plate (114) and the right side plate (115) of the frame by the left end and the right end of the rear air outlet side (240), and a rotating shaft (229) is arranged on the second connecting blocks (228) and used for enabling the fixing plate (123) to rotate around the rotating shaft (229) relative to the frame (102).

8. The box-type electrostatic filter device according to claim 5, wherein:

four corners of the bottom plate (107) of the frame (102) are provided with limiting blocks (226) for limiting bottoms of the electrostatic filter (203) and the activated carbon filter.