KR101995387B1 - Heat exchange element with built-in filter - Google Patents

Abstract

The present invention relates to an electric heat exchange element with an embedded filter and, more specifically, to an electric heat exchange element with an embedded filter which includes an electric heat exchange member and a filter assembly integrally installed in an installation space divided by an upper plate, a lower plate, and a vertical connection bar. The electric heat exchange element with an embedded filter comprises: an upper plate; a lower plate separated and arranged below the upper place in parallel; a vertical connection bar to vertically connect corners of the upper plate and the lower plate; a division space which is divided therein by the upper plate, the lower plate, and the vertical connection bar, and includes a first installation space on one side thereof and a second installation space on the other side thereof; an electric heat exchange member installed in the first installation space; and a filter assembly installed in the second installation space and tightly attached to one surface of the electric heat exchange member.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat exchange element,

The present invention relates to a total internal heat exchanger element provided inside a total enthalpy heat exchanger, for exchanging heat between outside air flowing into the room from the outside and inside air circulated back to the room.

In general, the total enthalpy heat exchanger is one of the heat exchangers, and when the indoor air of the indoor air is discharged outdoors in the air conditioning system provided at a commercial office or an office, the heat contained in the indoor air is not wasted but is partially recovered and delivered to the outside Thereby enhancing energy efficiency.

In the interior of the total enthalpy heat exchanger, there is provided an enthalpy heat exchanging element for exchanging heat between the inside air and the outside air. That is, the total heat exchanging element is a core constituting a heat exchange function between the inside air and the outside air inside the total heat exchanger.

Meanwhile, as shown in FIG. 1, the conventional total heat exchanging element is applied only to the structure for the heat exchange function between the inside air and the outside air. That is, the total heat-exchanging element 1 has an upper plate 2 and a lower plate 3 having a parallelogram shape, a vertical connecting bar 4 vertically connecting the edges of the upper plate and the lower plate, And the total heat-exchanging member 5.

Therefore, the outside air supplied to the room from outside the room contains the foreign substances such as dust, dust, bacteria and the like, passes through the total heat exchanging member and is heat-exchanged, and then flows into the room to lower the indoor air quality. There was a shortage of shortening.

In order to eliminate such closed ends, a filter for filtering out foreign matter is attached to the outer surface of the total enthalpy heat exchanging element, or a filter is arranged in front of the outer surface of the total enthalpy heat exchanger inside the total enthalpy heat exchanger to filter off foreign matter contained in the outside air or outside air .

However, since the filter is simply disposed on the outer surface of the total enthalpy heat exchanging element or simply disposed on the outer surface of the outer heat exchanging element, there is a gap between the total heat exchanging element and the filter, and the indoor air quality is still deteriorated. In addition, since the installation space of the total heat exchange element and the installation space of the filter are both required in the total heat exchanger, there is a limit in which installation can not be performed without changing the internal structure of the total heat exchanger.

Therefore, it is necessary to develop a total heat exchange element having a structure which can improve the indoor air quality by surely removing the foreign substances contained in the outside air and can be installed without changing the internal structure of the total heat exchanger.

Korean Patent Laid-Open No. 10-2011-0075099, Jul. Korean Utility Model Publication No. 20-2009-0008621, Aug. 29, 2009.

Disclosure of Invention Technical Problem [8] The present invention has been made in order to solve the above-described problems, and it is an object of the present invention to improve the indoor air quality by surely removing the foreign substances contained in the outside air and to eliminate the internal structure of the total enthalpy heat exchanger And an object of the present invention is to provide a filter built-in total enthalpy heat exchanger having a structure that can be applied as it is.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood from the following description.

According to an aspect of the present invention, there is provided a total internal heat exchanger including a filter, A lower plate disposed parallel to the lower portion of the upper plate; A vertical connecting bar vertically connecting corners of the upper plate and the lower plate respectively; A partition space partitioned by the upper plate, the lower plate, and the vertical connection bar, the first installation space being provided at one side and the second installation space being provided at the other side; A total heat exchange member installed in the first installation space; And a filter assembly installed in the second installation space and closely attached to one surface of the total heat-exchanging member.

And a vertical partition formed between the upper plate and the lower plate and vertically installed between the total heat-exchanging member and the filter assembly and having upper and lower ends restrained by the upper plate and the lower plate, respectively.

The filter assembly includes a filter member; A horizontal blocking plate having one side surface and the other side which are horizontally tightly adhered to the upper surface and the lower surface of the filter member, respectively, are constrained to the upper plate and the lower plate; And a vertical blocking plate which is vertically in close contact with one side surface and the other side surface of the filter member, respectively, and upper and lower ends are constrained to the upper plate and the lower plate, respectively.

The upper and lower ends of the vertical blocking plate are respectively provided with connecting ends which are horizontally bent to connect with both sides of the horizontal blocking plate, and at both side ends of the vertical blocking plate, And a support restricting end bent to the side of the support restricting end.

Wherein the filter member is divided into a plurality of portions along the longitudinal direction of the filter member; And a filter support vertically installed between the filter element unit bodies and vertically installed at the upper end thereof and having upper and lower ends connected to the upper and lower plates.

According to the present invention, since the heat exchange member and the filter assembly are integrally installed in the installation space defined by the vertical connection bar and the vertical connection bar, the foreign matter contained in the external air can be effectively removed, The present invention has the effect of increasing the performance of the total heat exchanger at a low cost by having compatibility with the existing total heat exchanger as it is.

1 is a photographic view of a conventional total heat-exchanging element.
2 is a photographic view of a total internal heat exchanger with a filter according to a preferred embodiment of the present invention.
3 is a perspective view of a filter-equipped total enthalpy heat exchanger according to a preferred embodiment of the present invention.
4 is an exploded perspective view of a filter-equipped total enthalpy heat exchanger according to a preferred embodiment of the present invention.
5 is an exploded perspective view of a filter combined body of a total internal heat exchange element with a filter according to a preferred embodiment of the present invention.

The present invention relates to a total internal heat exchanger element installed inside a total enthalpy heat exchanger for enhancing energy efficiency by exchanging heat between the outside air supplied to the room from the outside and the inside air discharged from the room to the outside.

Particularly, the filter-equipped total enthalpy heat exchanger according to the present invention is characterized in that the filter member is integrally embedded in one surface of the total heat-exchanging member to reliably remove various foreign substances such as dust, dust and bacteria contained in the outside air, It can be applied without changing the internal structure of the exchanger.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a total internal heat exchanger with a filter according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 to 4, the total heat exchanging element 100 with a filter according to a preferred embodiment of the present invention includes an upper plate 10, a lower plate 20, a vertical connecting bar 30, a compartment space 40, The filter member 60, the vertical partition 70, and the heat insulating member 80 as shown in Fig.

First, the upper plate 10 is formed as a parallelogram having the same slope length, and supports the upper surface of the total heat-exchanging member 50 and the filter combining body 60.

Here, the upper restraining end 11 may be bent downward at the edge of the upper plate 10, respectively. The upper surface of the upper plate 10 may be provided with a handle 12 for facilitating transportation and handling.

The lower plate 20 is formed in a parallelogram shape having the same slope as the upper plate 10 and is disposed in parallel to the lower portion of the upper plate 10. The total heat exchange member 50 and the filter assembly 60 are supported.

At this time, the lower restraining end 21 may be bent upward at the edge of the lower plate 20.

The vertically connecting bar 30 has a rectangular parallelepiped shape with the upper and lower plates 10 and 20 vertically connecting the edges of the upper plate 10 and the lower plate 20 respectively.

The upper and lower ends of the vertical connection bars 30 can be detachably fastened to the upper plate 10 and the lower plate 20, respectively, by fastening members 32. [ The side restraint ends 31 may be formed on both sides of the vertical connection bar 30 so as to correspond to the corner angles of the upper plate 10.

Next, the compartment space is defined by the shape formed by connecting the upper plate 10, the lower plate 20, and the vertical connection bar 30 to each other.

At this time, one side of the compartment space is divided into a first installation space where the total heat-exchanging member 50 is installed, and the other side of the compartment space 40 is divided into a second installation space where the filter combining body 60 is installed.

However, the first installation space and the second installation space are partitioned into a rectangular parallelepiped shape corresponding to the shapes of the total heat-exchanging member 50 and the filter combining body 60, and are faithful to the total heat- The first installation space may be relatively larger than the second installation space.

That is, the first installation space is divided into a rectangular hexahedron whose frontal area is larger than the lateral area, and the second installation space has a rectangular parallelepiped shape with a frontal area equal to the first installation space and a lateral area smaller than the first installation space . ≪ / RTI >

Next, the total heat-exchanging member 50 is installed in a first installation space partitioned at one side of the partition space 40, and exchanges heat between the outside air passing through the inside and the inside air.

The total heat-exchanging member 50 includes an outer passage layer 52 formed with a plurality of outer air passage 51 through which the outside air passes and an inner passage layer 54 formed with a plurality of inner passage paths 53 through which the inner member passes And may have a structure in which they are alternately stacked so as to cross each other in an oblique direction.

However, the total heat exchange member 50 may have a rectangular parallelepiped shape having a front surface area larger than a lateral surface area corresponding to the first installation space. That is, the total heat-exchanging member 50 can be obtained by cutting the entire surface of the total heat-exchanging member by a predetermined length.

The heat exchange member 50 is formed such that its corner side is connected to the upper restraining end 11 of the upper plate 10 and the lower restraining end 21 of the lower plate 20 and the side restraining end 31 of the vertical connecting bar 30 And can be fixed to the first installation space while being simultaneously constrained.

Next, the filter assembly 60 is installed in the second installation space partitioned on the other side of the partition space 40, and is configured to filter foreign substances contained in the external air flowing into the front surface of the total heat exchange member 50 .

At this time, the edge of the filter assembly 60 is held at the same time by the upper restraining end 11 of the upper plate 10, the lower restraining end 21 of the lower plate 20 and the side restraining end 31 of the vertical connecting bar 30 And can be fixed to the second installation space while being restrained.

Here, the filter assembly 60 may be composed of a filter member 61, a horizontal blocking plate 62, and a vertical blocking plate 63 as shown in FIG.

The filter member 61 is a filter member that separates foreign matter and is divided into a plurality of portions along the longitudinal direction of the filter member 61 and a filter member unit body 61a vertically installed between the filter member unit bodies 61a, And a filter support table 61b for supporting the filter 61b to prevent shaking and damage due to the inflow pressure of the outside air.

The filter supporter 61b may have a shape in which a pair of supporter divider members having a " " The filter support member 61b is adhered to the filter element unit body 61a by hot-melt so as to block a gap therebetween.

The filter unit unit 61a may be composed of a HEPA filter capable of filtering radioactive particulates, pathogens, bacteria, and ultrafine dust in correspondence with the installation site or purpose.

The horizontal blocking plate 62 and the vertical blocking plate 63 are disposed in close contact with the upper and lower surfaces of the filter member 61 so as to allow the outside air to flow through the filter member 61.

At this time, the horizontal blocking plate 62 and the vertical blocking plate 63 are adhered to the filter member 61 by hot-melt adhesive, so that the filter member 61 and the vertical blocking plate 62, 63 can be maintained.

The upper end and the lower end of the vertical blocking plate 63 may be provided with connecting ends 63a which are horizontally bent to connect with both sides of the horizontal blocking plate 62. [ At both ends of the vertical blocking plate 63, a support restricting end 63b bent toward the filter member 61 may be provided to support and restrain the filter member 61. [

On the other hand, the front and rear width of the filter member 61 is made relatively smaller than the front and rear widths of the horizontal blocking plate 62 and the vertical blocking plate 63, and the inflow pressure of the outside air is instantaneously reduced in front of the front surface of the filter member 61 A chamber space for enhancing the foreign substance removing performance can be provided.

The vertical partition 70 is installed on both sides between the total heat-exchanging member 50 and the filter combining body 60 between the upper plate 10 and the lower plate 20 to divide the compartment space 40 into the first And both sides of the front surface of the total heat-exchanging member 50 are supported while being divided into an installation space and a second installation space.

At this time, the vertical partition 70 is bent toward the total heat-exchanging member 50 at the both ends of the total heat-exchanging member 50 and at both sides of the total heat-exchanging member 50 to support both sides of the front heat- have.

The vertical partition 70 can be hot-melted and adhered to the total heat-exchanging member 50 so as not to be separated from the total heat-exchanging member 50 but to be closely contacted.

Lastly, the heat insulating member 80 is installed on the lower portion of the upper plate 10 and the upper portion of the lower plate 20, respectively, to block the external heat, thereby increasing the heat exchange efficiency between the external air and the internal air passing through the total heat- .

As described above, the filter-equipped total enthalpy heat exchanger according to the present invention effectively removes the foreign substances contained in the outside air, thereby improving indoor air quality and compatibility with the existing total heat exchanger. Can be strengthened.

The above-described embodiments are merely illustrative, and various modifications may be made by those skilled in the art without departing from the scope of the present invention.

Therefore, the true technical protection scope of the present invention should include not only the above embodiments but also various other modified embodiments according to the technical idea of the invention described in the following claims.

10: Top plate
11: upper restraining end
12: Handle
20: Lower plate
21: Lower restraint unit
30: Vertical connection bar
31: Side restraint unit
40: compartment space
50: Total heat exchange member
51: air passage flow path
52:
53: Passage passage passage
54:
60: filter combination
61: Filter element
61a: filter element unit
61b: filter support
62: Horizontal blocking plate
63: Vertical blocking plate
63a: connection terminal
63b: support restraining end
70: vertical compartment
80:
100: Total heat exchanger with built-in filter

Claims (5)

Top plate;
A lower plate disposed parallel to the lower portion of the upper plate;
A vertical connecting bar vertically connecting corners of the upper plate and the lower plate respectively;
Wherein the first installation space is divided into a first installation space on one side and a second installation space on the other side by partitioning the upper plate and the lower plate by the vertical connection bar, Wherein the second installation space has a rectangular space defined by a rectangular parallelepiped shape having a front surface area equal to the first installation space and a side surface area relatively smaller than the first installation space;
A total heat exchange member installed in the first installation space;
A filter combining body installed in the second installation space and being in close contact with one surface of the total heat exchange member;
A vertical partition formed between the upper plate and the lower plate and vertically disposed between the total heat-exchanging member and the filter assembly and having upper and lower ends restrained by the upper plate and the lower plate, respectively; And
And a heat insulating member installed at a lower portion of the upper plate and an upper portion of the lower plate to shield heat from the outside to increase the heat exchange efficiency between the outside air and the inside air passing through the total heat exchanging member,
The filter combination
A filter member, a horizontal blocking plate having one side surface and the other side surface, which are horizontally tightly adhered to the upper and lower surfaces of the filter member, respectively, are restrained by the upper and lower plates, A vertical stopper plate having upper and lower ends restrained by the upper and lower plates, respectively, a connection end provided at an upper end and a lower end of the vertical shutoff plate and horizontally bent to connect with both sides of the horizontal shutoff plate, And a support restricting end provided at both side ends of the filter member and bent toward the filter member to support and restrain the filter member,
The filter element
A filter member unit body vertically disposed between the filter member unit bodies and vertically installed at an upper end thereof and having upper and lower ends connected to the upper and lower plates, Wherein the pair of supporter divider members are constituted by a filter supporter adhered with hot melt in a state where they are in a flat state. delete delete delete delete

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