KR101973530B1 - Casing for ventilator and heat exchange type ventilator having the same - Google Patents

Abstract

The present invention relates to a casing for a ventilator and a heat recovery ventilator having the same, and more particularly, to a casing for a ventilator and a heat recovery ventilator having the same, the casing having two outer air ducts and two inner ducts connected to both sides thereof. A heating element in which four corners are respectively mounted inside the casing so as to be adjacent to four sides of the casing; Four corners of the heating element and four sides of the casing adjacent to the four corners are connected to each other to form four compartment spaces communicating with the two outside air ducts and the two inside ducts of the casing respectively Four partition plates; A filter member positioned parallel to one side of the heating element with a gap therebetween; Two channel forming plates connecting the both ends of the filter member and the sides of the casing adjacent to the both ends to form a channel, respectively; A plurality of flow path switching dampers provided respectively in two partition plates adjacent to and facing the two flow path forming plates; An air supply blower installed in the partition space facing the filter member to generate a flow; An exhaust blower installed in a compartment space adjacent to the compartment space in which the air supply blower is located and generating an air flow; And an opening / closing damper provided respectively in the outside air duct. According to the present invention, it is possible to selectively operate the normal mode, the ventilation mode, and the indoor air cleaning mode, and quickly discharges the indoor smoke in the ventilation mode.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a casing for a ventilator and a heat-

The present invention relates to a casing for a ventilator and a heat recovery ventilator having the same.

Generally, if a building is not well ventilated from the outside, it is necessary to ventilate the room because the room is not maintained in a comfortable condition due to the increase of CO2 and fine dust. Opening a window to ventilate causes a large loss of room heat and external fine dust and contaminants enter the room. An apparatus for solving such a problem is a ventilation system including a ventilator. The ventilator reduces indoor heat loss by exchanging heat between the outdoor air flowing into the indoor and the indoor air discharged to the outdoor.

[0002] A bypass duct is connected to the outside of a casing (composed of first and second cases) in which a heating element is mounted, in Korean Patent No. 10-1540034 (hereinafter referred to as prior art) And the like.

However, in the prior art, since the first and second cases constituting the casing are different in configuration and shape from each other, two molds are required to manufacture the casing, so that the manufacturing cost becomes high, and the bypass duct is installed outside the casing, And the installation is complicated.

An object of the present invention is to provide a casing for a ventilation apparatus and a heat recovery type ventilation apparatus provided with the casing for reducing the manufacturing cost as well as simplifying the assembly work by reducing the kinds of constituent parts.

Another object of the present invention is to provide a ventilation device casing and a heat recovery ventilation device having the ventilation device, which can selectively operate the normal mode, the ventilation mode, and the indoor air cleaning mode, as well as quickly discharging the indoor smoke in the ventilation mode .

It is still another object of the present invention to provide a casing for a ventilator and a heat recovery ventilator having the same, which can manufacture various products having different functions from one casing.

In order to accomplish the object of the present invention, there is provided a refrigerator comprising: a lower case; and an upper case coupled to the lower case to form an inner space, wherein the lower case is formed of a rectangular plate, Wherein the heating element insertion hole is formed so that two adjacent corners of the heating element insertion hole are adjacent to two mutually adjoining sides of the rectangular plate and a rectangular elongated hole is formed in the rectangular plate A base plate portion having one side communicating with one of the heater element insertion holes; And four rectangular side plate portions which are bent at a predetermined height on the four sides of the base plate portion and formed with openings and half openings at two ends facing each other and formed with half openings and blocking protrusions at two other ends facing each other, ; Four element supporting portions extending vertically in the base plate portion so as to be respectively located at four corners of the heating element insertion hole to support four corners of the heating element; Two filter supports extended in the vertical direction in the base plate portion so as to respectively be located at two corner rims of the extension hole, and both end portions of the filter member are inserted respectively; Four partition plate portions connecting the four element support portions and the four rectangular side plate portions adjacent to the four element support portions respectively to form four compartment spaces; And two flow path forming plate portions connecting the two filter supporting portions and two rectangular side surface plates adjacent to the two filter supporting portions, respectively, wherein the upper case includes a base plate, rectangular side plates, Wherein the base plate portion, the rectangular side plate portions, the element supporting portions, the filter supporting portions, the partition plate portions, and the flow path forming plate portions of the upper case include the support portions, the filter supports, the partition plate portions, The lower case and the upper case are provided with a heater element insertion hole and an extension hole, respectively, in the same manner as the base plate portion, the square side plate portions, the element supporting portions, the filter supporting portions, the partition plate portions, And the cover plate is fastened by the fastening means.

A blocking plate is slidably inserted vertically between one filter support portion of the lower case and the filter support portion adjacent to the one filter support portion and the other filter support portion of the upper case and the other filter support portion of the upper case, It is preferable that a blocking plate is inserted between the element supporting portions adjacent to the filter supporting portion so as to be slidable up and down.

The connection holes formed by the four square side plate portions of the lower case, the half openings, the blocking protrusions, the openings formed in the four rectangular side plate portions of the upper case, the half openings, It is preferable that the sealing plates are detachably coupled to each other to block the connection holes.

A casing having a hexahedral shape and having two outer air ducts connected to one side thereof and two side air ducts corresponding to the two outer air ducts on the other side facing the one side; A heating element which is formed in a hexahedron shape and in which four corners are respectively mounted inside the casing so as to be adjacent to four sides of the casing; Four corners of the heating element and four sides of the casing adjacent to the four corners are connected to each other to form four compartment spaces communicating with the two outside air ducts and the two inside ducts of the casing respectively Four partition plates; An air supply blower installed in one compartment space communicating with one of the two air intake ducts to generate a flow; An exhaust blower communicating with one of the two outer air ducts, the exhaust air blower being installed in a compartment space adjacent to the compartment space in which the air blower is located; A filter member installed in a partition space in which the air supply blower is located and installed so as to be spaced apart from one surface of the heat transfer element in parallel; And a side surface of a casing adjacent to both ends of the filter member, and a side surface of the heat transfer element facing one surface of the filter member, Two flow path forming plates forming auxiliary flow paths together with partition plates connected to both ends of the side surface, respectively; Flow path switching dampers respectively installed in two partition plates facing adjacent to the two flow path forming plates to allow air to pass therethrough or block the passage of air; And an opening / closing damper provided in each of the outside air ducts.

The outside air duct communicating with the exhaust blower out of the two outside air ducts is referred to as an outflow side outside air duct and the other outside air duct is referred to as an inlet side outside air duct when the greenhouse inflow preventing device is detachably coupled to the inflow side outside air duct .

The filter member preferably includes a heparin filter.

The ventilation device casing of the present invention is characterized in that the lower case and the upper case include a base plate portion, rectangular side plate portions, element supporting portions, filter supporting portions, partition plate portions and flow path forming plate portions, So that it is possible to manufacture the lower case and the upper case with a single mold, so that the manufacture is convenient and the manufacturing cost is reduced.

In addition, since the casing for a ventilator of the present invention selectively mounts the components in one casing, it is possible to manufacture two types of heat recovery ventilators of different performance, thereby reducing the kinds of parts, This becomes easy.

In addition, the heat recovery type ventilator of the present invention includes a general mode in which indoor air and outdoor air are ventilated through a heating element, a bypass mode in which outdoor air is filtered into the indoor space without passing through a heating element, And the indoor air purifying mode for purifying only indoor air can be selectively operated. Particularly, the flow path forming plates and the filter member are provided in the casing, and the side surfaces of the third and fourth partition plates and the heat transfer element together with the flow path forming plates and the filter member form the auxiliary flow path, And the bypass structure is not provided outside the casing, thereby simplifying the structure. In addition, the operation of the indoor air purifying mode becomes possible, which quickly cleans the room air.

In addition, since the outdoor air is filtered through the filter member or the indoor air is filtered during the operation in the bypass mode and the indoor air cleaning mode, the present invention is compact.

1 is a perspective view showing an embodiment of a casing for a ventilator according to the present invention,
FIG. 2 is a perspective view explaining an embodiment of a casing for a ventilator according to the present invention,
3 is a plan view of a lower case constituting an embodiment of a casing for a ventilator according to the present invention,
4 is a bottom view of a lower case constituting an embodiment of a casing for a ventilator according to the present invention,
5 is a plan view of an upper case constituting an embodiment of a casing for a ventilator according to the present invention,
6 is a bottom view of an upper case constituting an embodiment of a casing for a ventilator according to the present invention,
7 is a plan sectional view showing a first embodiment of the heat recovery type ventilator according to the present invention,
8 is a plan sectional view showing a second embodiment of the heat recovery type ventilator according to the present invention,
9 is a plan sectional view showing a normal mode operating state of the first embodiment of the heat recovery type ventilator according to the present invention,
FIG. 10 is a plan sectional view showing a bypass mode operation state of the first embodiment of the heat recovery type ventilator according to the present invention, FIG.
11 is a plan sectional view showing the ventilation mode operating state of the first embodiment of the heat recovery type ventilator according to the present invention,
FIG. 12 is a plan sectional view showing the indoor air purifying mode operation state of the first embodiment of the heat recovery type ventilator according to the present invention. FIG.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of a casing for a ventilator and a heat recovery ventilator having the same according to the present invention will be described with reference to the accompanying drawings.

1 is a perspective view explaining an embodiment of a casing for a ventilator according to the present invention. 2 is a perspective view explaining an embodiment of a casing for a ventilator according to the present invention.

1 and 2, an embodiment of a casing for a ventilator according to the present invention includes a lower case 10, an upper case 20 coupled to the lower case 10 to form an inner space, .

The lower case 10 includes the base plate 11, the rectangular side plates 12, the element supports 13, the filter supports 14, the partition plate 15, And a flow path forming plate portion 16.

The base plate portion 11 is formed of a rectangular plate, and a rectangular hole-shaped heat transfer element insertion hole H1 is formed in the rectangular plate. Two adjacent corners of the heat transfer element insertion hole H1 are formed in a rectangular plate A heater element insertion hole H1 is formed adjacent to two adjoining sides and a rectangular elongated hole H2 is formed in a rectangular plate and one side is formed so as to communicate with one side of the heater element insertion hole H1 . As the two corners of the heater element insertion hole H1 are adjacent to the two sides of the rectangular plate, the other two corners of the heater element insertion hole H1 are located at a distance from the other two sides of the rectangular plate, And an extending hole H2 is formed toward the other two corners. The size of the extension hole H2 is smaller than the size of the heater element insertion hole H1.

The rectangular side plate portions 12 are bent and elongated at respective heights at four sides of the base plate portion 11, and the side surfaces of the four rectangular side plate portions 12 are connected to each other. Openings G1 and G2 are formed at the ends of the two rectangular side plate portions 12 facing each other and a half opening G2 and a blocking opening G2 are formed at the ends of the other two rectangular side plate portions 12 facing each other. (G3) is formed. The four rectangular side plate portions 12 have the same height. One communicating hole is formed when the semi-opening G2 and the semi-opening G2 are connected, and a communicating hole is formed when the opening G1 and the blocking sound G3 are connected.

The element supporting portions 13 extend in the vertical direction in the base plate portion 11 to support the four corners of the heat transfer element so as to be respectively located at the four corners of the heater element insertion hole H1. The height of the element supporting portions 13 is preferably equal to the height of the rectangular side surface plate 12, and the height of the four element supporting portions 13 is equal to each other. The heating element has a hexahedral shape. The element supporting portion 13 is provided with a groove in the longitudinal direction so as to support the edge of the heating element.

The filter support portions 14 extend in the vertical direction in the base plate portion 11 so as to be located at two corner edges of the extension hole H2, respectively, so that both end portions of the filter member are inserted. That is, there are two filter supports 14, and the two filter supports 14 preferably have the same height. The filter support portion 14 is provided with a recessed groove in the longitudinal direction so that one side of the filter member is inserted in the vertical direction.

The partition plate portions 15 connect the four element support portions 13 and the four rectangular side plate portions 12 adjacent to the four element support portions 13 respectively to form four compartment spaces. It is preferable that the four partition plate portions 15 are vertically connected to the square side plate portions 12 connected thereto. The height of the partition plate portion 15 is preferably equal to the height of the rectangular side plate portion 12. The partition plate portion 15 is located between the half opening G2 and the opening G1 of the rectangular side plate portion 12 or between the half opening G2 and the blocking protrusion G3.

The flow path forming plate portions 16 are formed of two pieces and one flow path forming plate portion 16 connects one filter supporting portion 14 and the rectangular side surface plate portion 12 adjacent to the one filter supporting portion 14, The one flow path forming plate portion 16 connects the other filter supporting portion 14 and the rectangular side surface plate portion 12 adjacent to the other filter supporting portion 14. [

It is preferable that the two flow path forming plate portions 16 are vertically connected to the square side surface plate portions 12 connected thereto. The height of the flow path forming plate portion 16 is preferably equal to the height of the rectangular side surface plate portion 12. [ The flow path forming plate portion 16 is positioned between the half opening G2 and the opening G1 of the square side plate portion 12 or between the half opening G2 and the blocking protrusion G3.

5 and 6, the upper case 20 includes a base plate portion 21, rectangular side plate portions 22, element supporting portions 23, filter supporting portions 24, partition plate portions 25, And a flow path forming plate portion (26). The base plate portion 21, the square side plate portions 22, the element supporting portions 23, the filter supporting portions 24, the partition plate portions 25 and the flow path forming plate portions 26 of the upper case 20 And the shape of the base plate portion 11, the rectangular side plate portions 12, the element supporting portions 13, the filter supporting portions 14, the partition plate portions 15, the flow path forming plate portions 16, The size is the same. Therefore, detailed description is omitted.

And the cover plate 30 covering the heating element insertion hole H1 and the extending hole H2 is fastened to the lower case 10 by fastening means. The cover plate (30) is located on the outer surface of the lower case (10). As an example of the fastening means, the fastening means comprises a plurality of screws.

A cover plate 30 covering the heating element insertion hole H1 and the extending hole H2 is fastened to the upper case 20 by fastening means. The cover plate (30) is located on the outer surface of the upper case (20). As an example of the fastening means, the fastening means comprises a plurality of screws.

A shielding plate 40 is inserted between the lower case 10 and one filter support 14 of the upper case 20 and the element support 13 adjacent to the filter support 14 so as to be slidable up and down . The upper and lower filter supports 14 of the upper case 20 and the filter support 14 adjacent to the other filter support 14 are slidable vertically between the lower support 10 and the upper support 20, ) Is inserted. The blocking plate 40 is preferably a rectangular having a uniform thickness.

The half openings G2 and the blocking protrusions G3 formed in the four rectangular side wall plates 12 of the lower case in a state where the lower case and the upper case are engaged with each other, The semicircular openings G2 and the blocking protrusions G3 formed in the four rectangular side plate portions 22 of the sealing plate 50 form a connecting hole and each of the connecting holes is provided with a sealing plate 50, Is detachably blocked. The opening G1 and the blocking protrusion G3 form one connection hole and the half opening G2 and the half opening G2 form one connection hole.

The lower case (10) and the upper case (20) are fastened by fastening means. The fastening means can be implemented in various ways.

7 is a plan view showing a first embodiment of a heat recovery type ventilator according to the present invention.

7, the first embodiment of the heat recovery type ventilator according to the present invention includes a casing 100, a heat transfer element 200, partition plates P, a filter member 300, Flow switching dampers 410 and 420, an air supply blower 500, an exhaust blower 600, and an opening and closing damper 700.

The casing 100 is in the form of a hexahedron having an internal space, and two outside air ducts (AD) are connected to one side face and two inside air ducts (BD) are connected to the other side face facing the one side face. The casing (100) includes a lower case (10) and an upper case (20) coupled to the lower case (10). The lower case 10 and the upper case 20 are preferably formed in the same size and shape.

The heating element 200 is formed in a hexahedral shape as a whole, and heat exchange is performed between room air and outdoor air while indoor air flows in one direction and outdoor air flows in a direction crossing the direction in which indoor air flows. The heating element 200 is mounted inside the casing 100 so that four corners thereof are adjacent to four sides of the casing 100, respectively.

The partition plates P are formed of four pieces and the four partition plates P connect the four sides of the heating element 200 and the four sides of the casing 100 adjacent to the four corners thereof respectively Four compartment spaces communicating with the two outside air ducts (AD) and the two inside air ducts (BD) of the casing (100) are formed. The partition plate P is vertically connected to the side surface. The first, second, third, and fourth partition spaces C1, C2, C3, and C4 in the clockwise direction from the partition space located on the upper right side in the drawing. The partition plate P positioned between the first and second partition spaces C1 and C2 is divided into a first partition plate P1 and a partition plate located between the second and third partition spaces C2 and C3. The partition plate P located between the second partition plate P2 and the third and fourth partition spaces C3 and C4 is referred to as a third partition plate P3 and the fourth and first partition spaces C4 ) C1 is referred to as a fourth partition plate P4. It is preferable that element supporting bars 101 each having a horizontal cross section in the shape of a translator are provided at each end of the partition plates P so that the element supporting bars 101 support the corner portions of the heat transfer elements 200.

The filter member 300 is disposed in parallel with one side of the heating element 200 at an interval. The filter member 300 includes a HEPA filter. As an example of the filter member 300, the filter member 300 includes a filter medium folded in a zigzag form and a frame surrounding the filter medium. The size of the filter member 300 preferably has a size corresponding to the size of one side of the heat transfer element 200. The filter member 300 is located in the fourth compartment space C4.

The flow path forming plates F are formed of two pieces and the two flow path forming plates F are connected to both ends of the filter member 300 and side surfaces of the casing 100 adjacent to both ends thereof to form a flow path. It is preferable that the flow path forming plate F is vertically connected to the side surface of the casing 100. At both ends of the flow path forming plates F, a filter support bar 102 having a diaphragm-like cross section is provided so that both end portions of the filter member 300 are inserted and coupled to the two filter support bars 102 Do. The filter member 300 and the two flow path forming plates F are positioned in the fourth compartment space C4 so as to form the fourth partition plate P3 and the fourth partition plate P4 together with one surface of the heat transfer element 200, And the auxiliary flow path T is formed in the partition space C4.

The two flow path switching dampers 410 and 420 include two flow path switching dampers 410 and 420 and two flow path switching dampers 410 and 420. The two flow path switching dampers 410 and 420 include two partition plates P, Respectively. That is, one flow path switching damper 410 is provided in the third partition plate P3, and another flow path switching damper 420 is provided in the fourth partition plate P4. The flow path switching damper 410 provided in the third partition plate P3 is referred to as a first flow path switching damper 410 and the flow path switching damper 420 provided in the fourth partition plate P4 is referred to as a second flow path switching damper 410. [ (420). The air supply blower 500 is installed in a compartment space where the filter member 300 faces to generate an air supply flow. That is, the air supply blower 500 is mounted to be located in the fourth compartment space C4.

The exhaust blower 600 is installed in a compartment space adjacent to the compartment space in which the air blower 500 is located and in which the outside air duct AD is located to generate an exhaust flow. That is, the exhaust blower 600 is mounted to be located in the first compartment space C1.

The opening and closing damper 700 is mounted on the two outside air ducts AD to open and close the outside air duct AD. The outside air duct communicating with the first compartment space C1 among the two outside air ducts AD is defined as the outflow side outside air duct AD1 and the outside air duct AD communicated with the second compartment space C2 is defined as the inflow- It is preferable that the dust adhering device 800 is detachably coupled to the inlet side outside air duct AD2.

On the other hand, in the second embodiment of the heat recovery type ventilator according to the present invention, as shown in Fig. 8, in the first embodiment, the flow path switching damper (first and second partition plates P3 and P4) 410) 420 is eliminated and the blocking plate 40 is coupled between one filter supporting bar 102 and the filter supporting bar 102 and the adjacent element supporting bar 101 and the other filter supporting bar 102 102 and the other element support bar 101 adjacent to the other filter support bar 102. As shown in Fig.

Hereinafter, the operation and effects of the casing for a ventilator according to the present invention and the heat recovery ventilator having the same will be described.

The heat recovery ventilator according to the present invention is installed in a building, the ventilation ducts BD communicate with the indoor side of the building, and the outdoor air ducts AD communicate with the outdoor side of the building.

In this state, there are a general mode in which indoor air and outdoor air are ventilated through the heating element 200, a bypass mode in which outdoor air is introduced into the room without passing through a heating element in spring or autumn, And an indoor air purifying mode for purifying indoor air only.

First, in the first embodiment of the heat recovery type ventilator, when operating in the normal mode, the opening / closing damper 700 are opened and the first and second flow path switching dampers 410, 420 are closed, respectively, the exhaust blower 600 and the air supply blower 500 are operated. The outside air flows from the inlet side outside air duct AD to the second compartment space C2 to the heat transfer element 200 to the filter member 300 through the operation of the exhaust blower 600 and the air blower 500, (C4) - air supply blower (500) - air supply duct (BD). At the same time, the indoor air flows through the exhaust duct BD, the third compartment space C3, the heating element 200, the first compartment space C1, the exhaust blower 600, and the outflow-side outdoor air duct AD1 And is discharged outdoors. At this time, the outdoor air and the indoor air exchange heat with each other while passing through the heat transfer element 200, and the outdoor air having heat exchange is supplied to the room, thereby reducing the heat loss.

10, the opening / closing damper 700 of the inlet-side outside-air duct AD2 is closed, the opening / closing damper 700 of the outlet-side outside-air duct AD1 is opened, The damper 410 is closed and the second flow path switching damper 420 is opened to operate only the air supply blower 500 without operating the exhaust blower 600. [ The outdoor air is blown out by the operation of the air supply blower 500 through the outlet side outside air duct AD1 -the exhaust blower 600 -the second flow path switching damper 420 -the auxiliary flow path T -filter member 300- And is introduced into the compartment through the compartment space C1, the air supply blower 500, and the ventilation duct BD. As described above, the outdoor air is filtered through the filter member 300 without passing through the heating element 200, and flows into the room to filter the contaminants mixed in the outdoor air, thereby reducing the inflow resistance of the air, Respectively. Therefore, the cooling effect can be obtained without turning on the air conditioner.

Closing damper 700 of the outlet-side outside-air duct AD1 is opened and the opening-closing damper 700 of the inlet-side outside-air duct AD2 is closed as shown in Fig. 11, When the switching dampers 410 and 420 are opened, only the exhaust blower 600 is operated without operating the air supply fan 500. The smoke in the room is introduced into the third compartment space (C3) through the two indoor ducts (BD) by the operation of the exhaust blower (600), and the smoke introduced into the third compartment space (C3) The air is exhausted through the damper 410, the auxiliary passage T, the second passage switching damper 420, the first compartment space C1, the exhaust air blower 600, and the outlet-side outside air duct AD2, A part of the smoke flowing into the space C3 flows into the first compartment space C1 through the heating element 200. [ At the same time, the smoke flowing into the fourth compartment space C4 through the inner duct BD connected to the fourth compartment space C4 flows through the filter member 300, the auxiliary flow path T and the second flow path switching damper 420, The first compartment space C1, the exhaust blower 600, and the outlet-side outside air duct AD1. As described above, since the indoor smoke is introduced through the two indoor ducts BD and discharged to the outside through the auxiliary flow path T and the exhaust blower 600 and the indoor duct BD communicated with the third partition space C3, A part of the introduced indoor smoke flows through the heating element 200 and is discharged to the outside through the exhaust blower 600, so that the indoor smoke is rapidly discharged to the outside.

Closing damper 700 of the inlet-side outside-air duct AD2 and the opening-closing damper 700 of the outlet-side outside-air duct AD1 are closed and the second flow path switching The damper 420 is closed, the first flow path switching damper 410 is opened, and only the air supply blower 500 is operated without operating the exhaust air blower 600. The operation of the air supply blower 500 causes the room air to flow through the indoor air duct BD connected to the third compartment space C3 and the third compartment space C3 to the first flow path switching damper 410 to the auxiliary flow path T) -filter member 300, the fourth compartment space C4, the air supply blower 500 and the fourth compartment space C4 through the indoor air duct BD, Contaminants mixed with air are filtered by the filter member 300 to purify the room air.

The second embodiment of the heat recovery type ventilator according to the present invention operates only in the normal mode of the first embodiment. The second embodiment differs from the first embodiment in that outside air is blown from the inflow side outside air duct AD2 to the second compartment space C2 to the heating element 200 and the filter member 300 by the operation of the exhaust blower 600 and the air blower 500 The fourth compartment space C4, the air supply blower 500, and the ventilation duct BD. At the same time, the indoor air flows through the exhaust duct BD, the third compartment space C3, the heating element 200, the first compartment space C1, the exhaust blower 600, and the outflow-side outdoor air duct AD1 And is discharged outdoors. At this time, the outdoor air and the indoor air exchange heat with each other while passing through the heat transfer element 200, and the outdoor air having heat exchange is supplied to the room, thereby reducing the heat loss.

Since the lower case 10 and the upper case 20 are formed in the same shape and size as the ventilation device casing according to the present invention, the lower case 10 and the upper case 20 can be manufactured from one mold. In addition, since the cover plate 30 is provided on the lower case 10 and the upper case 20 of the casing, when they are installed symmetrically at the time of installation (first and second numbers are symmetrical in the case of an apartment) Installation can be done without turning over the two products.

The casing 100 in which the lower case 10 and the upper case 20 are combined becomes the casing 100 of the first and second embodiments of the heat recovery type ventilator. The flow path forming plate portion 16 of the lower case 10 and the flow path forming plate portion 26 of the upper case 20 are connected to each other in a state where the lower case 10 and the upper case 20 of the ventilation device casing 100 are engaged, Is a flow path forming plate F of the first embodiment of the heat recovery type ventilating apparatus and the lower case 10 and the upper case 20 of the ventilation device casing 100 are engaged with each other, The partition plate portion 25 of the plate portion 15 and the upper case 20 becomes the partition plate P of the heat recovery type ventilator of the first embodiment. Similarly, the element supporting portions 13 and 23 and the filter supporting portions 14 and 24 become the element supporting bar 101 and the filter supporting bar 102, respectively.

An air blower 500, an exhaust blower 600 and a heating element 200 are mounted on a casing 100 in which a lower case 10 and an upper case 20 are coupled to each other, And the opening and closing damper 700 is mounted on the outside air duct AD and the two connecting holes formed on the other side surface of the casing 100 are connected to the outside air duct AD, The ventilation ducts BD are connected to each other to form the second embodiment of the heat recovery type ventilator of the present invention. An air supply blower 500, an exhaust blower 600 and a heating element 200 are mounted on a casing 100 in which a lower case 10 and an upper case 20 are coupled to each other. Closing damper 700 is attached to the outside air duct AD and the filter member 300 is coupled to the filter supporting bar 102 and the flow path forming plate F is connected to the filter supporting bar 102. [ When the flow path switching damper 400 is coupled to the adjacent partition plate P, the first embodiment of the heat recovery type ventilator of the present invention becomes a first embodiment.

As described above, in the ventilation device casing of the present invention, the lower case 10 and the upper case 20 are fixed to the base plate portions 11, 21, the rectangular side plate portions 12, 22, the element support portion 13 The filter support portions 14 and 24, the partition plate portions 15 and 25 and the flow path forming plate portions 16 and 26 and the components are formed so as to have the same size and shape, It is possible to manufacture the lower case 10 and the upper case 20, which is convenient to manufacture and reduces the manufacturing cost.

In addition, since the casing for a ventilator of the present invention selectively mounts the components in one casing 100, it is possible to manufacture two types of heat recovery ventilators of different performance, so that the kinds of parts are reduced, And assembly work becomes easier.

In addition, the heat recovery type ventilator of the present invention has a general mode in which indoor air and outdoor air are ventilated through the heating element 200, a bypass mode in which outdoor air is filtered into the room without passing through the heating element 200, , It is possible to selectively operate the ventilation mode for removing smoke from the room and the indoor air cleaning mode for purifying only indoor air. Particularly when the flow path forming plates F and the filter member 300 are provided in the casing 100 and the third and fourth partition plates P3 and the filter member 300 together with the flow path forming plates F and the filter member 300, One side of the heating element P4 and the heating element 200 forms the auxiliary flow path T so that the indoor smoke can be quickly discharged to the outside in the ventilation mode and the bypass structure is installed outside the casing 100 The configuration becomes compact. In addition, the operation of the indoor air purifying mode becomes possible, which quickly cleans the room air.

In addition, since the outdoor air is filtered through one filter member 300 or the indoor air is filtered during operation in the bypass mode and the indoor air cleaning mode, the present invention becomes compact.

Further, according to the present invention, since the smoke in the room flows through the two air ducts in the ventilation mode and is discharged to the outside through the auxiliary flow path and the exhaust blower, the indoor smoke is rapidly discharged to the outside, do.

10; A lower case 20; The upper case
100; Casing 200; Heating element
P; Partition plates 300; The filter member
F; Flow forming plates 400; The flow-switching dampers
500; Air supply blower 600; Exhaust blower
700; Opening / closing damper

Claims (7)

A casing having a hexahedral shape and having two outside air ducts connected to one side thereof and two side air ducts corresponding to the two outside air ducts connected to the other side facing the one side;
A heating element which is formed in a hexahedron shape and in which four corners are respectively mounted inside the casing so as to be adjacent to four sides of the casing;
Four corners of the heating element and four sides of the casing adjacent to the four corners are connected to each other to form four compartment spaces communicating with the two outside air ducts and the two inside ducts of the casing respectively Four partition plates;
An air supply blower installed in one compartment space communicating with one of the two air intake ducts to generate a flow;
An exhaust blower communicating with one of the two outer air ducts, the exhaust air blower being installed in a compartment space adjacent to the compartment space in which the air blower is located;
A filter member installed in a partition space in which the air supply blower is located, the filter member being disposed in parallel to one side of the heat transfer element with an interval therebetween;
And a side surface of a casing adjacent to both ends of the filter member, and a side surface of the heat transfer element facing one surface of the filter member, Two flow path forming plates forming auxiliary flow paths together with partition plates connected to both ends of the side surface, respectively;
And flow path switching dampers provided respectively in two partition plates facing adjacent to the two flow path forming plates to allow air to pass therethrough or to prevent passage of air therethrough,
The casing includes:
And an upper case coupled to the lower case to form an inner space,
The lower case includes:
Wherein a rectangular heating element insertion hole is formed in a rectangular plate, two adjacent corners of the heating element insertion hole are formed adjacent to two mutually adjacent sides of the rectangular plate, A base plate portion having a rectangular elongated hole formed in the rectangular plate and having one side communicating with one of the heater element insertion holes;
And four rectangular side plate portions which are bent at a predetermined height on the four sides of the base plate portion and formed with openings and half openings at two ends facing each other and formed with half openings and blocking protrusions at two other ends facing each other, ;
Four element supporting portions extending vertically in the base plate portion so as to be respectively located at four corners of the heating element insertion hole to support four corners of the heating element;
Two filter supports extended in the vertical direction in the base plate portion so as to be respectively located at two corners of the extended hole, and both end portions of the filter member are inserted respectively;
Four partition plate portions connecting the four element support portions and the four rectangular side plate portions adjacent to the four element support portions respectively to form four compartment spaces;
And two flow path forming plate portions connecting the two filter supporting portions and two rectangular side surface plates adjacent to the two filter supporting portions respectively,
The upper case includes a base plate portion, rectangular side plate portions, element supporting portions, filter supporting portions, partition plate portions, and flow path forming plate portions, and the base plate portion, the square side plate portions, the element supporting portions, The partition plate portions and the flow path forming plate portions are the same in shape and size as the base plate portion, the square side plate portions, the element supporting portions, the filter supporting portions, the partition plate portions, and the flow path forming plate portions of the lower case,
Wherein the lower case and the upper case are fastened to each other by fastening means with a heating element insertion hole and a cover plate covering the extension hole. The filter unit according to claim 1, wherein a blocking plate is slidably inserted vertically between one filter support unit of the lower case and the filter support unit adjacent to the filter support unit, Wherein the shield plate is slidably inserted up and down between the support portion and the element support portion adjacent to the other filter support portion. [2] The apparatus according to claim 1, further comprising: openings formed in the four rectangular side plate portions of the lower case, half openings, blocking protrusions, openings formed in four square side plate portions of the upper case, half openings, Wherein a sealing plate is detachably coupled to each of the connecting holes formed by the connecting member and the connecting hole to block the connecting hole. A casing having a hexahedral shape and having two outside air ducts connected to one side thereof and two side air ducts corresponding to the two outside air ducts connected to the other side facing the one side;
A heating element which is formed in a hexahedron shape and in which four corners are respectively mounted inside the casing so as to be adjacent to four sides of the casing;
Four corners of the heating element and four sides of the casing adjacent to the four corners are connected to each other to form four compartment spaces communicating with the two outside air ducts and the two inside ducts of the casing respectively Four partition plates;
An air supply blower installed in one compartment space communicating with one of the two air intake ducts to generate a flow;
An exhaust blower communicating with one of the two outer air ducts, the exhaust air blower being installed in a compartment space adjacent to the compartment space in which the air blower is located;
A filter member installed in a partition space in which the air supply blower is located and installed so as to be spaced apart from one surface of the heat transfer element in parallel;
And a side surface of a casing adjacent to both ends of the filter member, and a side surface of the heat transfer element facing one surface of the filter member, Two flow path forming plates forming auxiliary flow paths together with partition plates connected to both ends of the side surface, respectively;
Flow path switching dampers respectively installed in two partition plates facing adjacent to the two flow path forming plates to allow air to pass therethrough or block the passage of air;
And an opening / closing damper provided in each of the outside air ducts. The air conditioner according to claim 4, wherein, when the outside air duct communicating with the exhaust blower of the two outside air ducts is referred to as an outflow side outside air duct and the other outside air duct is referred to as an inlet side outside air duct, Is detachably coupled to the heat exchanger. The heat recovery type ventilator according to claim 4, wherein the filter member includes a HEPA filter. The air conditioner according to claim 4, further comprising: a general mode for ventilating indoor air and outdoor air through a heating element; a bypass mode for filtering outdoor air into indoor air without passing through a heating element; Wherein the outdoor air and the indoor air are selectively filtered by the filter member during operation in the bypass mode and the indoor air cleaning mode, .

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