KR101105995B1 - Heat Recovering Ventilation Apparatus - Google Patents

Abstract

The present invention is a housing formed with an intake flow path for guiding outdoor air to the interior, and an exhaust flow path for guiding indoor air to the outside, and an electrothermal heat exchanger installed in the housing to allow heat to pass through the intake flow path and air passing through the exhaust flow path to each other. Provided is a heat recovery ventilator formed on the exchange unit and the housing and bypassing a portion of the air passing through the exhaust passage to the intake passage to guide the air to pass through the total heat exchange unit.

Therefore, the efficiency of the total heat exchange unit installed in the heat recovery ventilator can be improved, and the life can be extended.

Description

Heat Recovery Ventilation Apparatus

The present invention relates to a heat recovery ventilator, and more particularly to a heat recovery ventilator that can improve the efficiency of the total heat exchange unit in which the flowing air is heat exchanged with each other.

In general, the ventilation device is a component of the air conditioning system of the building, and is a device for ventilating the room by supplying the outside air while maintaining the indoor air temperature and exhausting the indoor air, especially in a small space where many people stay. .

The inside of the ventilation device is provided with a heat exchange unit for heat exchange between the outdoor air sucked into the indoor air and the indoor air discharged to the outside, the heat exchange unit is a special heat transfer paper (Pulp) plate and the core core plate as a heat exchange element It is formed by using, and the heat contained in the ventilated air passes between the heat transfer board and the corrugated board, and heats the heat exchange unit located between the outside and the ventilation and transfers the heat of the heat transfer board to the air supply.

However, the conventional heat exchange unit has a problem that the heating efficiency of the heat exchange unit, that is, the efficiency of the heat exchange unit is lowered because of the large temperature difference between the outside air and the ventilation passing through the heat exchange unit.

It is an object of the present invention to provide a heat recovery ventilator that can improve the efficiency of the total heat exchange unit.

The present invention provides an air intake flow path for guiding outdoor air to an interior, and a housing including an exhaust path for guiding indoor air to the outside; An electrothermal heat exchange unit installed in the housing and configured to exchange heat between the air passing through the intake passage and the air passing through the exhaust passage; And a bypass flow path formed in the housing and bypassing a portion of the air passing through the exhaust flow path to the intake flow path, wherein the bypass flow path guides the air to pass through the electrothermal heat exchange unit. One or more fan motors which are formed in the pass passage and adjust the flow amount of the air passing through the bypass passage, and the locking member protruding to the inner wall surface of the front, rear and both sides of the rectangular box-shaped housing And, a heat recovery ventilator including a fitting member formed with a fitting groove which is detachably coupled to the four corners where the front, rear and both sides of the heat exchange unit of the rectangular box shape and the end of the engaging member is fitted to the outside Provide a device.

The bypass passage may include an arc-shaped turning vane provided at an inlet of the bypass passage to guide a portion of the air passing through the exhaust passage to the bypass passage.

In addition, the present invention may be provided with an element protection filter for protecting the heat exchange element of the heat exchange unit, the element protection filter on the outside of the heat exchange unit, the element protection filter is provided on the outside of the heat exchange unit and the heat exchange unit A medium filter for filtering dust or other foreign substances contained in the air introduced into the air, and a filter provided in the outside of the medium filter or the total heat exchange unit to filter the air introduced into the medium filter or the total heat exchange unit and the medium filter Or a prefilter for improving the life of the total heat exchange unit. In addition, the housing may be provided with a UV-lamp for sterilizing the air passing through.

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The heat recovery ventilator according to the present invention has the effect of improving the efficiency and extending the life of the total heat exchange unit installed in the heat recovery ventilator.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a plan view showing the internal structure of the heat recovery ventilator according to an embodiment of the present invention, Figure 2 is a view according to the I-I diagram of the bypass passage shown in FIG.

First, referring to FIG. 1, a heat recovery ventilator according to a preferred embodiment of the present invention includes a housing 100 having an intake passage 110 and an exhaust passage 120, and a total heat exchange unit installed in the housing 100. And a bypass passage 300 formed in the 200 and the housing 100.

The housing 100 has a rectangular box shape, and an intake passage 110 for guiding the outdoor air to the interior and an exhaust passage 120 for guiding the indoor air to the outdoors are formed. Here, the air passing through the intake passage 110 is called outside air, and the air passing through the exhaust passage 120 is called ventilation.

The intake flow passage 110 and the exhaust flow passage 120 are formed to penetrate from one side to the other side of the housing 100, respectively, and the intake flow passage 110 has an intake inlet 112 for sucking outdoor air. It is formed on one side of the left side, the intake outlet 114 for discharging the outdoor air introduced through the intake inlet 112 into the room is formed on the other right side of the housing (100). Similarly, the exhaust passage 120 has an exhaust inlet 122 for sucking indoor air at the other left side of the housing 100 and an exhaust outlet for discharging indoor air introduced through the exhaust inlet 122 to the outside ( 124 is formed at one right side of the housing 100. Therefore, the housing 100 is formed in a structure in which air flowing through the intake passage 110 and the exhaust passage 120 flows cross each other in the housing 100.

Here, each of the exhaust passage 120 and the intake passage 110 may be provided with blowing fans 142 and 144 for forcibly sending the flow rate of the flowing air, respectively, and the blowing fans 142 and 144 are blown motors. It may be provided at the intake outlet 114 side of the intake passage 110 and the exhaust outlet 124 side of the exhaust passage 120 including 142a and 144a, respectively.

The heat exchange unit 200 is a rectangular box shape so that the air passing through the intake passage 110 and the air passing through the exhaust passage 120 pass through four side surfaces of the heat exchange unit 200. It is installed inside the housing 100 so that the edge portion is located on the inner side of the housing 100, the air passing through the intake passage 110 flows while passing from the front to the rear of the heat exchange unit 200 The air passing through the exhaust passage 120 flows from one side of the total heat exchange unit 200 to the other side.

Here, the electrothermal heat exchange unit 200 is simple in structure and is supplied with energy of heat or cold air included in the ventilation passage through the exhaust passage 120 to transfer the energy to the outside air passing through the intake passage 110. It is structured to be discharged into the room. When cooling, the outside air is dampened and cooled by using dry and cold ventilation, and when heated, the outside air is humidified and heated by using the exhausted energy. On the other hand, the heat exchange unit 200 may use a special heat transfer paper (Pulp) and a functional core core as a heat exchange element, but is not limited thereto.

The bypass passage 300 bypasses a part of the ventilation passage passing through the exhaust passage 120 to the intake passage 110, and guides the bypass to be passed through the total heat exchange unit 200. Therefore, since the heat exchange unit 200 is supplied with the heat of ventilation by the bypass flow path 300, the temperature difference can be compensated even if the temperature difference between the outside air and the ventilation is severe, thereby improving the efficiency of the heat exchange unit 200. Can be improved.

On the other hand, the bypass passage 300, a flow rate adjustment mechanism for adjusting the flow rate of the air passing through the bypass flow path 300 may be installed, the flow rate regulator is one, as shown in FIG. By using the plurality of fan motors 310, the air passing through the bypass flow path 300 may be forcibly transferred.

On the other hand, the heat recovery ventilator according to an embodiment of the present invention, the control box 800 connected to the flow rate control mechanism and the blowing fan (142,144) installed in the bypass passage 300 may be installed.

FIG. 3 is a plan view illustrating a heat recovery ventilator having a turning vane 500 at an inlet of the bypass passage 300 shown in FIG. 1. Referring to the drawings, the heat recovery ventilator illustrated in FIG. An arc-shaped turning vane 500 is provided at the inlet of the bypass passage 300 to guide a part of the air passing through the exhaust passage 120 to the bypass passage 300. At this time, the bypass passage 300 is provided with a flow rate adjustment mechanism to adjust the flow rate of the air flowing, the flow rate adjustment mechanism may use the fan motor 310 shown in FIG. If it can achieve all of the flow control dampers, etc. are applicable.

On the other hand, the outer side of the heat exchange unit 200 according to an embodiment of the present invention may be provided with a device protection filter 210 for protecting the heat exchange element of the heat exchange unit 200. The element protection filter 210 is provided on the outside of the heat exchange unit 200 to filter the dust or other foreign matter including fine dust contained in the air flowing into the heat exchange unit 200 (218) And, the outside of the medium filter 218 or the total heat exchange unit 200 is provided to collect the coarse dust and the like contained in the air flowing into the medium filter 218 or the total heat exchange unit 200 in advance to the And prefilters 212, 214, and 216 for improving the life of the medium filter 218 or the total heat exchange unit 200. In the exemplary embodiment of the present invention, as shown in FIGS. 1 and 3, the element protection filter 210 is directed toward the inlet of the intake passage 110 and the inlet of the exhaust passage 120. Prefilters 212, 214, and 216 are provided outside the outside, and a medium filter 218 is installed outside the electrothermal exchange unit 200 toward the outlet of the exhaust passage 120. However, the present invention is not limited thereto. no.

The housing 100 may be provided with a UV-lamp 400 for sterilization and deodorization of air passing through the housing 100. However, the UV lamp 400 may be any structure that can achieve the above object as an embodiment for sterilizing air.

4 is a view showing the locking member and the fitting member shown in Figure 3, Figure 5 is a view showing the air flow of the heat recovery ventilator shown in FIG.

First, referring to Figure 4, the heat recovery ventilator according to an embodiment of the present invention, the locking member 700a, so that the heat exchange unit 200 and the element protection filter 210 can be easily detached from the housing 100, 700b, 700c, and 700d and the fitting member 600 may be provided.

The locking members 700a, 700b, 700c, and 700d have one end fixedly coupled to the inner wall surfaces of the front, rear, and both sides of the housing 100, and the other end protrudes in a direction substantially perpendicular to the inner wall surface. .

The fitting member 600 has a structure in which the total heat exchange unit 200 and the element protection filter 210 are coupled to each other, and the fitting part 610 to which the total heat exchange unit 200 and the element protection filter 210 are coupled to each other; Coupling portions 620 into which the other ends of the locking members 700a, 700b, 700c, and 700d are inserted are formed. The fitting portion 610 is coupled to the outer surface of the four corners of the heat exchange unit 200 while the surface contact is coupled, the heat transfer to the inner surface in a substantially vertical cross-section according to the corner shape of the heat exchange unit 200 The surface of the exchange unit 200 is coupled to both sides of the edge of the contact surface, the outer side of the fitting groove 612 is formed is fitted with the end of the element protection filter 210 is fitted. The coupling part 620 is formed with a coupling groove 622 to which the other end of the locking members 700a, 700b, 700c, and 700d are detachably fitted, and the coupling groove 622 is a locking member ( The other end of the 700a, 700b, 700c, 700d) may be formed of a resilient material that can be elastically inserted or detached. As described above, the heat exchange unit 200 can be easily installed in the housing 100 through the engaging members 700a, 700b, 700c, 700d and the fitting member 600, and can be replaced and repaired as a detachable structure. Is easy.

Looking at the air flow of the heat recovery ventilator according to an embodiment of the present invention of the above structure as follows. 5 is a view showing the air flow of the heat recovery ventilator shown in Figure 3, referring to the drawings, first, the heat recovery ventilator according to an embodiment of the present invention, the inner space of the housing 100, the total heat exchange unit 200 The first intake chamber (A), through which the outside air flows through the intake outlet (112), and the second intake room, through which the outside air passing through the heat exchange unit (200) flows out into the room through the intake outlet (114). B), the first exhaust chamber (c) through which the indoor ventilation flows through the exhaust inlet 122, and the second passage through which the ventilation passed through the heat exchange unit 200 flows out through the exhaust outlet 124 to the outside. It is formed in the exhaust chamber D. Looking at the air flow of the heat recovery ventilator of the above structure, the outside air introduced through the intake outlet 112 is introduced into the first intake chamber (a) and passes through the pre-filter 212 and the total heat exchange unit 200, The outside air passing through the total heat exchange unit 200 flows through the medium filter 218 into the second intake chamber B, is sterilized through the UV lamp 400, and forcedly discharged into the room. When the indoor air flows into the first exhaust chamber C through 122, the pre-filter 214 and the total heat exchange unit 200 pass through, and the ventilation passing through the total heat exchange unit 200 passes through the prefilter 216. After passing through, it flows into the second exhaust chamber D and is forced to the outside. At this time, some of the ventilation of the second exhaust chamber (D) discharged through the heat exchange unit 200 is introduced into the first intake chamber by the bypass passage 300 to pass through the heat exchange unit 200. . Therefore, the heat recovery ventilator according to the embodiment of the present invention can improve the efficiency of the heat exchange unit 200 because the heat or cold of the ventilation is supplied to the heat exchange unit 200 through the bypass passage (300). .

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1 is a plan view showing the internal structure of a heat recovery ventilator according to an embodiment of the present invention.

FIG. 2 is a diagram according to the I-I diagram of the bypass channel shown in FIG. 1.

3 is a plan view illustrating a heat recovery ventilator having a turning vane at an inlet of the bypass passage illustrated in FIG. 1.

4 is a view showing the locking member and the fitting member shown in FIG.

5 is a view showing the air flow of the heat recovery ventilator shown in FIG.

<Brief description of symbols for the main parts of the drawings>

100 ... housing 110 ... intake flow path

120 ... exhaust passage 200 ... heat exchange unit

210 ... element protection filter 300 ... bypass euro

400 ... U-lamp 500 ... Turning Bane

600 ... fitting member 700a, 700b, 700c, 700d

Claims (7)

A housing having an intake flow passage guiding outdoor air to the interior and an exhaust flow passage guiding indoor air to the outdoors; An electrothermal heat exchange unit installed in the housing and configured to exchange heat between the air passing through the intake passage and the air passing through the exhaust passage; And a bypass flow path formed in the housing and bypassing a portion of the air passing through the exhaust flow path to the intake flow path, wherein the bypass flow path guides the air to pass through the heat exchange unit. One or a plurality of fan motors are formed in the bypass passage, and adjust the flow rate of the air passing through the bypass passage; A locking member protruding from an inner wall of the front, rear and both sides of the rectangular box-shaped housing, and a detachable coupling to four corner portions where the front, rear and both sides of the rectangular heat exchanger unit meet; Heat recovery ventilator comprising a fitting member formed with a fitting groove to the end of the engaging member is fitted to the outside. delete The method according to claim 1, The bypass flow passage, the heat recovery ventilator is provided with an arc-shaped turning vane is provided at the inlet of the bypass flow passage for guiding the portion of the air passing through the exhaust flow passage to the bypass flow passage. The method according to claim 1, Heat recovery ventilator having an element protection filter for protecting the heat exchange element of the heat exchange unit on the outside of the heat exchange unit. The method according to claim 4, The device protection filter, A medium filter provided on the outside of the heat exchange unit to filter dust or other foreign substances contained in the air flowing into the heat exchange unit; And a pre-filter provided outside the medium filter or the total heat exchange unit to filter the air introduced into the medium filter or the total heat exchange unit to improve the life of the medium filter or the total heat exchange unit. The method according to claim 1, And a UV lamp for sterilizing the air passing through the housing. delete

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