KR20170130917A - Heat exchanger having bypass part - Google Patents

Abstract

The present invention relates to an electric heat exchanger having a bypass part. In a container-shaped external case having an outdoor side outlet and an indoor side outlet for feeding outdoor air and an indoor side inlet and an outdoor side inlet for discharging indoor air which are formed at both sides thereof, an internal space is divided by a plurality of partitions and electric heat exchange devices, and heat is exchanged as fed air and discharged air cross each other and pass through the inside of the electric heat exchange devices. Air sucking and discharging fans are installed at the outdoor side outlet and the indoor side outlet. The bypass part comprises: a top plate and a bottom plate; and an electric damper. The top plate and the bottom plate are disposed at the top and the bottom of the electric heat exchanging devices in the external case, and a first bypass hole and a second bypass hole are penetrated on plates surfaces thereof to form a bypass pathway at each gap from the external case. The electric damper is installed in the first bypass hole and the second bypass hole to selectively open and close the first bypass hole and the second bypass hole. While the volume of the electric heat exchanger is maintained, a separate bypass pathway can be formed. Thus, indoor air can be effectively and rapidly ventilated.

Description

TECHNICAL FIELD [0001] The present invention relates to an exhaust heat exchanger having a bypass section,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an overall heat exchanger, and more particularly, to an overall heat exchanger having a bypass section capable of forming a bypass flow path while maintaining the volume of the total heat exchanger.

In general, the total heat exchanger is used as a component of the air conditioning system of a building. In order to ventilate a building, indoor air is discharged outdoors, indoor air discharged from the room is sucked into the room, So that the heat loss generated during the ventilation process can be reduced.

As is known in the art, the conventional total enthalpy heat exchanger has a plurality of partition walls formed inside a housing in which an inlet for introducing outdoor air to both sides, an inlet for introducing the indoor air and an inlet and an outlet for indoor air are respectively formed, And the air introduced into the outdoor air inlet is discharged to the indoor outlet through the total heat-exchanging element, and at the same time, the indoor air flows into the interior of the housing through the indoor air inlet and is discharged to the outside through the outdoor heat exchanger again through the outdoor outlet .

In addition, a fan is installed in the inlet and the outlet so that the inflow and outflow of air can be forcibly performed, thereby maximizing the efficiency.

As described above, it is possible to minimize the indoor heat loss by changing the indoor outdoor air and the outdoor outdoor air flowing through the outdoor heat exchanging element while crossing the outdoor heat exchanging elements and changing the outdoor outdoor air to the temperature similar to the indoor air temperature will be.

However, in such a conventional total enthalpy heat exchanger, there is provided a separate bypass pipe for discharging the air directly to the outside without passing through the total heat-exchanging element or for introducing the outdoor air into the inside. The total amount of the total enthalpy heat exchanger has to be increased because it is provided in a shape protruding in the diagonal direction on the upper and lower surfaces of the total enthalpy heat exchanger.

Further, when the filter installed in the total heat-exchanging element is replaced by the bypass piping provided via the lower surface of the total enthalpy heat exchanger in the diagonal direction, the filter itself must be completely removed after the case itself is completely removed. There is a problem that it is required.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a bypass unit capable of efficiently ventilating indoor air by forming a separate bypass flow while maintaining the volume of the total enthalpy heat exchanger An object of the present invention is to provide an overall heat exchanger.

The total enthalpy heat exchanger having a bypass section for achieving the object of the present invention includes an outdoor side outlet through which outdoor air flows into the indoor heat exchanger and an indoor side inlet and an outdoor side inlet through which room indoor air and indoor air are discharged, And a bypass unit for partitioning the inner space by the plurality of partition walls and the total heat-exchanging elements in the outer case of the shape and allowing the air to be introduced and the air to be discharged to pass through the inside of the total heat- Wherein the first and second bypass holes are formed in the upper and lower sides of the total heat-exchanging element in the outer case, and the first bypass hole and the second bypass hole are formed through the through- And an upper plate and a lower plate formed between the outer case and the outer case, And a vise portion provided in the first bypass hole and the second bypass hole and selectively opening and closing the first bypass hole and the second bypass hole.

Here, the first bypass hole is formed in a diagonal direction on the plate surface of the upper plate at a position close to the outdoor side outlet and the indoor side inlet, and the second bypass hole is formed in the vicinity of the indoor side outlet and the outdoor side inlet And may be formed in a diagonal direction on the plate surface of the lower plate at the position.

The electric damper is installed in a first bypass hole formed on a plate surface of the upper plate at a position close to the outdoor side outlet and a second bypass hole formed in a plate surface of the lower plate at a position close to the indoor side outlet .

The bypass unit may include an opening / closing member rotatably installed at the indoor side inlet and the outdoor side inlet so as to selectively open / close the indoor side inlet and the outdoor side inlet.

In addition, a separate connecting passage is formed between the first bypass hole formed on the upper plate surface at a position close to the indoor inlet and the indoor inlet, And a separate connecting passage for interconnecting the second bypass hole formed on the plate surface and the outdoor side inlet may be formed.

In addition, a support member for supporting one side of the intake and exhaust fan passes through the lower plate and the upper plate at a plurality of locations of the outer case.

A flow path forming wall for forming the bypass flow path may protrude from the upper surface of the upper plate and the lower surface of the lower plate, which are disposed to face each other with the inner surface of the outer case.

In addition, an exchange unit may be provided at one side of the total enthalpy heat exchanger so that the total enthalpy heat exchanger 120 can be exchanged.

The exchange unit includes an opening / closing cover for opening / closing an inspection port formed on the plate surface of the lower plate, a bolt fastened to each vertex area of the opening / closing cover so that the opening / closing cover can be detachably attached to the outer case, And a hinge coupling portion hinged to the outer case.

As described above, the total enthalpy heat exchanger having the bypass unit according to the present invention can form a separate bypass flow while maintaining the volume of the total enthalpy heat exchanger, thereby efficiently ventilating indoor air efficiently have.

Further, since the bypass flow path formed in the diagonal direction when the filter of the total heat-exchanging element is replaced is formed in the spacing space between the lower plate and the outer case, interference does not occur and the filter can be replaced quickly and easily .

1 is a perspective view showing the structure of an total enthalpy heat exchanger having a bypass unit according to an embodiment of the present invention,
FIG. 2 is an exploded perspective view of the upper plate of the total enthalpy heat exchanger having the bypass unit of FIG. 1,
3 is a sectional view taken along line III-III in FIG. 2,
4 is a sectional view taken along the line IV-IV in Fig. 2,
FIG. 5 is a perspective view illustrating the structure of the bottom surface of the outer case of the total enthalpy heat exchanger having the bypass unit according to the embodiment of the present invention,
FIG. 6 is an operation diagram illustrating an operation of bypassing air using a spacing space between an upper plate and an outer case of an total enthalpy heat exchanger having a bypass unit according to an embodiment of the present invention,
7 is an operation diagram illustrating an operation in which air is bypassed using a space between a lower plate and an outer case of an total enthalpy heat exchanger having a bypass unit according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a total enthalpy heat exchanger having a bypass unit according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a structure of an entire enthalpy heat exchanger having a bypass unit according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of the upper plate of the total enthalpy heat exchanger having the bypass unit of FIG. 1, 3 is a sectional view taken along line III-III in FIG. 2, FIG. 4 is a sectional view taken along line IV-IV in FIG. 2, and FIG. 5 is a cross- FIG. 6 is a perspective view showing the structure of the bottom surface of the total enthalpy heat exchanger having the bypass unit according to the embodiment of the present invention. FIG. 7 is a view illustrating an operation in which air is bypassed by using a spacing space. FIG. 7 is a view illustrating an operation of bypassing air by using a spacing space between a lower plate and an outer case of an total enthalpy heat exchanger having a bypass unit according to an embodiment of the present invention Group is an operation illustrating the operation according to bypass Fig.

As shown in these drawings, the total enthalpy heat exchanger having the bypass portion according to the present invention is provided with an outdoor side outlet 101, an indoor side outlet 102, and an indoor side inlet The inner space 130 is divided by the plurality of partition walls 110 and the total heat-exchanging elements 120 in the outer case 100 of the housing shape in which the outdoor side inlet 104 and the outdoor side inlet 104 are formed, And a bypass section for allowing air to flow through the inside of the total heat-exchanging element 120 while passing through the inside of the total heat-exchanging element 120. The outdoor heat exchanger 101 and the indoor- A first bypass hole 211 and a second bypass hole 221 are formed on the upper surface and the lower surface of the total enthalpy heat exchanging element 120 in the outer case 100, And is formed between the outer case 100 and the outer case 100 And an upper plate 210 and a lower plate 220 forming a bypass path 201. The first bypass hole 211 and the second bypass hole 221 are provided with a first bypass And a vise breaker 200 comprising a hollow 211 and an electric damper 230 for opening and closing the second bypass hole 221.

The outer case 100 includes a plurality of partition walls 110 formed in the housing and a total heat exchanging element 120 disposed at a central portion of the housing, 104 are discharged to the indoor side outlet 102 through the total heat-exchanging element. At the same time, the room air flows into the interior of the housing through the indoor inlet 103, passes through the total heat-exchanging element, 101 to the outside.

To this end, a plurality of portions of the wall surface of the outer case 100 are selectively provided with a wall surface portion (not shown) so that the outdoor side inlet 104, the indoor side inlet 103, the indoor side outlet 102 and the outdoor side outlet 101 can be arranged. A plurality of incision surfaces are formed.

Here, the outdoor side inlet 104 and the indoor side outlet 102 are arranged in a mutually diagonal direction, and the indoor side inlet 103 and the outdoor side outlet 101 are also arranged in a diagonal direction, The heat exchange element 120 communicating with the inlet 104, the indoor inlet 103, the indoor outlet 102, and the outdoor outlet 101 is arranged so that the air introduced from the outside into the room, It is preferable that the discharged air is interchanged in the inside of the total enthalpy heat exchanging element 120 so as to perform heat exchange therebetween.

The total heat-exchanging element 120 is disposed at the center of the outer case 100 and communicates with the outdoor side inlet 104, the indoor side inlet 103, the indoor side outlet 102 and the outdoor side outlet 101, So that heat exchange can be achieved.

In the central area of the outer case 100 disposed at the lower part of the total enthalpy heat exchanger, an inspection port 105 is formed in the central area of the outer heat exchanger 120 so as to be cut in the same shape as the cross- Respectively.

The check port 105 is provided with an exchange unit for exchanging the total heat exchange element 120 using the check port 105. The exchange unit includes an open / close cover 106 for opening / closing the check port 105, And a bolt 107 fastened to each vertex area of the opening / closing cover 106 so that the cover 106 can be detachably attached to the outer case 100.

Here, when the opening / closing cover 106 is hinged to one side of the outer case 100 by a hinge coupling part (not shown), the bolt 107 constituting the exchange part may be replaced with a hinge coupling part.

The intake and exhaust fan 300 is installed in the outdoor side outlet 101 and the indoor side outlet 102 so that the indoor air can be forcibly discharged to the outside and the outdoor air can be introduced into the indoor side do.

The intake / exhaust fan 300 is installed only at the outdoor side outlet 101 and the indoor side outlet 102 because the indoor inlet 103 is disposed in the diagonal direction of the outdoor side outlet 101 to form a flow path through which the air flows , And the outdoor side inlet 104 is disposed in the diagonal direction of the indoor side outlet 102 to form a flow path through which the air flows.

In other words, even if the intake / exhaust fan 300 is provided at any one of the outlets or the outlets on both sides of the flow path, air can be sufficiently flowed. Therefore, the total weight of the total heat exchanger can be reduced, And it is possible to reduce the manufacturing cost.

Meanwhile, the bypass unit 200 allows indoor air and outdoor air to flow directly from the room to the outside without passing through the total enthalpy heat exchanger 120 to ventilate the room or to directly enter the room from the outside, So that the power loss can be prevented.

The bypass unit 200 includes a top plate 210 having through holes 211 and 221 formed by a plurality of first bypass holes 211 and a second bypass hole 221, The first bypass hole 211 and the first bypass hole 221 are selectively installed in the plate 220 and the first bypass hole 211 and the second bypass hole 221 so as to open and close the first bypass hole 211 and the first bypass hole 221 And an electric damper (230).

The upper plate 210 and the lower plate 220 are connected to the upper and lower portions of the total enthalpy heat exchanging element 120 disposed in the inner central region of the outer case 100 forming the outer shape of the total enthalpy heat exchanger, Shaped member arranged so as to be spaced apart from each other.

The upper plate 210 and the lower plate 220 are spaced apart from the plate surface of the outer case 100 by a predetermined distance G so that the space between the upper plate 210 and the outer case 100, The bypass passage 201 is formed in the space between the outer case 220 and the outer case 100.

The total enthalpy heat exchanger having the bypass unit according to an embodiment of the present invention using the bypass passage 201 can be configured such that air in the room and outdoor air flow directly into the room without passing through the total heat- So that it can be discharged outdoors.

In order to replace the total heat-exchanging element 120 after the opening / closing cover 106 detachably provided in the outer case 100 is detached from the central portion of the plate surface of the lower plate 220, A cutout hole 222 having the same shape as a cross section is formed.

A plurality of first bypass holes 211 and a plurality of second bypass holes 221 are formed in the upper plate 210 and the lower plate 220 so as to allow air to flow through the bypass passage 201 have.

The first bypass hole 211 and the second bypass hole 221 are formed in a diagonal direction on the plate surface of the upper plate 210 at a position close to the outdoor side outlet 101 and the indoor side inlet 103, Is formed in a diagonal direction on the plate surface of the lower plate (220) at a position close to the side outlet (102) and the outdoor side inlet (104).

When the air is bypassed by using the outdoor side outlet 101 and the indoor side inlet 103, by using the spacing space between the upper plate 210 and the outer case 100, And bypasses air using a space between the lower plate 220 and the outer case 100 when the indoor side outlet 102 and the outdoor side inlet 104 are used to bypass the air.

The electric damper 230 includes a first bypass hole 211 formed in the upper surface of the upper plate 210 at a position close to the outdoor side outlet 101 and a lower plate 220 located in the vicinity of the indoor side outlet 102, And is provided in the second bypass hole 221 formed on the plate surface.

Therefore, bypassing is performed using the spacing space between the upper plate 210 and the outer case 100 and bypassing using the spacing between the lower plate 220 and the outer case 100 The first bypass hole 211 and the second bypass hole 221 can be opened by using the electric damper 230. [

The intake and exhaust fan 300 includes a first bypass hole 211 in which the electric damper 230 is not provided and an outdoor side outlet 101 arranged close to the second bypass hole 221, The user can use the space between the upper plate 210 and the outer case 100 or between the lower plate 220 and the outer case 100 by operating the intake and exhaust fan 300 when the air is bypassed, So that bypassing can be performed.

When the air is bypassed through the spacing space between the upper plate 210 and the lower plate 220 and the outer case 100, the indoor side inlet 103 and the outdoor side inlet 104 can be closed respectively An opening / closing member 240 rotatably installed in the indoor side inlet 103 and the outdoor side inlet 104 is provided.

A separate connecting passage 250 is formed between the first bypass hole 211 formed on the upper surface of the upper plate 210 at a position close to the indoor inlet 103 and the indoor inlet 103, A separate connecting passage 250 is formed between the second bypass hole 221 and the outdoor side inlet 104 formed on the plate surface of the lower plate 220 at a position close to the outdoor side inlet 104, .

The connection passage 250 is formed in such a manner that the air bypassed at the time of bypassing is accurately discharged to the indoor side inlet 103 or outdoor side through the first bypass hole 211 and the second bypass hole 221, Through the inlet 104 and then through the outdoor outlet 101 or the indoor outlet 102.

A support member 140 for supporting one side of the intake and exhaust fan 300 passes through the lower plate 220 and the upper plate 220 at a plurality of locations of the outer case 100.

The support member 140 is formed in a cylindrical shape having a predetermined height so that one side of the support member 140 contacts the outer surface of the intake and exhaust fan 300 to support the intake and exhaust fan 300 from flowing.

A flow path forming wall 150 for forming a bypass flow path 201 is protruded from the upper surface of the upper plate 210 and the lower surface of the lower plate 220 which are disposed to face each other with the inner surface of the outer case 100.

The flow path forming wall 150 protrudes in a shape corresponding to a circumferential surface contacting the lower surface or the upper surface of the intake and exhaust fan 300. The bypass path 201 is cut in a diagonal direction, So that the air can be rapidly introduced into the bypass passage 201. [0053]

A method of operating the total enthalpy heat exchanger having the bypass unit according to an embodiment of the present invention will now be described.

First, in the heating mode, air in a room flowing into the outer case 100 through the indoor inlet 103 is mixed with outdoor air introduced into the outer case 100 through the outdoor inlet 104 The air in the room flows out to the outside and the air outside the room flows into the inside of the room, thereby reducing energy loss.

The bypass mode is used when the indoor heat exchanger 120 is not driven and the indoor air is discharged to the outside and the outside air is introduced into the room to ventilate.

The air in the room is introduced through the indoor inlet 103 and then flows into the space between the upper plate 210 and the outer case 100 as shown in FIG. And is discharged to the outside through the outlet 101 on the outdoor side.

In this state, the opening and closing member 240 provided in the indoor inlet 103 is opened and the opening and closing member 240 provided in the outdoor inlet 104 is closed in the indoor state, The fan 300 is driven and the bypass hole 211 formed at a position close to the outdoor side outlet 101 is opened by the electric damper 230.

  7, when the bypass mode for introducing the outdoor air into the interior is driven, the outdoor air is introduced through the outdoor inlet 104 and then the air is introduced between the lower plate 220 and the outer case 100 And flows into the inside through the outlet port 102 in the room.

In this state, the opening / closing member 240 provided at the outdoor side entrance 104 is opened, and the opening / closing member 240 provided at the indoor side entrance 103 is closed, The volleyball fan 300 is driven and the second bypass hole 221 formed at a position close to the indoor side outlet 102 is opened by the electric damper 230.

On the other hand, when it is necessary to replace the total enthalpy heat exchanging element 120, the opening / closing cover 106 coupled to the outer case 100 under the total enthalpy heat exchanger is removed, and the total heat exchanging element 120 is taken out from the inside of the total enthalpy heat exchanger. The total enthalpy heat exchanging element 120 can be exchanged conveniently by inserting the total heat exchanging element and connecting the opening / closing cover 106 to the outer case 100 using the bolts 107.

The total enthalpy heat exchanger having the bypass unit according to an embodiment of the present invention having such a configuration can form a bypass flow path while maintaining the volume of the total enthalpy heat exchanger, thereby efficiently ventilating the room air efficiently There is an effect.

It is to be understood that the scope of the present invention should not be construed as being limited to the embodiments described above, It is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

100: outer case 101: outdoor side outlet
102: Indoor side outlet 103: Indoor side entrance
104: outdoor side entrance 110: partition wall
120: Total heat exchanging element 130: Internal space
140: support member 150: flow path forming wall
200: bypass unit 210: upper plate
211: first bypass hole 220: lower plate
221: second bypass ball 230: electric damper
240: opening and closing member 250:
300: Suction and exhaust fans

Claims (9)

An outer case 100 of an enclosure shape in which an outdoor side outlet 101 into which outside air flows into both sides and an indoor side outlet 102 and an indoor side inlet 103 and an outdoor side inlet 104 through which indoor air is discharged are formed, The internal space 130 is divided by the plurality of partition walls 110 and the total heat-exchanging element 120, and the air to be introduced and the air to be discharged pass through the inside of the total heat-exchanging element 120 while passing through each other, Wherein the bypass passage is provided in the exhaust passage,
An inlet / outlet fan (300) is installed in the outdoor side outlet (101) and the indoor side outlet (102)
A first bypass hole 211 and a second bypass hole 221 are formed in the upper surface and the lower surface of the total enthalpy heat exchanging element 120 in the outer case 100 to penetrate the outer case And an upper plate 210 and a lower plate 220 which form a bypass passage 201 between the first bypass hole 211 and the second bypass hole 221 and the first bypass hole 211 and the second bypass hole 221, And a bypass damper (200) which comprises a first bypass hole (211) and an electric damper (230) for opening and closing the second bypass hole (221). The method according to claim 1,
The first bypass hole 211 is formed in a diagonal direction on the plate surface of the upper plate 210 at a position close to the outdoor side outlet 101 and the indoor side inlet 103, 221) are formed in a diagonal direction on a plate surface of the lower plate (220) at a position close to the indoor side outlet (102) and the outdoor side inlet (104). 3. The method of claim 2,
The electric damper 230 includes a first bypass hole 211 formed in a plate surface of the upper plate 210 at a position close to the outdoor side outlet 101 and a second bypass hole 211 formed at a position close to the indoor side outlet 102. [ Is provided in a second bypass hole (221) formed on the plate surface of the lower plate (220). The method according to claim 1,
The bypass unit 200 includes an opening / closing member (not shown) rotatably installed at the indoor inlet 103 and the outdoor inlet 104 so as to selectively open / close the indoor inlet 103 and the outdoor inlet 104, (240). ≪ / RTI > The method of claim 3,
A separate connecting passage is formed between the first bypass hole 211 formed on the upper surface of the upper plate 210 at a position close to the indoor inlet 103 and the indoor inlet 103, A separate connecting passage 250 for interconnecting the second bypass hole 221 and the outdoor side inlet 104 formed at the plate surface of the lower plate 220 at a position close to the outdoor side inlet 104 Wherein the heat exchanger has a bypass portion. 6. The method according to any one of claims 1 to 5,
A support member 140 protruding from the lower plate 220 and the upper plate 220 to support one side of the intake and exhaust fan 300 is formed at a plurality of locations of the outer case 100 An overall heat exchanger having a bypass section. The method according to claim 6,
A flow path forming wall 150 for forming the bypass flow path 201 is formed on the plate surface of the upper plate 210 and the lower plate 220 so as to face the inner surface of the outer case 100 Wherein the heat exchanger has a bypass section. 6. The method according to any one of claims 1 to 5,
Wherein the total enthalpy heat exchanger has an exchange part for exchanging the total heat exchanger element (120) at one side thereof. 9. The method of claim 8,
The exchange unit includes an opening and closing cover 106 for opening and closing an inspection port 105 formed on the plate surface of the lower plate 220 and an opening and closing cover 106 for detachably attaching the opening and closing cover 106 to the outer case 100. [ Wherein the bolt (107) is fastened to each vertex area of the cover (106), or one side of the opening / closing cover (106) is hinged to the outer case (100).

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