KR102146315B1 - rotary total heat exchanging ventilator - Google Patents

Abstract

A rotary heat exchange ventilator, according to an embodiment of the present invention, comprises: a case in which a predetermined internal space is formed, an indoor air inlet and an outdoor air inlet are formed to correspond to a first surface, and an indoor air outlet and an outdoor air outlet are formed to correspond to a second surface formed on an opposite side of the first surface; a partition partitioning the internal space into four spaces to correspond to the indoor air inlet, the outdoor air inlet, the indoor air outlet, and the outdoor air outlet, respectively; a heat exchange element installed on the partition between the first and second surfaces to face first and second surfaces, and performing heat exchange between the passing indoor air and outdoor air; a rotation generating unit positioned inside the partition to be connected to the center of the heat exchange element, and rotating the heat exchange element; and a flow generating unit connected to the indoor air outlet and the outdoor air outlet, installed in the internal space, and inducting air. The flow generating unit is activated to enable the indoor air to pass through the indoor air inlet, the heat exchange element and the indoor air outlet, or enable the outdoor air to pass through the outdoor air inlet, the heat exchange element and the outdoor air outlet.

Description

Rotary total heat exchanging ventilator

The present invention relates to a rotary total heat exchange ventilator, and more particularly, to a rotary total heat exchange ventilator that flows to exchange indoor air and outdoor air, and performs heat exchange and filtration.

The total heat exchange ventilator is used as a component of the building air conditioning system.In order to ventilate the building, indoor air is discharged to the outside and outdoor air is sucked into the room.In this process, indoor air and outdoor air are exchanged with each other This is a device capable of reducing heat loss.

In general, a total heat exchange device and a blower fan for intake and exhaust for inhaling indoor air and outdoor air are mounted inside the total heat exchange ventilator, and heat exchange may be possible without mixing indoor air and outdoor air passing through the total heat exchange element. In addition, in the total heat exchange ventilator, an intake port and an exhaust port are formed on an outdoor side and an indoor side, respectively, so that outdoor air is introduced into the room and indoor air is discharged to the outside.

Inside the total heat exchange ventilator, a flow path through which outdoor air sucked into the room passes and a flow path through which indoor air discharged to the outside passes through are formed to intersect, and a heat exchange element for heat exchange is included at a point where the flow path crosses. The flow direction of the indoor air that is not discharged to the outside from the total heat exchange ventilator and the outdoor air sucked into the room is different. Here, in the total heat exchange ventilator, indoor air may be discharged indoors instead of outdoors, and outdoor air may be discharged outdoors instead of indoors. That is, a leakage phenomenon occurs in the total heat exchange ventilator. In addition, heat exchange elements and filters for indoor air and outdoor air are installed throughout the total heat exchange ventilator, and are difficult to manage.

1. Unexamined Patent Publication No. 10-2006-0081602 (2006.07.13) 2. Registered Patent Publication No. 10-1416726 (2014.07.09) 3. Japanese Unexamined Patent Application Publication No. 2011-237157 (2011.11.24)

The technical problem to be achieved by the rotary total heat exchange ventilation apparatus according to the technical idea of the present invention is to provide a rotary total heat exchange ventilation apparatus capable of improving heat exchange performance.

In addition, a technical problem to be achieved by the rotary total heat exchange ventilator according to the technical idea of the present invention is to provide a rotary total heat exchange ventilator capable of easily managing and replacing heat exchange elements and filters.

In addition, the technical problem to be achieved by the rotary total heat exchange ventilation apparatus according to the technical idea of the present invention is to provide a rotary total heat exchange ventilation apparatus capable of improving ventilation performance by smoothing the flow of air and minimizing the air leakage rate. will be.

In addition, the technical problem to be achieved by the rotary total heat exchange ventilation apparatus according to the technical idea of the present invention is to provide a rotary total heat exchange ventilation apparatus capable of improving user satisfaction by reducing noise generation.

The technical problem to be achieved by the rotary total heat exchange ventilator according to the technical idea of the present invention is not limited to the above mentioned problem, and another problem not mentioned will be clearly understood by those skilled in the art from the following description. .

A rotary total heat exchange ventilator according to an embodiment according to the technical idea of the present invention includes: a case in which an internal space is formed and an indoor air inlet, an outdoor air inlet, an indoor air outlet, and an outdoor air outlet are formed; A partition partitioning the inner space of the case into four spaces connected to each of an indoor air inlet, an outdoor air inlet, an indoor air outlet, and an outdoor air outlet; It is rotatably installed in a partition located between the indoor inlet space connected to the indoor air inlet and the outdoor inlet space connected to the outdoor air inlet, the indoor exhaust space connected to the indoor air outlet, and the outdoor exhaust space connected to the outdoor air outlet, so that indoor air and outdoors A heat exchange element for exchanging air; And a flow generator connected to the indoor air outlet and the outdoor air outlet to discharge the air introduced into the inner space of the case to the outside of the case, wherein the indoor air introduced through the indoor air inlet passes through the heat exchange element and is discharged to the indoor air outlet. , The outdoor air introduced through the outdoor air inlet passes through the heat exchange element and is discharged to the outdoor air outlet, and the direction in which the indoor air introduced through the indoor air inlet passes through the heat exchange element and the outdoor air introduced through the outdoor air inlet pass through the heat exchange element. The passing direction may be the same.
The partition may include: a main partition, which is a partition located between an indoor inflow space and an outdoor inflow space, and an indoor discharge space and an outdoor discharge space; A discharge partition located between the outdoor discharge space and the indoor discharge space; And an inflow partition located between the outdoor inflow space and the indoor inflow space.
The rotary total heat exchange ventilator may further include a rotation generator positioned inside the discharge partition and connected to the center of the heat exchange element, and rotates the heat exchange element.
The rotary total heat exchange ventilator is installed detachably in the main partition to correspond to the indoor inlet space and the outdoor inlet space, respectively, and further includes a filter for filtering foreign substances contained in indoor air and outdoor air while passing indoor air and outdoor air. Can include.
The main partition may include an element mounting portion formed concavely in the main partition and in which a heat exchange element is installed; And a filter mounting part formed concavely to be spaced apart from each other on both sides of the device mounting part on the opposite surface of the surface on which the device mounting part of the main partition is formed, connected to the device mounting part, and on which the filter is installed.
The main partition, inlet partition and outlet partition may be separable from each other.
The indoor air inlet and the outdoor air outlet may be connected to the room through a pipe or duct, and the outdoor air inlet and the indoor air outlet may be connected to the outdoors through a pipe or duct.
The indoor air inlet, the outdoor air inlet, the indoor air outlet, and the outdoor air outlet may be formed on the same plane of the case.
The heat exchange element may have a circular plate shape formed by stacking an air permeable sheet, a polyethylene nonwoven fabric, an activated carbon coated nonwoven fabric, a polyethylene nonwoven fabric, an activated carbon coated nonwoven fabric, a polyethylene nonwoven fabric, and an air permeable sheet in that order.

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The rotary total heat exchange ventilator according to embodiments according to the technical idea of the present invention has the following effects.

(1) Heat exchange performance can be improved.

(2) Heat exchange elements and filters can be easily managed and replaced.

(3) Ventilation performance can be improved as the air flow is smooth and the air leakage rate is minimized.

(4) Noise generation is reduced, and user satisfaction can be improved.

However, the effects that can be achieved by the rotary total heat exchange ventilator according to an embodiment of the present invention are not limited to those mentioned above, and other effects not mentioned are clearly understood by those skilled in the art from the following description. Can be.

In order to more fully understand the drawings cited in the present specification, a brief description of each drawing is provided.
1 is a perspective view showing a rotary total heat exchange ventilation device according to an embodiment of the present invention.
2 is a perspective view showing a separate rotary type total heat exchange ventilator according to an embodiment of the present invention.
3 is a diagram schematically showing the flow of air in a rotary total heat exchange ventilator according to an embodiment of the present invention.
4 is a photograph showing a discharge partition and a flow generator installed in a case of a rotary total heat exchange ventilator according to an embodiment of the present invention.
5 is a photograph showing a state in which a main partition and a heat exchange element are installed in a case of a rotary total heat exchange ventilator according to an embodiment of the present invention.
6 is a photograph showing a filter installed in a case of a rotary total heat exchange ventilator according to an embodiment of the present invention.

In the present invention, various modifications may be made and various embodiments may be provided, and specific embodiments are illustrated in the drawings, and will be described in detail through detailed description. However, this is not intended to limit the present invention to specific embodiments, and the present invention should be understood to include all changes, equivalents, and substitutes included in the spirit and scope of the present invention.

In describing the present invention, when it is determined that a detailed description of related known technologies may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted. In addition, numbers (eg, first, second, etc.) used in the description of the present specification are merely identification symbols for distinguishing one component from another component.

In addition, in the present specification, when one component is referred to as "connected" or "connected" to another component, the one component may be directly connected or directly connected to the other component, but specially It should be understood that as long as there is no opposite substrate, it may be connected or may be connected via another component in the middle.

In addition, in the constituent elements represented by'~ unit' in the present specification, two or more constituent elements may be combined into one constituent element, or one constituent element may be divided into two or more for each more subdivided function. In addition, each of the components to be described below may additionally perform some or all of the functions that other components are responsible for in addition to its own main function, and some of the main functions that each component is responsible for are different. It goes without saying that it may be performed exclusively by components.

Hereinafter, embodiments according to the technical idea of the present invention will be sequentially described in detail.

1 is a perspective view showing a rotary total heat exchange ventilator 100 according to an embodiment of the present invention, and Figure 2 is a perspective view showing the rotary total heat exchange ventilator 100 according to an embodiment of the present invention separated 3 is a view schematically showing the flow of air in the rotary total heat exchange ventilator 100 according to an embodiment of the present invention.

1 to 3, the rotary total heat exchange ventilator 100 according to an embodiment of the present invention includes a case 101, a partition 102, a heat exchange element 103, and a rotation generator 104. , A flow generator 105 and a filter 106, and is used to implement indoor ventilation by inducing indoor air from indoor to outdoor and outdoor air to indoor. Here, indoor means the inside of the building, and outdoor means the outside of the building.

The case 101 has a predetermined internal space 110. In the case 101, an indoor air inlet 111 and an outdoor air inlet 112 are formed to correspond to the first surface 101a of the case 101, and the indoor air inlet 111 and the outdoor air inlet 112 are It can be located on the same plane. In the case 101, an indoor air outlet 113 and an outdoor air outlet 114 are formed to correspond to the second surface 101b of the case 101, and the indoor air outlet 113 and the outdoor air outlet 114 are It can be located on the same plane. Here, the second surface 101b of the case 101 means a surface of the case 101 formed on the opposite side of the first surface 101a. In addition, the indoor air inlet 111 is positioned to correspond to the indoor air outlet 113, and the outdoor air inlet 112 is positioned to correspond to the outdoor air outlet 114.

Meanwhile, the indoor air inlet 111 and the outdoor air outlet 114 may be connected to a duct or pipe connected to the indoor, and the indoor air outlet 113 and the outdoor air inlet 112 may be connected to a duct or pipe connected to the outdoors. Can be connected.

In this embodiment, the case 101 is shown in a rectangular parallelepiped shape. Here, the inner space 110 is also shown in a rectangular parallelepiped shape to correspond to the case 101. In addition, the indoor air inlet 111 and the outdoor air inlet 112 are formed on the upper surface of the case 101 adjacent to the first surface 101a of the case 101, the indoor air outlet 113 and the outdoor air outlet ( 114 is formed on the upper surface of the case 101 adjacent to the second surface 101b of the case 101. That is, the indoor air inlet 111, the outdoor air inlet 112, the indoor air outlet 113, and the outdoor air outlet 114 may be located on the upper surface of the case 101. Meanwhile, the indoor air inlet 111 and the outdoor air inlet 112 may be formed on the first surface 101a of the case 101, and the indoor air outlet 113 and the outdoor air outlet 114 are the case 101 ) May be formed on the second side 101b.

Meanwhile, the first surface 101a of the case 101 is positioned to be detachable from the case 101 and separated from the case 101 to open the inner space 110.

The partition 102 divides the inner space 110 into four, and the partitioned inner space 110 includes an indoor air inlet 111, an outdoor air inlet 112, an indoor air outlet 113, and an outdoor air. It is connected to correspond to each of the outlets 114. Further, the partition 102 includes a main partition 121, an outlet partition 123 and an inlet partition 125.

The main partition 121 is formed in a plate shape, but in the inner space 110 between the first surface 101a and the second surface 101b of the case 101, the first surface 101a and the second It is positioned to face the surface 101b and divides the inner space 110 into an exhaust space 110a and an inflow space 110b. Here, the exhaust space 110a is connected to the indoor air outlet 113 and the outdoor air outlet 114, and the inlet space 110b is connected to the indoor air inlet 111 and the outdoor air inlet 112.

In addition, the element mounting portion 121a and the filter mounting portion 121b are formed in the main partition 121.

The element mounting portion 121a is formed to be concave in the main partition 121 so as to face the second surface 101b of the case 101. Here, the element mounting portion 121a has a shape corresponding to the heat exchange element 103, and the heat exchange element 103 may be installed on the main partition 121 through the element mounting portion 121a.

The filter mounting portion 121b is formed to be concave in the main partition 121 so as to face the first surface 101a of the case 101. Here, the filter mounting portion 121b is formed to be connected to the element mounting portion 121a, and is formed to be spaced apart from each other on both sides with respect to the center of the element mounting portion 121a. The filter 106 may be installed on the main partition 121 through the filter mounting portion 121b.

The discharge partition 123 is formed in a plate shape, but is positioned in a vertical direction so as to intersect the main partition 121 and the second surface 101b in the discharge space 110a, and the discharge space 110a is defined as the indoor discharge space 110a. ') and an outdoor exhaust space 110a". Here, the exhaust partition 123 is positioned to correspond to the center of the element mounting portion 121a. In addition, the indoor exhaust space 110a' is an indoor air exhaust port 113 ), and the outdoor exhaust space 110a" is connected to the outdoor air outlet 114.

The inflow partition 125 is formed in a plate shape, but is positioned vertically so as to intersect the main partition 121 and the first surface 101a in the inflow space 110b, and the inflow space 110b is defined as the indoor inflow space 110b. ') and an outdoor inlet space 110b". Here, the inlet partition 125 is positioned to correspond between the filter mounting portions 121b. In addition, the indoor inlet space 110b' is an indoor air inlet 111 ), and the outdoor inlet space 110b" is connected to the outdoor air inlet 112.

As described above, the main partition 121, the discharge partition 123 and the inlet partition 125 constituting the partition 102 may be separated from each other.

The heat exchange element 103 is partitioned to face the first surface 101a and the second surface 101b between the first surface 101a and the second surface 101b of the case 101 in the inner space 110. 102). Here, the heat exchange element 103 is inserted into the element mounting portion 121a of the main partition 121 and installed in the main partition 121, and is positioned between the discharge space 110a and the inflow space 110b. The heat exchange element 103 has a circular plate shape, and is rotatably installed on the element mounting portion 121a having a shape corresponding to the heat exchange element 103. Indoor air and outdoor air in the inner space 110 may pass through the heat exchange element 103.

On the other hand, the heat exchange element 103 of the present embodiment is made of a circular plate shape formed by laminating an air permeable sheet, a polyethylene nonwoven fabric, an activated carbon coated nonwoven fabric, a polyethylene nonwoven fabric, an activated carbon coated nonwoven fabric, a polyethylene nonwoven fabric, and an air permeable sheet in that order. When indoor air and outdoor air pass through the heat exchange element 103, the polyethylene nonwoven fabric and the activated carbon coated nonwoven fabric may be kept in a state absorbing heat to some extent. In addition, due to the difference in density between the polyethylene nonwoven fabric and the activated carbon coated nonwoven fabric, the heat exchange element 103 may maintain a constant temperature and humidity, and may not cause condensation.

The rotation generator 104 is located inside the partition 102 and is connected to the heat exchange element 103. Here, the rotation generating unit 104 is located inside the discharge partition 123 and is connected to the center of the heat exchange element 103. Here, the rotation generator 104 may rotate the heat exchange element 103, and may be formed of, for example, a motor.

When the heat exchange element 103 is rotated by the rotation generating unit 104, indoor air and outdoor air may be heat-exchanged while passing through the heat exchange element 103. For example, when indoor air passes through the heat exchange element 103, the heat of the indoor air transfers heat to the heat exchange element 103, and the heat exchange element 103 is rotated to exchange heat with the outdoor air. Here, the outdoor air may be supplied indoors while receiving heat. On the other hand, when outdoor air passes through the heat exchange element 103, the heat of the outdoor air transfers heat to the heat exchange element 103, and the heat exchange element 103 is rotated to exchange heat with the outdoor air. Here, indoor air may be discharged outdoors while receiving heat. That is, the heat exchange element 103 absorbs heat from indoor air and transfers heat to outdoor air, or absorbs heat from outdoor air and transfers heat to indoor air. The heat exchange element 103 is rotated by the rotation generator 104, thereby improving heat exchange performance between indoor air and outdoor air.

The flow generator 105 is installed in the inner space 110 to correspond to the indoor air outlet 113 and the outdoor air outlet 114, respectively. The flow generator 105 is made in the form of a fan, and is preferably connected to the indoor air outlet 113 and the outdoor air outlet 114, respectively. Here, the flow generator 105 may operate to suck air in the inner space 110 and discharge it through the indoor air outlet 113 and the outdoor air outlet 114. In addition, when the flow generator 105 sucks air from the inner space 110, the air may be introduced into the inner space 110 through the indoor air inlet 111 and the outdoor air inlet 112.

In particular, the flow generating unit 105 may be installed in the indoor discharge space 110a' and the outdoor discharge space 110b', respectively. Here, when the flow generator 105 is installed and operated in the indoor discharge space 110a', the flow generator 105 sucks indoor air from the indoor discharge space 110a' to open the indoor air outlet 113. It can be discharged outdoors. Here, the indoor air may be introduced into the indoor inlet space 110b' through the indoor air inlet 111, and may be introduced into the indoor discharge space 110a' through the heat exchange element 103. In addition, when the flow generation unit 105 is installed and operated in the outdoor discharge space 110a", the flow generation unit 105 sucks outdoor air from the outdoor discharge space 110a" to open the outdoor air outlet 114 It can be discharged indoors through. Here, the outdoor air may be introduced into the outdoor inlet space 110b" through the outdoor air inlet 112 and may be introduced into the outdoor discharge space 110a" through the heat exchange element 103.

When indoor air and outdoor air flow in the inner space 110 by the flow generator 105 as described above, the indoor air and outdoor air are the indoor air inlet 111, the outdoor air inlet 112, and the indoor air outlet. Due to the positions of the 113 and the outdoor air outlet 114, they may flow in the same direction and may not affect the flow between them. For this reason, indoor air and outdoor air can be guided to the outdoors and indoors while minimizing leakage (漏氣), respectively.

The filter 106 is detachably installed in the partition 102 to correspond to the indoor air inlet 111 and the outdoor air inlet 112 in the inner space 110. Here, the filter 106 is installed on the filter mounting portion 121b of the main partition 121 and faces the first surface 101a of the case 101. Indoor air and outdoor air enter the inner space 110 and pass through the filter 106 and then the heat exchange element 103. When indoor air and outdoor air pass through the filter 106, foreign substances (eg, dust, fine dust, etc.) contained in the indoor air and outdoor air are filtered by the filter 106. That is, indoor air and outdoor air may be introduced to the heat exchange element 103 while being filtered through the filter 106.

As mentioned above, the first surface 101a of the case 101 is detachable from the case 101 and functions as a door to open and close the inner space 110. Here, the first surface 101a of the case 101 may be positioned to face the filter 106. The indoor air inlet 111 and the outdoor air inlet 112 are positioned to be adjacent to the first surface 101a of the case 101, and the filters 106 have the main partition 125 with the inlet partition 125 positioned therebetween. 121) on the same plane. Due to this, when the inner space 110 is opened by the first surface 101a of the case 101, the surface of the filter 106 is directly exposed. Here, the user can check the condition of the filter 106 for indoor air and outdoor air at the same time, and can be easily replaced. In addition, the user can check the state of the heat exchange element 103 through the filter mounting portion 121b of the main partition 121 while the filter 106 is separated from the partition 102, and remove the main partition 121 The heat exchange element 103 can be replaced in one state. Accordingly, the filter 106 and the heat exchange element 103 in the rotary total heat exchange ventilator 100 of the present embodiment can be easily managed and replaced.

On the other hand, in the rotary total heat exchange ventilator 100 of this embodiment, the rotation generating unit 104 and the flow generating unit 105 are located in the inner space 110 of the case 101. Here, the case 101 blocks noise generated by the operation of the rotation generator 104 and the flow generator 105 to some extent, so that the noise may not be transmitted to the user. The case 101 may be installed such that the second surface 101b is positioned toward the outside. Here, the rotation generating unit 104 and the flow generating unit 105 may also be located outdoors. For this reason, the rotary total heat exchange ventilator 100 according to the present embodiment generates relatively little noise reaching the user, thereby improving user satisfaction.

Above, the technical idea of the present invention has been described in detail with reference to preferred embodiments, but the technical idea of the present invention is not limited to the above embodiments, and those skilled in the art within the scope of the technical idea of the present invention Various modifications and changes are possible by the user.

100: rotary total heat exchange ventilator
101: case
102: partition
103: heat exchange element
104: rotation generator
105: flow generator
106: filter

Claims (10)

An internal space is formed, and the indoor air inlet, outdoor air inlet, indoor air outlet, and outdoor air outlet are formed on the same plane, and the inner space is an indoor inlet space connected to the indoor air inlet, an outdoor inlet space connected to the outdoor air inlet, A case divided into an indoor exhaust space connected to the indoor air outlet and an outdoor exhaust space connected to the outdoor air outlet;
A main partition located between the indoor inflow space and the outdoor inflow space, and the indoor exhaust space and the outdoor exhaust space;
A discharge partition perpendicularly intersecting the main partition and partitioning the outdoor discharge space and the indoor discharge space;
An inflow partition perpendicularly intersecting the main partition and partitioning an outdoor inflow space and an indoor inflow space;
A heat exchange element positioned between the discharge partition and the inlet partition perpendicular to the discharge partition and the inlet partition, and is rotatably installed in the main partition to exchange indoor air and outdoor air;
A rotation generating unit located in the discharge partition and connected to the center of the heat exchange element, and rotating the heat exchange element;
A filter mounting portion positioned on the side of the indoor inflow space and the outdoor inflow space of the main partition, and respectively positioned on both sides of the inflow partition;
A filter mounted on the filter mounting unit and filtering foreign substances contained in indoor air and outdoor air while passing indoor air and outdoor air; And
It includes a flow generator connected to the indoor air outlet and the outdoor air outlet to discharge the air introduced into the inner space of the case to the outside of the case,
The indoor air introduced into the indoor air inlet passes through a rotating heat exchange element and is discharged to the indoor air outlet, and the outdoor air introduced through the outdoor air inlet passes through the rotating heat exchange element and is discharged to the outdoor air outlet,
A rotary total heat exchange ventilator, characterized in that a direction in which indoor air introduced through the indoor air inlet passes through the heat exchange element and a direction in which outdoor air introduced through the outdoor air inlet passes through the heat exchange element are the same.
delete delete delete delete delete The method of claim 1,
A rotary total heat exchange ventilator, characterized in that the main partition, the inlet partition and the outlet partition are separable from each other.
The method of claim 1,
The indoor air inlet and the outdoor air outlet are connected to the room through a pipe or duct, and the outdoor air inlet and the indoor air outlet are connected to the outdoors through a pipe or duct.
delete The method of claim 1,
The heat exchange element is a rotary total heat exchange ventilator, characterized in that it has a circular plate shape formed by laminating an air permeable sheet, a polyethylene nonwoven fabric, an activated carbon coated nonwoven fabric, a polyethylene nonwoven fabric, an activated carbon coated nonwoven fabric, a polyethylene nonwoven fabric, and an air permeable sheet in that order.

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