KR101895355B1 - A ventilator for waste heat recovery - Google Patents

Abstract

The present invention relates to a ventilator which is capable of uniformly diffusing outdoor air into a first surface of a total heat-exchanging portion by forming a partition and a damper or smoothly guiding outdoor air to a bypass duct,
The outdoor air introduced through the outdoor air intake port 11 is heat-exchanged with the indoor air introduced through the indoor intake port 12 in the total heat-exchanging section 20, and then the outdoor air is discharged to the room through the indoor discharge port 13, The indoor air is discharged to the outside through the outdoor outlet 14. The indoor heat exchanger 20 has a detour duct 40 at the lower portion thereof and an outdoor air inlet 11 and a total heat exchanger 20, A partition wall 50 is formed between the first surface 21 and a through hole 51 is formed in the partition wall 50. A damper 55 is formed to be rotatable below the through hole 51, When the damper 55 closes the through hole 51, the outdoor air passes through the outdoor air inlet 11 and the bypass duct 40 without passing through the total heat-exchanging portion 20, When the damper 55 opens the through hole 51, the bypass duct 40 is closed so that the outdoor air passes through the total heat-exchanging portion 20, Through and discharged into the room from the room outlet (13).

Description

[0001] The present invention relates to a ventilator for waste heat recovery,

The present invention relates to a waste heat recovery ventilator that improves energy efficiency by exchanging outdoor air with room air and then supplying the indoor air to the room.

Indoor air in our living room is polluted by various factors. In order to live a comfortable life, it is essential to vent the contaminated indoor air to the outside and to introduce outdoor air into the room.

Especially, in places where many people, such as offices, stay in a narrow space, ventilation should be made from time to time. At this time, there was a method of opening a window or using a ventilator in general ventilation.

However, when ventilation is performed by opening the windows provided in a building, efficiency of cooling and heating of the building is lowered. Recently, ventilation devices capable of forcibly ventilating the building air are installed in buildings Is being installed.

In addition, today 's residential space is becoming more and more high - level stability, energy conservation, noise and security problems such as the opening of the window is limited, and the living space is becoming more and more confidential and closed.

As a result of this change, almost all of buildings today require a ventilator that supplies fresh air to the inside and discharges the air inside to the outside, and a waste heat recovery type ventilator having an overall heat exchange portion is mainly used as the ventilator have.

In the waste heat recovery type ventilator of this structure, outdoor air is introduced into the frame by an outdoor air intake port, filtered by a filter, and then supplied to the room through an indoor air outlet. At the same time, indoor air is introduced into the frame through the indoor air inlet, And discharged outdoors through an outlet.

In the conventional waste heat recovery type ventilator, the total heat-exchanging portion is located inside the frame, and the indoor air introduced through the indoor air inlet passes through the total heat-exchanging portion before being discharged to the outside through the outdoor outlet, And outdoor air introduced through the outdoor air intake port also passes through the total heat exchange portion and is discharged through the indoor outlet after receiving the heat energy transmitted to the total heat exchange portion by the indoor air. At this time, the discharge of the outdoor air and the indoor air is performed by the blowing fan, and the operation control of the blowing fan and the like is performed by the control box installed in the frame.

Korean Patent Registration No. 0690987 discloses a method of ventilating indoor / outdoor air through a total heat exchange portion for a certain period of time during which a harmful component causing a sick house syndrome is detected after a building is expanded or contracted, so that the harmful component is easily discharged to the outside, An air cleaning system using a ventilation unit capable of preventing heat loss by purifying indoor air using a filter and an anion generator and recycling it to the room has been introduced.

However, the patent has a considerable difficulty in replacing the filter and the anion generating material, and if the heat exchange performance is deteriorated due to condensation or the like, the entire heat exchange unit must be periodically replaced, but the entire frame must be disassembled in order to replace the heat exchange unit.

In addition, although the energy efficiency is sometimes lowered when the outdoor air passes through the total heat exchanging part, the technology using the bypass duct has been introduced. However, since the complicated bypass duct increases the ventilation device, A problem has arisen.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a refrigerator having a partition wall and a damper, It is an object of the present invention to provide a waste heat recovery ventilator which is very easy and simple in construction of the apparatus, and is low in manufacturing cost and maintenance cost.

According to another aspect of the present invention, there is provided a ventilator comprising: an indoor air inlet; an indoor air inlet; a room air outlet; And the indoor air is discharged to the outside through an outdoor outlet. A bypass duct is formed in a lower portion of the total heat-exchanging portion, and a partition is formed between the outdoor air inlet and the first surface of the total heat- A dam hole is formed in the partition wall so as to be rotatable below the passage hole, and when the damper closes the passage hole, the outdoor air passes through the outdoor air inlet and the bypass duct without passing through the total heat- And is discharged to the room through the indoor discharge port. When the damper opens the passage hole, the bypass duct And the outdoor air is exhausted to the room through the indoor exhaust port through the total heat-exchanging portion, the partition wall is convexly bent forward, and when the damper closes the passage hole, the damper is inclined upward forward The damper guides the outdoor air to the detour duct, and when the damper opens the passage hole, the damper is positioned to be inclined forward and downward, and the damper guides the outdoor air to the first surface of the total heat- .

A second bypass duct is formed in a lower portion of the bypass duct, a second partition is formed between the indoor air inlet and the second surface of the total heat-exchanging portion, a second passage hole is formed in the second partition, A second damper rotatable on the lower side of the hole is formed, and when the outdoor air passes through the detour duct, the indoor air passes through the second detour duct.

Wherein the upper frame and the lower frame are provided with a heat insulating material on the inner surface of the upper frame and the lower frame, and the upper frame and the lower frame are opened to replace the entire heat exchanging part, And a handle is formed on the upper surface of the total heat-exchanging portion.

The present invention forms a partition and a damper so that the outdoor air can be uniformly diffused to the first heat exchange unit or smoothly guided to the bypass duct and the replacement cover is formed in the upper frame, The entire structure of the ventilator is simplified, and the manufacturing cost and the maintenance cost are reduced.

In addition, by forming the fragrance storage device at the indoor discharge port, it is easy to replace the fragrance and the like, and the amount of the fragrance introduced into the room can be easily controlled.

1 is a front perspective view showing a ventilator according to the present invention;
2 is a rear perspective view showing a ventilator according to the present invention;
3 is a plan view of an upper frame opened in a ventilator according to the present invention.
4 is a perspective view of the ventilator according to the present invention with the replacement cover opened;
5 is a perspective view showing that the total heat-exchanging portion and the filter are separated from each other in the ventilator according to the present invention.
6 is a perspective view of the ventilation device according to the present invention, in which a fragrance storage device is installed;
7 is a perspective view of the ventilator according to the present invention with the cover opened;
8 is a partial perspective view of an opening of an opening in a ventilator according to the present invention.
9 is a partial perspective view of a portion of the vent opening of the ventilator according to the present invention partially closed;
10 is a perspective view of a ventilator according to the present invention with a connection port.
11 is a perspective view of a ventilating apparatus according to the present invention in which a through hole is opened;
12 is a perspective view of a ventilator according to the present invention in which a through hole is closed;
13 is a perspective view of a ventilator according to the present invention in which a damper opens a through hole;
FIG. 14 is a perspective view of a ventilator according to the present invention in which a damper closes a passage hole. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is a perspective view of a ventilator according to the present invention viewed from the front, FIG. 2 is a perspective view of a ventilator according to the present invention viewed from the rear, and FIG.

The indoor air inlet 11, the indoor air inlet 12, the indoor air outlet 13 and the outdoor air outlet 14 are formed by the combination of the upper frame 10 and the lower frame 19, The outdoor air exchanges heat with indoor air introduced through the indoor intake port 12 in the total heat-exchanging portion 20. [ At this time, the total heat-exchanging portion 20 has the first surface 21, the second surface 22, and the second surface 22 corresponding to the outdoor air inlet 11, the indoor air inlet 12, the indoor air outlet 13 and the outdoor air outlet 14 A third surface 23 and a fourth surface 24.

A blowing fan (not shown) is formed between the indoor outlet 13 and the third surface 23 and a blowing fan (not shown) is formed between the outdoor outlet 14 and the fourth surface 24. [ The outdoor air guided from the first surface 21 to the third surface 23 of the total heat-exchanging portion 20 by the blowing fan and the outdoor air guided from the second surface 22 of the total heat- The room air guided to the surface 24 is vertically spaced and cross-orthogonally exchanges heat. After the heat exchange, the outdoor air is discharged to the room through the indoor discharge port (13), and the indoor air is discharged to the outside through the outdoor discharge port (14).

In addition, a heat insulating material such as compressed styrofoam or foamed urethane is formed on the inner surface of the upper frame 10 and / or the lower frame 19 to prevent condensation and improve heat insulation.

Fig. 4 is a perspective view showing the replacement cover opened, and Fig. 5 is a perspective view showing that the total heat-exchanging portion and the filter are separated.

The replacement cover 16 is formed in the upper frame 10 so that the replacement cover 16 can be opened to replace or clean the entire heat exchange portion 20 or the filter 29 very easily. At this time, the handle 26 is formed on the upper surface of the total heat-exchanging portion 20, so that the replacement operation becomes more convenient.

7 is a perspective view showing the cover opened in the fragrance storage device, and Fig. 8 is a perspective view showing a state in which the cover is opened in the fragrance storage device and the opening of the opening is opened And FIG. 9 is a perspective view showing a part of the opening of the cover in the fragrance storage device and partially closing the opening, and FIG. 10 is a perspective view showing that the connecting port is coupled to the fragrance storage device.

The fragrance storage device 30 formed in the indoor discharge port 13 includes a case 31 capable of storing a fragrance therein; A cover 32 formed on the front surface of the case 31; And an opening 33 formed on the upper surface of the case 31 and connected to the indoor discharge port 13. The indoor air discharge port 13 is connected to the outdoor discharge port 13 through the discharge port 13, The fragrance is supplied to the room together with outdoor air through the open mouth 33. At this time, a material for releasing the far infrared ray or anion or the like is stored in the case 31 by opening the cover 32 and replacing a fragrance by an anion or the like, mixed with outdoor air through the opening 33, It may also improve the health of the people who are there.

The adjustment lever 35 formed in the opening 33 adjusts the degree of opening of the opening 33. The ring 31 is formed on the upper portion of the case 31, An adjusting lever 35 is movably formed so that the adjusting lever 35 moves counterclockwise or clockwise to open or close the opening 33. [ That is, the control lever 35 can be moved to adjust the amount of the fragrance or the anion that is supplied to the room.

The connector body 36 may be provided with a connector 39 and a duct 39 may be connected to the connector body 39.

Fig. 11 is a perspective view showing that the upper frame is opened and the passage hole is opened, Fig. 12 is a perspective view showing that the upper frame is opened and the passage hole is closed, Fig. 13 is a view showing that the damper rotates forward, 14 is a perspective view showing that the damper is rotated forward and upward to open the bypass duct.

A partition wall 50 is formed between the outdoor air inlet port 11 and the first surface 21 of the total heat exchange portion 20 and a partition wall 50 A through hole 51 is formed in the through hole 51 and a damper 55 is rotatable below the through hole 51. The filter 29 can extend to the lower end of the bypass duct 40. [ Even if the distance between the partition wall 50 and the first surface 21 is short, the partition wall 50 is convexly curved forward so that the outdoor air having passed through the through hole 51 is uniformly spread on the first surface 21, .

When the damper 55 closes the through hole 51, the outdoor air passes through the outdoor air inlet 11 and the bypass duct 40 without passing through the total heat-exchanging portion 20 and is discharged to the room through the indoor outlet 13 When the damper 55 opens the through hole 51, the bypass duct 40 is closed so that the outdoor air passes through the first surface 21 and the third surface 23 of the total heat- (13). ≪ / RTI > That is, when the outdoor temperature is lower than the indoor temperature or when the outdoor temperature is higher than the indoor temperature such as the winter day, as in the summer dawn, it is much more difficult for the outdoor air to pass through the total heat- It is economical.

When the damper 55 closes the through hole 51, the damper 55 is inclined forward and upward so that the damper 55 guides the outdoor air to the bypass duct 40, The damper 55 is inclined forward and downward so that the damper 55 guides the outdoor air to the first surface 21 of the total heat-exchanging portion 20 evenly.

A second bypass duct is formed in the lower portion of the bypass duct 40 so that indoor air can be bypassed although not shown in the figure when the outdoor air passes through the bypass duct 40, A second partition wall may be formed between the second surface 22 of the partition 20 and a second passage hole may be formed in the second partition wall and a second damper rotatable below the second passage hole may be formed. At this time, the bypass duct 40, the partition 50, the passage hole 51, and the damper 55, which are the components for the outdoor air bypass, are installed in the second bypass duct, the second partition, And the second damper, and the actions and effects of the respective components will be handled as they are.

The ventilator according to the present invention is characterized in that the outdoor air introduced through the outdoor air intake port 11 flows into the indoor air flowing through the indoor intake port 12 and the outdoor air flows through the indoor discharge port 13 after the heat exchange in the total heat- And the room air is discharged to the outside through the outdoor outlet 14. The room outlet 13 is provided with a fragrance storage 30 and the fragrance storage 30 stores the fragrance A case 31 capable of accommodating the case 31; A cover 32 formed on the front surface of the case 31; And an opening 33 formed on the upper surface of the case 31 and connected to the indoor discharge port 13. The air discharge port 33 is connected to the indoor discharge port 13 by the pressure drop of the outdoor air passing through the indoor discharge port 13, The fragrance is supplied to the room together with outdoor air through the open mouth 33.

The operation of the ventilator according to the present invention will now be described.

When the damper 55 rotates to open the through hole 51 by a motor (not shown), the bypass duct 40 is closed and outdoor air introduced through the outdoor air inlet 11 by the air blowing fan is subjected to total heat exchange The room air is discharged through the room outlet 13 through the first surface 21 and the third surface 23 of the unit 20 and the room air introduced through the room air inlet 12 by the air blowing fan is discharged through the room heat- Is discharged out of the room through the outdoor outlet (14) through the second surface (22) and the fourth surface (24). At this time, even if the distance between the partition wall 50 and the first surface 21 is short, the outdoor air is blown out by the front heat exchange portion 20 And the outdoor air and the room air are vertically spaced apart from each other in the total heat-exchanging portion 20 and effectively heat-exchanged while intersecting at right angles.

When the damper 55 is rotated by the motor (not shown) to close the through hole 51, the bypass duct 40 is opened, and outdoor air introduced through the outdoor air inlet 11 by the air blowing fan is subjected to total heat exchange Passes through the bypass duct (40) without passing through the partition (20), and is discharged to the room through the indoor discharge port (13). At this time, the damper 55 inclined forwardly upwardly guides the outdoor air to the bypass duct 40 while smoothly increasing the flow rate of the outdoor air, so that the outdoor air does not pass through the total heat-exchanging portion 20 Not heat exchanging with air) is much more economical when considering energy efficiency and flow resistance. The indoor air introduced through the indoor intake port 12 by the blowing fan is discharged to the outside through the outdoor outlet 14 through the second surface 22 and the fourth surface 24 of the total heat exchange portion 20 The indoor air flowing through the indoor air intake port 12 through the air blowing fan passes through the second bypass duct without passing through the total heat-exchanging portion 20, and the outdoor air discharged from the outdoor air outlet 14 It may be discharged outdoors.

The perfume fragrance or the anion is mixed with the outdoor air through the opening port 33 due to the pressure drop due to the flow rate of the outdoor air passing through the indoor discharge port 13 after passing through the total heat exchange portion 20 or the bypass duct 40 And supplied to the room. At this time, by regulating lever 35 moving counterclockwise or clockwise to open or close opening opening 33, the amount of aromatic fragrance or anion supplied to the room can be easily adjusted.

The above description is merely illustrative of the technical idea of the present invention, and various modifications and changes may be made without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention belongs. Therefore, the embodiments disclosed in the present invention are not intended to limit the scope of the present invention but to limit the scope of the technical idea of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of the claims should be construed as being included in the scope of the present invention.

10: upper frame 11: outdoor air intake port
12: indoor intake port 13: indoor outlet
14: Outside outlet 16: Replacement cover
19: Lower frame 20: Total heat exchanging part
21: first side 22: second side
23: third surface 24: fourth surface
26: handle 29: filter
30: Perfume storage device 31: Case
32: Cover 33:
35: control lever 36:
39: Connector 40: Bypass duct
50: partition wall 51: through hole
55: Damper

Claims (3)

The outdoor air introduced through the outdoor air intake port 11 is heat-exchanged with the indoor air introduced through the indoor intake port 12 in the total heat-exchanging section 20, and then the outdoor air is discharged to the room through the indoor discharge port 13, Wherein the indoor air is discharged to the outside through an outdoor outlet (14)
A partition wall 50 is formed between the outdoor air inlet 11 and the first surface 21 of the total heat-exchanging portion 20, A through hole 51 is formed in the partition wall 50 and a damper 55 is formed to be rotatable below the through hole 51. When the damper 55 closes the through hole 51, The outdoor air passes through the outdoor air intake port 11 and the bypass duct 40 without passing through the total heat exchange portion 20 and is discharged to the room through the indoor discharge port 13. The damper 55 is passed through the through hole The bypass duct 40 is closed so that the outdoor air is discharged to the room through the indoor heat exchanger 20 through the indoor exhaust port 13,
The partition 50 is convexly bent forward,
When the damper 55 closes the passage hole 51, the damper 55 is inclined forward and upward so that the damper 55 guides the outdoor air to the bypass duct 40, The damper 55 is inclined forward and downward when the damper 55 opens the passage hole 51 so that the damper 55 can move the outdoor air to the first surface 21 of the total heat- Wherein the ventilation device guides the ventilation device.
The method according to claim 1,
A second bypass duct is formed in the lower portion of the bypass duct 40 and a second partition is formed between the indoor inlet port 12 and the second surface 22 of the total enthalpy heat exchanging portion 20, And a second damper rotatable on the lower side of the second passage hole is formed. When the outdoor air passes through the bypass duct (40), the indoor air passes through the second bypass duct Wherein the ventilation passage passes through the ventilation passage.
3. The method according to claim 1 or 2,
An upper frame 10 and a lower frame 19 on which the outdoor air intake port 11, the indoor air intake port 12, the indoor discharge port 13 and the outdoor discharge port 14 are formed, A heat insulating material (18) is formed on the inner surface of the frame (19)
The upper frame 10 is provided with a replacement cover 16 which can be opened to replace the total heat exchange portion 20 and a handle 26 is formed on the upper surface of the total heat exchange portion 20 Ventilation system.

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