KR200489340Y1 - Heat exchange type ventilator - Google Patents

Abstract

A bypass type heat exchange ventilator according to the present invention is characterized in that a bypass cover is provided in a horizontal direction inside thereof and its internal space is partitioned into a heat exchange channel on the upper side thereof and a bypass channel on the lower side thereof, An indoor air suction port formed on an indoor side surface of the case, an outdoor air discharge port, a chamber provided in the case, and an air suction port provided in the chamber, And a flow path switching damper for allowing the outside air suction port and the heat exchange flow path to selectively communicate with the viscous flow path by changing the arrangement angle.
The chamber is bent downward from the outside air intake port so as to communicate with the bypass flow path, and the flow path switching damper is configured to be rotated up and down, and the chamber has a step portion supporting one surface of the flow path switching damper .
The bypass type heat exchange ventilator according to the present invention includes a heating means for selectively heating the outside air flowing into the chamber.
The heating means is composed of a heater which is provided at the rear of the chamber to be in contact with the outside air introduced into the chamber and generates heat by electric power supply, and the heater is supported by a support bracket attached to the upper end of the chamber.
The chamber may be configured to connect the exhaust suction port with the heat exchange passage and the bypass passage in the case.
According to such a bypass type heat exchange ventilator according to the present invention, since the flow resistance of the outside air flowing from the outside air intake port to the bypass flow path does not largely occur, ventilation efficiency is not lowered and the arrangement angle of the flow path switching damper is stable The air leakage between the heat exchange channel and the bypass channel does not occur. Thus, there is an advantage that stability in switching between the heat exchange mode and the bypass mode is improved.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a heat exchange type ventilator,

The present invention relates to a bypass type heat exchange ventilator in which a heat exchange mode and a bypass mode are selectively switched by providing a bypass flow path.

In general, various types of ventilation devices have been used to discharge polluted air from the indoor space to the outside and to supply fresh air to the room from the outside.

Meanwhile, in the summer and winter season, when the temperature difference between indoor and outdoor is large, it is common to operate cooling and heating to maintain a comfortable temperature of the indoor space. When the outdoor air is directly introduced into the room by the ventilator, The efficiency of the cooling and heating is lowered, so that the waste of energy is considered to be severe.

In order to reduce this problem to some extent, so-called heat exchange type ventilation apparatuses are used in which the increase in the cooling / heating load due to the temperature difference is reduced by allowing heat exchange with the room air to be exhausted before the outdoor air is introduced into the room.

The conventional heat exchange type ventilating apparatus includes a case forming an internal space, an outside air suction port and an inside air discharge port provided on an outdoor side surface of the case, an outside air discharge port and an inside air suction port provided on an interior side surface of the case, A heat exchanger and a plurality of blowing fans.

Here, the meaning of the name of each port is given based on the flow of air based on the case as follows.

Inhalation: Inhalation of outside air into the case

Emission: The indoor air sucked into the case is discharged from the case to the outdoor side

Outside air discharge: The outdoor air sucked into the case is discharged from the case to the room side

Inhalation: Indoor air sucked into the case

Such a conventional heat exchange type ventilator has a configuration in which a so-called intake flow path leading from the outside air intake port to the outside air exhaust port and an exhaust flow path leading from the inside air intake port to the inside air exhaust port intersect in the case heat exchanger.

Therefore, in the season in which cooling is performed in the room as in the summer, hot air outdoors flowing into the indoor side through the intake flow path is heat-exchanged with indoor hot air discharged through the exhaust flow path to the outdoor side, Lt; / RTI >

On the other hand, in the season when the indoor heating operation is performed as in the winter season, the outdoor outdoor air flowing into the indoor side through the intake flow path is heat-exchanged with the warm air in the indoor space discharged to the outdoor side through the exhaust flow path, ≪ / RTI >

Accordingly, it is possible to reduce the heating loss by increasing the temperature of the outside air flowing into the room in the winter season, and reduce the cooling loss by lowering the temperature of the outdoor air flowing into the room in the summer.

On the other hand, since the indoor temperature is stagnated in the early spring and the late summer as compared with the outside air having a large temperature difference in the morning and evening, it is necessary to maintain a pleasant living environment by accepting the outside air intact into the room, The outdoor air and the indoor air are forcibly exchanged with each other, and thus the above-mentioned requirements can not be satisfied.

In order to solve such a problem, a so-called bypass type heat exchange ventilator having a bypass flow path has been developed.

The conventional bypass type heat exchange ventilator constitutes a bypass flow path extending from the external air suction port to the external air discharge port inside or outside the case without passing through the heat exchanger so that the outside air intake port and the bypass flow path are selectively communicated And a damper which is provided in the housing.

According to this conventional technology, the bypass mode in which the heat exchange flow path is opened and the bypass flow path is closed, the bypass mode in which the heat exchange flow path is closed and the bypass flow path is opened is selectively switched by the operation of the damper, so that forced heat exchange can be avoided do.

As an example of such a bypass type ventilator, there is Korean Patent Registration No. 10-1117523 (Example 1, applicant, Eun Sung Chemical Co., Ltd.).

According to the prior art example 1, when the bypass mode is selected, the internal air introduced into the casing of the body 44 of the bypass unit 40 through the ventilation port 15a (the air suction port) Is bent in the horizontal direction while passing through the first space 44a and the second space 44b outside the body and extends in the second space 44b to the bottom of the flow path forming portion 20 and bent again in the vertical direction.

Therefore, according to the conventional technology, when the bypass mode is selected, much resistance is generated in the flow of the indoor air discharged from the indoor side, thereby reducing the ventilation efficiency.

The present invention has been made to solve the above problems of the prior art and it is an object of the present invention to provide a bypass type heat exchange ventilator in which the flow resistance of the outside air is minimized when the bypass mode is used, .

According to an aspect of the present invention, there is provided a bypass-type heat exchange ventilator including a bypass cover disposed in a horizontal direction inside thereof, the inner space having a heat exchange channel on an upper portion thereof with respect to the bypass cover, An air inlet port formed on an inner side surface of the case, an outside air outlet port, a chamber provided in the case, And a flow path switching damper that is provided in the chamber and changes its arrangement angle so that the outside air suction port and the heat exchange flow path are selectively communicated with the bypass flow path.

The chamber is bent downward from the outside air intake port so as to communicate with the bypass flow path, and the flow path switching damper is configured to be rotated up and down, and the chamber has a step portion supporting one surface of the flow path switching damper .

The bypass type heat exchange ventilator according to the present invention includes a heating means for selectively heating the outside air flowing into the chamber.

The heating means is composed of a heater which is provided at the rear of the chamber to be in contact with the outside air introduced into the chamber and generates heat by electric power supply, and the heater is supported by a support bracket attached to the upper end of the chamber.

The chamber may be configured to connect the exhaust suction port with the heat exchange passage and the bypass passage in the case.

As described above, in the bypass type heat exchange ventilator according to the present invention, since the flow resistance of the outside air flowing from the outside air intake port to the bypass flow path does not largely occur, the ventilation efficiency is not lowered and the arrangement of the flow path switching damper The angle is stably maintained, so that there is no air leakage between the heat exchange passage and the bypass passage. Thus, there is an advantage that the stability in the use of switching between the heat exchange mode and the bypass mode is improved.

1 is a perspective view showing an internal structure of a bypass type heat exchange ventilator according to the present invention;
2 is a perspective view showing a configuration of a chamber and a flow path switching damper included in a bypass type heat exchange ventilator according to the present invention;
3A is a perspective view exemplarily showing a heat exchange mode operating state of the bypass type heat exchange ventilator according to the present invention;
3B is a cross-sectional view exemplarily showing a heat exchange mode operation state of the bypass type heat exchange ventilator according to the present invention
4A is a perspective view exemplarily showing a bypass mode operation state of the bypass type heat exchange ventilator according to the present invention;
FIG. 4B is a cross-sectional view exemplarily showing a bypass mode-operating state of the bypass-type heat exchange ventilator according to the present invention;

Hereinafter, specific details for carrying out the present invention will be described in detail with reference to the accompanying drawings 1 to 4B.

1, the bypass type heat exchange ventilator according to the present invention is provided with a bypass cover 60 in a horizontal direction inside thereof, so that an internal space is formed on the bypass cover 60, An outer air intake port 52 formed at an outdoor side surface of the case 50 and an inner air outlet port 54 formed in the case 50. The case 50 includes a case 50, An air suction port 56 formed on an inner side surface of the air discharge port 58, and an ambient air discharge port 58.

A chamber 70 is provided in the case 50 and an arrangement angle of the chamber 70 is changed in the chamber 70 as shown in FIG. 2, so that the heat exchange channel and the viscous flow channel are selectively connected to the outside air suction port And a flow path switching damper 72 communicating with the flow path switching damper 52.

More specifically, the front surface of the chamber 70 communicates with the outside air suction port 52 and the rear surface of the chamber 70 communicates with the outside air suction port 52. [ And communicates with the bypass flow path in contact with the bypass cover (60).

The channel switching damper 72 has a structure in which the upper end of the channel switching damper 72 is hingedly connected to the rear surface of the chamber 70 so as to be vertically rotated and the operation thereof is controlled by a driving motor 74 provided outside the chamber 70 .

In addition, the bypass type heat exchange ventilator according to the present invention includes heating means for selectively heating the outside air flowing into the chamber 70.

The heating means is composed of a heater 80 provided at the rear of the chamber 70 so as to be in contact with the outside air flowing into the heat exchange flow path side and generating heat by electric power supply.

The heater 80 is attached to the chamber 70 in a detachable form by being supported by a support bracket 82 attached to the upper end of the chamber 70.

The chamber 70 has a stepped portion 701 and a stepped portion 702 for supporting one side of the flow path switching damper 72 so that the flow path switching damper 72 can be opened and closed by the pressure of the outside air through the outside air suction port 52, The flow path switching damper 72 is brought into close contact with the chamber 70.

The operation of the bypass-channel-type ventilator according to the present invention constructed as described above will be described as follows.

3A and 3B, the upper end of the rear face of the chamber 70 is opened and the lower end thereof is closed by adjusting the arrangement angle of the flow path switching damper 72 to be lowered through the outside air suction port 52 The outside air to be sucked flows into the side of the heat exchange passage above the bypass cover 60.

Therefore, at this time, the outside air introduced into the case 50 is heat-exchanged through the heat exchanging element 90 with the inside of the inside of the case 50, so that a normal heat exchanging operation is performed.

4A and 4B, the lower end of the rear surface of the chamber 70 is opened and the upper end of the chamber 70 is closed by adjusting the disposition angle of the channel switching damper 72, The outside air to be sucked flows into the side of the bypass passage below the bypass cover 60.

In the bypass mode, the outside air introduced into the case 50 is supplied to the indoor side without heat exchange with the indoor air, so that unnecessary heat exchange action is not performed.

According to the present invention, due to the structural characteristics of the chamber 70, the flow resistance of the outside air flowing from the outside air intake port 52 to the bypass flow path does not significantly increase, so that the ventilation efficiency in the bypass mode does not decrease.

According to the present invention, the flow path switching damper 72 is supported by the step portions 701 and 702 formed in the chamber 70 in a state where the arrangement angle of the flow path switching damper 72 is fixed as described above Loses.

Therefore, since the flow path switching damper 72 is more closely attached to the step portions 701 and 702 as the flow pressure caused by the outside air flowing into the chamber 70 is applied to the flow path switching damper 72, the flow path switching damper 72 Is maintained more stably and air leakage between the heat exchange passage and the bypass passage does not occur.

 According to the present invention, in the heat exchange mode, when the temperature of the outside air is excessively low, such as during the coldest winter season, the heavier air introduced into the chamber 70 through the outside air intake port 52 is primarily And then the heat is supplied again to the room, so that the room temperature is prevented from being lowered due to the ventilation.

Since the heater 80 is attached to the chamber 70 in a detachable manner by being supported by the support bracket 82, the heater 80 can be easily removed by a simple method of removing the support bracket 82. [ Can be separated.

Therefore, in a region where the difference in temperature according to the season is not large, the ventilation device is constructed by using the structure excluding the heater 80, so that unnecessary wasteful energy consumption is not generated.

According to the present invention, the chamber 70 may be configured to communicate with the suction suction port 56 in the case 50 (not shown).

In this case, when the bypass mode is selected, the indoor air flowing into the case 50 from the indoor through the indoor air intake port 56 escapes to the outside through the bypass flow path without heat exchange.

Therefore, even if the outside air flowing through the outside air intake port 52 outdoors passes through the heat exchange flow path, it flows into the room without heat exchange with the room air.

50: Case 52: Outer air intake port
54: Exhaust vent port 56: Exhaust vent port
58: Outside air exhaust port 60: Bypass cover
70: chambers 701, 702:
72: flow path switching damper 74: drive motor
80: heater 82: support bracket

Claims (7)

A case in which a bypass cover is installed in a horizontal direction inside the case and the inner space is partitioned by a heat exchange channel on the upper side and a bypass channel on the lower side with respect to the bypass cover, A suction port and an exhaust port, an indoor air suction port and an outdoor air discharge port formed on an inner side surface of the case, and a chamber provided in the case, the chamber being disposed in the chamber, And a flow path switching damper for selectively allowing the viscous passages to communicate with each other, the bypass type heat exchange ventilator comprising:
The chamber is bent downward simply from the outside air suction port to communicate with the bypass flow path,
Wherein the flow path switching damper is configured to be rotated up and down,
The chamber is provided with a step portion that supports one side of the flow path switching damper so that the flow path switching damper is brought into close contact with the step portion due to the pressure of the outside air flowing into the chamber to stably maintain the angle of the flow path switching damper,
Heating means for selectively heating the outside air flowing into the chamber, the heating means being disposed in the rear of the chamber so as to be in contact with the outside air flowing into the chamber,
The heater is mounted to the chamber in a detachable manner by being supported by a support bracket attached to the top of the chamber
Wherein the heat exchanger is a heat exchanger.
delete delete delete delete delete The method according to claim 1,
And the chamber is configured to connect the exhaust suction port with the heat exchange passage and the bypass passage in the case
Wherein the heat exchanger is a heat exchanger.

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