KR100753975B1 - Apparatus for the stand type heat exchange ventilating which has an midterm part suction structure - Google Patents

Abstract

A stand type heat exchange ventilating apparatus is provided to improve the ventilating efficiency by arranging a suction part for sucking polluted indoor air in at an intermediate part of a case corresponding to a breath line of a human body, and forming an outlet part discharging fresh outdoor air at an upper part of the case. A case(1) has an indoor air suction part at the intermediate part, an outdoor outlet at the upper part, and an upper space part and a heat exchange chamber. A heat exchanger(5) is installed under the indoor air suction part in a horizontal direction, and has an indoor air inlet side, an indoor air outlet side, an outdoor air inlet side, and an outdoor air outlet side, wherein the indoor air inlet side is opposite to the indoor air suction part. The heat exchange chamber is divided into an indoor air inlet space, an indoor air outlet space, an outdoor air inlet space, and an outdoor air outlet space by an upper vertical diaphragm, a lower vertical diaphragm, a front horizontal diaphragm, and a rear horizontal diaphragm. An outdoor air supply fan(32) is installed in the outdoor air outlet space for sucking outdoor air in and discharging the outdoor air into a room. An indoor air exhaust fan(46) is installed in the indoor air outlet space for sucking indoor air in and discharging the indoor air to the outside.

Description

Stand type heat exchange ventilator with suction structure in the middle part {APPARATUS FOR THE STAND TYPE HEAT EXCHANGE VENTILATING WHICH HAS AN MIDTERM PART SUCTION STRUCTURE}

1 is a perspective view of a stand-type heat exchange ventilator having an intermediate suction structure according to an embodiment of the present invention.

2 is a cross-sectional view taken along the line AA ′ of FIG. 1.

Figure 3 is a perspective view of a stand type heat exchange ventilator having an intermediate suction structure according to another embodiment of the present invention.

Figure 4 is a perspective view of a stand type heat exchange ventilator having an intermediate suction structure according to another embodiment of the present invention.

Figure 5 is a cross-sectional view showing the air flow of the stand-type heat exchange ventilator having an intermediate suction structure of the present invention.

Figure 6 is a perspective view showing an example of a ventilation device with a heat exchanger according to the prior art.

7 is a cross-sectional view of FIG. 6.

<Description of the symbols for the main parts of the drawings>

1: case

2: partition plate

3: upper space part

    31: outdoor air outlet

    32: outdoor air supply fan

    33: guide plate

4: heat exchange chamber

    41: indoor air inflow space 42: indoor air outlet space

    43: outdoor air inlet space 44: outdoor air outlet space

    45: indoor air intake 46: indoor air exhaust fan

    461: indoor air outlet

    47a: upper vertical plate 47b: lower vertical plate

    47c: front horizontal diaphragm 47d: rear horizontal diaphragm

    48: outdoor air supply pipe 481: outdoor air inlet

5: heat exchanger

    51: indoor air inlet surface 52: outdoor air outlet surface

    53: outdoor air inlet surface 54: indoor air outlet surface

6: absorbing member

The present invention relates to a heat exchange ventilator, and more particularly, an intake portion for sucking contaminated air in a room is disposed on a breathing line of a human body, and an outlet portion for outflowing fresh air from the outside is formed on an upper portion thereof. The present invention relates to a stand-type heat exchange ventilator having an intermediate suction structure for efficient indoor air suction.

In general, the ventilation device is a device for ventilating indoor air by letting out indoor polluted air to outside and introducing fresh air into the room at home, office, or restaurant.

In the process of leaking indoor air to the outside by using the ventilation device and inhaling the outdoor air into the room, heat loss occurs due to a difference in temperature and humidity between the indoor and outdoor areas, causing a waste of energy.

In other words, the indoor polluted air cooled by an air conditioner such as an air conditioner is leaked to the outside in the summer, and the outdoor hot and fresh air is introduced into the indoor air to ventilate. The lowering of the cooling efficiency causes an increase in energy use for increasing the cooling efficiency.

In addition, in winter, indoor polluted air heated by a heating device, such as a boiler, is leaked to the outside, and cold and fresh air is introduced into the room to be ventilated. Since the heating efficiency is lowered, the amount of energy used for heating is increased.

Accordingly, in order to minimize heat loss caused by the difference in temperature or humidity during the ventilation process, a ventilation device having a heat exchanger for exchanging heat between indoor air being sucked and outdoor air being sucked has been proposed.

Figure 6 is a perspective view showing an example of a ventilation device having a heat exchanger according to the prior art, Figure 7 is a cross-sectional view of Figure 6, the conventional heat exchanger in one side the outdoor air intake hole 100 and the indoor air outlet 500 Is formed and the case 100 having the indoor air suction hole 300 and the outdoor air outlet hole 400 formed on the other side, and the heat exchanger 900 for heat exchange between the indoor air and the outdoor air, An air supply fan 800 for supplying the outdoor air to the indoor and the exhaust fan 700 for allowing the heat exchanged indoor air to flow to the outside.

According to this configuration, the outdoor air sucked through the outdoor air suction hole 100 is heat-exchanged through the total heat exchanger 900 and then supplied to the room through the outdoor air outlet hole 400 by driving the air supply fan, and indoors. The indoor air sucked through the air suction hole 300 is heat-exchanged through the total heat exchanger 900 and then flows to the outside through the indoor air outlet 500.

By the way, such a conventional ventilation device equipped with a heat exchanger is typically installed on the ceiling, and connected to a separate duct facility.

As such, the conventional ventilation device has a disadvantage in that the installation is complicated and expensive as it is installed together with a separate duct facility.

In addition, since the polluted air discharged through human breathing is heavy, the ceiling-mounted ventilator does not effectively suck and exhaust the polluted indoor air, which prevents smooth ventilation of the indoor air. There was a problem of this deterioration.

The present invention is to solve the problem according to the prior art, an object of the present invention is to place the intake portion inhaling the indoor air polluted in the middle of the case on the breathing line of the human body, fresh outdoor air flows into the room By providing an outlet to the upper portion of the case, to provide a stand-type heat exchange ventilator having an intermediate portion suction structure to effectively suck and discharge the contaminated indoor air.

In addition, the present invention is configured to allow the indoor air outlet and the outdoor air intake hole to penetrate the wall to directly exhaust the indoor air and directly suck the outdoor air without a separate duct facility, so that the installation is easy and the cost required for the duct facility An object of the present invention is to provide a stand-type heat exchange ventilator having an intermediate suction structure that can be saved.

The stand-type heat exchange ventilator having the middle portion suction structure of the present invention for solving the above technical problem is to suck the outdoor air into the room and to suck out the indoor air to flow out to the outside and heat exchange between the outdoor air and the indoor air is made A ventilator having a heat exchanger to be provided, comprising: a case in which an indoor air suction part is formed in an intermediate part, an outdoor air outlet part is formed in an upper part, and an inner space part is partitioned to form an upper space part and a heat exchange chamber, and the indoor part of the heat exchange chamber. It is provided in the transverse direction below the air inlet and the indoor air inlet surface, the indoor air outlet surface, the outdoor air inlet surface and the outdoor air outlet surface are formed so that the indoor air inlet surface is disposed to have an inclination angle with the indoor air intake portion Heat exchanger, the upper vertical plate, the lower vertical space around the heat exchanger The heat exchange chamber partitioned into an indoor air inlet space, an indoor air outlet space, an outdoor air inlet space, and an outdoor air outlet space by a front horizontal diaphragm and a rear horizontal diaphragm; And an indoor air supply fan configured to be provided in the indoor air outlet space, and an indoor air exhaust fan configured to intake the indoor air to flow out to the outside.

In the stand-type heat exchange ventilator having the middle part suction structure of the present invention, the indoor air outlet space at the bottom of the case side is provided with an outdoor air suction hole through which the outdoor air is sucked through the outdoor air supply fan and the indoor air exhaust fan. An indoor air outlet hole through which indoor air is discharged is formed, and the outdoor air suction hole communicates with the outdoor air inlet space through an outdoor air supply pipe passing through the lower vertical diaphragm.

In the stand type heat exchange ventilator having the middle part suction structure of the present invention, the outdoor air outlet part and the indoor air suction part are provided on the side of the case.

The upper space portion is further provided with a guide plate having a curved surface so as to smoothly outflow the air into the room.

The invention will become more apparent through the preferred embodiments described below with reference to the accompanying drawings. Hereinafter will be described in detail to enable those skilled in the art to easily understand and reproduce through embodiments of the present invention.

1 is a perspective view of a stand type heat exchange ventilator having an intermediate suction structure according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view taken along line A-A 'of FIG. And a heat exchanger having a heat exchanger configured to suck out indoor air and suck out indoor air to the outside, and to perform heat exchange between outdoor air and indoor air, the case 1 and a heat exchanger 5 provided inside the case. And an outdoor air supply fan 32 and an indoor air exhaust fan 46.

The case 1 is divided into an upper space part 3 and a heat exchange chamber 4 by an inner space part partitioned through the partition plate 2.

In addition, an indoor air suction unit 45 is formed in the middle of the front surface of the case 1 in which contaminated air in the room is sucked into the case 1, and outdoor air in which fresh outdoor air flows out into the interior of the front surface of the case 1. The outlet part 31 is formed.

In other words, the outdoor air outlet 31 is formed in the upper space 3, and the indoor air intake 45 is formed in the heat exchange chamber 4.

The heat exchanger 5 is provided in the transverse direction below the indoor air intake 45 of the heat exchange chamber 4.

The heat exchanger 5 has an indoor air inlet 51, an indoor air outlet 54, an outdoor air inlet 53, and an outdoor air outlet 52, which flows into the heat exchanger 5. The heat exchange between the outdoor air and the indoor air is to be made, the heat exchange chamber (4) so that the indoor air inlet surface 51 of the heat exchanger (5) is opposed to the indoor air intake portion (45) to have an inclination angle. ) Is placed inside.

At this time, the heat exchange chamber 4 is divided into the front and rear by the upper plate 47a and the lower plate 47b which are provided vertically on the upper and lower portions of the heat exchanger 5.

The heat exchange chamber 4 is divided up and down by the front horizontal diaphragm 47c and the rear vertical diaphragm 47d which are horizontally provided before and after the heat exchanger 5.

Accordingly, the inside of the heat exchange chamber 4 is based on the heat exchanger 5, the indoor air inlet space 41, the indoor air outlet space 42, the outdoor air inlet space 43 and the outdoor air outlet space ( 44), the outdoor air and the indoor air inside the heat exchange chamber are not mixed with each other.

On the other hand, the upper end of the heat exchange chamber (4), that is, the outdoor air outlet space (44) is provided with an outdoor air supply fan 32 to intake outdoor air to flow out into the room, the lower end of the heat exchange chamber (4) The air outlet space 42 is provided with an indoor air exhaust fan 46 that sucks indoor air and flows it out.

At this time, the outdoor air supply fan 32 is provided to penetrate the partition plate 2.

In addition, an outdoor air suction hole 481 is formed at a lower side of the side surface of the case 1 so that outdoor air can be sucked by the outdoor air supply fan 32.

Here, the lower vertical diaphragm may be introduced into the indoor air outlet space 42 at the lower rear side of the case 1 so that outdoor air sucked through the outdoor air suction hole 481 may enter the outdoor air inlet space 43. An outdoor air supply pipe 48 connected to the outdoor air inflow space 43 through 47b) is installed.

In addition, an indoor air outlet hole 461 is disposed at a lower side of the side surface of the case 1 so that indoor air flowing into the indoor air outlet space 42 by the driving of the indoor air exhaust fan 46 may flow out to the outside. Is formed.

On the other hand, the lower portion of the heat exchanger (5) absorbs condensation water generated on the surface of the heat exchanger (5) by the condensation phenomenon by the capillary action to absorb through the indoor air outlet hole (461) (6) ) Is provided.

At this time, the absorbing member 6 is connected to one side of the polymer absorbent and the polymer absorbent gelled in the powder state by the water is bonded to the polymer structure consisting of the cross-linked by the ionic action when absorbing the moisture absorbs the water through the capillary action It may be made of fine fiber bundles.

Accordingly, the condensation water absorbed from the lower portion of the total heat exchanger 5 is sucked toward the indoor air outlet hole 461 through the capillary phenomenon, and is discharged by the indoor air discharged by the indoor air exhaust fan 46. Evaporated and discharged to the outside, it is possible to remove the condensation water generated by the heat exchange action of the total heat exchanger.

As described above, in the stand type heat exchange ventilator having the middle part suction structure of the present invention, the indoor air outlet hole and the outdoor air suction hole are formed at the lower side of the case, and are provided through the wall so that the indoor and outdoor air can be removed without any additional duct facilities. Ventilation can reduce the cost of duct installations and improve installation efficiency.

3 is a perspective view illustrating a stand type heat exchange ventilator having an intermediate part suction structure according to another exemplary embodiment of the present invention, and the same configuration as that of the exemplary embodiment of the present invention and a detailed description thereof will be omitted.

1 to 3, in the stand type heat exchange ventilator having an intermediate part suction structure according to another exemplary embodiment of the present invention, an outdoor air outlet 31 for flowing outdoor air into an indoor part is formed on an upper side surface thereof. You can make sure that fresh air from outside is not emitted directly to people staying indoors.

4 is a perspective view illustrating a stand type heat exchange ventilator having an intermediate part suction structure according to another exemplary embodiment of the present invention, and the same configuration as that of the exemplary embodiment of the present invention and a detailed description thereof will be omitted.

1, 2 and 4, in the stand type heat exchange ventilator having an intermediate part suction structure according to another embodiment of the present invention, the upper space part 3 of the room smoothly discharges air into the room. The curved guide plate 33 having an inclination angle is further provided.

As a result, the fresh air introduced from the outside and heat-exchanged smoothly flows out into the room, thereby making it possible to efficiently purify the indoor air, thereby maintaining a comfortable indoor environment.

Hereinafter, with reference to Figure 5 to explain the operation of the stand-type heat exchange ventilator having an intermediate suction structure according to the embodiments of the present invention.

First, when the outdoor air supply fan 32 and the indoor air exhaust fan 46 are driven, fresh outdoor air is sucked through the outdoor air intake hole 481, and then the heat exchanger 5 is opened through the outdoor air inflow surface 53. ) Is introduced into the inside, and the indoor air sucked through the indoor air inlet 45 is introduced into the heat exchanger 5 through the indoor air inlet 51.

After mutual heat exchange between the introduced outdoor air and indoor air is performed, the outdoor air flows out through the outdoor air outlet surface 52, and the indoor air flows out of the heat exchanger 5 through the indoor air outlet surface 54, respectively. do.

Then, the air flowing out through the outdoor air outlet surface 52 flows out into the upper space part 3 by the driving of the outdoor air supply fan 32 and then flows out into the room through the outdoor air outlet part 31, The air flowing out through the indoor air outlet surface 54 flows out through the indoor air outlet hole 461 by the driving of the indoor air exhaust fan 46.

At this time, when the guide plate 33 is further provided in the upper space portion 3, as shown in Figure 4 according to an embodiment of the present invention by forming the air flow path to the outdoor air outlet by the inclination angle of the guide Fresh outdoor air supplied to the air supply fan 32 is easily leaked into the room.

In addition, according to the embodiment of the present invention, as shown in FIG. 3, the outdoor air outlet 31 is formed on the upper side of the case 1, thereby preventing the wind from being directly supplied to the person staying indoors. You can do it.

In this way, indoor air is purified as fresh air is indoors and polluted air is flowed out indoors after the indoor indoor air and fresh outdoor air are heat-exchanged inside the heat exchanger. .

As described above, the present invention is disposed in the middle of the case that is inhaled in the human body breathing air intake of the indoor air, and the outflow portion for flowing fresh outdoor air into the room formed on the upper portion of the case is heavy and contaminated By efficiently inhaling and exhausting the compressed air through the suction unit on the human breathing line, there is an advantage of improving the indoor polluted air ventilation efficiency to create a comfortable indoor environment.

In addition, the present invention is configured to allow the indoor air outlet and the outdoor air suction hole to penetrate the wall to directly exhaust the indoor air and directly suck the outdoor air without a separate duct facility, it is easy to install and improve the installation efficiency And there is an advantage to reduce the cost of the duct equipment.

Although the present invention has been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that many different and obvious modifications are possible without departing from the scope of the invention from this description. Therefore, the scope of the invention should be construed by the claims described to include many such variations.

Claims (5)

A ventilator having a heat exchanger that sucks outdoor air and flows out to a room, and sucks indoor air and flows out, and heat exchange is performed between the outdoor air and the indoor air. A case (1) in which an indoor air inlet (45) is formed in an intermediate portion, an outdoor air outlet (31) is formed in an upper portion, and an inner space is partitioned so that an upper space (3) and a heat exchange chamber (4) are formed; It is provided in the transverse direction below the indoor air inlet 45 of the heat exchange chamber 4, the indoor air inlet 51 and the indoor air outlet 54, the outdoor air inlet 53 and the outdoor air outlet A heat exchanger (5) formed and disposed to face the indoor air inflow surface (51) to have an inclination angle with the indoor air intake (45); An indoor air inlet space 41 and an indoor air outlet space by the upper vertical diaphragm 47a, the lower vertical diaphragm 47b, the front horizontal diaphragm 47c, and the rear horizontal diaphragm 47d around the heat exchanger 5. (42), the heat exchange chamber (4) partitioned into an outdoor air inlet space (43) and an outdoor air outlet space (44); An outdoor air supply fan 32 provided in the outdoor air outlet space 44 to intake outdoor air and to flow out into the room; Stand-up heat exchange ventilator having an intermediate portion suction structure, characterized in that it comprises an indoor air exhaust fan (46) provided in the indoor air outlet space (42) to intake indoor air and outflow. The method of claim 1, The indoor air outlet space 42 at the lower side of the case 1 is connected to the indoor air intake hole 481 and the indoor air exhaust fan 46 through which the outdoor air is sucked through the outdoor air supply fan 32. An indoor air outlet hole 461 through which indoor air is discharged is formed, and the outdoor air suction hole 481 is connected to the outdoor air inlet space 43 through an outdoor air supply pipe 48 that passes through the lower vertical diaphragm 47b. Stand-type heat exchange ventilator having an intermediate suction structure, characterized in that the communication. The method of claim 2, In the lower part of the heat exchanger (5) absorbing member (6) absorbing the condensation water generated on the surface of the heat exchanger (5) by the condensation by capillary action and discharged through the indoor air outlet hole (461) Stand type heat exchange ventilator having an intermediate suction structure, characterized in that further provided. The method of claim 1, The outdoor air outlet 31 and the indoor air inlet 45 is a stand-type heat exchange ventilator having an intermediate portion suction structure, characterized in that provided on the side of the case. The method according to any one of claims 1 to 4, The upper space portion (3) is a stand-type heat exchange ventilator having an intermediate portion suction structure, characterized in that the guide plate 33 having a curved surface to further facilitate the air flow into the room is further provided.

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