KR101074229B1 - A ventilation system for heat exchange - Google Patents

Abstract

The present invention relates to a complex electrothermal exchange ventilator, and more specifically, it has an appropriate temperature and humidity, but cleans up indoor air to be exhausted due to pollution, and then supplies it back to the room to maximize energy efficiency. It is to get ventilation. That is, a case having an intake port, an exhaust port, an air supply port, a discharge port, an intake, exhaust duct, intake and exhaust space; A total heat exchanger and a filter installed in the case; It is composed of the intake and exhaust fan in the case, the inlet space in the case has a re-entry is formed with a re-inlet space connected to the outlet of the exhaust fan is in communication with the exhaust port, the exhaust port and the re-inlet In the conventional hybrid electrothermal exchange ventilator, which is configured to selectively block any one of the inlets as necessary, and a small ion generating device is installed in the exhaust space in the case, the reflow space is an intake space in the case. It is formed by a diaphragm formed in the rear outer corner, connecting the discharge portion of the exhaust fan to the through-hole in the center of the diaphragm, and the exhaust port and the re-inlet opening communicating with the re-entry space is arranged in a right direction to form a blocking means therebetween. The membrane is formed in a plate shape to rotate at right angles.

Heat exchanger, Reflow, Membrane means, Ion generator, Filter

Description

A ventilation system for heat exchange

The present invention enables to resupply the indoor air having a predetermined temperature and humidity without exhausting it to the outside, and also a complex heat transfer to sterilize and deodorize the outdoor air and the re-introduced indoor air (hereinafter referred to as "purification"). It relates to an exchange ventilation device.

In general, air in enclosed spaces (offices, homes, schools, etc.) is contaminated by resident's breathing, resident activity, and volatile organic compounds generated from building interior materials. Should give. At this time, the ventilation device is used.

The ventilator exhausts contaminated indoor air to the outside and at the same time supplies the outdoor air to the indoor. Most ventilators are equipped with a total heat exchanger. The above heat exchanger allows heat exchange when indoor air and outdoor air are supplied and exhausted, so that the temperature and humidity of outdoor air can be as close as possible to the temperature and humidity of indoor air. It is. As such, a ventilation device incorporating a total heat exchanger is called a complex total heat exchange ventilation device, and this device is a known technology.

Conventional hybrid electrothermal exchange ventilators (hereinafter referred to as conventional ventilation units) are provided with a heat exchanger, an indoor air exhaust fan, an outdoor air intake fan in a case, and an indoor air outlet and an exhaust port, an outdoor air intake port, The air supply port is formed. Ventilation action is driven by the exhaust fan and the suction fan, the outside air is supplied to the room through the inlet-heat exchanger-air supply in sequence, and the indoor air is discharged to the outside through the outlet, the heat exchanger- exhaust.

However, the conventional ventilation device can achieve its primitive purpose (electric heat exchange ventilation), but it cannot clean the outdoor air containing various harmful substances before supplying it to the room, resulting in deterioration of the ventilation.

On the other hand, the conventional ventilator has a problem of low energy efficiency for maintaining the temperature and humidity of the indoor air because it exhausts the indoor air with a predetermined temperature and humidity as it is.

The present invention has been invented to solve the problems appearing in the conventional ventilation apparatus, and the present invention has an object to increase the edge efficiency by allowing the indoor air to be exhausted back to the room.

In addition, an object of the present invention is to purify the outdoor air to be supplied and the indoor air to be re-introduced and then supplied to the room to achieve a purification effect of the indoor air.

Complex electrothermal exchange ventilator according to the present invention, the inlet, exhaust port, air supply, discharge port, intake, exhaust duct, intake, exhaust space and the case; A total heat exchanger and a filter installed in the case; The intake and exhaust fan is installed in the intake, exhaust space in the case, the intake space in the case has a re-inlet and a re-inlet space connected to the exhaust of the exhaust fan is formed to communicate with the exhaust port, In the conventional combined heat transfer ventilator having a clogging means for selectively blocking any one of an exhaust port and a re-inlet port as necessary, and a small ion generating device is installed in the exhaust space of the case. The inflow space is formed by a diaphragm formed at the rear outer edge of the intake space in the case, connects the exhaust part of the exhaust fan to the through hole in the center of the diaphragm, and arranges an exhaust port and a reinflow port communicating with the reflow space at right angles. It constitutes a blocking means in between, characterized in that the blocking means is formed in a plate shape so as to rotate at right angles. Will.

The present invention purifies the indoor air, which has an appropriate temperature and humidity but is contaminated, to be exhausted to the outside with an ion generator installed in the exhaust space, and then supplies it back to the room through the reinflow space configured in the intake space. Therefore, the energy efficiency is maximized.

The present invention achieves the exhaust or re-introduced by the operation of the membrane means installed in the re-inlet space contaminated indoor air has an effect that can easily facilitate the exhaust or re-inlet action according to the pollution degree of the indoor air.

Referring to the preferred embodiment of the present invention.

In the hybrid electrothermal exchange ventilator according to the present invention, an exhaust duct 12 and an intake space 14 which communicate with the exhaust hole 111 of the partition 11 above and below one side of the central partition 11 are formed in the center. An intake duct 13 and an exhaust space 16 communicating with the intake hole 112 of the partition wall are formed above and below the other side of the partition 11, and the inlet port 141 and the exhaust port 142 are formed before and after the outer surface of the intake space 14. A case 10 having a discharge opening 161 and an air supply 162 formed before and after an outer surface of the exhaust space 16; A lozenge heat exchanger (40) installed through the central partition (11) of the case (10) to isolate the exhaust duct (12) and the intake duct (13) and the intake space (14) and the exhaust space (16); A filter (50) installed between the exhaust duct (12) and the intake space (14) and the total heat exchanger (40) in the case (10); As the suction part 21 is connected to the exhaust hole 111 which communicates the exhaust duct 12 and the intake space 14 in the case 10, the discharge part 22 is re-introduced behind the intake space 14. An exhaust fan 20 connected to the space 15; An intake fan 31 is connected to the intake hole 112 that communicates the intake duct 13 and the exhaust space 16 in the case 10, and the discharge unit 32 is connected to the air supply 162. 30, the reflow space 15 of the intake space 14 is in communication with the exhaust port 142, any one of the exhaust port 142 and the re-inlet 153 in the reflow space (15) It constitutes a membrane means 154 for selectively closing as needed, the small ion generating device 60 using a ceramic plate is installed in the exhaust space 16 in the case (the ion generating device is installed in close proximity to the discharge port) Ideally).

The reflow space 15 is formed by a diaphragm 151 formed at a rear outer edge of the intake space 14 in the case 10, and an exhaust fan 20 in the through hole 152 in the center of the diaphragm 151. Discharge portion 22 is connected. In addition, an exhaust port 142 and a reflow port 153 communicating with the reflow space 15 are arranged in a right angle direction, and a blocking means 154 is formed therebetween. The blocking means 154 is formed in a plate shape so as to rotate at right angles to the motor 155 to selectively block the exhaust port 142 and the re-inlet 153.

According to the present invention, when the intake and exhaust fans 20 and 30 are operated for the ventilation of the indoor air, the outdoor air is the intake port 141, the filter 50, the heat exchanger 40, and the intake duct 13. , The air supply 162 is sequentially supplied to the room and the indoor air is discharged from the outlet 161, the total heat exchanger 40, the filter 50, the exhaust duct 12, the reflow space 15, and the exhaust port 142. ) Exhausted out of the room.

In this case, the indoor air may be purified by operating the ion generator 60 installed in the exhaust space 16. The indoor air may be exhausted or reintroduced as it is, depending on the degree of purification by the ion generator. have. That is, even if the emitted indoor air is purified by the ion generating device 60, if it is difficult to reuse for indoor use, the refilling inlet 153 of the refilling space 15 is blocked by the blocking means 154 to the exhaust outlet 142. If the discharged indoor air is purified by the ion generating device 60, and if it can be reused, the exhaust port 142 is blocked by the blocking means 154, and then supplied again to the room through the re-inlet 153.

In the above, the blocking means 154 for selectively closing the exhaust port 142 and the re-inlet 153 according to the degree of purification of indoor air is installed in the exhaust space 16 together with the ion generating device 60 (contamination measuring device (not shown). Or not-it is preferable to use a gas sense and a dust sense). In other words, if the pollution level of the emitted indoor air is more than the reference value when the pollution meter is used, the signal is transmitted to the motor 155 so that the blocking means 154 closes the inlet 153, and conversely, the released indoor air. If the pollution degree is less than the reference value, the blocking means 154 closing the reflow port 153 may close the exhaust port 142 while opening the reflow port 153 to induce re-introduction of indoor air through the reflow port 153. I would have to. This operation is controlled by the interlock algorithm of the contamination meter and the motor 155.

On the other hand, if the plasma discharge device 70 using the ceramic plate is installed in the intake space 14 in the case 10, the outdoor air taken into the intake port 141 can be purified before being supplied to the room, thereby providing clean outdoor air. It can be supplied to the room, the plasma discharge device 70 is preferably installed in close proximity to the inlet 141.

Although the embodiments of the present invention have been described above, those skilled in the art will understand that the present invention can be variously modified and changed without departing from the spirit and scope described in the claims of the present invention. .

1 is a cross-sectional view showing the configuration of the present invention

Figure 2 is a schematic cross-sectional view of Figure 1

3 is an enlarged view illustrating main parts of the present invention.

   Explanation of symbols on important parts of drawing

10 case 11 bulkhead

111: exhaust hole 112: intake hole

12: exhaust duct 13: intake duct

14: intake space 141: intake vent

142: exhaust port 15: re-entry space

151: plate 152: through hole

153: re-entry 154: blocking means

155 motor 16 exhaust space

161: discharge port 162: air supply

20: exhaust fan 30: intake fan

21, 31: suction part 22, 32: discharge part

40: total heat exchanger 50: filter

60: ion generator 70: plasma discharge device

Claims (5)

delete A case 10 having an inlet 141, an exhaust 142, an air inlet 162, an outlet 161, intake and exhaust ducts 12 and 13, and intake and exhaust spaces 14 and 16. ; A total heat exchanger (40) and a filter (50) installed in the case (10); Intake and exhaust fan 20, 30 is installed in the intake, exhaust space 14, 16 in the case 10, the re-inlet 153 in a part of the intake space 14 in the case 10 And a reflow space 15 is formed to be connected to the discharge portion 22 of the exhaust fan 20 and communicates with the exhaust port 142, the exhaust port 142 and the reflow port in the reflow space (15) A membrane complex means 154 for selectively blocking any one of the 153 as necessary, and the exhaust space 16 in the case 10 is a conventional hybrid electrothermal exchange, in which a small ion generating device 60 is installed. In the ventilation system, The reflow space 15 is formed of a diaphragm 151 formed at the rear outer edge of the intake space 14 in the case 10, and the exhaust fan 20 is formed in the through hole 152 in the center of the diaphragm 151. The outlet 22 is connected, and the outlet 142 and the outlet 153 communicating with the reflow space 15 are arranged in a right angle to form a blocking means 154 therebetween, wherein the blocking means is formed therebetween. 154 is a plate-type composite heat exchange ventilator, characterized in that to rotate at right angles. delete The method according to claim 2, wherein the blocking means (154) of the refill space (15) can be operated by the motor (155), and the motor (155) is in accordance with a signal of a pollution measuring device installed in the exhaust space (16). Combined heat transfer ventilation apparatus characterized in that it can be operated. delete

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