KR102288555B1 - Multi-Function Ventilator with Integrated Drive Unit of Supply and Exhaust Fan - Google Patents

Abstract

The present invention relates to a supply and exhaust fan driving unit integrated multifunctional ventilation device, wherein an air supply fan supplying outdoor air to an indoor space and an exhaust fan discharging indoor air to an outdoor space are mounted to face each other inside a housing, the air supply fan and the exhaust fan are simultaneously connected to a rotational shaft of one driving motor, and is operated in a supply and exhaust mode of exchanging indoor air and outdoor air through operation of a damper mounted inside the housing or operated in an air purification mode supplying the filtered air to the indoor space after filtering foreign substances contained in the indoor air through a filter, thereby reducing the number of driving motors to reduce generation of an operation noise, a volume of a multifunctional ventilation device, and failure of a supply and exhaust driving unit.

Description

{Multi-Function Ventilator with Integrated Drive Unit of Supply and Exhaust Fan}

The present invention relates to a multifunctional ventilation device that is formed by integrating a supply/exhaust device to maintain indoor air cleanliness by forcibly circulating indoor and outdoor air, and more particularly, to an air supply fan for supplying outdoor air to a room; Exhaust fans are mounted to face each other inside the housing of the multi-function ventilation device, and the air supply and exhaust fans are simultaneously connected to the rotation shaft of one driving motor, and air between the indoor and outdoor spaces is removed through the operation of a damper mounted inside the housing. Operation noise due to reduced quantity of drive motor by operating in air supply/exhaust mode to exchange with each other, or by operating in air cleaning mode in which foreign substances contained in the indoor air are filtered through a filter and then the filtered air is re-supplied into the room And It relates to a multi-function ventilation device with an integrated supply/exhaust fan driving unit capable of reducing power consumption, the volume of the multi-function ventilation device, and the occurrence of failure of the supply/exhaust driving unit.

In general, in order to maintain the temperature, humidity, and cleanliness of the indoor air of a building in an optimal state, a ventilation device for introducing outdoor air into the room and discharging the indoor air to the outside is installed.

The ventilation system consists of an air supply unit that supplies outdoor air to the room and an exhaust unit that discharges indoor air to the outdoors. do.

As an example of such a ventilation device, in the Korean Utility Model Registration No. 20-0444975 (registered on June 12, 2009) in the cold air interlocking exhaust system for apartment houses by household, by controlling the separately installed air supply and exhaust units by interlocking, the exhaust unit A ventilation system that generates intensive exhaust for each connected indoor space is presented.

However, in the air supply and exhaust parts, drive motors for operating the air supply and exhaust fans, respectively, must be separately mounted. If the number of mounted drive motors increases, the noise generated during the operation of the drive motor increases, and separate drive motors are used. In order to form an installation space, the volume of the ventilation device is increased, and there is a problem in that the production cost required to configure a circuit for controlling each driving motor increases and the possibility of malfunction of the driving part is increased.

In order to solve this problem, in the single motor type waste heat recovery ventilator of Korean Patent Laid-Open Publication No. 10-2006-0013964 (published on Feb. 14, 2006), the blade shapes of the supply fan and the exhaust fan connected to one motor are formed opposite to each other. Thus, a single motor type waste heat recovery ventilator that reduces power consumption and noise of a driving motor by forming the flow of indoor air and outdoor air opposite to each other is proposed.

However, in the single motor type waste heat recovery ventilator, a pressure difference occurs between the duct equipped with the supply fan and the duct equipped with the exhaust fan in order to reverse the flow of indoor air and outdoor air passing through the heat exchange element. The pressure difference between the two causes interference between indoor and outdoor air passing through the heat exchange element, thereby obstructing the flow of air in the ventilation system.

Republic of Korea Utility Model Publication No. 20-0444975 (Registered on Jun. 12, 2009) Korean Patent Publication No. 10-2006-0013964 (published on Feb. 14, 2006)

In an embodiment of the present invention, by operating the supply fan and exhaust fan of the multi-function ventilation device through a single drive motor, noise and power consumption generated during operation of the drive motor are reduced, the volume of the multi-function ventilation device is reduced, and the air supply fan The purpose of this invention is to reduce the production cost and frequency of failure of driving parts required to construct a circuit for independently controlling the driving motor of the exhaust fan and the exhaust fan.

In an embodiment of the present invention, when the supply fan and exhaust fan of the multifunctional ventilation device are operated through a single driving motor, the pressure loss caused by the interference between the supply air and the exhaust air inside the duct connected to the supply fan and the exhaust fan is minimized. aim to

In an embodiment of the present invention, the multifunctional ventilation device selectively operates an air supply/exhaust mode in which air is exchanged between indoors and outdoors and an air cleaning mode in which foreign substances contained in indoor air are removed without inflow of outdoor air and then re-supplied into the room, The purpose of this is to improve the energy efficiency of indoor heating and cooling when the multi-function ventilation system is operated during a time when there is a large difference in temperature between indoors and outdoors.

According to an embodiment of the present invention, the outdoor air introduced into the housing through the housing constituting the case of the multifunctional ventilation device, the outdoor air supply port formed on one side of the housing to supply the outdoor air into the housing, and the outdoor air supply port is supplied to the room An indoor air supply port formed on the other side of the housing to face the outdoor air supply port, an indoor exhaust port formed to be spaced apart from the indoor air supply port on the other side of the housing to discharge indoor air into the housing, and the indoor exhaust port are introduced into the housing. An outdoor exhaust port formed to face the indoor exhaust port on one side of the housing to discharge the indoor air to the outdoors, and an outdoor air supply port disposed between the outdoor air supply port and the indoor air supply port to discharge the outdoor air introduced into the housing through the outdoor air supply port. It is placed between the air supply fan that supplies the indoor air through the The first air supply duct and the first air supply duct formed between the outdoor air supply device and the air supply fan, which constitute a bulkhead and air supply duct that separate the interior space of the housing into an air supply duct that supplies outdoor air to the room and an exhaust duct that discharges indoor air to the outdoors. constituting the second air supply duct and the exhaust duct formed between the indoor air supply port and the air supply fan, the first exhaust duct and the exhaust duct formed between the indoor exhaust port and the exhaust fan, and formed between the outdoor exhaust port and the exhaust fan a second exhaust duct that is used as a second exhaust duct, a filter mounted at the inlet of the air supply fan to be disposed between the outdoor air supply and the air supply fan, a clean air supply formed in the bulkhead to connect the first and second exhaust ducts to each other, and the clean air supply opening Alternatively, the air cleaning damper to close, the rotation shafts of the supply fan and the exhaust fan are connected to each driving rotation shaft formed on both sides, so that the supply fan and the exhaust fan are connected at the same time, and it consists of a drive motor mounted on a bulkhead, the multifunctional ventilation device When the clean air supply is closed, the indoor air is supplied through the air supply duct and the indoor air is discharged to the outside through the exhaust duct. go After being filtered by the filter, it operates in any one mode selected among the air cleaning modes that are re-supplied to the room through the indoor air supply.

According to an embodiment of the present invention, a cleaning exhaust port for connecting the first exhaust duct and the second air supply duct to each other is formed in the partition wall, and a self-cleaning damper for generating the opening or closing of the cleaning exhaust port is mounted on the cleaning exhaust port, the first A vacuum cleaning motor for connecting the first exhaust duct and the second exhaust duct is added between the exhaust duct and the second exhaust duct, and when foreign substances are generated in the indoor air supply pipe connected to the indoor air supply unit, the air cleaning damper and the self-cleaning damper are opened and closed. The self-cleaning mode of the multi-function ventilation device is in which the cleaning air supply unit is closed and the cleaning exhaust port is opened by operation, and foreign substances in the indoor air supply pipe are discharged to the dust collector along the cleaning exhaust port and the outdoor exhaust port by the operation of the vacuum cleaning motor. It works.

According to an embodiment of the present invention, the driving motor has a driving rotation shaft formed on both sides, and a rotation shaft of an air supply fan and an exhaust fan is connected to both driving rotation shafts, respectively.

According to an embodiment of the present invention, there is an effect of enabling efficient use of the indoor space of a building by reducing the volume of the multifunctional ventilation device by operating the supply fan and the exhaust fan of the multifunctional ventilation device through a single driving motor.

According to an embodiment of the present invention, by operating the supply fan and exhaust fan of the multifunctional ventilation device through a single driving motor, noise and power consumption generated during the operation of the driving motor are reduced, and the driving motor of the supply fan and the exhaust fan is operated independently. There is an effect that can reduce the production cost required to configure the circuit for controlling the

According to an embodiment of the present invention, the connection structure of the driving unit of the supply fan and the exhaust fan of the multifunctional ventilation device is simplified, thereby reducing the frequency of failure of the driving part of the multifunctional ventilation device and improving the easiness of maintenance and repair of the driving part.

According to an embodiment of the present invention, when the supply fan and the exhaust fan of the multifunctional ventilation device are operated through one driving motor, the pressure loss caused by the interference between the supply air and the exhaust air inside the duct connected to the supply fan and the exhaust fan is minimized. There is an effect that can be done.

According to an embodiment of the present invention, the multifunctional ventilation device selectively operates an air supply/exhaust mode in which air is exchanged between indoors and outdoors and an air cleaning mode in which foreign substances contained in indoor air are removed without inflow of outdoor air and then re-supplied into the room. , there is an effect that can improve the energy efficiency of indoor heating and cooling when the multi-function ventilation device is operated at a time when the temperature difference between indoor and outdoor is large.

According to an embodiment of the present invention, a self-cleaning mode for removing foreign substances accumulated in the indoor air supply pipe connecting the multi-function ventilation device and the room with each other is added through the operation of the damper and the vacuum cleaning motor, thereby improving the cleanliness of the air supplied to the room. There is an effect that can be improved.

1 is a view showing the internal structure of a multifunctional ventilation device integrated with a supply/exhaust fan drive unit according to an embodiment of the present invention.
2a and 2b are views showing the internal structure along the AA' section and BB' section of the multifunctional ventilation device integrated with the supply/exhaust fan drive unit according to an embodiment of the present invention, respectively.
3 is a view showing the operation of the damper and the circulation of air in the housing when the supply and exhaust mode of the multi-function ventilation device integrated with the supply and exhaust fan drive unit according to an embodiment of the present invention is operated.
4 is a view showing the operation of the damper and the circulation of air in the housing during the air cleaning mode operation of the multi-function ventilation device integrated with the supply/exhaust fan drive unit according to an embodiment of the present invention.
5 is a view showing the operation of the damper and the circulation of air in the housing during the self-cleaning mode operation of the multifunctional ventilation device integrated with the supply/exhaust fan drive unit according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

It will be described in detail focusing on the parts necessary to understand the operation and operation according to the present invention.

While describing the embodiments of the present invention, descriptions of technical contents that are well known in the technical field to which the present invention pertains and are not directly related to the present invention will be omitted.

This is to more clearly convey the gist of the present invention without obscuring the gist of the present invention by omitting unnecessary description.

In addition, in describing the components of the present invention, different reference numerals may be assigned to components of the same name according to the drawings, and the same reference numerals may be given even though they are different drawings.

However, even in this case, it does not mean that the corresponding components have different functions depending on the embodiment or that they have the same function in different embodiments, and the function of each component is the corresponding embodiment. It should be judged based on the description of each component in

In addition, the technical terms used in this specification should be interpreted in the meaning generally understood by those of ordinary skill in the art to which the present invention belongs, unless otherwise specifically defined in this specification, and excessively comprehensive It should not be construed as meaning or in an excessively reduced meaning.

Also, as used herein, the singular expression includes the plural expression unless the context dictates otherwise.

In the present application, terms such as "consisting of" or "comprising" should not be construed as necessarily including all of the various components or various steps described in the specification, some of which components or some steps are It should be construed that it may not include, or may further include additional components or steps.

As shown in FIG. 1, the structure of the multifunctional ventilation device with a supply/exhaust fan drive unit according to an embodiment of the present invention is formed with an outdoor air supply device 11 on one side of the housing 10 constituting the case of the multifunctional ventilation device, On the other side of the housing 10 , an indoor air supply 12 is formed to face the outdoor air supply 11 .

An indoor exhaust port 13 is formed on the other side of the housing 10 so as to be spaced apart from the indoor air supply port 12, and an outdoor exhaust port 14 is provided on one side of the housing 10 to face the indoor exhaust port 13. is formed

In addition, an air supply fan 20 and an exhaust fan 30 are mounted inside the housing 10, and the air supply fan 20 is mounted to be disposed between the outdoor air supply port 11 and the indoor air supply port 12, and exhaust The fan 30 is mounted to be disposed between the indoor exhaust port 13 and the outdoor exhaust port 14 .

A partition wall 40 is formed between the air supply fan 20 and the exhaust fan 30, and the partition wall 40 provides an air supply duct 50 for supplying outdoor air to the interior space of the housing 10 and indoor air. It is separated by an exhaust duct 60 that discharges to the outside, and an outdoor air supply 11 and an indoor air supply 12 are formed at both ends of the air supply duct 50, and an indoor exhaust port 13 is formed at both ends of the exhaust duct 60. ) and an outdoor exhaust port 14 are formed.

As shown in FIG. 2A , the exhaust duct 60 is divided into two separate spaces by the case of the exhaust fan 30 , and a first exhaust duct 61 is located between the indoor exhaust port 13 and the exhaust fan 30 . ) is formed, and a second exhaust duct 62 is formed between the outdoor exhaust port 14 and the exhaust fan 30 .

In addition, as shown in Fig. 2b, the air supply duct 50 is divided into two separate spaces by the case of the air supply fan 20, and between the outdoor air supply port 11 and the air supply fan 20, the first air supply A duct 51 is formed, and a second air supply duct 52 is formed between the indoor air supply device 12 and the air supply fan 20 .

In the first air supply duct 51, a filter 70 is mounted at the inlet of the air supply fan 20 so as to be positioned between the outdoor air supply device 11 and the air supply fan 20, and the first air supply duct 51 and the second air supply duct 51 A clean air supply device 42 is formed on the partition wall 40 located at the interface of the exhaust duct 62 to connect the first air supply duct 51 and the second exhaust duct 62 to each other, and the clean air supply device 42 An air cleaning damper 43 for opening or closing the clean air supply device 42 is mounted on the side of the .

A drive motor 41 is mounted on the partition wall 40 to be disposed between the air supply fan 20 and the exhaust fan 30 , and the drive motor 41 is simultaneously connected to the air supply fan 20 and the exhaust fan 30 . do.

The driving rotation shaft of the driving motor 41 is formed on both sides, the driving rotation shaft on both sides protrude in the direction of the supply air fan 20 and the exhaust fan 30, respectively, and the supply fan 20 and the exhaust fan ( 30) is connected.

At this time, by simultaneously operating the air supply fan 20 and the exhaust fan 30 of the multi-function ventilation device through one driving motor 41, the volume of the housing 10 of the multi-function ventilation device can be reduced, and through this It allows the space where the ventilation system is installed to be used more efficiently.

In addition, in the multifunctional ventilation device of the present invention, since the inner space of the housing 10 is completely separated into the air supply duct 50 and the exhaust duct 60 by the partition wall 40 , the air supply fan is operated through one driving motor 41 . When the 20 and the exhaust fan 30 are operated, the interference between the air flow in the supply air duct 50 and the exhaust duct 60 in opposite directions does not occur, and accordingly, multi-functional ventilation according to pressure loss in the duct It can prevent the occurrence of deterioration of the air circulation performance of the device.

In addition, by integrally forming the driving motor 41 for operating the supply fan 20 and the exhaust fan 30 , noise and power consumption generated during operation of the driving motor 41 can be reduced, and the driving motor 41 . It reduces the production cost of the control unit by not providing a circuit for controlling the air supply fan 20 and the exhaust fan 30, respectively, and simplifies the connection structure of the driving unit between the supply fan 20 and the exhaust fan 30 to fail. By minimizing the frequency of occurrence, it is possible to improve the ease of maintenance and management of the driving unit of the multifunctional ventilation device.

And a cleaning exhaust port 44 is formed in the partition wall 40 located at the interface between the first exhaust duct 61 and the second air supply duct 52 to separate the first exhaust duct 61 and the second air supply duct 52 . A self-cleaning damper 45 for opening or closing the cleaning exhaust port 44 is mounted on the side of the cleaning exhaust port 44 and connected to each other, and between the first exhaust duct 61 and the second exhaust duct 62, the first A vacuum cleaning motor 80 connecting the first exhaust duct 61 and the second exhaust duct 62 to each other is mounted.

The operation mode of the multi-function ventilation device integrated with the supply/exhaust fan drive unit according to the embodiment of the present invention configured as above is largely divided into a supply/exhaust mode, an air cleaning mode, and a self-cleaning mode, and each operation mode will be described in detail below. .

In the supply/exhaust mode, as shown in FIG. 3 , a control circuit not shown in the drawing controls the air cleaning damper 43 and the self-cleaning damper 45 to close both the clean air supply mechanism 42 and the cleaning exhaust port 44 . After that, the driving motor 41 is operated.

A pressure difference is generated in the supply air duct 50 and the exhaust duct 60 by the rotation of the supply fan 20 and the exhaust fan 30 respectively connected to both drive rotation shafts of the drive motor 41, and the pressure difference generated in the duct After the indoor air flows into the first exhaust duct 61 of the exhaust duct 60 through the indoor exhaust port 13 by the ) is discharged to the outside.

In addition, after the outdoor air flows into the first air supply duct 51 of the air supply duct 50 through the outdoor air supply port 11, foreign substances such as fine dust contained in the outdoor air are removed through the filter 70. , is supplied to the room through the indoor air supply port 12 while passing through the air supply fan 20 and the second air supply duct 52 .

In the air cleaning mode, as shown in FIG. 4, the control circuit controls the air cleaning damper 43 and the self-cleaning damper 45 to open the clean air supply device 42 and close the cleaning exhaust port 44, The drive motor 41 is operated.

Indoor air is exhausted through the indoor exhaust port 13 by the pressure difference generated in the air supply duct 50 and the exhaust duct 60 according to the rotation of the air supply fan 20 and the exhaust fan 30 connected to the drive motor 41 . After flowing into the first exhaust duct 61 of the duct 60 , it moves to the first air supply duct 51 through the clean air supply device 42 while passing through the exhaust fan 30 and the second exhaust duct 62 . do.

As the indoor air supplied to the first air supply duct 51 passes through the filter 70, foreign substances such as fine dust contained in the indoor air are removed, and the clean air from which the foreign substances are removed is transferred to the supply fan 20 and the second supply air. While passing through the duct 52, it is re-supplied into the room through the indoor air supply port 12.

At this time, a damper may be mounted on the outdoor air supply port 11 and the outdoor exhaust port 14, and when the air cleaning mode is operated, the dampers of the outdoor air supply port 11 and the outdoor exhaust port 14 are closed by the control unit and the outdoor air is discharged. It may be configured to prevent inflow into the housing 10 .

As described above, in the air cleaning mode, only indoor air is circulated without inflow of outdoor air to remove foreign substances in the indoor air. It prevents the occurrence of temperature changes in the heated indoor air to improve the heating and cooling energy efficiency.

In the self-cleaning mode, as shown in FIG. 5, the control circuit controls the air cleaning damper 43 and the self-cleaning damper 45 to close the clean air supply unit 42 and open the cleaning exhaust port 44, The vacuum cleaning motor 80 is operated.

Due to the pressure difference generated according to the operation of the vacuum cleaning motor 80 , foreign substances in the indoor air supply port 12 and the indoor air supply pipe connected to the indoor air supply port 12 are transferred to the second air supply duct 52 of the air supply duct 50 . After the inflow, it moves to the pneumatic cleaning motor 80 while passing through the cleaning exhaust port 44 and the first exhaust duct 61 .

The foreign substances that have moved to the pneumatic cleaning motor 80 pass through the second exhaust duct 62 and the outdoor exhaust port 14 and are discharged into the dust collector not shown in the drawing, and are accumulated in the indoor air supply unit 12 and the indoor air supply pipe. As foreign substances are removed during the self-cleaning mode operation process, the degree of cleanliness of the air supplied to the room is further improved.

Although the embodiments of the present invention have been described with reference to the above, those skilled in the art to which the present invention pertains will understand that the present invention may be embodied in other specific forms without changing the technical spirit or essential characteristics thereof.

Therefore, the embodiments described above are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention described in the above detailed description is indicated by the following claims, meaning and All changes or modifications derived from the scope and its equivalents should be construed as being included in the scope of the present invention.

10: housing 11: outdoor air supply
12: indoor air supply port 13: indoor exhaust port
14: outdoor exhaust port 20: air supply fan
30: exhaust fan 40: bulkhead
41: drive motor 42: clean air supply
43: air cleaning damper 44: cleaning exhaust port
45: self-cleaning damper 50: air supply duct
51: first air supply duct 52: second air supply duct
60: exhaust duct 61: first exhaust duct
62: second exhaust duct 70: filter
80: vacuum cleaning motor

Claims (2)

A housing (10) constituting a case of a multifunctional ventilation device;
an outdoor air supply port 11 formed on one side of the housing 10 to supply outdoor air into the housing 10;
an indoor air supply port 12 formed on the other side of the housing 10 to face the outdoor air supply port 11 so as to supply the outdoor air introduced into the housing 10 through the outdoor air supply port 11 into the room;
an indoor exhaust port 13 formed to be spaced apart from the indoor air supply port 12 on the other side of the housing 10 to discharge indoor air into the housing 10;
an outdoor exhaust port 14 formed to face the indoor exhaust port 13 on one side of the housing 10 to discharge indoor air introduced into the housing 10 through the indoor exhaust port 13 to the outside;
An air supply fan disposed between the outdoor air supply port 11 and the indoor air supply port 12 to supply outdoor air introduced into the housing 10 through the outdoor air supply port 11 into the room through the indoor air supply port 12 . (20);
an exhaust fan 30 disposed between the indoor exhaust port 13 and the outdoor exhaust port 14 to discharge indoor air introduced into the housing 10 through the indoor exhaust port 13 to the outside through the outdoor exhaust port 14;
It is disposed between the air supply fan 20 and the exhaust fan 30, and separates the inner space of the housing 10 into an air supply duct 50 for supplying outdoor air to the room and an exhaust duct 60 for discharging indoor air to the outdoors. a bulkhead 40;
a first air supply duct 51 constituting the air supply duct 50 and formed between the outdoor air supply device 11 and the air supply fan 20;
a second air supply duct 52 constituting the air supply duct 50 and formed between the indoor air supply device 12 and the air supply fan 20;
a first exhaust duct 61 constituting the exhaust duct 60 and formed between the indoor exhaust port 13 and the exhaust fan 30;
a second exhaust duct 62 constituting the exhaust duct 60 and formed between the outdoor exhaust port 14 and the exhaust fan 30;
a filter 70 mounted at the inlet of the air supply fan 20 so as to be disposed between the outdoor air supply device 11 and the air supply fan 20;
a clean air supply device 42 formed in the partition wall 40 to connect the first air supply duct 51 and the second exhaust duct 62 to each other;
an air cleaning damper 43 for opening or closing the clean air supply mechanism 42;
The rotation shafts of the supply fan 20 and the exhaust fan 30 are connected to each driving rotation shaft formed on both sides, so that the supply fan 20 and the exhaust fan 30 are simultaneously connected, and a driving motor mounted on the partition wall 40 ( 41);
is composed of
The multifunctional ventilation device is a supply/exhaust mode in which the indoor supply of outdoor air through the air supply duct 50 and the outdoor discharge of indoor air through the exhaust duct 60 occurs when the clean air supply device 42 is closed, or the clean air supply device ( During the air cleaning mode in which the indoor air introduced into the housing 10 through the indoor exhaust port 13 when the 42) is opened is filtered by the filter 70 and then re-supplied into the room through the indoor air supply port 12 Operates in any one of the selected modes;
The partition wall 40 is provided with a cleaning exhaust port 44 connecting the first exhaust duct 61 and the second air supply duct 52 to each other, and the cleaning exhaust port 44 has the cleaning exhaust port 44 opened or closed. A self-cleaning damper 45 that generates a vacuum is mounted, and between the first exhaust duct 61 and the second exhaust duct 62, the first exhaust duct 61 and the second exhaust duct 62 are connected to each other. A motor 80 is added,
When foreign substances are generated in the indoor air supply pipe connected to the indoor air supply port 12, the closing of the clean air supply unit 42 and the opening of the cleaning exhaust port 44 are prevented by the opening and closing operations of the air cleaning damper 43 and the self-cleaning damper 45. Self-cleaning in which indoor air is sucked into the indoor air supply pipe by the operation of the vacuum cleaning motor 80 and foreign substances in the indoor air supply pipe are discharged to the dust collector along the cleaning exhaust port 44 and the outdoor exhaust port 14 to be removed A multi-function ventilation device with an integrated supply/exhaust fan drive, characterized in that the mode works. delete

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