KR100532188B1 - A device for a change of air - Google Patents

Abstract

An object of the present invention is to provide a ventilator to prevent freezing of the total heat exchanger,

Ventilation apparatus according to the present invention for achieving the above object, the box-shaped case of a predetermined length through which both ends; It is installed in the middle of the inside of the case, the first and second air movement path (P1) (P2) is formed to be different from each other, and the first and second air movement paths are formed to cross each other, upper and lower edge portion A heat exchanger having a rhombus shape which is supported and installed on the inner upper and lower inner surfaces of the case; It is installed to support the left and right edges of the heat exchanger in the middle of the case to separate the inner space of the case into four spaces left and right exhaust ducts through which the indoor air is discharged to the outside through the first air passage Forming a left and right inlet duct such that outdoor air is introduced into the room through the second air moving passage; An air supply / exhaust fan installed at each of the left and right exhaust ducts and the left and right inlet ducts to forcibly blow outdoor air to the outside, and forcibly blow indoor air to the outside; A temperature sensor for sensing a temperature around the total heat exchanger; Control means for receiving a signal sensed by the temperature sensor and outputting a control signal; An opening / closing damper which is located in an inlet duct in which the outdoor air first reaches the left and right inlet ducts and opens and closes a part of the heat exchanger through which the outdoor air is first introduced, and an outer side of the case according to a control signal of the control means It is installed in the drive motor for driving the opening and closing damper to rotate a predetermined angle, and when the temperature detected by the temperature sensor is below a certain point of water that the outside air of the heat exchanger first reaches the portion where the outdoor air reaches Characterized in that it consists of freezing prevention means to prevent.

Description

Ventilation device {A device for a change of air}

The present invention relates to a ventilator, and more particularly to a ventilator to prevent freezing of the total heat exchanger.

The air in an enclosed space increases in carbon dioxide content over time by human breathing, and the surrounding air becomes cloudy.

Therefore, when a person stays in a narrow space, it is necessary to replace the muddy air of the indoor with fresh air of the outdoor from time to time.

In this case, the conventional use is a ventilation device.

As a related art of the ventilation device, as illustrated in FIG. 1, an air supply duct 10 for guiding outdoor air to the inside of the case 1 having a box shape is provided, and the air supply duct 10 is connected to the air supply duct 10. An exhaust duct 20 is provided which crosses at a predetermined position and guides indoor air to the outside.

In addition, an electric heat exchanger (5) is provided to exchange heat between the outdoor air that is supplied at the point where the air supply duct 10 and the exhaust duct 20 intersect and the indoor air that is exhausted.

An air supply inlet 11 is formed at one end of the air supply duct 10, and an air supply outlet 13 is formed at the other end of the air supply duct 10. An exhaust inlet 21 is formed, and at one end, an exhaust outlet 23 communicating with the outdoors is formed.

At this time, the air supply duct 10 and the exhaust duct 20 do not interfere with each other while crossing the inner space of the case 1 up and down with respect to the heat exchanger 5, respectively.

This is possible by the partition 3 which divides the said case 1 up and down.

An air supply fan 15 for forcibly sucking outdoor air at the air supply outlet side of the air supply duct 10 is provided, and an exhaust fan 25 forcibly discharging outdoor air at the exhaust outlet 23 side of the exhaust duct 20. ) Is provided.

On the other hand, the heat exchanger (5) has a hexagonal shape in which the upper and lower edges are supported by the case (1) and the left and right edges are supported by the partition wall (3) partitioning the air supply duct (10) and the exhaust duct (20), A plurality of air supply passages 5a communicated with the air supply duct 10 and a plurality of air exhaust passages 5b adjacent to the exhaust duct 20 are provided therein.

At this time, the portion shown by the solid line is the air supply passage 5a, and the portion shown by the dotted line is the exhaust passage 5b.

The prior art configured as described above has the following problems.

The prior art passes through the preheat exchanger (5) through the exhaust inlet (21), while the outdoor cold fresh air is passed through the preheat exchanger (5) through the air supply inlet (11) and then supplied to the room through the air supply outlet (13). After the heat exchange with the outdoor air exhausted to the outside through the exhaust outlet (23).

However, the condensed water of the heat exchanger (5) is present due to the moisture contained in the air during the heat exchange between the outdoor air and the indoor air in the heat exchanger (5).

The condensate is gradually reached in the direction indicated by arrow B from the ground line “A” portion of the drawing, where the outdoor cold air introduced through the air supply inlet 11 of the heat exchanger 5 first reaches in a weather where the temperature drops to below freezing during the winter season. Begin to freeze.

As a result of the above phenomenon, the air passage of the total heat exchanger 5 is blocked, so that outdoor air cannot be supplied to the room through the air supply inlet 11, thereby preventing the ventilation from being performed. There was an inconvenience to remove the frozen ice by hand.

The present invention was devised to solve the above problems, and an object of the present invention is to provide a ventilation device capable of preventing freezing of the total heat exchanger.

Ventilation apparatus according to the present invention for achieving the above object, the box-shaped case of a predetermined length through which both ends; It is installed in the middle of the inside of the case, the first and second air movement path (P1) (P2) is formed to be different from each other, and the first and second air movement paths are formed to cross each other, upper and lower edge portion A heat exchanger having a rhombus shape which is supported and installed on the inner upper and lower inner surfaces of the case; It is installed to support the left and right edges of the heat exchanger in the middle of the case to separate the inner space of the case into four spaces left and right exhaust ducts through which the indoor air is discharged to the outside through the first air passage Forming a left and right inlet duct such that outdoor air is introduced into the room through the second air moving passage; An air supply / exhaust fan installed at each of the left and right exhaust ducts and the left and right inlet ducts to forcibly blow outdoor air to the outside, and forcibly blow indoor air to the outside; A temperature sensor for sensing a temperature around the total heat exchanger; Control means for receiving a signal sensed by the temperature sensor and outputting a control signal; An opening / closing damper which is located in an inlet duct in which the outdoor air first reaches the left and right inlet ducts and opens and closes a part of the heat exchanger through which the outdoor air is first introduced, and an outer side of the case according to a control signal of the control means It is installed in the drive motor for driving the opening and closing damper to rotate a predetermined angle, and when the temperature detected by the temperature sensor is below a certain point of water that the outside air of the heat exchanger first reaches the portion where the outdoor air reaches Characterized in that it consists of freezing prevention means to prevent.

Hereinafter, a preferred embodiment of the ventilator according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a view showing the internal configuration of the ventilation apparatus according to the first embodiment of the present invention, Figure 3 is a perspective view schematically showing the external shape of the ventilation apparatus according to the first embodiment of the present invention, Figure 4 Is a view showing the internal configuration of a ventilation device according to a second embodiment of the present invention, Figure 5 is a control block diagram of the present invention.

Ventilation apparatus according to the present invention is the case 100, the heat exchanger 200, the left and right separation walls 300, 400, the air supply / exhaust fan 500, 600, the temperature sensor 800 and , Freeze prevention means (700).

The case 100 has a box shape having a predetermined length through which both ends penetrate.

The heat exchanger 200 is installed in the middle of the inside of the case 100, and the first and second air movement paths P1 and P2 are different from each other, and the first and second air movement paths ( P1) and P2 are formed to intersect with each other, and upper and lower edge portions 201 and 202 are formed in a rhombus shape which is respectively supported and installed on the upper and lower inner surfaces of the case 100.

The left and right separation walls 300 and 400 are installed to support the left and right edge portions 203 and 204 of the heat exchanger 200 at an inner middle of the case 100 to provide an inner space of the case 100. Is divided into four spaces to form left and right exhaust ducts 110 and 120 through which the indoor air is discharged to the outside through the first air movement passage P1 and the second air movement passage P2. The left and right inlet ducts 140 and 130 are formed to allow the outdoor air to enter the indoors.

The air supply / exhaust fan 500 and 600 are respectively installed in the left and right exhaust ducts 110 and 120 and the left and right inlet ducts 140 and 130 to forcibly blow outdoor air to the outside, It acts to force indoor air to be blown to the outside.

The temperature sensor 800, serves to detect the temperature around the heat exchanger (200).

The control means 900 receives a signal detected by the temperature sensor 800 and outputs a control signal.

The cryoprevention means 700 serves to prevent freezing of the first outdoor portion of the outer surface of the heat exchanger 200 when the temperature detected by the temperature sensor 800 is below a certain point of water. .

As shown in FIG. 3, the cryoprotection means 700 is located in an inflow duct in which the outdoor air first arrives in the left and right inflow ducts 140 and 130, and the outdoor air is introduced first. An opening / closing damper 710 for opening and closing a part of the exchanger 200 and installed outside the case 100 according to a control signal of the control means 900 to drive the opening / closing damper 710 to be rotated by a predetermined angle. It consists of a drive motor 720.

That is, the opening and closing damper 710 of the cryoprevention means 700 receives a driving force of the driving motor 720 to close a part of the total heat exchanger 200 to prevent external air from reaching.

That is, as shown in Figure 2, by preventing the outside air to reach the A portion of the total heat exchanger 200 to prevent the first freezing in this portion, eventually freezing toward the portion B of the total heat exchanger 200 Can be prevented.

In other words, it is possible to prevent freezing of the total heat exchanger 200 by preventing initial freezing.

Therefore, since the outside air does not reach the initial freezing point (A) of the total heat exchanger (200) and the cold outside air reaches the portion (B) where the temperature is high, the total heat exchanger (200) is maintained by maintaining the state higher than the freezing temperature. The area will not freeze, and eventually it will be able to perform the ventilation function smoothly.

On the other hand, as shown in Figure 4 as another embodiment of the freezing prevention means 700 'of the present invention, it is possible to use a PTC heater to generate heat.

The PTC heater receives current from the control means 900 and applies heat of a predetermined temperature to the heat exchanger 200 so that the portion does not freeze.

As described above, according to the ventilation apparatus according to the present invention, it is possible to smoothly perform winter ventilation by preventing the freezing of the total heat exchanger.

1 is a view showing the internal configuration of a ventilation apparatus according to the prior art.

2 is a diagram illustrating an internal configuration of a ventilation device according to a first embodiment of the present invention.

Figure 3 is a perspective view schematically showing the external shape of the ventilator according to the first embodiment of the present invention.

4 is a diagram illustrating an internal configuration of a ventilation device according to a second embodiment of the present invention.

5 is a control block diagram of the present invention.

<Description of Symbols for Main Parts of Drawings>

100: case

110,120: Left and right exhaust duct

140,130: Left and right inflow duct

200: total heat exchanger

201,202: upper and lower corners

203,204: left and right corners

300,400: left and right partition wall

500, 600: Air supply / exhaust fan

700,700 ': Freezing prevention means

710: opening and closing damper

720: drive motor

800: temperature sensor

900 control means

Claims (3)

A box-shaped case 100 having a predetermined length through which both ends penetrate; It is installed in the middle of the inside of the case, the first and second air movement path (P1) (P2) is formed to be different from each other, and the first and second air movement path is formed to cross each other, upper and lower corners (201) and 202 are rhombus-shaped heat exchangers 200 which are respectively supported and installed on the inner upper and lower inner surfaces of the case; It is installed to support the left and right edges 203 and 204 of the heat exchanger in the middle of the inside of the case to separate the inner space of the case into four spaces to discharge the indoor air to the outside through the first air movement passage Left and right separation ducts forming left and right discharge ducts 110 and 120 and forming left and right inlet ducts 140 and 130 so that outdoor air flows into the room through the second air movement passage ( 300) 400; An air supply / exhaust fan (500) (600) installed at each of the left and right exhaust ducts and the left and right inflow ducts to forcibly blow outdoor air to the outside, and forcibly blow indoor air to the outside; A temperature sensor 800 for sensing a temperature around the total heat exchanger; Control means for receiving a signal sensed by the temperature sensor and outputting a control signal; An opening / closing damper 710 located in the inlet duct in which the outdoor air first reaches the left and right inlet ducts 140 and 130 to open and close a part of the heat exchanger 200 to which the outdoor air is first introduced; In accordance with the control signal of the control means 900 is installed on the outside of the case 100 is composed of a drive motor 720 for driving the opening and closing damper 710 to rotate a predetermined angle, it is detected by the temperature sensor And a freezing prevention means (700) which prevents freezing of the portion where the outdoor air first arrives on the outer surface of the heat exchanger when the temperature is lower than a certain point of water. delete delete