KR20120132857A - Air curtain by lateral wind and control method thereof - Google Patents

Abstract

PURPOSE: A helical current type air curtain and a method for controlling the same are provided to form an air curtain of a horizontal calculating current flowing into a front side of a main frame after colliding in a central portion of an entrance by being discharged from a lateral side of the main frame, thereby improving an ability blocking the entrance. CONSTITUTION: A helical current type air curtain(10) comprises a main frame(10), a blower(20), a damper(30), and a controller(40). The damper receives air induced from the blower and discharges air horizontally to a set discharge direction. The controller controls the operation of the blower corresponding to an opening/closing of an entrance. The controller sets an air discharge direction properly to an operation condition and environmental condition of an air curtain, thereby controlling the operation of the damper. The air being horizontally discharged by passing through dampers of both sides is collided in the central portion of the entrance, thereby blocking inner and outer sides of the entrance. [Reference numerals] (10) Main frame; (20) Blower; (30) Damper; (40) Controller; (AA, BB, CC, DD) Air

Description

Air curtain by lateral wind and control method

The present invention relates to a cross-flow type air curtain and a control method thereof, and more particularly, to provide an air curtain with a horizontal airflow colliding at the center of an entrance, thereby increasing an entrance blocking ability, and providing air according to air curtain operating conditions and environmental conditions. The present invention relates to a cross-flow air curtain and a control method thereof, in which a blowing direction is controlled to perform various functions, and the efficiency of the air curtain can be improved.

Air curtain (air curtain) is a device that prevents the maintenance of cold / warm or inflow of foreign matter by injecting a high-pressure air so that the air of both sides in the boundary portion having different air conditions are not mixed with each other. Such air curtains are installed in refrigerators / freezers that require frequent refrigeration even when refrigeration is required, or in places where doors are frequently opened due to frequent access by people, thereby preventing heat loss or deterioration of the air conditioner. .

As a technology related to such an air curtain device, Korean Patent Publication No. 10-0894301 "Air curtain unit that can be stacked in multiple stages up and down" Registration No. 10-0194352 "Outer air circulation type air curtain device", Patent Publication Publication No. 10-2009-0107980 "Air curtain", Publication No. 10-2004-0018606 "Air curtain integrated shutter device", Publication No. 10-2002-0002029 "Air curtain device", Publication No. 10 -1999-0069640 "Air curtain type entrance air conditioner" is devised.

Here, the conventional air curtain device is generally installed at the top of the doorway to have a structure in which the air flow is formed in the vertical direction by ejecting the air vertically, the strength of the air is weakened toward the bottom of the doorway, blocking the function at the bottom of the doorway There was a problem of weakening, and in order to improve this, there is a problem in that dust or foreign matters from the ground at the bottom of the entrance are scattered when increasing the intensity of the ejected air.

Accordingly, a cross-flow air curtain device has been developed in which air curtain devices are installed at both sides of the entrance to horizontally blow out air, and related technologies include Korean Patent Publication No. 10-0819103 "Air Curtain Device". It is designed.

As shown in FIG. 1, the "air curtain device" is provided such that the box-shaped first body portion 10a and the second body portion 10b are opposed to both sides of the door 30 so as to face each other. By forming an air curtain on the first suction slit 11aa and the second discharge slit 13ba, the first discharge slit 13aa and the second suction slit 11ba are installed to face each other. The air discharged through the second discharge slits 13aa and 13ba is sucked into the second suction slit 11ba and the first suction slit 11aa, which face the first and second discharge slits, respectively. The first body portion 10a and the second body portion 10b form a double air curtain in both directions while circulating air.

However, in the conventional cross-flow type air curtain device as described above, the air ejected from the first and second body parts 10a and 10b on both sides of the doorway moves by the width of the doorway, so that the opposite first and second body parts 10a are provided. As the structure is sucked into (10b), the strength of the air is weakened at the site where the air is sucked, thereby limiting the function of blocking the inside and the outside of the entrance.

In addition, the conventional cross-flow type air curtain device as described above simply forms the air stream of the air horizontally, so that when the intensity of the wind flowing from the outside to the doorway increases, the air flow of the horizontally formed air does not resist the wind. There was a problem that the blocking function of the doorway is reduced while being broken.

The present invention has been created to solve the above problems, the high flow velocity of the air flow can be continuously maintained by blocking the inside and the outside of the doorway by the airflow colliding horizontally through the dampers on both sides of the doorway colliding in the center of the doorway to block the doorway It is an object of the present invention to provide a new type of cross-flow air curtain and its control method which can be improved in function.

In addition, the present invention is the damper is controlled according to the air curtain operating conditions and environmental conditions can be adjusted the direction of blowing air through the damper, in particular the air curtain is installed in accordance with the environmental conditions installed air curtain through the wind gauge, wind vane, temperature sensor It is an object of the present invention to provide a new type of cross-flow air curtain and its control method which can realize various functions such as heating function and smoke elimination function by improving the efficiency of the air curtain by driving the curtain.

In addition, the present invention provides a new type of cross-flow air curtain and its control method to effectively prevent the influx of bees and pests as the ultrasonic wave is diverted by the ultrasonic generator having a frequency change in accordance with the set pattern. There is a purpose.

In addition, the present invention is a new type of cross-flow air that can prevent the foreign matter or insects attached to the door to be prevented from entering the interior by blowing out the air to the door surface immediately before the door is opened It is an object to provide a curtain and a control method thereof.

Cross-flow air curtain of the present invention for achieving the above object, the main frame is spaced apart from each other on both sides of the entrance and exit of the structure; A blower installed at a predetermined position to induce air flow; A damper disposed on an inner surface of the main frame to receive air guided from the blower, and to blow air horizontally in a set blowing direction; And a controller for controlling the operation of the blower in response to opening and closing of the doorway, and controlling the operation of the damper by setting an air blowing direction in accordance with an operating condition and an environmental condition of an air curtain. Air that is horizontally blown out through the collision with each other at the central portion of the doorway characterized in that the inside and outside of the doorway is blocked.

In the cross flow type air curtain according to the present invention, an inlet is formed on the front surface of the main frame, and the air blown out through the damper is guided to the inlet so that the air is circulated.

In the cross-flow air curtain according to the present invention, the damper is a pair of partitions which are installed to be spaced apart from each other; A plurality of drive shafts disposed vertically in the inner space of the pair of partition walls and installed in rows between the pair of walls; A plurality of guiding fluid plates formed in a shape of a plate body coupled to the driving shaft and arranged in a vertical direction in the inner space of the pair of partition walls and installed in a row between the pair of walls; The actuator is installed in the main frame and controlled by the controller, and the actuator is connected to the drive shaft to rotate the drive shaft and the guide flow plate by a set angle, the air is rotated by the guide flow plate rotated by a set angle It is characterized in that the ejected in the set ejection direction.

It is installed at a predetermined position in the cross-flow air curtain according to the present invention, and further provided with an anemometer for detecting the wind speed of the wind flowing into the doorway, the controller is to adjust the direction of blowing of air in accordance with the wind speed input from the anemometer It is characterized by setting.

The wind vane is installed at a predetermined position in the cross-flow air curtain according to the present invention and detects the wind direction of the wind flowing into the doorway, and the controller operates the blower and the damper according to the wind direction input from the wind vane. It characterized in that to control.

In the cross flow type air curtain according to the present invention, a temperature sensor is installed inside the structure that enters and exits through the doorway, and detects the internal temperature of the structure, and is further provided with a heater installed in the main frame to heat the air. The controller may control the operation of the heater and the damper according to the internal temperature of the structure input from the temperature sensor so that the inside of the structure may be heated.

In the cross-flow air curtain according to the present invention as described above, the controller is characterized in that the air heated by the heater is blown toward the inside of the structure through the damper to be heated to the inside of the structure.

In the cross flow type air curtain according to the present invention, a temperature sensor is installed inside the structure to be entered and exited through the doorway, and detects the internal temperature of the structure, wherein the controller is configured from the internal temperature of the structure input from the temperature sensor. Determining whether or not the fire inside the structure, and when the fire inside the structure is characterized in that the air is blown out through the damper toward the inside of the structure to perform the dehumidification (除 燃) function.

The ultrasonic generator is further provided at a predetermined position in the cross-flow air curtain according to the present invention, the ultrasonic generator is a frequency modulated ultrasonic generator capable of changing the frequency and a plurality of ultrasonic waves for generating different ultrasonic frequencies The controller may be any one selected from among the generators, and the controller may control the ultrasonic wave generator to change the frequency of the ultrasonic wave emitted from the ultrasonic wave generator according to a set pattern.

In the control method of the cross-flow air curtain of the present invention for achieving the above object, the air is ejected horizontally in the set blow direction by passing through a damper formed on the inner surface of the main frame spaced apart from each other to the entrance and exit sides of the predetermined structure, As the compressed air collides with each other at the central portion of the doorway, the inside and the outside of the door may be blocked.

In the method of controlling the cross-flow air curtain according to the present invention, the door is opened after the damper blows air toward the surface of the door to be opened and closed to remove the object stuck to the door surface. When the entrance is opened by the opening operation of the door, the damper may eject air in a set blowing direction.

The cross-flow air curtain of the present invention made as described above and a control method thereof are provided by an air curtain of horizontal circulation airflow flowing into the front surface of the main frame after being discharged from the side of the main frame and colliding at the center of the entrance and exit. This has the effect of increasing. In addition, the present invention provides a configuration in which the air blowing direction is controlled according to the air curtain operating conditions and environmental conditions through a controller, anemometer, wind vane, temperature sensor, etc., various functions can be performed, while increasing the utility In addition, the efficiency of the air curtain is also improved.

1 is a view for showing the configuration and operation of a conventional cross-flow air curtain;
Figure 2 (a) and (b) is a block diagram for showing the technical idea of the cross-flow air curtain and the control method according to the present invention;
3 is a view for showing a cross-flow air curtain according to an embodiment of the present invention;
Figure 4 is a view for showing the internal configuration of the main frame forming a cross-flow air curtain according to an embodiment of the present invention;
5 and 6 are views for showing the configuration and operation of the damper forming a cross-flow air curtain according to an embodiment of the present invention;
7 (a) to (c) are views for showing the action of the damper according to the embodiment of the present invention having an anemometer and a wind vane;
8 is a view for showing the action of the cross-flow air curtain according to an embodiment of the present invention having a temperature sensor and a heater;
9 is a view for showing the action of the cross-flow air curtain according to an embodiment of the present invention having a temperature sensor;
10 is a view for showing a cross-flow air curtain according to an embodiment of the present invention equipped with an ultrasonic generator.

2 (a) and 2 (b) are block diagrams for illustrating the technical idea of a cross-flow air curtain and a control method thereof according to the present invention.

Referring to Figures 2 (a) and (b), the cross-flow air curtain 100 according to the present invention includes a main frame 10, a blower 20, a damper 30, a controller 40, The air flow is formed horizontally on the doorway 1 to block the inside and outside of the doorway (1).

The main frame 10 is arranged to be spaced apart from each other on both sides of the doorway 1 of the predetermined structure 3, and has a corresponding height of the height of the doorway (1). The main frame 10 forms the main body of the cross flow type air curtain 100, and a blower 20 or a damper 30 may be installed inside the main frame 10.

The blower 20 is installed at a predetermined position to induce air flow for the air curtain. Such a blower 20 is preferably installed in the inner space of the main frame 10. Of course, the blower 20 may be installed outside the main frame 10 to allow the air to flow in and out through the duct or pipe piping.

Damper 30 is to be disposed on the inner surface of the main frame 10, the cross-flow air curtain 100 according to the present invention is a pair of main frame 10 facing each other with the doorway (1) in between The damper 30 is to be installed in. The damper 30 receives the air guided by the blower 20 and blows the air horizontally in the set blowing direction. Here, the damper 30 allows the air to be blown out over the entire inner surface of the main frame 10. In addition, the air blown out through the dampers 30 of the main frames 10 disposed at both sides of the doorway 1 have a blowing direction symmetrical with each other so that they collide at the center of the doorway 1.

The controller 40 controls the operation of the blower 20 and the damper 30, and operates the blower 20 when the doorway 1 is opened and stops the blower 20 when the doorway 1 is closed. In addition, the controller 40 sets the blowing direction of the air in accordance with the operating conditions and environmental conditions of the air curtain 100, and controls the operation of the damper 30 to blow out the air in the set blowing direction.

The cross-flow air curtain 100 according to the present invention configured as described above is the doorway by forming air flow so that the air blown horizontally through the dampers 30 on both sides of the doorway 1 collide with each other at the center of the doorway 1. (1) The inner and outer sides should be blocked. As the air blown out from the damper 30 forms an air flow to the center of the doorway 1, the airflow of high flow rate can be maintained continuously, and the center of the doorway 1 is effectively blocked by the collision of air. . Thereby, the cross-flow air curtain 100 which concerns on this invention can aim at the improvement of a blocking function.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 3 to 10. On the other hand, in the drawings and detailed description showing and referring to the configuration and operation easily understood by those skilled in the art from common air curtains, cross-flow air curtains are briefly or omitted. In the drawings and specification, there are shown in the drawings and will not be described in detail, and only the technical features related to the present invention are shown or described only briefly. Respectively.

3 is a view for showing a cross-flow air curtain according to an embodiment of the present invention.

Referring to FIG. 3, the cross-flow air curtain 100 according to the embodiment of the present invention allows the inlet 11 to be formed on the front surface of the main frame 10. Here, the blower 20 is installed in the inner space of the main frame 10 between the inlet 11 and the damper 30 to suck the air through the inlet 11, to eject the air through the damper (30) do. Accordingly, the air blown out through the damper 30 collides at the central portion of the entrance and exit 1, and then the air flow is led to the inlet 11 and circulated. The air stream circulated in this way is partitioned and formed at both sides of the central portion of the doorway 1.

As described above, the cross-flow air curtain 100 according to the embodiment of the present invention allows the air ejected through the damper 30 to be blocked at the inside and outside of the doorway 1 while colliding at the center of the doorway 1, and the main frame. By allowing air to circulate between the damper 30 and the suction port 11 of 10, it is possible to improve the blocking function inside and outside the entrance 1.

4 is a view showing the internal configuration of the main frame constituting the cross-flow air curtain according to an embodiment of the present invention, Figure 5 and Figure 6 is a configuration of a damper constituting a cross-flow air curtain according to an embodiment of the present invention Drawing to show the action.

4 to 6, the cross-flow air curtain 100 according to an embodiment of the present invention to the main frame 10 is made of a frame structure of a rectangular cross-sectional shape, the blower inside the main frame 10 20 and the damper 30 is to be installed.

The blower 20 is disposed at the inner central portion of the main frame 10. The blower 20 is connected to the suction port 11 formed on the front of the main frame 10 receives the air sucked through the suction port (11). In addition, the blower 20 communicates with the damper 30 through the discharge passage 21 to transfer air of a predetermined flow rate to the damper 30.

The damper 30 includes a plurality of drive shafts 32 and a guiding fluid plate 33 disposed between a pair of partition walls 31 spaced apart from each other. The partition wall 31 is formed of a flat plate and is inclined to smoothly flow the air passing through the damper 30. In addition, an inflow path 35 communicating with the discharge path 21 of the blower 20 is formed at the rear end of the pair of partition walls 31 which are spaced apart from each other, and the outside of the pair of partition walls 31 that are spaced apart from each other. The outflow path 36 is opened.

The drive shaft 32 is disposed in the vertical space in the inner space of the pair of partition walls 31 and is provided in a row between the pair of partition walls 31. Such a drive shaft 32 is combined with the actuator 34 to rotate. Here, the actuator 34 is installed on the main frame 10 and controlled by the controller 40. The actuator 34 according to the embodiment of the present invention uses a servo motor 34a to drive the drive shaft 32. It will rotate by the set angle. The servo motor 34a is provided as many as the number of drive shafts 32 and is installed at the top or bottom of the main frame 10 to be connected to the drive shaft 32. Alternatively, one servo motor 34a may be provided, and the plurality of drive shafts 32 and the servo motor 34a may be connected to each other by a gear combination. On the other hand, the end of the drive shaft 32 which is not connected to the servo motor 34a is supported by the support bearing 37 to smoothly rotate the drive shaft 32.

The guiding fluid plate 33 is formed in the shape of a flat plate which is coupled to the driving shaft 32 and extends in the lateral direction, and is disposed in the vertical space in the inner space of the pair of partition walls 31. Such a guide fluid plate 33 is installed in a row between a pair of walls. Here, the drive shaft 32 and the guide flow plate 33 may be integrally formed, or may be separated from each other and combined.

In the damper 30 configured as described above, the air flows on the guide fluid plate 33 by causing the guide fluid plate 33 to rotate by a set angle by the servo motor 34a controlled by the controller 40. To eject in the set ejection direction.

7 (a) to (c) is a view for showing the action of the damper according to an embodiment of the present invention having an anemometer and a wind vane.

Referring to Figure 7 (a) to (c), the cross-flow type air curtain 100 according to an embodiment of the present invention is provided with an anemometer 50 and a wind vane 60 is installed at a predetermined position the entrance (1) The wind speed and direction of the wind flowing in the direction is detected.

The controller 40 sets the air blowing direction and the blowing speed in accordance with the wind speed input from the anemometer 50 and the wind direction input from the wind vane 60. As such, when the air blowing direction or the blowing speed is set according to the wind speed or the wind direction, the controller 40 controls the operation of the blower 20 or the damper 30 so that the set air blowing direction or the blowing speed is implemented.

Here, as the speed of the wind flowing in the direction of the doorway 1 increases, the angle at which the guide flow plate 33 of the damper 30 is inclined toward the doorway 1 is increased. This allows the air blowing direction to be bent further toward the outside of the doorway (1) to increase the resistance to the wind flowing into the doorway (1) so that the internal and external blocking function can be maintained without disturbing the doorway (1) do. The cross-flow air curtain () according to an embodiment of the present invention is such that when the wind speed is less than 4 m / s, the angle at which the guide flow plate 33 of the damper 30 is inclined toward the outside of the doorway 1 is 15 °. , If the wind speed is 5m / s ~ 7m / s, the angle that the guide flow plate 33 of the damper 30 is inclined toward the outside of the entrance (1) to 20 °, the wind speed is 5m / s ~ 7m / In the case of s, the angle at which the guiding fluid plate 33 of the damper 30 is inclined toward the outside of the entrance 1 is 20 °, and when the wind speed is 8 m / s to 10 m / s, the inside of the damper 30 is The angle at which the flow plate 33 is inclined toward the outside of the doorway 1 is 25 °, and when the wind speed is 11 m / s to 13 m / s, the guide flow plate 33 of the damper 30 is the doorway ( 1) When the angle to be inclined in the outward direction is 30 °, and the wind speed is 14m / s or more, the guide flow plate 33 of the damper 30 is inclined in the outward direction (1) Degrees such that the 45 °.

On the other hand, according to the direction of the wind flowing in the direction of the doorway (1), each damper (30) on both sides of the doorway (1) is different from each other the angle at which the guide flow plate 33 is inclined toward the outside of the doorway (1). Can be. As a result, it is possible to cope with the direction of the wind flowing in the direction of the doorway 1 while controlling the direction in which the air blown out from both sides of the doorway 1 and the bumper 30 collide with each other.

8 is a view showing the operation of the cross-flow air curtain according to an embodiment of the present invention having a temperature sensor and a heater.

Referring to FIG. 8, the cross-flow air curtain 100 according to the embodiment of the present invention allows the temperature sensor 70 to be installed inside the structure 3 to be entered and exited through the doorway 1, and the controller 40. To receive the internal temperature of the structure (3) detected from the temperature sensor (70). In addition, the cross-flow air curtain 100 according to an embodiment of the present invention includes a heater 80 is installed in the main frame 10 to heat the air. Here, the controller 40 controls the operation of the heater 80 and the damper 30 according to the internal temperature of the structure 3 input from the temperature sensor 70. That is, when the internal temperature of the structure 3 is lowered below a predetermined temperature, the heater 80 is operated to heat the ejected air, and the guide flow plate 33 of the damper 30 is inside the structure 3. It is inclined in the direction so that the air blown out through the damper 30 is introduced into the structure (3). As a result, heated air is introduced into the structure 3 to allow the inside of the structure 3 to be heated.

9 is a view for showing the action of the cross-flow air curtain according to an embodiment of the present invention having a temperature sensor.

Referring to FIG. 9, the cross-flow air curtain 100 according to the embodiment of the present invention controls the internal temperature of the structure 3 detected by the temperature sensor 70 installed inside the structure 3. Received in real time as it can be monitored in real time whether the fire inside the structure (3). When the internal temperature of the structure 3 input from the temperature sensor 70 reaches a predetermined temperature or more, the controller 40 determines that a fire has occurred in the structure 3, and guides the flow plate for guiding the damper 30 ( The cross-flow air curtain 100 according to the embodiment of the present invention can perform the dehumidification function by allowing 33 to be inclined in the inner direction of the structure 3 so that air is ejected in the inner direction of the structure 3. Make sure

10 is a view for showing a cross-flow air curtain according to an embodiment of the present invention equipped with an ultrasonic generator.

Referring to FIG. 10, the cross-flow air curtain 100 according to the embodiment of the present invention may include an ultrasonic wave generator 90 for generating ultrasonic waves. The ultrasonic generator 90 as described above performs a function of preventing insects or insects from gathering in the vicinity of the doorway 1 or entering the structure 3 through the doorway 1.

Such an ultrasonic generator 90 may be made of a frequency modulated ultrasonic generator capable of changing the frequency. In addition, the ultrasonic generator 90 may be composed of a plurality of ultrasonic generators 90a, 90b, 90c for generating ultrasonic waves having different frequencies. The cross-flow air curtain 100 according to the embodiment of the present invention is provided with an ultrasonic generator 90 consisting of a plurality of ultrasonic generators 90a, 90b, 90c for generating ultrasonic waves having different frequencies.

The controller 40 controls the ultrasonic wave generator 90 so that the frequency of the ultrasonic wave emitted from the ultrasonic wave generator 90 changes according to a set pattern, which prevents pests or worms from adapting to ultrasonic waves of a predetermined frequency. The introduction of pests or insects into the entrance 1 can be prevented continuously.

Here, the cross-flow air curtain 100 according to an embodiment of the present invention to emit ultrasonic waves in the range of 1khz ~ 50khz to prevent the proximity of rats, squirrels, blue bristles, outdoor harmful algae, and ultrasonic waves in the range of 20khz ~ 50khz It prevents the proximity of ticks, fleas, crawling pests, etc., and to prevent the proximity of cockroaches, flying insects, etc. by emitting ultrasonic waves in the range of 10khz ~ 50khz.

The cross-flow air curtain 100 of the present invention configured as described above passes through the damper 30 formed on the inner surface of the main frame 10 spaced apart from each other on both sides of the doorway 1 of the predetermined structure (3). Is blown horizontally in the set blowing direction, and the ejected air is controlled by the controller 40 so that the inside and the outside of the doorway 1 are blocked while colliding with each other at the central portion of the doorway 1.

Here, the damper 30 blows air toward the surface of the door 2 that is installed at the door 1 to open and close, and removes objects (foreign substances, pests, insects, etc.) attached to the door 2, and then accesses the door. When the door 2 is opened by the opening operation of the door 2, the damper 30 can blow air in the set blowing direction.

As such, the air is blown out to the surface of the door 2 immediately before the door 2 is opened to remove foreign substances or bugs on the surface of the door 2, thereby preventing foreign substances or bugs attached to the door 2 from entering the interior. It becomes possible.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

1: door 2: door
3: Structure 10: Mainframe
11 suction port 12 connecting plate
20: blower 21: discharge path
30: damper 31: bulkhead
32: drive shaft 33: guide flow plate
34: Actuator 34a: Servo Motor
35: inflow passage 36: outflow passage
37: support bearing 40: controller
50: anemometer 60: wind vane
70: temperature sensor 80: heater
90: ultrasonic generator 90a, 90b, 90c: ultrasonic generator
100: cross-flow air curtain

Claims (11)

A main frame spaced apart from each other at both sides of the entrance and exit of the predetermined structure;
A blower installed at a predetermined position to induce air flow;
A damper disposed on an inner surface of the main frame to receive air guided from the blower, and to blow air horizontally in a set blowing direction;
And a controller for controlling the operation of the blower in response to opening and closing of the doorway, and controlling the operation of the damper by setting an air blowing direction in accordance with an operating condition and an environmental condition of an air curtain.
The cross-flow air curtain, characterized in that the air flows horizontally through the dampers on both sides of the doorway collide with each other at the central portion of the doorway to block the inside and outside of the doorway. The method of claim 1,
Inlet is formed in the front of the main frame,
Cross flow type air curtain, characterized in that the air blown through the damper is guided to the inlet port to circulate the air. The method of claim 1,
The damper includes a pair of partitions installed to be spaced apart from each other;
A plurality of drive shafts disposed vertically in the inner space of the pair of partition walls and installed in rows between the pair of walls;
A plurality of guiding fluid plates formed in a shape of a plate body coupled to the driving shaft and arranged in a vertical direction in the inner space of the pair of partition walls and installed in a row between the pair of walls;
An actuator installed in the main frame and controlled by the controller, the actuator being connected to the drive shaft to rotate the drive shaft and the guide flow plate by a set angle.
Cross flow type air curtain, characterized in that the air is ejected in the set blowing direction by the guide flow plate rotated by a set angle. The method of claim 1,
It is installed at a predetermined position, and further provided with an anemometer for detecting the wind speed of the wind flowing into the doorway,
The controller is characterized in that the flow direction of the air flow set in accordance with the wind speed input from the anemometer. The method of claim 1,
The wind vane is installed at a predetermined position and detects the wind direction of the wind flowing into the doorway.
The controller is a cross-flow air curtain, characterized in that for controlling the operation of the blower and the damper in accordance with the wind direction input from the wind vane. The method of claim 1,
A temperature sensor is installed inside the structure entering and exiting through the doorway to detect the internal temperature of the structure,
It is further provided with a heater installed on the mainframe to heat the air,
And the controller controls the operation of the heater and the damper according to the internal temperature of the structure input from the temperature sensor so that the inside of the structure can be heated. The method according to claim 6,
And the controller causes the air heated by the heater to be blown out through the damper toward the inside of the structure, thereby heating the inside of the structure. The method of claim 1,
A temperature sensor is installed inside the structure to enter and exit through the doorway to detect the internal temperature of the structure,
The controller determines whether or not a fire inside the structure from the internal temperature of the structure input from the temperature sensor, and in the event of a fire inside the structure, the air is blown out through the damper toward the inside of the structure to remove the smoke. Cross flow type air curtain, characterized in that to be performed. The method of claim 1,
The ultrasonic generating device is installed at a predetermined position is further provided,
The ultrasonic generator is any one selected from a frequency modulated ultrasonic generator capable of changing a frequency and a plurality of ultrasonic generators generating ultrasonic waves having different frequencies.
The controller controls the ultrasonic wave generating mechanism so that the frequency of the ultrasonic wave emitted from the ultrasonic wave generating mechanism is changed along a set pattern. Through the damper formed on the inner surface of the main frame spaced apart from each other on both sides of the entrance and exit of the structure, the air is ejected horizontally in the set blowing direction,
And controlling the inside and outside of the doorway while the blown-out air collides with each other at the center of the doorway. The method of claim 10,
The door is opened after the damper blows air toward the surface of the door that is installed at the door and removes an object stuck to the door surface.
And when the entrance is opened by the opening operation of the door, the damper ejects air in a set blowing direction.

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