KR20120003832U - Apparatus for verticality air curtain - Google Patents

Abstract

The present invention relates to a vertical air curtain device installed at the entrance to prevent the loss of indoor air and the inflow of external air through the entrance. The present invention has a case which is installed vertically on one side of the entrance and has a case in which the air inlet and the discharge port directed to the other side of the entrance are respectively formed, the air intakes into the inlet by a blower fan built in the case and the entrance through the discharge port One side blower to form an air curtain in front of the doorway while discharging to the other side of the door; It has a case that is installed perpendicular to the other side of the doorway in a state opposed to the one-side blower, each case is formed with a discharge port directed to the side of the discharge port formed in one blue circle while facing the one side of the air intake and the air inlet, the case The other blower which inhales air to the intake port by a blower fan built in the air blower, and discharges air to the side of the air curtain through a discharge port to form an additional air curtain overlapping the air curtain; And a switch for operating the one side blower and the other side blower together, wherein the one side blower and the other side blower are simultaneously operated by the switch, such that the air curtain and the additional air curtain overlap each other in a spaced state. It provides an air circulation space for circulating the air between the curtains to isolate the air between the air curtain and the additional air curtain between the air curtain and the additional air curtain.

Description

Vertical Air Curtain Unit {APPARATUS FOR VERTICALITY AIR CURTAIN}

The present invention relates to a vertical air curtain device installed in the entrance to prevent the loss of indoor air and the inflow of external air through the automatic door.

In general, the air curtain device is attached to the upper side of the door of food factories, hospitals, and clean rooms that need to prevent pollution, and strongly blows the air from the upper side of the door toward the floor, thereby forming a kind of air film near the door, thereby cooling and heating the room. It is a device that improves the efficiency of the device and blocks the smoke and smell of the outdoors.

However, since the air curtain device blows air from the top to the bottom, there is a problem in that the blown air does not reach the bottom of the door and thus does not completely block the air.

In order to solve such a problem, an air curtain device has been proposed to supply air by vertically installed at both sides of the door DR as shown in plan view in FIG. 1.

Such a vertical air curtain device blows air while the plurality of blowers 1 (1 ') are opposed to each other on both sides of the door DR.

Here, the blower 1 has an inlet 1a for intake of air in the room, a discharge port 1b for discharging air drawn into the center of the door DR, and an air inlet port 1b for discharging air. It consists of a fan (1c) for forcibly conveying air to be discharged to the.

Therefore, the plurality of blowers (1) (1 ') forms an air curtain while injecting air in front of the door (DR) in the opposite state to block the inflow of external air.

However, such a general air curtain device is outside or inside the door DR as the air collides at the center of the door DR by the blowers 1, 1 'simultaneously spraying air toward the center of the door DR. Since the air collided with the air is dispersed, the outside air of the door DR may be introduced into the inside, or the contaminated air inside the door DR may be introduced into the inside.

In addition, since indoor air is continuously introduced in the process of inhaling indoor air and spraying the door DR, an unillustrated filter for purifying air is easily contaminated.

Meanwhile, as shown in FIG. 2, the vertical air curtain device is an arch type air curtain device disclosed in the prior art in Korean Patent No. 583008 (name: air shutter and its installation method) registered in the Korean Intellectual Property Office.

The conventional vertical air curtain device intakes air into the intake port DT1 formed in one side column DT 'of the duct DT while the fan F built in the upper portion of the arch duct DT installed at the door rotates. Air is discharged to the discharge port DT2 formed in the other side column DT ". At this time, the inlet port DT1 retakes the discharge air of the discharge port DT2 and supplies it to the fan F. Therefore, the conventional vertical The type air curtain device prevents the inflow of polluted air by forming a transverse air curtain in front of the door without colliding with air, that is, the conventional vertical air curtain device can solve the problems of the general air curtain device described above. have.

However, such a conventional vertical air curtain device does not provide a strong air curtain because the intake force and the earth output are weak because only one fan F installed in the upper portion of the arcuate duct DT as shown in the drawing force. Not only this, there is a problem that can not block the contaminated air due to this.

In addition, since the arch duct (DT) should be installed on both sides and the upper side of the door, there is a problem that the installation cost and the installation area are excessively required.

The present invention has been devised to solve this problem, it is possible to form a double air curtain overlapping in the spaced apart state by simultaneously injecting air from both sides of the doorway to the inside of the doorway, contamination between the double air curtain It is an object of the present invention to provide a vertical air curtain device capable of isolating compressed air.

It is another object of the present invention to provide a vertical air curtain device capable of preventing re-injection of contaminated air injected by re-injection while re-inhaling air injected at both sides of the entrance and exit into the room.

In addition, it is possible to open and close the inside of the member for injecting air, to purify the air intake by the member for injecting air, and to provide a vertical air curtain device that can smoothly guide the intake air to the inside Is another purpose.

Furthermore, it is another object to provide a vertical air curtain device capable of injecting air while minimizing the movement path of the intake air.

In addition, it is another object to provide a vertical air curtain device that can be guided while the air is compressed by the member for guiding the air moved in the above-described movement path.

In addition, it is another object to provide a vertical air curtain device capable of guiding air to the rear of a member forcibly taking in the air described above.

In addition, it is another object of the present invention to provide a vertical air curtain device capable of preventing the reverse flow of the air discharged from the above-described air discharge member.

Furthermore, it is another object to provide a vertical air curtain device which can prevent the backflow of the air drawn into the above-mentioned member for injecting air.

On the other hand, it is another object to provide a vertical air curtain device that can operate in conjunction with the opening and closing operation of the above-described doorway.

The present invention for achieving the above object, is installed vertically on one side of the doorway, and has a case in which the air intake port and the discharge port for the other side of the door is respectively formed, the air inlet by the blower fan built in the case One side blower which forms an air curtain in front of the entrance while inhaling air and discharging it to the other side of the entrance through the discharge port; It has a case that is installed perpendicular to the other side of the doorway in a state opposed to the one-side blower, each case is formed with a discharge port directed to the side of the discharge port formed in one blue circle while facing the one side of the air intake and the air inlet, the case The other blower which inhales air to the intake port by a blower fan built in the air blower, and discharges air to the side of the air curtain through a discharge port to form an additional air curtain overlapping the air curtain; And a switch applying power to the one blower and the other blower to operate them together, wherein the one blower and the other blower are simultaneously operated by the switch to overlap the air curtain and the additional air curtain in a spaced state. And providing an air circulation space for circulating air between the air curtain and the additional air curtain to isolate air between the air curtain and the additional air curtain between the air curtain and the additional air curtain.

The intake port of the one side blower is formed to face the discharge port of the other blower, and the discharge port of the one side blower is formed to face the intake port of the other blower, and the air curtain and each of the intake air are discharged and discharged again. It is characterized by forming an additional air curtain.

The one side blower and the other side blower is installed on one side of the case in which the blower fan is built, opening and closing one side of the case, the door formed with at least one of the inlet and outlet; A filter installed inside the door to filter contaminants of air sucked into the intake port; And an air induction damper installed inside the chant case and formed in a curved partition shape to guide air passing through the filter to the blowing fan.

The present invention is installed inside the case in a state connected to the air induction damper to reduce the space around the blowing fan to communicate the air while isolating the blowing fan inside the case, the inner case one side is in communication with the discharge port It further includes;

The case is installed in the inner case, is formed in the shape of a partition wall having a curved plate-like air guide for guiding the air forcibly discharged by the blower fan; The air guide further comprises the blower fan It is characterized in that the air is installed adjacent to the guided compressed.

The present invention is installed in the case is divided into the filter and the blowing fan, the one side is installed adjacent to the discharge port in a shielded state, the other side is formed in the communication hole for communicating air to the rear of the blowing fan in the filter And a partition wall for guiding the filtered air to the rear of the blowing fan while preventing the filtered air from flowing into the front of the blowing fan.

The partition wall is characterized in that the end portion of the one side is formed in a streamlined curve to prevent the air discharged to the discharge port by the blowing fan to flow back.

The present invention further includes a counter-flow wall installed inside the case to prevent the filtered air of the filter flowing into the communication hole of the dividing wall from flowing back to the filter side.

The switch is a sensor for detecting the opening and closing operation of the doorway; And a power supply for supplying power to the one blower and the other blower according to the opening and closing state of the doorway detected by the sensor.

The present invention as described above, by discharging air to the inside of the doorway at the same time by the one-side blower and the other blower provided on both sides of the doorway to form a double air curtain overlapping the spaced apart state, the outside air flows through the doorway It can be prevented from being re-introduced into the room while preventing it from becoming.

In addition, since the air injected at the same time from the one blower and the other blower is re-intake through the respective air inlets formed in the one blower and the other blower, it is possible to almost completely block the outflow of contaminated air to prevent the inflow of external air.

In addition, the inside of the blower can be inspected through the aforementioned door, and the air is purified by the filter, so that clean air can be circulated, and the air is guided smoothly by the damper, so that the air can be easily introduced. Can be.

In addition, since the space around the blower fan is minimized by the inner case installed inside the case, the movement path of the air is minimized, so that the air forming the air curtain can be quickly circulated.

In addition, since the air moved in the aforementioned inner case is guided while the air is compressed by the air guide, the air can be strongly discharged.

In addition, since the air sucked by the partition wall installed in the inner case is guided to the rear of the blower fan, the air can be easily compressed by the blower fan.

Furthermore, since the above-mentioned end portions of the dividing wall are curved to prevent backflow of the air discharged from the discharge port, it is possible to prevent the loss of the air discharged from the blower fan.

Moreover, since the air passed while being filtered by the filter can be prevented from flowing back to the filter side by the curved wall, the efficiency of the blowing fan can be increased.

On the other hand, since one side blower and the other blower are operated only when the door is opened by the sensor, the blower fan can be efficiently used as well as saving electricity to drive the above-described blower fan.

1 is a plan view showing an installation state of a conventional air curtain device from the top.
Figure 2 is a front view schematically showing a conventional air curtain generator.
Figure 3 is a perspective view schematically showing a vertical air curtain device according to an embodiment of the present invention.
Figure 4 is a plan view and a sectional view showing the operating state of FIG.

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

Referring to FIG. 3, the vertical air curtain device according to the embodiment of the present invention includes one blower 10, the other blower 30, and a switch 50 as shown.

One side blower 10 and the other side blower 30 are respectively installed in a vertically upright state while being opposed to both sides of the doorway. The one side blower 10 and the other side blower 30 respectively inject air from both sides of the entrance to form a double air curtain. For example, one side blower 10 forms an air curtain in front of the doorway. In this case, the other blower 30 forms an additional air curtain overlapping the air curtain at a rear side of the doorway.

The switch 50 simultaneously operates one side blower 10 and the other side blower 30. In this case, the switch 50 may be composed of a sensor 51 and a power supply 53.

The sensor 51 detects the opening and closing operation of the doorway 20. The sensor 51 is a power supply 53 is operated by the sensor 51 to supply power to one side blower 10 and the other side blower (30).

For example, the switch 50 simultaneously operates one blower 10 and the other blower 30 when the entrance 20 is opened. Accordingly, since the one side blower 10 and the other blower 30 form a double air curtain only when the door 20 is opened, it is possible to prevent inflow and loss of air through the door.

Referring to FIG. 4, the one-side blower 10 includes a case 11, a door 12, an inner case 13, an air induction damper 14, an intake port 15, a discharge port 17, and a partition wall 18. It may be configured to include a backflow prevention wall (19) and a blowing fan (19).

The case 11 is configured in the form of a substantially rectangular box.

Door 12 is installed to open one side of the case 11 as shown enlarged. In the door 12, the inlet 15 and the outlet 17 are respectively formed at both sides. In addition, the door 12 is rotatably opened by the hinge 12a connected to the upper end, and the case 11 is closed by the locking member 12b provided at the lower end. The door 12 may be provided with a filter 16. This filter 16 purifies the air drawn into the inlet port 15. In this case, the filter 16 may be replaced when the door 12 is opened.

The inner case 13 is installed inside the case 11. This, the inner case 13 is composed of plate materials connected by welding or bolting to form a substantially rectangular shape. The inner case 13 may be shielded on one side by a plate-shaped air induction damper 14 to be described later, as shown. That is, the inner case 13 may have a rectangular shape together with the air induction damper 14.

As shown, the inner case 13 reduces the space around the blowing fan 19 together with the air induction damper 14. That is, the inner case 13 forms another isolated space in the inner space of the case 11 surrounding the outside to reduce the space around the blower fan 19.

As shown in the inner case 13, one side and the other side may be connected to the inlet port 15 and the discharge port 17. The inner case 13 is provided with an air guide 13a.

The air guide 13a is formed in a curved partition wall shape and is installed inside the corner of the inner case 13 to guide the air forcedly discharged by the blower fan 19 to the discharge port 17. In addition, the air guide 13a may compress air as it is installed adjacent to the blowing fan 19. Therefore, the air passes between the air guide 13a and the blowing fan 19 adjacent to each other and is compressed to be strongly discharged to the discharge port 17.

The air induction damper 14 is formed in the shape of a curved partition wall to guide the air passing through the filter 16 described above to the blowing fan 19. That is, the air induction damper 14 can gently guide the air to the blowing fan 19 in a curved shape. Here, the air induction damper 14 may be installed directly inside the case 11 or connected to the inner case 13 as shown, and may be installed inside the case 11.

The inlet 15 is formed in the door 12 in a grill form while being in communication with one side of the inner case 13 to suck outside air.

The discharge port 17 is formed in the door 12 in a grill form in communication with the other side of the inner case 13 while being spaced apart from the inlet 15. At this time, the inlet port 15 and the discharge port 17 is preferably spaced at a predetermined interval (D). Here, the predetermined interval (D) is more preferably about 20 ~ 30cm. That is, since the inlet 15 is spaced apart from the outlet 17 at a predetermined interval D, the inlet 15 is not immediately inhaled.

On the other hand, the inlet port 15 and the discharge port 17 is preferably formed in the one side blower 10 and the other blower (30) described above are opposed to the staggered state. For example, the air is discharged from the discharge port 17 of the one side blower 10 and is sucked into the intake port 35 of the other blower 30, while the air is discharged through the discharge port 37 of the other blower 30 and the one side blower 10. Is re-aspirated by the intake port 15. Therefore, the one blower 10 and the other blower 30 may be arranged in a state in which the respective inlets 15 and 35 and the outlets 17 and 37 are staggered with each other to circulate air.

The partition wall 18 is provided inside the case 11 to divide the filter 16 and the blowing fan 19. The partition wall 18 may be installed in the inner case 13 described above.

The dividing wall 18 is formed to be curved as shown, and is formed while the plurality of communication holes 18a are dispersed at a predetermined interval in the suspended portion. Here, the partition wall 18 has a communication hole 18a only on the other side as shown. That is, one side of the dividing wall 18 is shielded, and the other side thereof is partially opened by the communication hole 18a. Therefore, the dividing wall 18 guides the filtered air to the rear of the blowing fan 19 while preventing the air filtered by the filter 16 from flowing in front of the blowing fan 19.

The partition wall 18 is installed adjacent to the discharge port 17 as one shielded side is shown. Therefore, the dividing wall 18 guides the air to the discharge port 17 through one side. In addition, the communication holes 18a are distributed and formed in a large number to guide the blowing fan 19 by dispersing the air, and also by distributing the air to communicate with each other, thereby controlling the flow (flow) of the air.

The partition wall 18 may be connected to the other end of the air induction damper 14. For example, the partition wall 18 has a wide space d1 of the air induction damper 14 toward the inlet 15 so as to guide the air guided to the air induction damper 14 to the rear of the blower fan 19. The gap d2 is narrower as it enters the inside of the case 11.

As shown, the partition wall 18 is formed adjacent to the discharge port 17 in a shielded state while the end portion 18b of one side is formed to be curved in a streamlined shape. That is, the partition wall 18 is curved at the end portion 18b of one side where the communication hole 18a is not formed. One end portion 18b prevents the air blown by the blower fan 19 from flowing backward at the discharge port 17. For example, one end portion 18b is formed in a curved plate shape and is connected to the discharge port 17 together with the inner case 13 to have a shape similar to a funnel. Thus, the end portion 18b of one side guides the air to the discharge port 17 while preventing backflow of the air.

In addition, the partition wall 18 is provided inside the case 11, and a curved wall 18c is formed to prevent the air filtered by the filter 16 from flowing back to the filter 16 side. The curved wall 18c is a plate formed in a curved shape with a central portion projecting convexly toward the filter 16 as shown. Therefore, the curved wall 18c smoothly guides the air passing through the filter 16 to the communication hole 18a by the shape characteristic.

The blowing fan 19 is fixed to the inside of the inner case 13 to forcibly transfer air from the inlet port 15 to the discharge port 17. Such a blowing fan 19 may be rotated by the motor 19a. For example, the blowing fan 19 is preferably composed of a sirocco fan.

On the other hand, the other side blower 30 is configured in the same manner as the one side blower 10, but is installed opposite to the one side blower 10 in the opposite state, the detailed configuration thereof will be omitted.

Hereinafter, with reference to the accompanying Figure 4 describes an embodiment of the present invention.

One side blower 10 and the other side blower 30 are simultaneously operated by a switch 50 for detecting the operation of the doorway 20 when the doorway 20 is opened. At this time, the one-side blower 10 rotates the blower fan 19 to suck air into the intake port 15 and discharge the air to the discharge port 17. In addition, the other blower 30 operates in the same manner as the one blower 10 to intake air into the intake port 35 and discharge it to the discharge port 37. Of course, one blower 10 supplies the discharged air to the inlet port 35 of the other blower (30). The other blower 30 provides discharge air to the inlet port 15 of the one blower 10. That is, the one side blower 10 and the other side blower 30 intake the discharge air of the other side and discharge again as the discharge ports 17 and 37 and the inlet ports 15 and 35 are formed at positions opposite to each other. Therefore, the one side blower 10 and the other side blower 30 form double air curtains (air curtains and additional air curtains) overlapping the spaced apart state in front of the entrance 20.

Since the one side blower 10 and the other side blower 30 form a double air curtain overlapping the spaced state as described above, the contaminated air flowing out of the discharged air is isolated while circulating between the double air curtain.

The filter 16 purifies the air sucked into the intake port 15. The curved wall 18c prevents the air flowing into the intake port 15 from flowing back to the intake port 15 by blocking the flow of air as the center part is convexly formed toward the filter 16 side.

The partition wall 18 and the air induction damper 14 direct the purified air to the inside of the inner case 13. In addition, the dividing wall 18 communicates the air guided through the communication hole 18a only to the rear of the blowing fan 19. At this time, the communication hole 18a of the dividing wall 18 disperses the air to prevent excessive air from entering the blowing fan 19. That is, the communication hole 18a supplies the air to the blowing fan 19 in an amount suitable for the capacity of the blowing fan 19.

The air guide 13a compresses the guided air between the blower fans 19 while guiding the air moving along the inner case 13 to the discharge port 17. Therefore, the air is blown out to the discharge port 17 while being compressed by the blowing fan 19 and the air guide 13a. At this time, the backflow preventing wall (2) prevents the backflow of the air discharged to the discharge port 17.

The inner case 13 forms another isolated space inside the case 11, thereby reducing the space around the supply fan 19. Therefore, the blower fan 19 can compress and discharge air smoothly.

On the other hand, when the sensor 51 detects the opening of the entrance 20, the switch 50 supplies power to the one-side blower 10 and the other blower 30 through the power supply 53 and the one-side blower 10. And the other blower 30 at the same time. In addition, the switch 50 stops the power supply when the entrance 20 is closed. Therefore, the one side blower 10 and the other side blower 30 are stopped when the entrance 20 is closed.

In the vertical air curtain device according to the embodiment of the present invention as described above, the air is discharged simultaneously to the inside of the doorway 20 by one blower 10 and the other blower 30 which are installed on both sides of the doorway (20). By forming a double air curtain in a vertical horizontal direction overlapping the spaced apart state, it is possible to prevent the re-introduction into the room while preventing the outside air flows through the doorway (20).

In addition, since the air injected at the same time in the one blower 10 and the other blower 30 is re-intake through the respective air inlets formed in the one blower 10 and the other blower 30, the outflow of contaminated air is almost completely eliminated. Blocking can prevent the inflow of external air.

In addition, the inside of the side blowers 10 and 30 can be inspected through the door 12 described above, and the air is purified by the filter 16, so that clean air can be circulated, and the air induction damper 14. Since the air is smoothly guided by, the inflow of air can be made easily.

Furthermore, since the space around the blower fan 19 is minimized by the inner case 13 installed inside the case 11, the movement path of the air is minimized, thereby circulating the air forming the air curtain quickly. .

In addition, since the air moved in the aforementioned inner case 13 is guided while the air is compressed by the air guide 13a, the air can be strongly discharged.

In addition, since the air sucked by the partition wall 18 installed in the inner case 13 is guided to the rear of the blower fan 19, the air can be easily compressed by the blower fan 19. .

Furthermore, since the above-mentioned end portion of the dividing wall 18 is curved to prevent backflow of the air discharged from the discharge port 17, it is possible to prevent the loss of the air discharged from the blower fan 19.

Furthermore, since the air passed while being filtered by the filter 16 can be prevented from flowing back to the filter 16 side by the curved wall 18c, the efficiency of the blowing fan 19 can be increased.

On the other hand, since the one side blower 10 and the other blower 30 is operated only by the sensor 50 when the door is opened, it is possible to not only save electricity to drive the above-described blower fan 19 but also the blower fan 19 ) Can be used efficiently.

Since the above-described embodiment is merely a description of a preferred embodiment of the present invention, the scope of application of the present invention is not limited to such, and appropriate modifications are possible within the scope of the same idea. Therefore, since the shape and structure of each component shown in the embodiment of the present invention can be carried out by deformation, it is natural that the modification of the shape and structure belong to the appended claims of the present invention.

10: one side blower 20: doorway
30: other side blower 50: switch
11: case 12: door
13: inner case 14: air induction damper
15: intake vent 16: filter
17 discharge port 18 partition wall
19 blower fan

Claims (5)

It is installed vertically on one side of the doorway, and has a case in which air intake ports and discharge ports directed to the other side of the door are respectively formed, and the air is sucked into the air inlets by a blower fan built in the case to the other side of the door through the discharge ports. One side blower to form an air curtain in front of the entrance while discharging;
It has a case that is installed perpendicular to the other side of the doorway in a state opposed to the one-side blower, each case is formed with a discharge port directed to the side of the discharge port formed in one blue circle while facing the one side of the air intake and the air inlet, the case The other blower which inhales air to the intake port by a blower fan built in the air blower, and discharges air to the side of the air curtain through a discharge port to form an additional air curtain overlapping the air curtain; And
And a switch for applying power to the one side blower and the other side blower to operate them together.
The one side blower and the other side blower are simultaneously operated by the switch to provide an air circulation space for circulating air between the air curtain and the additional air curtain as the air curtain and the additional air curtain overlap each other. Vertical air curtain device, characterized in that the air between the air curtain is isolated between the air curtain and the additional air curtain. The method of claim 1,
The intake port of the one side blower is formed to face the discharge port of the other blower, and the discharge port of the one side blower is formed to face the intake port of the other blower, and the air curtain and each of the intake air are discharged and discharged again. Vertical air curtain device, characterized in that to form an additional air curtain. According to claim 1, wherein the one side blower and the other side blower
A door installed at one side of the case in which the blowing fan is built in, opening and closing one side of the case, and having at least one of the inlet and outlet;
A filter installed inside the door to filter contaminants of air sucked into the intake port; And
And an air induction damper which is installed inside the chant case and has a curved partition shape to guide air passing through the filter to the blowing fan. The method of claim 3, wherein
An inner case installed in the case connected to the air induction damper to reduce the space around the blowing fan through which air is communicated while isolating the blowing fan to the inside of the case, and one side of which is in communication with the outlet; Vertical air curtain device comprising. The method of claim 4, wherein
A plate-shaped air guide installed in the inner case and formed in a curved partition shape to guide air discharged by the blower fan to the discharge port;
The air guide is a vertical air curtain device, characterized in that to be installed adjacent to the blowing fan to compress the guided air.

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