KR20200056665A - Air handling unit - Google Patents

Abstract

The present invention is to provide an air handling unit which is safe so that a worker is not injured even if the worker opens a door during operation of a blower fan. The air handling unit according to an embodiment of the present invention includes: a case having an intake part and an exhaust part; a blower fan arranged inside the case and discharging the air suctioned into the intake part to the exhaust part; a negative pressure door provided in the case and facing a space between the blower fan and the exhaust part with respect to an air flow direction; an outer hinge installed in the outer surface of the case and connecting the negative pressure door to be rotated to the outside of the case; and an inner hinge installed in the inner surface of the case and connecting the negative pressure door to be rotated to the inside of the case.

Description

Air handling unit {AIR HANDLING UNIT}

The present invention relates to an air handling unit, and more particularly to an air handling unit of an air conditioner.

In general, the air conditioner is to cool or cool the room or purify the air by using a refrigeration cycle of a refrigerant composed of a compressor, a condenser, an expansion mechanism, and an evaporator to create a more comfortable indoor environment for the user.

In particular, an air conditioner for cooling a large indoor space such as an auditorium or a gymnasium may include an air handling unit (AHU) and a chiller.

The air handling unit is a ventilation and air conditioning unit that mixes outdoor air and indoor air, heats the mixed air in a heat exchanger, and supplies it to the room, separately from the room where the air handling unit air-conditions in a building or house where an air conditioner is installed. It is installed in the provided air-conditioning room, machine room, or outdoor.

The chiller is a cold water supply unit that supplies cold water to a heat exchanger of an air handling unit using a refrigeration cycle, and includes a compressor, a condenser, an expansion mechanism, and an evaporator forming a refrigeration cycle. The evaporator exchanges heat with water and cools the water to supply cold water to the air handling unit.

The air handling unit may be provided with a door for internal inspection or maintenance.

However, the conventional air handling unit, there is a problem that the operator is injured while the door is opened suddenly by the pressure formed in the air handling unit when the operator accidentally opens the door during operation.

The problem to be solved by the present invention is to provide a safe air handling unit that does not hurt the operator even if the operator opens the door during the operation of the blower fan.

Air handling unit according to an embodiment of the present invention, the case provided with the suction and discharge parts; A blower fan disposed inside the case to discharge air sucked into the suction part to the discharge part; A negative pressure door provided in the case and facing between the suction part and the blowing fan with respect to an air flow direction; A positive pressure door provided in the case and directed between the blowing fan and the discharge part with respect to an air flow direction; An outer hinge installed on an outer surface of the case and rotatably connecting the sound pressure door to the outside of the case; And an inner hinge installed on the inner surface of the case and rotatably connecting the positive pressure door to the inside of the case.

A negative pressure opening formed in the case and opened and closed by the negative pressure door; And a sound pressure door fixing part disposed along the inner circumference of the sound pressure opening and preventing the sound pressure door from rotating to the inside of the case in contact with the sound pressure door.

The negative pressure door fixing portion, a negative pressure fixing bracket fastened to the inner surface of the case; And an insulator adhered to the negative pressure fixing bracket and in contact with the negative pressure door to shield a gap between the negative pressure fixing bracket and the negative pressure door.

The negative pressure fixing bracket, a fastening portion fastened to the inner surface of the case; And a bent portion extending from the fastening portion toward the outside of the case.

The insulator may be attached to the fastening portion and the bending portion.

The sound pressure door may include a first sound pressure door body to which the outer hinge is connected and is applied to the sound pressure door fixing part; And a second sound pressure door body that protrudes from the inner surface of the first sound pressure door body to the inside of the case and is stepped from the inner surface of the first sound pressure door body. At least a portion of the sound pressure door fixing part may be located between the inner circumference of the sound pressure opening and the outer circumference of the second sound pressure door body.

A positive pressure opening formed in the case and opened and closed by the positive pressure door; And a positive pressure door fixing part disposed along the inner circumference of the positive pressure opening and preventing the positive pressure door from rotating to the outside of the case in contact with the positive pressure door.

The positive pressure door fixing portion, a positive pressure fixing bracket fastened to the inner surface of the case; And an insulator adhered to the positive pressure fixing bracket and in contact with the positive pressure door to shield a gap between the positive pressure fixing bracket and the positive pressure door.

The positive pressure fixing bracket, a fastening portion fastened to the inner surface of the case; A first extension portion bent between the inner circumference of the positive pressure opening portion and the outer circumference of the positive pressure door in the fastening portion; A second extension portion bent from the first extension portion toward the positive pressure door; And a bent portion extending from the second extension portion toward the inside of the case.

The insulator may be attached to the first extension portion, the second extension portion, and the bent portion.

The positive pressure door includes: a first positive pressure door body to which the inner hinge is connected and is engaged with the positive pressure door fixing part; And a second positive pressure door body that protrudes from the outer surface of the first positive pressure door body to the outside of the case and is stepped with the outer surface of the first positive pressure door body. At least a portion of the positive pressure door fixing part may be positioned between the inner circumference of the positive pressure opening and the outer circumference of the second positive pressure door body.

According to a preferred embodiment of the present invention, the negative pressure door is rotatable to the outside of the case and the positive pressure door is rotatable to the inside of the case, so even if the operator attempts to open the negative pressure door or the positive pressure door during the operation of the blowing fan, the pressure difference may The door does not open or opens very slowly. In this way, the risk of injury to the user can be prevented.

In addition, since the negative pressure door is installed on the outer hinge installed on the outer surface of the case and the positive pressure door is installed on the inner hinge installed on the inner surface of the case, the negative pressure door can be easily rotated to the outside of the case, and the positive pressure door is inside the case. It can be easily rotated.

In addition, the negative pressure door fixing portion can prevent the negative pressure door from being rotated to the inside of the case, and the positive pressure door fixing portion can prevent the positive pressure door from being rotated to the outside of the case.

In addition, the negative pressure insulator and the positive pressure insulator can contact the negative pressure door and the positive pressure door, respectively, to improve airtightness inside the case.

In addition, since the negative pressure insulator and the positive pressure insulator include an elastic material, it is pressed by a negative pressure door and a positive pressure door to make a surface contact, thereby further improving airtightness.

In addition, since the negative pressure fixing bracket includes a fastening portion and a bending portion, and the negative pressure insulator is attached to the fastening portion and the bending portion, the inner surface of the first negative pressure door body can be in close contact with the negative pressure insulator.

In addition, since the positive pressure fixing bracket includes a fastening portion, a first extension portion, a second extension portion and a bending portion, and the positive pressure insulator is attached to the first extension portion, the second extension portion and the bending portion, the outer surface of the first positive pressure door body is It can adhere to a positive pressure insulator.

1 is a schematic configuration diagram of an air conditioning system including an air handling unit according to an embodiment of the present invention.
2 is a view of the interior of the air handling unit according to an embodiment of the present invention as viewed from above.
3 is a view showing a door of the air handling unit according to an embodiment of the present invention.
4 is a view of the sound pressure door according to an embodiment of the present invention as viewed from the outside.
5 is a view as viewed from the inside of the sound pressure door according to an embodiment of the present invention.
Figure 6 is a cut-away perspective view for explaining the configuration of a sound pressure door according to an embodiment of the present invention.
FIG. 7 is an enlarged view of A of FIG. 6.
8 is a view of the positive pressure door according to an embodiment of the present invention as viewed from the outside.
9 is a view of the positive pressure door according to an embodiment of the present invention as viewed from the inside.
10 is a cut-away perspective view for explaining the configuration of a positive pressure door according to an embodiment of the present invention.
11 is an enlarged view of B of FIG. 10.

Hereinafter, a specific embodiment of the present invention will be described in detail with the accompanying drawings.

1 is a schematic configuration diagram of an air conditioning system including an air handling unit according to an embodiment of the present invention.

The air handling unit 1 according to an embodiment of the present invention may constitute an air conditioning system together with the chiller 2.

The air handling unit 1 is a ventilation and air conditioning unit that mixes outdoor air and indoor air, exchanges the mixed air in a heat exchanger, and supplies it to the room, where the air handling unit 1 is in a building or house where an air conditioner is installed. The air conditioning unit may be installed in an air conditioning room or a machine room provided separately from the interior, or may be installed outdoors.

The air handling unit 1 has a space therein and has an indoor air intake 11, an indoor air exhaust 12, an outdoor air intake 13, and a case in which an air conditioning air exhaust 14 is formed (10) ), Is installed inside the case 10, the air blowing fan (25) (26) for flowing the outdoor air and indoor air, and is installed inside the case (10) to flow toward the air-conditioning air outlet (14) It may include a heat exchanger 40 for exchanging air with cold water.

The air handling unit 1 is connected to a ventilation duct 21 communicating the indoor air and the indoor air intake 11 so that the indoor air is sucked into the case 10 through the indoor air intake 11 and the indoor air The indoor air outlet 12 and the exhaust duct 22 communicating the outside are connected so that some of the air sucked into the case 10 inside the case 10 is discharged to the outdoors, and the outdoor air is the outdoor air intake. The outside air duct 23 communicating with the outdoor and the outdoor air intake 13 is connected so that the case 10 is sucked into the case 10, and the air conditioning air is supplied so that the air conditioned inside the case 10 is supplied to the room. The air supply duct 24 connecting the discharge part 14 and the room may be connected.

In more detail, the ventilation duct 21 is connected to the indoor air intake 11, the exhaust duct 22 is connected to the indoor air exhaust 12, and the outside air duct 23 is an outdoor air intake 13 ), And the air supply duct 24 may be connected to the air conditioning air outlet 14.

In the air handling unit 1, some of the indoor air sucked into the indoor air intake 11 is exhausted to the outside through the indoor air exhaust 12, and the rest is outdoor air sucked into the outdoor air intake 13 It is mixed with, and the mixed air may be configured to be supplied to the room through the air conditioning air discharge unit 14 and the air supply duct 19 after heat exchange with the heat exchanger 40.

The plurality of blowing fans 25 and 26 are positioned between the indoor air intake 11 and the indoor air outlet 12 in the flow direction of indoor air to suck and blow indoor air into the case 10 It is located between the return fan 25 and the heat exchanger 40 and the air conditioning air discharge unit 14 in the flow direction of the mixed air to draw the mixed air into the heat exchanger 40 and then the air conditioning air discharge unit 14 It may include a supply fan 26 to blow toward.

Each blower fan 25, 26 is a variable air volume fan so that the air volume can be adjusted, and the blower fan bodies 25B, 26B installed on the frames 25A, 26A, and the frames 25A, 26A, It may include a motor (25C) (26C) for providing rotational power to the blower fan body (25B) (26B).

Wheels or rollers are provided below the frames 25A and 26A to easily move the blowing fans 25 and 26. Further, the motors 25C and 26C may be configured as inverter motors having variable wind speeds.

The inner space of the case 10 may include a number of chambers. In more detail, the interior space of the case 10 includes an indoor air suction chamber (C1), a return chamber (C2), an indoor air discharge chamber (C3), a mixing chamber (C4), and a heat exchange chamber (C5). , Auxiliary chamber (C6), a supply chamber (C7), and may include an air conditioning air discharge chamber (C8).

With respect to the flow direction of the indoor air, the indoor air suction chamber (C1), the return chamber (C2), and the indoor air discharge chamber (C3) may be sequentially arranged.

The indoor air suction chamber C1 may be provided with an indoor air suction unit 11.

The return chamber C2 is located between the indoor air intake chamber C1 and the indoor air discharge chamber C3, and the return fan 25 may be disposed therein. The return chamber C2 may communicate the indoor air suction chamber C1 and the indoor air discharge chamber C3.

The outdoor air discharge chamber C3 may be provided with an indoor air discharge portion 12. In addition, an indoor air supply unit 15 for supplying indoor air to the mixing chamber C4 may be provided in the outdoor air discharge chamber C3.

The air sucked into the indoor air intake chamber (C1) from the indoor air intake unit (11) by the operation of the return fan (25) located in the return chamber (C2) passes through the return chamber (C2) and the indoor air discharge chamber (C3) ), Some of which may be discharged to the indoor air discharge unit 12 and the other portion may be flowed to the mixing chamber C4 through the indoor air supply unit 15.

For the flow direction of the mixed air in which the indoor air and the outdoor air are mixed, the mixing chamber (C4), the heat exchange chamber (C5), the auxiliary chamber (C6), the supply chamber (C7), and the air-conditioning air discharge chamber (C8) ) May be sequentially arranged.

The outdoor air suction unit 13 may be provided in the mixing chamber C4. In addition, the mixing chamber C4 may be in communication with the indoor air discharge chamber C4 by the indoor air supply unit 15. In the mixing chamber C4, the indoor air supplied from the indoor air discharge chamber C3 through the indoor air supply unit 15 and the outdoor air sucked through the outdoor air suction unit 13 may be mixed.

A heat exchanger 40 may be disposed in the heat exchange chamber C5. The heat exchange chamber C5 may communicate with the mixing chamber C4, and the mixed air of the mixing chamber C4 may pass through the heat exchange chamber C5 and exchange heat with the heat exchanger 40.

The heat exchanger 40 may include a kind of cooling coil that heats the mixed air and cold water to cool the mixed air. That is, the heat exchanger 40 may include a cold water coil having a passage through which cold water passes. A water pipe 41 and 42 connecting the chiller 2 and the heat exchanger 40 may be connected to the heat exchanger 40.

The auxiliary chamber C6 may be located between the heat exchange chamber C5 and the supply chamber C7. That is, the auxiliary chamber C6 may be located between the heat exchanger 40 and the supply fan 26, and may communicate the heat exchange chamber C5 and the supply chamber C7.

The supply chamber C7 is located between the auxiliary chamber C6 and the air-conditioning air discharge chamber C8, and the supply fan 26 may be disposed therein. The supply chamber C7 may communicate the auxiliary chamber C6 and the air-conditioning air discharge chamber C8.

The air conditioning air discharge chamber C8 may be provided with an air conditioning air discharge portion 14.

The indoor air introduced into the mixing chamber C4 from the indoor air supply unit 15 and the outdoor air sucked from the outdoor air suction unit 13 by the operation of the supply fan 26 located in the supply chamber C7 are mixed in the mixing chamber. They can be mixed to form mixed air. The mixed air may pass through the heat exchange chamber and be heat exchanged in the heat exchanger, and may be discharged to the air conditioning air discharge unit 14 by sequentially passing through the auxiliary chamber, the supply chamber, and the air conditioning air discharge chamber.

The air handling unit 1 may include a plurality of dampers 43, 44, 45 for adjusting the ratio of indoor air to outdoor air in the mixed air.

A plurality of dampers (43) (44) (45) is installed in the indoor air exhaust unit (12) and the exhaust damper (43) for adjusting the indoor air exhaust amount, and the outside air intake unit (13) is installed in the outdoor air intake amount It may include an external air damper (44) for adjusting the, and a mixed damper (45) installed in the indoor air supply unit (15) to control the amount of air sucked into the mixing chamber (C4) in the indoor air.

Meanwhile, the chiller 2 is a cold water supply unit that supplies cold water to the heat exchanger 40 of the air handling unit 1 using a refrigeration cycle. The chiller 2 includes a chiller case 50, a compressor 51 compressing refrigerant, a condenser 52 condensing the refrigerant compressed in the compressor 51, and a refrigerant condensed in the condenser 52 being expanded. The expansion mechanism 53 may include an evaporator 54 in which the refrigerant expanded in the expansion mechanism 53 exchanges heat with water to evaporate. The compressor 51, the condenser 52, the expansion mechanism 53, and the evaporator 54 may form a refrigeration cycle.

The chiller 2 may be installed outdoors when the condenser 52 is air-cooled, and may be installed outdoors in a machine room such as a basement or outdoors when the condenser 52 is water-cooled.

The chiller case 50 is composed of a structure in which a compressor 51, a condenser 52, an expansion mechanism 53, and an evaporator 54 are installed, and when the condenser 52 is air-cooled, air is sucked and discharged. Can be.

The compressor 51 is made of a variable-capacity compressor having a variable operating capacity, and a plurality of compressors may be partially or entirely driven according to a load, or may be composed of an inverter compressor or the like.

Compressor 51 may be installed in the outlet pipe connected to the condenser 52, an oil separator 55 for separating the refrigerant oil and oil out of the compressor 51. The oil separator 55 may be connected to an oil recovery passage 56 for recovering oil with a compressor 51.

The condenser 52 may be configured such that the refrigerant is condensed by outdoor air blown by the outdoor fan 57 or by a cooling tower (cooling water supplied by not shown. Outdoor air blown by the outdoor fan 57 will be described below. It will be described taking as an example the case where the refrigerant is condensed.

The evaporator 54 is connected to the heat exchanger 40 of the air handling unit 1 and the water pipes 41 and 42 to cool the water while the refrigerant expanded in the expansion mechanism 53 evaporates. A refrigerant flow passage passing through and a water flow passage through which water passes may be formed with a heat exchange member interposed therebetween.

The evaporator 54 may include a shell having a plurality of inner tubes through which water passes and having a water passage, and a refrigerant passage formed outside the plurality of inner tubes and through which refrigerant flows.

The evaporator 54 is connected to the heat exchanger 40 of the air handling unit 1 and the water pipes 41 and 42, a plurality of inner tubes, a water pipe 41 and 42, and an air handling unit The cold water coil included in the heat exchanger 40 of (1) may form a cold water circulation flow path.

In this case, the water pipes 41 and 42 may be disposed to penetrate the case 10 and the chiller case 50 of the air handling unit 1. The water pipes 41 and 42 may be provided with a cold water pump 58 that pumps cold water to be circulated.

The cold water pump 58 may be installed in a portion located inside the air handling unit 1 among the water pipes 41 and 42, or may be installed in a portion located inside the chiller 2, and air It is also possible to be installed in a portion located between the handling unit 1 and the chiller 2, and is installed to be located inside the air handling unit 1 or inside the chiller 2 to facilitate control or wire connection. It is preferred.

Hereinafter, the operation of the air conditioning system including the air handling unit 1 and the chiller 2 will be described.

First, when the user or the like operates the air conditioning system, the blowing fans 25 and 26 of the air handling unit 1 are turned on, and the compressor 51 and the outdoor fan 57 of the chiller 2 are turned on and expanded. The mechanism 53 is also opened, and the cold water pump 58 can be driven.

When the compressor 51 is driven, the refrigerant circulates through the compressor 51, the condenser 52, the expansion mechanism 53, and the evaporator 54. At this time, the refrigerant passing through the evaporator 54 takes heat from the water. Water can be cooled.

When the cold water pump 58 is driven, the water cooled in the evaporator 54 cools the heat exchanger 40 of the air handling unit 1 through one of the water pipes 41 and 42, and then the water pipe ( 41) (42) can be recovered to the evaporator (54) through the other. That is, the cold water may cool the heat exchanger 40 while circulating the evaporator 54 and the heat exchanger 40.

When the blowing fan (27) (28) is driven, the indoor air is sucked into the indoor air suction unit (11) through the ventilation duct (21), and passes through the indoor air suction chamber (C1) and the return chamber (C2) to be indoors. It may be introduced into the air discharge chamber (C3). Some of the indoor air in the indoor air discharge chamber (C3) is exhausted to the outside through the indoor air discharge unit 12 and the exhaust duct 22, and the other part is passed to the mixing chamber 26 through the indoor air supply unit 15 Can be inhaled. In addition, outdoor air may be sucked into the mixing chamber C4 through the outside air duct 23 and the outdoor air intake 13 and mixed with air sucked into the mixing chamber C4 in the indoor air. As the mixed air passes through the heat exchanger 40 of the heat exchange chamber (C5), heat is taken from the water passing through the heat exchanger (40) to lower the temperature, and then the auxiliary chamber (C6), the supply chamber (C7), and air conditioning It passes through the air discharge chamber (C8) sequentially, it can be supplied to the room through the air conditioning air discharge unit 14 and the air supply duct (24).

A predetermined pressure may be formed inside each chamber by the air flow in the air handling unit according to the driving of the blowing fans 27 and 28.

In more detail, the indoor air intake chamber C1 may be formed with a negative pressure according to air intake from the return fan 25. A positive pressure according to the air discharge of the return fan 25 may be formed in the indoor air discharge chamber C3.

In addition, a negative pressure according to air intake of the supply fan 26 may be formed in the mixing chamber C4, the heat exchange chamber C5, and the auxiliary chamber C6. A positive pressure according to the air discharge of the supply fan 26 may be formed in the air conditioning air discharge chamber C8.

2 is a view of the inside of the air handling unit according to an embodiment of the present invention as viewed from above, and FIG. 3 is a view showing a door of the air handling unit according to an embodiment of the present invention.

The air handling unit 1 is provided in the case 10 and a plurality of doors 30 and 34 that open and close the inner space of the case 10. Each door 30 and 34 may include a plurality of hinges 71 and 72 that are rotatably connected to the case 10.

 The operator may open the plurality of doors 30 and 34 to inspect the inside of the case 10 or perform maintenance work.

In general, the operator first turns off the blowing fans 25 and 26, and then opens the doors 30 and 34. However, when the operator accidentally opens the doors 30 and 34 while the blowing fans 25 and 26 are on, the doors 30 and 34 are instantaneously caused by the pressure formed inside the case 10. There is a risk that an operator may be injured while being fully open, and in order to prevent this, the opening direction of each door 30 and 34 depends on whether the pressure inside the chamber opened and closed by each door 30 and 34 is positive or negative. This can be configured differently.

More specifically, the plurality of doors 30 and 34 includes at least one negative pressure door 30 that opens and closes a chamber in which negative pressure is formed, and at least one positive pressure door that opens and closes a chamber in which positive pressure is formed ( 34).

In addition, the plurality of hinges 71 and 72 are connected to the negative pressure door 30 and are connected to the outer hinge 71 installed on the outer surface 10A of the case 10, and the positive pressure door 34, and the case 10 It may include an inner hinge 72 installed on the inner surface (10B).

The negative pressure door 30 may open and close a chamber in which negative pressure is formed.

For example, three negative pressure doors 30 may be provided, and each negative pressure door 30 may open and close the indoor air suction chamber C1, the mixing chamber C4, and the auxiliary chamber C6. In this case, the negative pressure door 30 for opening and closing the indoor air intake chamber C1 is the first sound pressure door 31, and the negative pressure door 30 for opening and closing the mixing chamber C4 is the second sound pressure door 32, the auxiliary The negative pressure door 30 that opens and closes the chamber C6 may be referred to as a third negative pressure door 33.

That is, the plurality of sound pressure doors 30 may include a first sound pressure door 31, a second sound pressure door 32 and a third sound pressure door 33.

Each sound pressure door 30 may face between the suction parts 11 and 12 and the blowing fans 25 and 26 with respect to the air flow direction. In more detail, the first sound pressure door 31 may face between the indoor air intake 11 and the return fan 25. The second sound pressure door 32 and the third sound pressure door 33 may be directed between the outdoor air intake 13 and the supply fan 26.

Since the negative pressure door 30 is configured to open and close a chamber in which negative pressure is formed, it is pressed inward by a pressure difference inside and outside the case 10 when the blowing fans 25 and 26 are operated. Therefore, in order to prevent an injury to the operator, the negative pressure door 30 is configured to be rotated only to the outside of the case 10 and not to the inside.

That is, the operator cannot open the negative pressure door 30 by pushing, but can open it by pulling. Thus, when the blowing fan (25) (26) is in the on-state when the operator pulls the negative pressure door (30), the negative pressure door (30) is not opened by a pressure difference inside or outside the case (10), or only when a very large force is applied. Can be opened.

In this way, the negative pressure door 30 can be pivotably connected to the outer hinge 71 installed on the outer surface 10A of the case 10 so that the negative pressure door 30 is only rotated to the outside of the case 10. In addition, the negative pressure door 30 may not be rotated to the inside of the case 10 by being caught by the negative pressure door fixing part 81 (see FIG. 5), which will be described later. This will be described later in detail.

Each sound pressure door 30 may be provided with a sound pressure door handle 73. The operator can unlock the negative pressure door 30 by operating the negative pressure door handle 73 to the unlocked position and open the negative pressure door 30 by pulling the negative pressure door 30 in this state. In addition, the operator can lock the negative pressure door 30 by operating the negative pressure door handle 73 to the lock position.

Further, at least a portion of the plurality of sound pressure doors 30 may be provided with a sound pressure door inspection window 37 including a transparent material. For example, the first sound pressure door 31 may be provided with a sound pressure door inspection window 37. The operator can observe the inside of the case 15 without opening the negative pressure door 30 through the negative pressure door inspection window 37.

The positive pressure door 34 may open and close the chamber in which positive pressure is formed.

For example, two positive pressure doors may be provided, and each positive pressure door 34 may open and close the indoor air discharge chamber C3 and the air conditioning air discharge chamber C8. In this case, the positive pressure door 34 that opens and closes the indoor air discharge chamber C3 is the first positive pressure door 35, and the positive pressure door 34 that opens and closes the air conditioning air discharge chamber C8 is the second positive pressure door 36. It can be named as

That is, the plurality of positive pressure doors 34 may include a first positive pressure door 35 and a second positive pressure door 36.

Each positive pressure door 34 can be directed between the blower fans 25 and 26 and the discharge parts 13 and 14 with respect to the air flow direction. In more detail, the first positive pressure door 35 may be directed between the return fan 25 and the indoor air discharge unit 12. The second positive pressure door 36 may be directed between the supply fan 26 and the air-conditioning air outlet 14.

Since the positive pressure door 34 is configured to open and close the chamber in which positive pressure is formed, the positive pressure door 34 is pressed outward by the pressure difference inside and outside the case 10 when the blowing fan 25 and 26 are operated. Therefore, in order to prevent an injury to the operator, the positive pressure door 34 is rotatable only inside the case 10 and is configured not to rotate outside.

That is, the operator cannot open the positive pressure door 34 by pulling, but can open it by pulling. Thus, when the blowing fan (25) (26) is in the on-state when the operator pushes the positive pressure door (34), the positive pressure door (30) is not opened by the pressure difference inside or outside of the case (10) or only when a very large force is applied to slowly open it. Can be.

As such, in order for the positive pressure door 34 to rotate only inside the case 10, the positive pressure door 34 may be rotatably connected to the inner hinge 72 installed on the inner surface 10B of the case 10. In addition, the positive pressure door 34 may not be rotated to the outside of the case 10 by being caught by the positive pressure door fixing portion 84 (see FIG. 9), which will be described later. This will be described later in detail.

Each positive pressure door 34 may be provided with a positive pressure door handle 74. The operator can unlock the positive pressure door 34 by operating the positive pressure door handle 74 to the unlock position and push the positive pressure door 34 in this state to open the positive pressure door 34. In addition, the operator can lock the positive pressure door 34 by operating the positive pressure door handle 74 to the lock position.

In addition, a positive pressure door inspection window 38 including a transparent material may be provided on at least a portion of the plurality of positive pressure doors 34. For example, the second sound pressure door 36 may be provided with a positive pressure door inspection window 38. The operator can observe the inside of the case 15 without opening the positive pressure door 34 through the positive pressure door inspection window 38.

4 is a view of the sound pressure door according to an embodiment of the present invention as viewed from the outside, FIG. 5 is a view of the sound pressure door according to an embodiment of the present invention as viewed from the inside, and FIG. 6 is an embodiment of the present invention It is a cut-away perspective view for explaining the configuration of the sound pressure door, Figure 7 is an enlarged view of Figure 6 A.

The air handling unit 1 may include a negative pressure opening 18 formed in the case 10 and opened and closed by the negative pressure door 30.

The negative pressure opening 18 may be formed by cutting a part of the case 10. The negative pressure opening 18 may be formed at a position corresponding to the chambers C1, C4, and C6 opened and closed by the negative pressure door 30, and the negative pressure door 30 opens and closes the negative pressure opening 18. By doing so, the chambers C1, C4, and C6 can be opened and closed.

As described above, the negative pressure door 30 may be rotatably connected to the outer hinge 71 installed on the outer surface 10A of the case 10. Further, the negative pressure door 30 may be caught by the negative pressure door fixing portion 81 and not rotated to the inside of the case.

The negative pressure door fixing part 81 may be disposed along the inner circumference of the negative pressure opening 18. The negative pressure door fixing portion 81 may be formed in an approximately annular shape. In one example, the negative pressure opening 18 may be a square opening, and the negative pressure door fixing 81 may be formed in a substantially rectangular ring shape.

The negative pressure door fixing part 81 is attached to the negative pressure fixing bracket 82 fastened to the inner surface 10B of the case 10, and the negative pressure insulator 83 that is adhered to the negative pressure fixing bracket 82 and contacts the negative pressure door 30. It can contain.

The negative pressure fixing bracket 82 may include a metal material.

The negative pressure fixing bracket 82 may cover the inner edge of the negative pressure opening 18.

The negative pressure fixing bracket 82 may include a fastening portion 82A fastened to the inner surface 10B of the case 10 and a bent portion 82B extending bent from the fastening portion 82A.

The fastening portion 82A may be fastened to a portion adjacent to the inner edge of the negative pressure opening portion 18 of the inner surface 10B of the case 10.

The fastening portion 82A includes an overlapping portion overlapping the case 10 and a non-overlapping portion overlapping the case 10 with respect to a direction perpendicular to the outer surface 10A and the inner surface 10B of the case 10. Can be.

A fastening portion 82A, more specifically, a plurality of fastening holes are formed in the overlapping portion, and fastening members such as screws penetrate the fastening hole to fasten the fastening portion 82A to the inner surface 10B of the case 10. Can be.

The bent portion 82B may extend from the fastening portion 82A, more specifically, from the overlapping portion toward the outside of the case 10.

At least a portion of the bent portion 82B may be located between the outer circumference of the negative pressure door 30 and the negative pressure insulator 83. In more detail, at least a portion of the bent portion 82B may be located between the outer circumference of the second sound pressure door body 30B and the sound pressure insulator 83.

The bent portion 82B may be spaced apart from the negative pressure door 30.

The negative pressure insulator 83 may include an elastic material such as rubber, silicone, and the like, and when the negative pressure door 30 is closed, contact with the negative pressure door 30 to maintain airtightness of the negative pressure opening 18. The negative pressure door 30 presses the negative pressure insulator 83 while being pressed inside the case 10 by a pressure difference inside and outside the case 10, and the negative pressure insulator 83 is elastically deformed and is in surface contact with the negative pressure door 30. can do. Thereby, the hermetic performance of the negative pressure insulator 83 can be further improved.

The negative pressure insulator 83 may be adhered to the fastening portion 82A and the bending portion 82B of the negative pressure fixing bracket 82. In more detail, the negative pressure insulator 83 may be adhered to the non-overlapping portion and the bent portion 82B of the fastening portion 82A.

The negative pressure insulator 83 may be located between the inner circumference of the negative pressure opening 18 and the outer circumference of the negative pressure door 30. In more detail, the negative pressure insulator 83 may be located between the inner circumference of the negative pressure opening 18 and the outer circumference of the second door body 30B. The negative pressure insulator 83 may be located between the non-overlapping portion of the fastening portion 82A and the inner surface of the first negative pressure door body 30A.

The negative pressure insulator 83 may contact the inner surface of the first negative pressure door body 30A, and may be spaced apart from the second negative pressure door body 30B.

The negative pressure door 30 may include a first negative pressure door body 30A facing the outside of the case 10 and a second negative pressure door body 30B facing the inside of the case 10.

An outer hinge 71 may be connected to the first sound pressure door body 30A. In addition, the first sound pressure door body 30A may be caught by the sound pressure door fixing part 81. Thus, the negative pressure door 30 may not be rotated inside the case 10.

In more detail, the inner surface of the first sound pressure door body 30A may contact the sound pressure insulator 83.

For smooth rotation of the negative pressure door 30, the outer circumference of the first door body 30A may be spaced apart by forming a predetermined distance from the inner circumference of the negative pressure opening 18. In addition, the outer circumference of the second sound pressure door body 30B may be spaced apart from the sound pressure fixing bracket 82 and the sound pressure insulator 83.

The second sound pressure door body 30B protrudes from the inner surface of the first sound pressure door body 30A to the inside of the case 10 and may be formed to be stepped with the inner surface of the first sound pressure door body 30A.

The second sound pressure door body 30B may be stepped to the inside of the case 10 at a portion excluding the edge portion of the inner surface of the first sound pressure door body 30A. That is, the size of the second sound pressure door body 30B may be smaller than the size of the first sound pressure door body 30A.

8 is a view of the positive pressure door according to an embodiment of the present invention as viewed from the outside, FIG. 9 is a view of the positive pressure door according to an embodiment of the present invention as viewed from the inside, and FIG. 10 is an embodiment of the present invention It is a cut-away perspective view for explaining the configuration of the positive pressure door, and FIG. 11 is an enlarged view of FIG. 10B.

The air handling unit 1 may include a positive pressure opening 19 formed in the case 10 and opened and closed by the positive pressure door 34.

The positive pressure opening 19 may be formed by cutting a part of the case 10. The positive pressure opening 19 can be formed at a position corresponding to the chambers C3 and C8 opened and closed by the positive pressure door 34, and the positive pressure door 34 opens and closes the positive pressure opening 19 to open the chamber. (C3) (C8) can be opened and closed.

As described above, the positive pressure door 34 may be rotatably connected to the inner hinge 72 installed on the inner surface 10B of the case 10. In addition, the positive pressure door 34 may be caught by the positive pressure door fixing portion 84 and not rotated to the outside of the case 10.

The positive pressure door fixing portion 84 may be disposed along the inner circumference of the positive pressure opening portion 19. The positive pressure door fixing portion 84 may be formed in an approximately annular shape. For example, the positive pressure opening 19 may be a square opening, and the positive pressure door fixing 84 may be formed by forming a substantially square ring.

The positive pressure door fixing part 84 includes a positive pressure fixing bracket 85 that is fastened to the inner surface 10B of the case 10 and a positive pressure insulator 86 that is bonded to the positive pressure fixing bracket 85 and contacts the positive pressure door 34. It can contain.

The positive pressure fixing bracket 85 may include a metal material.

The positive pressure fixing bracket 85 may cover the inner edge of the positive pressure opening 19.

The positive pressure fixing bracket 85 includes a fastening portion 85A fastened to the inner surface 10B of the case 10, a first extending portion 82B extending from the fastening portion 85A, and the first extending portion ( 82B) may include a second extended portion 85C extended in bending, and a folded portion 85D extended in bending in the second extended portion 85C.

The fastening portion 85A may be fastened to a portion adjacent to the inner edge of the positive pressure opening 19 of the inner surface 10B of the case 10.

The fastening portion 85A includes an overlapping portion overlapping the case 10 and a non-overlapping portion overlapping the case 10 with respect to a direction perpendicular to the outer surface 10A and the inner surface 10B of the case 10. You can.

The first extension portion 85B may be bent from the fastening portion 85A toward the outside direction of the case 10. At least a portion of the first extension portion 85B may be located between the inner circumference of the positive pressure opening 19 and the outer circumference of the positive pressure door 30. In more detail, a part of the first extension portion 85B may be located between the inner circumference of the positive pressure opening portion 19 and the outer circumference of the first positive pressure door body 34A, and the other portion is positive pressure opening portion 19 ) And the negative pressure insulator 83. That is, the first extension portion 85B includes a first overlapping portion overlapping the first positive pressure door body 34A and a second positive pressure door body 34B in a direction perpendicular to the inner circumferential surface of the positive pressure opening 19. ) And a second overlapping portion.

The second extension portion 85C may be bent from the first extension portion 85B toward the positive pressure door 34. In more detail, the second extension portion 85C may be bent from the first extension portion 85B toward the second positive pressure door body 34B.

The bent portion 85D may be bent from the second extension portion 85C toward the inside of the case 10.

At least a portion of the bent portion 85D may be located between the outer circumference of the positive pressure door 34 and the positive pressure insulator 86. In more detail, at least a portion of the bent portion 85D may be located between the outer circumference of the second positive pressure door body 34B and the positive pressure insulator 86.

The bent portion 85D may be spaced apart from the positive pressure door 34.

The positive pressure insulator 86 may include an elastic material such as rubber, silicone, etc., and when the positive pressure door 34 is closed, contact the positive pressure door 34 to maintain the airtightness of the positive pressure opening 19. The positive pressure door 34 presses the positive pressure insulator 86 while being pressed outward of the case 10 by a pressure difference inside and outside the case 10, and the positive pressure insulator 86 elastically deforms and makes surface contact with the positive pressure door 34. can do. Thus, the hermetic performance of the positive pressure insulator 86 can be further improved.

The positive pressure insulator 86 may be adhered to the fastening portion 85A, the first extension portion 85B, the second extension portion 85C, and the bent portion 85D of the positive pressure fixing bracket 85. In more detail, the positive pressure insulator 86 may be adhered to the second overlapping portion, the second extending portion 85C, and the bent portion 85D of the first extending portion 85B.

The positive pressure insulator 86 may be located between the inner circumference of the positive pressure opening 19 and the outer circumference of the positive pressure door 34. In more detail, the positive pressure insulator 86 may be located between the outer circumference of the first extension portion 85B and the second door body 34B. In addition, the positive pressure insulator 86 may be located between the outer surface of the first positive pressure door body 34A and the second extension portion 85C.

The positive pressure insulator 86 may contact the outer surface of the first positive pressure door body 34A, and may be spaced apart from the second positive pressure door body 34B.

The positive pressure door 34 may include a first positive pressure door body 34A facing the inside of the case 10 and a second positive pressure door body 34B facing the outside of the case 10.

An inner hinge 72 may be connected to the first positive pressure door body 34A. In addition, the first positive pressure door body 34A may be caught by the positive pressure door fixing portion 84. Thus, the positive pressure door 34 may not be rotated outside the case 10.

In more detail, the outer surface of the first positive pressure door body 34A may contact the positive pressure insulator 86.

For smooth rotation of the positive pressure door 34, the outer circumference of the first door body 34A may be spaced apart by forming a predetermined distance from the first extension portion 85B of the positive pressure fixing bracket 85. In addition, the outer circumference of the second positive pressure door body 34B may be spaced apart from the positive pressure fixing bracket 85 and the positive pressure insulator 86.

The second positive pressure door body 34B protrudes from the outer surface of the first positive pressure door body 34A to the outside of the case 10 and may be formed to be stepped with the outer surface of the first positive pressure door body 34A.

The second positive pressure door body 34B may protrude stepwise outward of the case 10 from a portion of the outer surface of the first positive pressure door body 34A except for the edge. That is, the size of the second positive pressure door body 34B may be smaller than the size of the first positive pressure door body 34A.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and variations without departing from the essential characteristics of the present invention.

Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments.

The scope of protection of the present invention should be interpreted by the claims below, and all technical spirits within the equivalent range should be interpreted as being included in the scope of the present invention.

10: case 11: indoor air intake
12: indoor air outlet 13: outdoor air intake
14: air conditioning exhaust 15: indoor air supply
18: negative pressure opening 19: positive pressure opening
25: return fan 26: supply fan
30: negative pressure door 34: positive pressure door
40: heat exchanger 71: outer hinge
72: inner hinge 81: sound pressure door fixing part
82: yin and yang fixing bracket 83: negative pressure insulator
84: positive pressure door fixing portion 85: positive pressure fixing bracket
86: Positive pressure insulator C1: Indoor air suction chamber
C2: Return chamber C3: Indoor air discharge chamber
C4: Mixing chamber C5: Heat exchange chamber
C6: Auxiliary chamber C7: Supply chamber
C8: Air-conditioning exhaust chamber

Claims (11)

A case provided with a suction part and a discharge part;
A blower fan disposed inside the case to discharge air sucked into the suction part to the discharge part;
A negative pressure door provided in the case and facing between the suction part and the blowing fan with respect to an air flow direction;
A positive pressure door provided in the case and directed between the blowing fan and the discharge part with respect to an air flow direction;
An outer hinge installed on an outer surface of the case and rotatably connecting the sound pressure door to the outside of the case; And
An air handling unit including an inner hinge installed on the inner surface of the case and rotatably connecting the positive pressure door to the inside of the case. According to claim 1,
A negative pressure opening formed in the case and opened and closed by the negative pressure door; And
The air handling unit further includes a sound pressure door fixing part disposed along an inner circumference of the sound pressure opening and preventing the sound pressure door from rotating inside the case in contact with the sound pressure door. According to claim 2,
The sound pressure door fixing unit,
A negative pressure fixing bracket fastened to the inner surface of the case; And
An air handling unit comprising a negative pressure insulator bonded to the negative pressure fixing bracket and in contact with the negative pressure door to shield a gap between the negative pressure fixing bracket and the negative pressure door. The method of claim 3,
The negative pressure fixing bracket,
A fastening part fastened to the inner surface of the case; And
An air handling unit including a bent portion bent from the fastening portion toward the outside of the case. The method of claim 4,
The negative pressure insulator is an air handling unit attached to the fastening portion and the bending portion. According to claim 2,
The sound pressure door,
A first sound pressure door body to which the outer hinge is connected and is applied to the sound pressure door fixing part; And
It includes a second sound pressure door body that protrudes from the inner surface of the first sound pressure door body to the inside of the case, and is formed to be stepped with the inner surface of the first sound pressure door body.
An air handling unit in which at least a portion of the sound pressure door fixing part is located between an inner circumference of the sound pressure opening and an outer circumference of the second sound pressure door body. According to claim 1,
A positive pressure opening formed in the case and opened and closed by the positive pressure door; And
The air handling unit further includes a positive pressure door fixing part disposed along the inner circumference of the positive pressure opening and preventing the positive pressure door from rotating to the outside of the case in contact with the positive pressure door. The method of claim 7,
The positive pressure door fixing unit,
A positive pressure fixing bracket fastened to the inner surface of the case; And
And a positive pressure insulator bonded to the positive pressure fixing bracket and in contact with the positive pressure door to close a gap between the positive pressure fixing bracket and the positive pressure door. The method of claim 8,
The positive pressure fixing bracket,
A fastening part fastened to the inner surface of the case;
A first extension portion bent between the inner circumference of the positive pressure opening portion and the outer circumference of the positive pressure door in the fastening portion;
A second extension portion bent from the first extension portion toward the positive pressure door; And
An air handling unit including a bent portion extending from the second extension portion toward the inside of the case. The method of claim 7,
The positive pressure insulator is an air handling unit attached to the first extension portion, the second extension portion and the bent portion. The method of claim 7,
The positive pressure door,
A first positive pressure door body to which the inner hinge is connected and is engaged with the positive pressure door fixing part; And
And a second positive pressure door body protruding from the outer surface of the first positive pressure door body to the outside of the case, and formed to be stepped with the outer surface of the first positive pressure door body.
An air handling unit in which at least a portion of the positive pressure door fixing part is located between an inner circumference of the positive pressure opening and an outer circumference of the second positive pressure door body.

Images