JP2002061881A - Fresh air fan unit and fresh air processing function equipped air conditioning system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a fresh air fan unit capable of constructing a compact air conditioning system. SOLUTION: A coil side blow-off outlet 2 and a total heat side blow-off outlet 3 are formed in a casing 1. In the easing 1 there are provided a fan 5 for feeding fresh air to the coil side blow-off outlet 2 and the total heat side blow-off outlet 3 and a damper 6 for adjusting an air amount from the coil side blow-off outlet 2. The coil side blow-off outlet 2 of the casing 1 is communicated with and coupled with a coil side fresh air intake port 9 communicated with a heat exchange coil chamber 8 of an air conditioning unit 7 through a duct 10. The total heat side blow-off outlet 3 of the casing 1 is communicated and coupled with the total heat side fresh air intake port 12 communicated to a total heat exchange chamber 11 of the air conditioning unit 7.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an outside air fan unit.

[0002]

2. Description of the Related Art An air-conditioning system in which a plurality of air outlets are provided in an air-conditioning zone such as a room and the outside air is blown through the air-conditioning system is conventionally provided with a total heat exchanger, a fan, and a heat exchange coil in an air conditioner. Had been.

[0003]

Therefore, when the air conditioner becomes large and is installed in a machine room, a large floor area is required.
Large space was needed for maintenance.

[0004]

In order to solve the above-mentioned problems, the present invention comprises a casing, and the casing includes
A coil side outlet and a total heat side outlet are formed, and in the casing, a fan for sending outside air to the coil side outlet and the total heat side outlet, and a flow rate of the coil side outlet and the total heat side outlet are adjusted. And a damper, and the coil side outlet of the casing is connected to the coil side outside air intake of the air conditioning unit through a duct, and the total heat side outlet of the casing is connected to the total heat side outside air intake of the air conditioning unit. It was connected through a duct. Further, a casing is provided, and a coil side outlet, a total heat side outlet, and a total heat side suction port are formed in the casing, and a fan for sending outside air to the coil side outlet and the total heat side outlet in the casing. And a damper for adjusting the air volume of the coil-side outlet and the total heat-side outlet, and the coil-side outlet of the casing is connected to the coil-side outside air inlet of the air conditioning unit via a duct, and the total heat exchange is performed. The hot exhaust port of the casing is connected to the hot air inlet of the unit via a duct,
The total heat side suction port of the casing was connected to the total heat side outside air outlet of the total heat exchange unit via a duct.

[0005]

1 to 3 show an example of an outside air fan unit according to the present invention.
Is provided with a hollow casing 1 that is flat in the vertical direction (vertical direction). In the casing 1, a coil side outlet 2, a total heat side outlet 3, and an outside air inlet 4 are formed, respectively. In the casing 1, a fan 5 for sending outside air to the coil side outlet 2 and the total heat side outlet 3 and a damper 6 for adjusting the air volume of the coil side outlet 2 and the total heat side outlet 3 are provided. The diameter of the casing 1 is gradually reduced from the windward side to the leeward side so as to include the periphery of the coil-side outlet 2 to eliminate air stagnation and smooth air blowing to reduce noise. In addition, the white solid arrow and the dotted arrow in all the drawings indicate the blowing direction,
SA indicates supply air, RA indicates return air, OA indicates outside air, and EA indicates exhaust.

The outside air inlet 4 communicates with the outside via a duct or the like. An appropriate number of the coil-side outlets 2 are formed in the casing 1 so that the axis of the blow-out direction is substantially parallel to the blowing direction of the fan 5, and the coil-side outside air inlet 9 communicates with the heat exchange coil chamber 8 of the air conditioning unit 7. Are connected to each other through a duct 10. The total heat side outlet 3 is formed in the casing 1 so that its blowing direction axis is substantially perpendicular to the blowing direction of the fan 5, and is connected to the total heat exchange chamber 11 of the air conditioning unit 7. 12 is communicatively connected through a duct 10. One damper 6 is provided so that only the coil side outlet 2 can be fully closed. When the damper 6 is fully closed, air is blown only to the full-heat side outlet 3, and when fully opened, air (outside air) flows straight to the coil-side outlet 2, avoiding the full-heat side outlet 3, Even if the air slightly flows into the total heat side outlet 3, the air flow is hindered by a device having a large air resistance, such as a filter of the total heat exchange chamber 11 of the air conditioning unit 7 and a total heat exchanger 19, which will be described later. In this way, the air volume of the coil side air outlet 2 and the total heat side air outlet 3 can be adjusted by one damper 6, so that compactness and cost reduction can be achieved. If the total heat side outlet 3 is formed on the bottom surface of the casing 1 which is the surface facing the open space as in the example shown in the drawing, duct construction and the like can be facilitated.

[0007] The coil side outside air inlet 9 and the total heat side outside air inlet 12 are connected to the coil side return air inlet 16 and the total heat side return air inlet 1.
7 together with the entire air chamber 13 of the air conditioning unit 7. The total outside air chamber 13 includes a heat exchange coil chamber 8, a coil-side outside air inlet 9 communicating with the coil-side outside air inlet 9, a coil-side return air inlet 16, a total heat exchange chamber 11, a total heat-side outside air inlet 12, and a total outside air chamber 13. Total heat ventilation chamber 15 communicating with hot side return air intake 17
And a damper 2 for adjusting the air volume of the coil side return air inlet 16
0.

In the heat exchange coil chamber 8 of the air conditioning unit 7,
A heat exchange coil 18 for exchanging heat with air with a heat medium is provided. In the total heat exchange chamber 11, an external air treatment total heat exchanger 19 for exchanging heat between the outside air and the return air introduced through the total heat ventilation chamber 15 is provided. The heat exchange coil chamber 8 and the total heat exchange chamber 11 are communicated.
A branch chamber 26 is communicatively connected to the heat exchange coil chamber 8,
An air supply fan unit 27 that blows air to the air conditioning zone is connected to a branch chamber 26 of the air conditioning unit 7 through an air supply duct 28. The air supply fan unit 27 includes a fan 29 and is connected to the outlet 30 through a duct. By providing this air supply fan unit 27,
The air conditioning unit does not require a fan, and the air conditioning unit 7 can be made compact by eliminating the noise of the air conditioning unit 7 by miniaturizing and dispersing the fans. The air outlet 30 is installed on a ceiling plate or the like in an air conditioning zone.

An exhaust fan unit 21 for exhausting return air (exhaust) heat-exchanged by the total heat exchanger 19 to the outside is connected to the total heat exchange chamber 11 through a duct 22. The exhaust fan unit 21 includes an exhaust intake 23, a fan 24 that sucks return air (exhaust) from the total heat exchange chamber 11 and the exhaust intake 23 and blows the air outside through a duct or the like, and a flow rate of the exhaust intake 23. And a damper 25 that adjusts The exhaust fan unit 21 is installed along the wall surface, the outside air fan unit 31 and the air supply fan unit 27 are installed along the ceiling surface, and the air conditioning unit 7 is installed on the floor surface, thereby minimizing the floor installation area of the unit. . Therefore, it can be easily installed even in a place where the floor installation area is small. The air conditioning unit 7 and the outside air fan unit 3 in which each air conditioning function is unitized as described above.
1. Exhaust fan unit 21, Air supply fan unit 27
An air conditioning system with an outside air processing function comprising:

In order to perform the heat recovery air conditioning operation in this system, the damper 6 of the outside air fan unit 31 is closed, the damper 20 of the entire outside air chamber 13 is opened, and each fan 5,
24 and 29 are driven. In this case, the outside air is supplied from the outside air fan unit 31 to the total heat ventilation chamber 1 of the entire outside air chamber 13.
5, the air enters the total heat exchange chamber 11 of the air conditioning unit 7, and is subjected to heat exchange (heat recovery) with the return air from the total heat side return air intake 17 of the total outside air chamber 13 by the total heat exchanger 19. It enters the heat exchange coil room 8 of the air conditioning unit 7. This air is mixed with the return air from the coil-side return air intake 16 of the whole outside air chamber 13 at a predetermined ratio, and the air that has been heat-exchanged by the heat exchange coil 18 to become hot air or cold air is discharged to the outlet 30. The air is supplied to the air conditioning zone. At this time, the outside air fan unit 31
When the damper 6 is opened, the outside air is supplied to the outside air fan unit 31.
Is bypassed from the coil side outlet 2 to the coil ventilation chamber 14 of the whole outside air chamber 13, mixed with the return air from the coil side return air inlet 16 at a predetermined ratio, and enters the heat exchange coil chamber 8 of the air conditioning unit 7. The outside air treatment air conditioning operation can be performed without heat recovery. Further, at this time, if the damper 20 of the whole outside air chamber 13 is closed and the flow of the heat medium through the heat exchange coil 18 is stopped, only the outside air enters the heat exchange coil room 8 of the air conditioning unit 7 and the whole outside air cooling operation can be performed. . In addition, when performing air-conditioning operation only with return air without performing outside air processing, the fans 5 and 24 may be stopped.

Although not shown, the whole outside air chamber 1
3, the coil side outside air inlet 9, the total heat side outside air inlet 12, the coil side return air inlet 16,
The duct 10 may be connected by forming the total heat side return air inlet 17. The structure of the air supply fan unit 27 can be freely changed. Further, the number, position and structure of the dampers 5 can be freely changed.

FIG. 4 shows another embodiment. This outside air fan unit 31 includes a hollow casing 1 which is flat in the vertical direction (up and down direction). In the casing 1, a coil side outlet 2, a total heat side outlet 3, a total heat side suction port 41, and an outside air inlet 4 are respectively formed. Inside the casing 1, a fan 5 for sending outside air to the coil side outlet 2 and the total heat side outlet 3
And a damper 6 for adjusting the air volume of the coil side outlet 2 and the total heat side outlet 3.

An appropriate number of coil-side outlets 2 are formed in the casing 1 so that the axis of the blow-out direction is substantially parallel to the blowing direction of the fan 5.
Are connected to each other through a duct 10. All heat side outlet 3
And the total heat side suction port 41 is formed in an appropriate number in the casing 1 such that the blowing direction axis is substantially orthogonal to the blowing direction of the fan 5,
The total heat side outlet 3 of the casing 1 is connected to the total heat side outside air inlet 12 of the total heat exchange unit 40 via the duct 10, and the total heat side outside air outlet 42 of the total heat exchange unit 40 is provided.
Then, the all-heat side suction port 41 of the casing 1 is connected through the duct 10 to communicate therewith. The total heat side outlet 3 is arranged more upstream than the coil side outlet 2 and the total heat side suction port 41. Damper 6
In the fully closed state, air is blocked upstream of the coil side outlet 2 and the total heat side suction port 41 and the total heat side outlet 3
One is provided to flow to When the damper 6 is fully closed, air is blown only to the full-heat side outlet 3, and when fully opened, air (outside air) travels straight so as to avoid the full-heat side outlet 3 and the total-heat side suction port 41, and a coil is formed. Even if the air flows into the side air outlet 2 and slightly flows into the total heat side air outlet 3, the air flow is hindered by a device having a large air resistance such as the filter of the total heat exchange unit 40 or the total heat exchanger 19. Thus, damper 6
With only one, the air volume of the coil side air outlet 2 and the total heat side air outlet 3 can be adjusted, so that compactness and cost reduction can be achieved. In addition, as shown in the figure, if the total heat side outlet 3 and the total heat side suction port 41 are formed on the bottom surface of the casing 1 which is the surface facing the open space, the duct construction can be facilitated.

The air-conditioning unit 7 has a coil-side outside air inlet 9 and a coil-side return air inlet 16, and a damper 20 for adjusting the air volume of the coil-side return air inlet 16, and heat exchange of air with a heat medium. And an air supply fan unit 27 that blows air to the air conditioning zone is communicatively connected via an air supply duct 28. The total heat exchange unit 40 is provided with an external air treatment total heat exchanger 19 that exchanges heat between the return air taken in through the total heat side return air intake 43 and the outside air taken in through the outside air fan unit 31.

The total heat exchange unit 40 includes a total heat exchanger 1
An exhaust fan unit 21 that exhausts the return air (exhaust) that has undergone heat exchange in 9 to the outside is connected through a duct 22 to communicate therewith. The exhaust fan unit 21 returns air (exhaust) from the exhaust inlet 23, the total heat exchange unit 40, and the exhaust inlet 23.
2 that sucks air and blows it out through a duct
4, a damper 25 for adjusting the air volume of the exhaust inlet 23,
Is provided. The total heat exchange unit 40 and the exhaust fan unit 21 are along the wall surface, and the outside air fan unit 31, the air conditioning unit 7, and the air supply fan unit 27 are along the ceiling surface.
Each unit will be installed to minimize the unit installation area. The air conditioning unit 7 in which each air conditioning function is unitized in this way,
An air conditioning system with an outside air processing function including the outside air fan unit 31, the exhaust fan unit 21, the air supply fan unit 27, and the total heat exchange unit 40 is configured.

In order to perform the heat recovery air conditioning operation in this system, the damper 6 of the outside air fan unit 31 is closed, the damper 20 of the air conditioning unit 7 is opened, and the fans 5, 2
4 and 29 are driven. In this case, the outside air enters the total heat exchange unit 40 in the middle of the outside air fan unit 31, and is exchanged with the return air from the total heat side return air intake 43 (heat recovery) in the total heat exchanger 19. Thereafter, the process returns to the outside air fan unit 31 and enters the air conditioning unit 7. This air is mixed with the return air from the coil-side return air inlet 16 at a predetermined ratio, and the air that has been subjected to heat exchange by the heat exchange coil 18 to become hot air or cold air is supplied from the air outlet 30 to the air conditioning zone. I'm bothered. At this time, if the damper 6 of the outside air fan unit 31 is opened, the outside air bypasses from the coil side outlet 2 of the outside air fan unit 31 to the air conditioning unit 7 and is returned at a predetermined ratio with the return air from the coil side return air intake 16. When mixed, the outside air treatment air conditioning operation can be performed without heat recovery. Further, at this time, if the damper 20 is closed and the flow of the heat medium through the heat exchange coil 18 is stopped, only the outside air enters the air conditioning unit 7 and the whole outside air cooling operation can be performed. In addition, when performing air-conditioning operation only with return air without performing outside air processing, the fans 5 and 24 may be stopped.

[0017]

According to the first and second aspects of the present invention, it is possible to easily configure an air conditioning system capable of treating outside air with an outside air fan unit having a simple structure. By dispersing the fan (noise source),
The noise of the air-conditioning unit is reduced and it is compact and does not take up installation space.It can be easily installed in the immediate vicinity of the air-conditioning zone. It can be used and the installation area is small. The installation near the air-conditioning zone eliminates the need for large and complicated duct work, thereby reducing costs.

[Brief description of the drawings]

FIG. 1 is a side view showing an embodiment of the present invention.

FIG. 2 is a plan view of a casing.

FIG. 3 is a side view of the air supply fan unit.

FIG. 4 is a side view showing another embodiment.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Casing 2 Coil side outlet 3 Total heat side outlet 5 Fan 6 Damper 7 Air conditioning unit 8 Heat exchange coil room 9 Coil side outside air intake 10 Duct 11 Total heat exchange room 12 Total heat side outside air intake 28 Air supply duct 40 Total heat exchange unit 41 Total heat side suction port

────────────────────────────────────────────────── ───

[Procedure amendment]

[Submission date] September 4, 2000 (200.9.4)

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction contents]

[Document Name] Statement

[Title of the Invention] Outside air fan unit and outside air processing machine
Noh air conditioning system

[Claims]

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to an outside air fan unit and an air conditioning system with an outside air processing function .

[0002]

2. Description of the Related Art An air-conditioning system in which a plurality of air outlets are provided in an air-conditioning zone such as a room and the outside air is blown through the air-conditioning system is conventionally provided with a total heat exchanger, a fan, and a heat exchange coil in an air conditioner. Had been.

[0003]

Therefore, when the air conditioner becomes large and is installed in a machine room, a large floor area is required.
Large space was needed for maintenance.

[0004]

In order to solve the above-mentioned problems, the present invention comprises a casing, and the casing includes
A coil side outlet and a total heat side outlet are formed, and in the casing, a fan for sending outside air to the coil side outlet and the total heat side outlet, and a flow rate of the coil side outlet and the total heat side outlet are adjusted. And a damper . In addition, the coil side outlet
Make sure that the exit direction axis is almost parallel to the fan
The hot-side outlet has a blow direction axis
Formed on the casing so as to be almost perpendicular to the fan blowing direction
The damper can be fully closed only at the coil side outlet.
One was provided. It also has a casing,
Coil side outlet, all-heat side outlet, and all-heat side suction port
The coil side outlet and the total heat side
Fan sending outside air to outlet, coil side outlet and total heat side blow
And a damper for adjusting the air volume at the outlet. In addition,
The air outlet direction axis of the il side outlet matches the air blowing direction of the fan.
Formed on the casing so as to be almost parallel,
And the all heat side suction port, the blow direction axis is the fan blowing direction
Formed on the casing so as to be substantially perpendicular to the
Is located on the windward side of the coil side outlet and the total heat side inlet
When the damper is fully closed, the coil side
Air is blocked upwind from the side suction port and blows out on the full heat side
One was provided to flow into the mouth. Also, the outside air fan unit
Air outlet on the coil side of the air conditioning unit
It is connected to the mouth via a duct to connect the outside air fan unit.
Duct the hot air outlet to the hot air outside air intake of the air conditioning unit.
And the exhaust fan unit is connected to the air conditioning unit.
To the air conditioning zone through a duct
Air supply fan unit to the air conditioning unit via the air supply duct
And connected. In addition, the exhaust fan unit is
Along with the outside air fan unit and air supply fan unit
Along with the ceiling, air conditioning units are installed on the floor
Was. In addition, the air outlet on the coil side of the outside air fan unit is air-conditioned.
Communicates with the outside air intake on the coil side of the unit via a duct
To the total heat side outlet of the outside air fan unit.
Communicate and connect via a duct to the outside air intake on the heat side of the knit
And the total heat side suction port of the outside air fan unit is
Connected to the outside heat outlet of the heat sink through a duct,
The exhaust fan unit is connected to the total heat exchange unit via a duct.
Air supply fan unit that is connected to
Connected to the air conditioning unit via an air supply duct.
In addition, the total heat exchange unit and exhaust fan unit are
Along the outside air fan unit, air conditioning unit, and air supply fan.
Fan units were installed along the ceiling.

[0005]

1 to 3 show an example of an outside air fan unit and an air conditioning system with an outside air processing function according to the present invention. The outside air fan unit 31 has a flat hollow shape in the vertical direction (vertical direction). A casing 1 is provided. In the casing 1, a coil side outlet 2, a total heat side outlet 3, and an outside air inlet 4 are formed, respectively. Inside the casing 1, a fan 5 for sending outside air to the coil side outlet 2 and the total heat side outlet 3
And a damper 6 for adjusting the air volume of the coil side outlet 2 and the total heat side outlet 3. The diameter of the casing 1 is gradually reduced from the windward side to the leeward side so as to include the periphery of the coil-side outlet 2 to eliminate air stagnation and smooth air blowing to reduce noise. In the drawings, solid white arrows and dotted arrows indicate the direction of air flow, where SA indicates air supply, RA indicates return air, OA indicates outside air, and EA indicates exhaust.

The outside air inlet 4 communicates with the outside via a duct or the like. An appropriate number of the coil-side outlets 2 are formed in the casing 1 so that the axis of the blow-out direction is substantially parallel to the blowing direction of the fan 5, and the coil-side outside air inlet 9 communicates with the heat exchange coil chamber 8 of the air conditioning unit 7. Are connected to each other through a duct 10. The total heat side outlet 3 is formed in the casing 1 so that its blowing direction axis is substantially perpendicular to the blowing direction of the fan 5, and is connected to the total heat exchange chamber 11 of the air conditioning unit 7. 12 is communicatively connected through a duct 10. One damper 6 is provided so that only the coil side outlet 2 can be fully closed. When the damper 6 is fully closed, air is blown only to the full-heat side outlet 3, and when fully opened, air (outside air) flows straight to the coil-side outlet 2, avoiding the full-heat side outlet 3, Even if the air slightly flows into the total heat side outlet 3, the air flow is hindered by a device having a large air resistance, such as a filter of the total heat exchange chamber 11 of the air conditioning unit 7 and a total heat exchanger 19, which will be described later. In this way, the air volume of the coil side air outlet 2 and the total heat side air outlet 3 can be adjusted by one damper 6, so that compactness and cost reduction can be achieved. If the total heat side outlet 3 is formed on the bottom surface of the casing 1 which is the surface facing the open space as in the example shown in the drawing, duct construction and the like can be facilitated.

[0007] The coil side outside air inlet 9 and the total heat side outside air inlet 12 are connected to the coil side return air inlet 16 and the total heat side return air inlet 1.
7 together with the entire air chamber 13 of the air conditioning unit 7. The total outside air chamber 13 includes a heat exchange coil chamber 8, a coil-side outside air inlet 9 communicating with the coil-side outside air inlet 9, a coil-side return air inlet 16, a total heat exchange chamber 11, a total heat-side outside air inlet 12, and a total outside air chamber 13. Total heat ventilation chamber 15 communicating with hot side return air intake 17
And a damper 2 for adjusting the air volume of the coil side return air inlet 16
0.

In the heat exchange coil chamber 8 of the air conditioning unit 7,
A heat exchange coil 18 for exchanging heat with air with a heat medium is provided. In the total heat exchange chamber 11, an external air treatment total heat exchanger 19 for exchanging heat between the outside air and the return air introduced through the total heat ventilation chamber 15 is provided. The heat exchange coil chamber 8 and the total heat exchange chamber 11 are communicated.
A branch chamber 26 is communicatively connected to the heat exchange coil chamber 8,
An air supply fan unit 27 that blows air to the air conditioning zone is connected to a branch chamber 26 of the air conditioning unit 7 through an air supply duct 28. The air supply fan unit 27 includes a fan 29 and is connected to the outlet 30 through a duct. By providing this air supply fan unit 27,
The air conditioning unit does not require a fan, and the air conditioning unit 7 can be made compact by eliminating the noise of the air conditioning unit 7 by miniaturizing and dispersing the fans. The air outlet 30 is installed on a ceiling plate or the like in an air conditioning zone.

An exhaust fan unit 21 for exhausting return air (exhaust) heat-exchanged by the total heat exchanger 19 to the outside is connected to the total heat exchange chamber 11 through a duct 22. The exhaust fan unit 21 includes an exhaust intake 23, a fan 24 that sucks return air (exhaust) from the total heat exchange chamber 11 and the exhaust intake 23 and blows the air outside through a duct or the like, and a flow rate of the exhaust intake 23. And a damper 25 that adjusts The exhaust fan unit 21 is installed along the wall surface, the outside air fan unit 31 and the air supply fan unit 27 are installed along the ceiling surface, and the air conditioning unit 7 is installed on the floor surface, thereby minimizing the floor installation area of the unit. . Therefore, it can be easily installed even in a place where the floor installation area is small. The air conditioning unit 7 and the outside air fan unit 3 in which each air conditioning function is unitized as described above.
1. Exhaust fan unit 21, Air supply fan unit 27
An air conditioning system with an outside air processing function comprising:

In order to perform the heat recovery air conditioning operation in this system, the damper 6 of the outside air fan unit 31 is closed, the damper 20 of the entire outside air chamber 13 is opened, and each fan 5,
24 and 29 are driven. In this case, the outside air is supplied from the outside air fan unit 31 to the total heat ventilation chamber 1 of the entire outside air chamber 13.
5, the air enters the total heat exchange chamber 11 of the air conditioning unit 7, and is subjected to heat exchange (heat recovery) with the return air from the total heat side return air intake 17 of the total outside air chamber 13 by the total heat exchanger 19. It enters the heat exchange coil room 8 of the air conditioning unit 7. This air is mixed with the return air from the coil-side return air intake 16 of the whole outside air chamber 13 at a predetermined ratio, and the air that has been heat-exchanged by the heat exchange coil 18 to become hot air or cold air is discharged to the outlet 30. The air is supplied to the air conditioning zone. At this time, the outside air fan unit 31
When the damper 6 is opened, the outside air is supplied to the outside air fan unit 31.
Is bypassed from the coil side outlet 2 to the coil ventilation chamber 14 of the whole outside air chamber 13, mixed with the return air from the coil side return air inlet 16 at a predetermined ratio, and enters the heat exchange coil chamber 8 of the air conditioning unit 7. The outside air treatment air conditioning operation can be performed without heat recovery. Further, at this time, if the damper 20 of the whole outside air chamber 13 is closed and the flow of the heat medium through the heat exchange coil 18 is stopped, only the outside air enters the heat exchange coil room 8 of the air conditioning unit 7 and the whole outside air cooling operation can be performed. . In addition, when performing air-conditioning operation only with return air without performing outside air processing, the fans 5 and 24 may be stopped.

Although not shown, the whole outside air chamber 1
3, the coil side outside air inlet 9, the total heat side outside air inlet 12, the coil side return air inlet 16,
The duct 10 may be connected by forming the total heat side return air inlet 17. The structure of the air supply fan unit 27 can be freely changed. Further, the number, position and structure of the dampers 5 can be freely changed.

FIG. 4 shows another embodiment. This outside air fan unit 31 includes a hollow casing 1 which is flat in the vertical direction (up and down direction). In the casing 1, a coil side outlet 2, a total heat side outlet 3, a total heat side suction port 41, and an outside air inlet 4 are respectively formed. Inside the casing 1, a fan 5 for sending outside air to the coil side outlet 2 and the total heat side outlet 3
And a damper 6 for adjusting the air volume of the coil side outlet 2 and the total heat side outlet 3.

An appropriate number of coil-side outlets 2 are formed in the casing 1 so that the axis of the blow-out direction is substantially parallel to the blowing direction of the fan 5.
Are connected to each other through a duct 10. All heat side outlet 3
And the total heat side suction port 41 is formed in an appropriate number in the casing 1 such that the blowing direction axis is substantially orthogonal to the blowing direction of the fan 5,
The total heat side outlet 3 of the casing 1 is connected to the total heat side outside air inlet 12 of the total heat exchange unit 40 via the duct 10, and the total heat side outside air outlet 42 of the total heat exchange unit 40 is provided.
Then, the all-heat side suction port 41 of the casing 1 is connected through the duct 10 to communicate therewith. The total heat side outlet 3 is arranged more upstream than the coil side outlet 2 and the total heat side suction port 41. Damper 6
In the fully closed state, air is blocked upstream of the coil side outlet 2 and the total heat side suction port 41 and the total heat side outlet 3
One is provided to flow to When the damper 6 is fully closed, air is blown only to the full-heat side outlet 3, and when fully opened, air (outside air) travels straight so as to avoid the full-heat side outlet 3 and the total-heat side suction port 41, and a coil is formed. Even if the air flows into the side air outlet 2 and slightly flows into the total heat side air outlet 3, the air flow is hindered by a device having a large air resistance such as the filter of the total heat exchange unit 40 or the total heat exchanger 19. Thus, damper 6
With only one, the air volume of the coil side air outlet 2 and the total heat side air outlet 3 can be adjusted, so that compactness and cost reduction can be achieved. In addition, as shown in the figure, if the total heat side outlet 3 and the total heat side suction port 41 are formed on the bottom surface of the casing 1 which is the surface facing the open space, the duct construction can be facilitated.

The air-conditioning unit 7 has a coil-side outside air inlet 9 and a coil-side return air inlet 16, and a damper 20 for adjusting the air volume of the coil-side return air inlet 16, and heat exchange of air with a heat medium. And an air supply fan unit 27 that blows air to the air conditioning zone is communicatively connected via an air supply duct 28. The total heat exchange unit 40 is provided with an external air treatment total heat exchanger 19 that exchanges heat between the return air taken in through the total heat side return air intake 43 and the outside air taken in through the outside air fan unit 31.

The total heat exchange unit 40 includes a total heat exchanger 1
An exhaust fan unit 21 that exhausts the return air (exhaust) that has undergone heat exchange in 9 to the outside is connected through a duct 22 to communicate therewith. The exhaust fan unit 21 returns air (exhaust) from the exhaust inlet 23, the total heat exchange unit 40, and the exhaust inlet 23.
2 that sucks air and blows it out through a duct
4, a damper 25 for adjusting the air volume of the exhaust inlet 23,
Is provided. The total heat exchange unit 40 and the exhaust fan unit 21 are along the wall surface, and the outside air fan unit 31, the air conditioning unit 7, and the air supply fan unit 27 are along the ceiling surface.
Each unit will be installed to minimize the unit installation area. The air conditioning unit 7 in which each air conditioning function is unitized in this way,
An air conditioning system with an outside air processing function including the outside air fan unit 31, the exhaust fan unit 21, the air supply fan unit 27, and the total heat exchange unit 40 is configured.

In order to perform the heat recovery air conditioning operation in this system, the damper 6 of the outside air fan unit 31 is closed, the damper 20 of the air conditioning unit 7 is opened, and the fans 5, 2
4 and 29 are driven. In this case, the outside air enters the total heat exchange unit 40 in the middle of the outside air fan unit 31, and is exchanged with the return air from the total heat side return air intake 43 (heat recovery) in the total heat exchanger 19. Thereafter, the process returns to the outside air fan unit 31 and enters the air conditioning unit 7. This air is mixed with the return air from the coil-side return air inlet 16 at a predetermined ratio, and the air that has been subjected to heat exchange by the heat exchange coil 18 to become hot air or cold air is supplied from the air outlet 30 to the air conditioning zone. I'm bothered. At this time, if the damper 6 of the outside air fan unit 31 is opened, the outside air bypasses from the coil side outlet 2 of the outside air fan unit 31 to the air conditioning unit 7 and is returned at a predetermined ratio with the return air from the coil side return air intake 16. When mixed, the outside air treatment air conditioning operation can be performed without heat recovery. Further, at this time, if the damper 20 is closed and the flow of the heat medium through the heat exchange coil 18 is stopped, only the outside air enters the air conditioning unit 7 and the whole outside air cooling operation can be performed. In addition, when performing air-conditioning operation only with return air without performing outside air processing, the fans 5 and 24 may be stopped.

[0017]

According to the first and third aspects of the present invention, it is possible to easily configure an air conditioning system capable of treating outside air with an outside air fan unit having a simple structure. According to the second and fourth aspects of the present invention, the damper
Can adjust the air volume of the coil side outlet and the total heat side outlet.
Impact and cost reduction can be achieved. Claims 5 and 7
In the Ming, air-conditioning system is
No fan is required for the unit, and the fan (noise source)
The decentralized mold eliminates the noise of the air conditioning unit, makes it compact and occupies no installation space, and can be easily installed in the immediate vicinity of the air conditioning zone. The dead space can be utilized and the installation area is small. The installation near the air-conditioning zone eliminates the need for large and complicated duct work, thereby reducing costs. In the invention of claim 6, the unit
The floor installation area can be minimized and the floor installation area is small.
It can be easily installed in places. In the invention of claim 8, the unit is
Can minimize the installation area.

[Brief description of the drawings]

FIG. 1 is a side view showing an embodiment of the present invention.

FIG. 2 is a plan view of a casing.

FIG. 3 is a side view of the air supply fan unit.

FIG. 4 is a side view showing another embodiment.

[Description of Signs] 1 Casing 2 Coil side outlet 3 Total heat side outlet 5 Fan 6 Damper 7 Air conditioning unit 8 Heat exchange coil room 9 Coil side outside air intake 10 Duct 11 Total heat exchange room 12 Total heat side outside air intake 28 Air supply duct 40 Total heat exchange unit 41 Total heat side suction port

Claims (2)

[Claims] 1. A casing 1 comprising: a casing 1;
A fan 5 for sending outside air to the coil-side outlet 2 and the total-heat-side outlet 3 in the casing 1; And a damper 6 for adjusting the air volume of the heat-side outlet 3. The coil-side outlet 2 of the casing 1 is connected to the coil-side outside air inlet 9 of the air-conditioning unit 7 via a duct 10. The outside air fan unit characterized in that the totally heated side outlet 3 of the casing 1 is connected to the totally heated side outside air inlet 12 through a duct 10. 2. A casing 1 comprising: a casing 1;
A fan 5 which forms a coil side outlet 2, a total heat side outlet 3 and a total heat side suction port 41 and sends outside air to the coil side outlet 2 and the total heat side outlet 3 in the casing 1; A coil side outlet 2 and a damper 6 for adjusting the air volume of the total heat side outlet 3 are provided, and the coil side outlet 2 of the casing 1 is connected to the coil side outside air inlet 9 of the air conditioning unit 7 via the duct 10. It is connected to and communicates with the total heat side outside air intake 12 of the total heat exchange unit 40.
The total heat side outlet 3 of the casing 1 is connected to the total heat side outlet 41 of the casing 1 at the total heat side outside air outlet 42 of the total heat exchange unit 40 through the duct 1.
An outside air fan unit, wherein the outside air fan unit is connected to and connected to the outside air fan unit.