JPH0486424A - Partition united type system air conditioner - Google Patents

Abstract

PURPOSE:To install an air conditioner without reducing a floor area by using an outer casing for a system air conditioner as a partition which separates a room from a corridor and setting the interior of the casing for the air conditioner as a housing section which houses air conditioning equipment. CONSTITUTION:A side wall 2 in a casing which serves as an inner wall of a partitioning wall which separates a room from a corridor and a side wall 3 outside the casing which serves as an outer wall, are installed wherein both the side wall 2 inside the casing and the side wall 3 outside the casing form a system air conditioner casing 1 as an equipment housing member. At the same time, one side of the system air conditioner casing 1 is arranged to face the corridor, which obviate the need to install an air conditioning chamber. Therefore, this construction makes it possible to install the air conditioner without reducing a floor area used for offices or the like and moreover provide enhanced maintenance well.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to air conditioners that are installed individually and distributed in intelligent buildings and the like.

[Conventional technology]

Conventionally, office buildings have been air-conditioned by installing air conditioners in the center or on each floor. [Problem to be solved by the invention] In the case of the conventional example, an air conditioner room is required, making it difficult to use as an office. In addition, in intelligent buildings where many OA devices have been introduced in recent years, OA
Due to the distribution of air conditioning load due to heat generated by equipment and the tendency to operate air conditioning during overtime hours, systems have been developed that allow small air conditioners to be installed in a distributed manner and provide air conditioning to the areas where they are needed. Examples include inside the ceiling and in the air conditioner room. However, the method of installing an air conditioner in the ceiling is difficult to maintain, and the method of installing an air conditioner room has the disadvantage of reducing the effective area of the office, even though the air conditioner has become smaller. The present invention has been made in view of the above-mentioned matters, and its technical object is to provide an air conditioner that does not require an air conditioner room and is easy to maintain.

[Means to solve the problem]

The first invention of the present invention provides an inner casing plate 2 that serves as an inner wall of a partition wall that partitions a room and a hallway, and an outer casing plate 3 that serves as an outer wall of the partition wall, and a space between the inner casing plate 2 and the outer casing plate 3. A system air conditioner casing 1 is provided with the system air conditioner casing 1 as an equipment housing part.
, an intake outside air connection port 16 is provided, and a suction side filter unit 22 for filtering the air that has passed through the return air suction port 14 and the introduction outside air connection port 16 is provided in the system air conditioner casing 1, and the suction side filter. unit 22
a cooling/heating device 24 that cools or heats the air that has passed through the cooling/heating device 24, a humidifier 26 that humidifies the air that has passed through the cooling/heating device 24 if necessary, and a blower 30 that blows the air that has passed through the humidifier 26. , a discharge side filter unit 34 is provided to filter the air blown by the blower 30, and further, the other end of the system air conditioner casing 1 is provided with the air that has passed through the discharge side filter unit 34 and is supplied indoors. A supply air outlet 38 is provided, and an exhaust indoor air intake 67 is provided at one end of the other side of the system air conditioner casing 1. Indoor air exhaust fan 69 that blows the air that has passed through the air intake port 67
The air pressurized by this indoor air exhaust fan 69 is
The bypass duct 77b connected to the indoor air exhaust duct connection port 80 and the stationary total heat exchanger 76 are provided with switching dampers 70a and 70b that can blow air, and the other end of the other side of the system air conditioner casing 1 An outside air intake duct connection port 72 is provided in the system air conditioner casing 1, and an intake outside air blower fan 71 that pressurizes the air introduced from the outside air intake duct connection port 72 and passed through the filter unit 23 into the system air conditioner casing 1. , a switch that allows air pressurized by this intake outside air blowing fan 71 to be sent to a bypass duct 77a connected to an intake outside air outlet 78 for introducing outside air 53 introduced into the air conditioner unit, and to the static total heat exchanger 76. Dampers 70d and 70c are provided, and the exhaust indoor air 86 that has passed through the static total heat exchanger 76 is guided to the indoor air exhaust duct 80, and the intake outside air 87 that has passed through the static total heat exchanger 76 is taken in. The system air conditioner is formed so as to lead to the discharge port 78 and is provided with an automatic control device for controlling each device of the system air conditioner to obtain a partition wall integrated system air conditioner. A system air conditioner casing 1 is provided with an inner casing plate 2 serving as the inner wall of the partition wall and an outer casing plate 3 serving as the outer wall of the partition wall, and a space between the inner casing plate 2 and the outer casing plate 3 serving as an equipment storage area. , this system air conditioner casing 1 (7) - [1 part has an inlet outside air connection port 1 at one end.
6, and a supply air outlet/return air suction port 17 is provided, and the air that has passed through the introduction outside air connection port 16 and the supply air outlet/return air intake port 17 is provided in the system air conditioner casing 1. Or, a filter unit 23 that filters the air passing in the opposite direction to this air, and the air that has passed through the filter unit 23. Or, a humidifier 26 that humidifies the air that passes in the opposite direction to this air, if necessary, and the humidifier. The air that has passed through the container 26 +4 The cooling/heating device 24 that cools or heats the air passing in the opposite direction to this air, and the cooling/heating device 24
Or, a blower 30 that blows the air passing in the opposite direction to this air, and two blowing direction switching dampers 31 that switch the air flow in the opposite direction during cooling and heating.
and the air that has passed through the blower 30, or a filter unit 23 that filters the air that passes in the opposite direction to this air.
Further, the other end of the system air conditioner casing 1 is provided with air that has passed through the filter unit 23.
Alternatively, an inlet outside air connection port 16 through which air passes in the opposite direction to this air is provided, and a supply air outlet/return air inlet 17 is provided, and one end of the other side of the system air conditioner casing 1 is provided. is provided with an indoor air intake port 67a for exhaust, and an indoor air exhaust fan 69a for blowing air that has passed through the indoor air intake port 67a for exhaust into the system air conditioner casing 1; Bypass duct 77b that connects the air pressurized in 69a to the indoor air exhaust duct connection port 80
and the stationary total heat exchanger 76 are provided with switching dampers 70a and 70b that can blow air, and an outside air intake duct connection port 7 is provided at the other end of the other side of the system air conditioner casing 1.
2, and an intake outside air blower fan 71 which is provided with an exhaust indoor air intake port 67b and further pressurizes the air introduced into the system air conditioner casing 1 from the outside air intake duct connection port 72 and passed through the filter unit 23. ,
A bypass duct 77a connects the air pressurized by the intake outside air blowing fan 71 to an intake outside air outlet 78 for introducing outside air 53a introduced into the air conditioner section, and a stationary total heat exchanger 7.
6 and 6 are provided with switching dampers 70g and 70f that can blow air, and below the exhaust indoor air intake 67b,
An indoor air exhaust fan 69b is provided, and next to the indoor air exhaust fan 69b is a bypass duct 77c connected to the indoor air exhaust duct connection port 80, and a switching damper 70e that can blow air to the stationary total heat exchanger 76. 70d, and guides the exhaust indoor air 86b that has passed through the static total heat exchanger 76 to the indoor air exhaust duct connection port 80,
A partition wall integrated system is formed in which the intake outside air 87 that has passed through the stationary total heat exchanger 76 is guided to the intake outside air outlet 78, and an automatic control device is provided to control each device of the system air conditioner. [Function] As an air conditioner [Function] The present invention installs a system air conditioner casing 1 between a room and a hallway, and the system air conditioner casing 1
is used as a partition wall that separates the room from the hallway. That is, the casing inner plate 2 of the system air conditioner casing 1 serves as the inner wall of the partition wall, and the casing outer plate 3 serves as the outer wall of the partition wall.

In the first invention, in the normal case where heat exchange is performed between the intake outside air 87 and the exhaust indoor air 86, one end of the other side of the system air conditioner casing 1 as shown in FIG. Exhaust indoor air 86 taken in through an exhaust indoor air intake port 67 provided in the room is pressurized by an indoor air exhaust fan 69, and is blown to a stationary total heat exchanger 76 from a switching damper 70b.

On the other hand, the intake outside air 87 taken in from the outside air intake duct connection port 72 is filtered by the filter unit 23, and then blown to the stationary total heat exchanger 76 by the intake outside air fan 71 from the switching damper 70c.

Then, the exhaust indoor air 86 that has undergone heat exchange with the static total heat exchanger 76 is discharged from the indoor air exhaust duct connection port 80 as indoor exhaust air 88 .

On the other hand, the intake outside air 8 that has been heat exchanged with the stationary total heat exchanger 76
7 (pass) Intake outside air through outlet 78 and outside air connection port 1
6, the air is introduced as air conditioner introduction outside air 53.

The air conditioner section introduction outside air 53 and the air conditioner section introduction return air 49 sucked through the return air suction port 14 are filtered by the suction side filter unit 22.

During cooling, the air that has passed through the suction side filter unit 22 is cooled by a cooler/heater 24, passes through a humidifier 26, and is pressurized by a blower M&30.
It is supplied indoors from 8.

During heating, air is normally blown from the top to the bottom as shown in FIG.

During outside air cooling control in which heat exchange is not performed between the intake outside air 87 and the exhaust indoor air 86, the exhaust indoor air 86 taken in by the indoor air exhaust fan 69 from the exhaust indoor air intake 67 is transferred to the switching damper 70a. From bypass duct 7
Enter 7b. The air then bypasses the static total heat exchanger 76 and is exhausted as indoor exhaust air 88 from the indoor air exhaust duct connection port 80 .

On the other hand, the intake outside air 87 drawn in by the intake outside air blower fan 71 through the outside air intake duct connection port 72 enters the bypass duct 77a through the switching damper 70d, bypasses the stationary total heat exchanger 76, and passes through the intake outside air outlet 78. The air is then introduced from the introduction outside air connection port 16 as the air conditioner section introduction outside air 53.

A normal case in which heat is exchanged between the exhaust indoor air 86a and the intake outside air 87 during cooling in the second aspect of the invention is as follows.

That is, exhaust indoor air 86a taken in from an exhaust indoor air intake 67a provided at one end of the other side of the system air conditioner casing 1 as shown in FIG. 5 is pressurized by an indoor air exhaust fan 69a. Air is blown to the stationary total heat exchanger 76 from the switching damper 70b.

On the other hand, the intake outside air 8 taken in from the outside air intake duct 72
After being filtered by the filter unit 23, the outside air 7 is blown to the stationary total heat exchanger 76 by the intake outside air blowing fan 71 through the switching damper 70f.

Then, the exhaust indoor air 86a that has undergone heat exchange with the static total heat exchanger 76 is exhausted as indoor exhaust air 88 from the indoor air exhaust duct connection port 80.

On the other hand, the intake outside air 8 that has been heat exchanged with the stationary total heat exchanger 76
7 is introduced as the air conditioner section introduction outside air 53a from the introduction outside air connection port 16 via the outside air outlet 78.

The air conditioner introduced outside air 53a and the air conditioner introduced return air 49 sucked through the supply air outlet/return air suction port 17 are filtered by the filter unit 23.

Air that has passed through the filter unit 23 + L humidifier 2
6 and is cooled by a cooler/heater 24.

This cooled air is sucked into the blower 3o, and the air is cooled when the blowing direction switching damper 31 opens the cooling passage, that is, when the blowing direction switching damper 31 is in the cooling switching damper position 33. When the air flows in the internal airflow direction 57, it passes through the filter unit 23.

The air that has passed through the filter unit 23 is supplied into the room through the supply air outlet/return air inlet 17.

During outside air cooling control in which heat exchange is not performed between the intake outside air 87 and the exhaust indoor air 86a, the exhaust indoor air 86a taken in by the indoor air exhaust fan 69a from the exhaust indoor air intake 67a is switched. The damper 70a enters the bypass duct 77b. Then, bypassing the stationary total heat exchanger 76, the indoor air exhaust duct connection port 8o
The air is exhausted as indoor exhaust air 88.

On the other hand, the intake outside air 87 drawn by the intake outside air blower fan 71 through the outside air intake duct connection port 72 enters the bypass duct 77a from the switching damper 70g. Then, the stationary total heat exchanger 76 is bypassed, and the intake outside air outlet 7
Outside air 53 is introduced into the air conditioner section from the outside air connection port 16 through 8.
Introduced as a.

In addition, in the normal case where heat exchange is performed during heating according to the second invention, the exhaust indoor air 86b taken in from the exhaust indoor air intake 67b provided at the other end of the other side of the system air conditioner casing 1 is , pressurize with indoor air exhaust fan 69b,
Air is blown to the stationary total heat exchanger 76 from the switching damper 70d.

On the other hand, the intake outside air 8 taken in through the outside air intake duct 72
7 blows air to the stationary total heat exchanger 76 from the switching damper 70f as in the case of cooling.

Then, the heat-exchanged exhaust indoor air 86b is exhausted through the indoor air exhaust duct connection port 8o.The heat-exchanged intake outside air 87 passes through the intake outside air discharge lower 9, and then is introduced into the air conditioner section through the intake outside air connection port 16c. 53b.

Then, the outside air 53b1 introduced into the air conditioner section and the return air 51 for heating sucked from the supply air outlet/return air suction port 17 pass through the filter unit 23 and flow in the internal air flow direction 56 for heating. It is pressurized by the blower 30, heated by the cooling/heating device 24, and humidified by the humidifier 26. It passes through the filter unit 23 and is supplied into the room from the supply air outlet/return air inlet 17.

The flow of the intake outside air 87 during outside air cooling control in which no heat exchange is performed during heating is the same as that during outside air cooling control during cooling.

Then, the flow of the exhaust indoor air 86b is pressurized by the indoor air exhaust fan 69b, enters the bypass duct 77c from the switching damper 70e, and enters the indoor air exhaust duct connection port 8.
o is exhausted.

〔Example〕

FIGS. 1 and 2 are explanatory diagrams of a partition wall integrated system air conditioner according to a first embodiment of the first invention.

In the following embodiments of the first invention and the second invention, 16a.
16b, etc., by writing an alphabetic code following a numerical code, and specifying the parts indicated by the same numerical code,
Further, although it is specified by an alphabetical code, in a claim, etc., if the part indicated by the alphabetic code is not specified, the alphabetic code is not described, such as 16.

This embodiment uses a system air conditioner as a partition wall, and is an embodiment suitable for cooling.

In this embodiment, an inner casing plate 2 is provided as an inner wall of a partition wall that separates a room from a common hallway, and an outer casing plate 3 is provided as an outer wall of the partition wall. This system is equipped with a system air conditioner casing l that serves as an equipment housing section.

The system air conditioner casing 1 has an air conditioner section on the negative side and a total heat exchanger section on the other side.

The system air conditioner casing 1 is made of vibration damping steel plates sandwiching resin between metal plates, and the depth dimension of the system air conditioner casing 1 of the partition wall fused system air conditioner is as follows: This is approximately twice the depth of a normal partition wall.

This system air conditioner casing 1 is formed so that it can be installed as a partition wall between a floor surface 6 and a ceiling surface 9 between a room and a common hallway.

In addition, this system air conditioner casing 1 has a floor finish surface 6.
A double floor surface 7 is provided with a gap on the lower side. When this space between the finished floor surface 6 and the double floor surface 7 is formed to serve as OA equipment wiring, supply and return duct 8, Designed to fit.

The lower end surface, which is one end of the air conditioner side provided on one side of the system air conditioner casing 1, is formed as a return air connection port.Air conditioner introduction return air 49
A return air intake port 14a for introduction and an outside air cooling motor damper 18b for opening and closing the return air intake port 14a are provided.

A return air suction port 14b equipped with an outside air cooling motor damper (not shown) is provided at the bottom near the floor finish surface 6 on the side of the air conditioner. 51b is formed so that it can be sucked in.

Further, an intake outside air outlet 78 of the total heat exchanger section is provided in the lower part between the air conditioner section and the total heat exchanger section, and this intake outside air outlet 78 is connected to the outside air cooling motor damper 1.
8a is provided.

The intake outside air outlet 78 becomes the introduction outside air connection port 16 of the air conditioner section, and is formed so that the air conditioner section introduction outside air 53 is introduced into the air conditioner section.

In the lower part of the system air conditioner casing 1 on the air conditioner side, the return air suction ports 14a and 14b1 are provided.
Further, a suction side filter unit 22 is provided for filtering the air conditioner introduction retan air 49 and retan air 51a and 51b sucked in from the inlet outside air connection port 16.

A cooling/heating device 24 for cooling or heating the air that has passed through the hawk suction filter unit 22 is provided above the suction filter unit 22.

The cooling/heating device 24 is formed to be connected to a cooling fluid source and a heating fluid source (not shown), and is also provided with a drain pan 25 for receiving water droplets during cooling.

Above the cooling/heating device 24, the cooling/heating device 2
Humidifier 26 and drain pan 2 that humidify the air that has passed through 4
5 is a provision.

A blower 30 is installed above the humidifier 26 to pressurize and blow the air that has passed through the humidifier 26.

A discharge side filter unit 34 is provided above the blower 30 to filter the air blown by the blower 30.

The air that has passed through the discharge side filter unit 34 is connected to a supply air blowing duct 4 on the upper end surface of the air conditioner casing 1 above the discharge side filter unit 34.
2 is provided with a supply air outlet 38a which is blown out as supply air 52a.

A supply air outlet 38b is provided near the ceiling surface 9 at the top of the casing inner plate 2 to blow out the supply air 52b directly into the room.

At the lower end, which is one end of the other side of the system air conditioner casing 1, an indoor air intake port 67 for exhaust is provided. and the indoor air intake port 67 for exhaust.
An indoor air exhaust fan 69 is provided inside the system air conditioner casing 1 in the upper part of the system air conditioner casing 1.

Next to the room air exhaust fan 69, a passage is provided for guiding the exhaust room air 86 to a bypass duct 77b,
A switching damper 70a that opens and closes this passage, and a switching damper 70b that opens and closes this passage are provided in a passage that leads exhaust indoor air 86 to the static total heat exchanger 76.

The bypass duct 77b is used during outside air cooling control in which heat exchange is not performed between the intake outside air 87 and the exhaust indoor air 86, and the exhaust indoor air 86 that bypasses the static total heat exchanger 76 is This bypass duct 77
b to the exhaust side chamber 81 Indoor air exhaust duct connection port 80 provided with the motor damper 18 for outdoor air cooling
Therefore, it is formed to be exhausted as indoor exhaust air 88.

Further, the exhaust indoor air 86 that has undergone heat exchange with the intake outside air 87 in the static total heat exchanger 76 is transferred to the exhaust side chamber 8.
1 is formed so as to be led to an indoor air exhaust duct connection port 80.

An outside air intake duct connection port 72 is provided at the other end of the other side of the system air conditioner casing 1.

Furthermore, a filter unit 23 is provided in the system air conditioner casing l to filter the intake outside air 87 introduced from the outside air intake duct connection port 72.

An intake outside air blowing fan 71 is provided below the filter unit 23 to pressurize the intake outside air 87 that has passed through the +3 filter unit 23.

The intake outside air 8 is next to the intake outside air blowing fan 71.
7 to the bypass duct 77a to open and close this passage;
A switching damper 70c is provided in a passage leading to the static total heat exchanger 76 to open and close this passage.

The bypass duct 77a is formed to guide the intake outside air 87 that has bypassed the stationary total heat exchanger 76 to the intake outside air side chamber 82, and this intake outside air side chamber 82 is connected to the intake outside air outlet. 78, and the intake outside air 87 is formed to be introduced into the air conditioner section as the air conditioner section introduction outside air 53 through the introduction outside air connection port 16.

The intake outside air 87 is also introduced into the static total heat exchanger 76 and heat exchanged with the exhaust indoor air 86.
The intake outside air side chamber 82 is formed so as to be led to the intake outside air outlet 78 which becomes the introduction outside air connection port 16 .

Inside the system air conditioner casing 1, an automatic control device (not shown) for controlling each device of the system air conditioner is provided.

Figure 3 shows the air conditioner section of the second embodiment of the partition wall integrated system air conditioner of the first invention, and hereinafter, in this embodiment and the embodiment of the second invention, the embodiment described earlier will be described. The same parts as those in Embodiment 1 are designated by the same reference numerals and their explanations are omitted. Air flows from the top to the bottom, making it a suitable example for heating.

FIGS. 4 and 5 are explanatory diagrams of a partition wall integrated type system air conditioner according to an embodiment of the second invention.

In this invention, the air in the system air conditioner casing 1 is formed so that it flows from the bottom to the top during cooling, and from the top to the bottom during heating.

Embodiment 1 Partition wall integrated system air conditioner system A supply air outlet/return air inlet 17a is provided on the lower end surface of the air conditioner unit side provided on one side of the air conditioner casing 1, and the supply air An outside air cooling motor damper 18a is provided to open and close the outlet/return air suction port 17a, and is configured to take in return air 49a introduced into the air conditioner during cooling and supply supply air 47a during heating.

A supply air outlet/return air suction port 17b with a motor damper for outside air cooling (not shown) is provided at the lower part near the floor finish surface 6 on the side of the air conditioner. 49b is formed so that it can be inhaled.

Further, at the lower part between the air conditioner section on the negative side and the total heat exchanger section on the other side, an intake outside air outlet 78 is provided with an outside air cooling motor damper 18c and a switching damper 70j. Then, the intake outside air outlet 78 of this total heat exchanger section
This is the inlet outside air connection port 16b of the air conditioner section. The introduction outside air 53a of the air conditioner section is introduced through this introduction outside air connection port 16b during cooling.

At the bottom of the system air conditioner casing 1 on the air conditioner side, there is provided the supply air outlet/return air inlet 1.
A filter unit that filters the air conditioner introduction return air 49a, 49b sucked from the air conditioner introduction outside air 7a, 17b and the introduction outside air connection port 16b, the air conditioner introduction outside air 53a, or the supply air during heating that passes in the opposite direction to this air. 23 is the provision.

A humidifier 26 and a drain pan 25 are installed above the filter unit 23 to humidify the air flowing toward the filter unit 23.

A cooler/heater 24 that cools the air that has passed through the humidifier 26 and heats the air that passes in the opposite direction to this air, and a drain pan 25 that receives water droplets during cooling are provided above the humidifier 26. It is.

The cooling/heating device 24 is connected to a cooling fluid source and a heating fluid source (not shown).

A blowing direction switching damper 31a, a blower 30, and a blowing direction switching damper 31b are provided in this order above the cooling/heating device 24.

During cooling, the blowing direction switching dampers 31a and 31
b is shown in a state in which the damper is held at the switching damper position 33 during cooling, and the cooled air flows in the internal airflow direction 57 by the blower 30 during cooling.

Also, during heating, the blowing direction switching dampers 31a and 31b
The air pressurized by the blower 30 descends as shown in the internal airflow direction 56 during heating and is directed toward the cooling/heating device 24. It is formed.

A filter unit 23 is provided above the blowing direction switching damper 31b. This filter unit 23 filters the air that has passed through the blower 30 or the air that passes in the opposite direction to this air.

In the upper part of the system air conditioner casing 1 above the filter unit 23, near the ceiling surface 9, there is provided a supply air outlet/return air inlet 17c.

Furthermore, a supply air outlet/return air suction port 17d is provided on the upper end surface of the system air conditioner casing l, and this supply air outlet/return air intake port 17d is connected to a supply air/return air blowing duct 43. is connected.

and the supply air outlet/return air inlet 1
From 7c and 17d, supply air 52a and 52 during cooling
b is supplied indoors, and return air 51a, 51b is generated during heating.
It is designed to be inhaled.

In addition, a switching damper 70 and an outside air cooling motor damper 18e are provided at the upper part between the air conditioner section on one side of the system air conditioner casing 1 and the total heat exchanger section on the other side. Lower 9 is provided.

The intake outside air discharge lower 9 serves as the introduction outside air connection port 16c of the air conditioner section, and is formed so that the introduction outside air 53b of the air conditioning section is introduced through the introduction outside air connection port 16c during heating.

Also, one end of the total heat exchanger section on the other side of the system air conditioner casing 1 is the exhaust indoor air intake port 67a.
A switching damper 70c is provided at the exhaust indoor air intake 67a, and is configured to suck in exhaust indoor air 86a during cooling.

An indoor air exhaust fan 69a is provided above the exhaust indoor air intake 67a to draw in and blow exhaust indoor air 86a from the exhaust indoor air intake 67a.

At the top of the indoor air exhaust fan 69a, exhaust indoor air 86a pressurized by the indoor air exhaust fan 69a is placed.
A switching damper 70a is provided in the passage leading to the bypass duct 77b, and a switching damper 70a opens and closes this passage, and an exhaust indoor air 86a is provided.
A switching damper 70b is provided in a passage leading to the static total heat exchanger 76 to open and close this passage.

And bypass duct 77 b L intake outside air 8
The stationary total heat exchanger 76 is used during outside air cooling control where no heat exchange is performed between the static total heat exchanger 76 and the exhaust indoor air 86.
The exhaust indoor air 86a that has been bypassed is guided from the bypass duct 77b to the exhaust side chamber 81 and is exhausted as indoor exhaust air 88 through the indoor air exhaust duct connection port 80.

At the other end of the total heat exchanger section on the other side of the system air conditioner casing 1, an outside air intake duct connection port 72 is provided.
An indoor air intake port 67b for exhaust is provided.

Furthermore, a filter unit 23 is provided in the system air conditioner casing 1 to filter the intake outside air 87 introduced from the outside air intake duct connection port 72.

At the bottom of the filter unit 23, there is provided an intake outside air fan 71 for blowing the intake outside air 87.

Next to the intake outside air blower fan 71, the intake outside air 8
A switching damper 70g is installed in the passage leading 7 to the bypass duct 77a, and a switching damper 70f is installed in the passage leading the intake outside air 87 to the static total heat exchanger 76. It is.

The intake outside air 87 that has undergone heat exchange with the stationary total heat exchanger 76 is guided to the intake outside air side chamber 82. Furthermore, it is passed through the intake outside air outlet 78 and the intake outside air connection port 16b from the switching damper 70j that is opened during cooling. , is formed so as to be introduced as air conditioner introduction outside air 53a.

Further, during heating, a switching damper 70k provided at the other end of the system air conditioner casing 1 is opened and the air conditioner is introduced as outside air 53b.

A switching damper 70h that is opened during heating is provided below the exhaust indoor air intake 67b, and an exhaust indoor air 86b is provided below the switching damper 70h.
An indoor air exhaust fan 69b is provided to blow air.

Next to the indoor air exhaust fan 69b, a hawk L is provided in a passage leading the exhaust indoor air 86b to the bypass duct 77c.
A switching damper 70e that opens and closes this passage, and a switching damper 70d that opens and closes this passage are provided in the passage that leads the exhaust indoor air 86b to the static total heat exchanger 76.

The bypass duct 77c is connected to the exhaust side chamber 81 and is also connected to the indoor air exhaust duct connection port 80 as described above.

An automatic control device (not shown) is provided to control each device of the system air conditioner.

〔Effect of the invention〕

In the present invention, a system air conditioner casing is used as a partition wall that partitions a room and a hallway, and the inside of this system air conditioner casing is used as a housing section for system air conditioners.

Therefore, according to the first aspect of the present invention, an air conditioner can be installed without requiring a system air conditioner room and without reducing the floor area used as an office or the like.

Since one side of the system air conditioner casing faces the hallway, the air conditioner is easy to maintain.

Saraban - The present invention has an air inlet and an air supply inlet at one end and the other end, and connects them with air conditioning equipment in an orderly manner, so there is no wasted space, and the air can be used near the indoor ceiling and The air inlet and supply port can be opened and closed near the upper surface of the terminal, and the system air conditioner casing can be used as a partition wall.

[Brief explanation of drawings]

Figures 1 and 2 are explanatory diagrams of a partition wall integrated system air conditioner according to the first embodiment of the first invention. Figure 1 is a side view of the air conditioner section, and Figure 2 is the overall view. A perspective view of Figure 3 is a side view of the air conditioner section of the second embodiment of the first invention.
Figures 5 and 5 are explanatory diagrams of a partition wall integrated system air conditioner according to an embodiment of the second invention, Figure 4 is a side view of the air conditioner section, and Figure 5 is an overall perspective view. be. 1. System air conditioner casing, 2. Casing inner plate, 3. Casing outer plate, 14. Return air suction port, 16. Inlet outside air connection port, 17. Supply air outlet and return air intake port. , 22
...Suction side filter unit, 23.. Filter unit, 24.. Cooling/heating method 26.. Humidification method 30.. Air blower, 31.. Air blowing direction switching damper, 34.. Discharge side filter unit, 38.. Supply Air outlet, 53... Air conditioner section outside air 67, 67a, 67b... Indoor air intake for exhaust, 69, 69a, 69b... Indoor air exhaust fan, 70a
・70b-70cm70d・70e-7Of・70g・
- Switching damper, 71... Intake outside air blower fan, 72... Outside air intake duct connection port, 76... Stationary total heat exchanger 77a, 77b... Bypass duct, 78... Intake outside air outlet, 8o... Indoor Air exhaust duct connection port, 87...Intake outside air.

Claims (3)

[Claims] (1) An inner casing plate 2 serving as the inner wall of a partition wall that separates the room from the hallway, and an outer casing plate 3 serving as the outer wall of the partition wall are provided, and the space between the inner casing plate 2 and the outer casing plate 3 is defined as an equipment storage area. A system air conditioner casing 1 is provided, and a return air suction port 14 and an inlet outside air connection port 1 are provided at one end of one side of the system air conditioner casing 1.
6 is provided in the system air conditioner casing 1, and a suction side filter unit 22 that filters the air that has passed through the return air suction port 14 and the introduced outside air connection port 16; A cooler/heater 24 that cools or heats the air, a humidifier 26 that humidifies the air that has passed through the cooler/heater 24 as necessary, and a blower 30 that blows the air that has passed through the humidifier 26.
A discharge side filter unit 34 is provided to filter the air blown by the blower 30, and a discharge side filter unit 34 is provided at the other end of the system air conditioner casing 1 to supply the air that has passed through the discharge side filter unit 34 into the room. A supply air outlet 38 is provided, and an indoor air intake port 67 for exhaust is provided at one end of the other side of the system air conditioner casing 1.
Inside, there is an indoor air exhaust fan 69 that blows the air that has passed through the indoor air intake port 67 for exhaust, and a bypass that connects the air pressurized by the indoor air exhaust fan 69 to the indoor air exhaust duct connection port 80. Switching dampers 70a and 7 that can blow air to the duct 77b and the stationary total heat exchanger 76
0b, and an outside air intake duct connection port 72 is provided at the other end of the other side of the system air conditioner casing 1,
Furthermore, an intake outside air blower fan 71 that pressurizes the air that is introduced into the system air conditioner casing 1 through the outside air intake duct connection port 72 and has passed through the filter unit 23; switching dampers 70d and 70 that can send the air to the bypass duct 77a that connects to the intake outside air outlet 78 for introducing outside air 53 introduced into the air conditioner section and the static total heat exchanger 76;
c is provided, and the exhaust indoor air 86 that has passed through the static total heat exchanger 76 is guided to the indoor air exhaust duct 80, and the intake outside air 87 that has passed through the stationary total heat exchanger 76 is taken in and the outside air discharge port 78 is provided. What is claimed is: 1. A partition wall-integrated system air conditioner, which is formed so as to lead to a partition wall and is provided with an automatic control device for controlling each device of the system air conditioner. (2) An inner casing plate 2 serving as the inner wall of a partition wall that separates the room from the hallway, and an outer casing plate 3 serving as the outer wall of the partition wall are provided, and the space between the inner casing plate 2 and the outer casing plate 3 is defined as an equipment storage area. A system air conditioner casing 1 is provided, and an intake outside air connection port 16 is provided at one end of one side of the system air conditioner casing 1, and a supply air outlet/return air intake port 17 is provided. Inside the air conditioner casing 1, the introduction outside air connection port 16 and the supply air outlet/return air suction port 1 are provided.
A filter unit 23 that filters the air that has passed through the filter unit 7 or the air that passes in the opposite direction to this air, and humidifies the air that has passed through the filter unit 23 or the air that passes in the opposite direction to this air as necessary. A humidifier 26 and a cooling/heating device 2 that cools or heats the air that has passed through the humidifier 26 or the air that has passed in the opposite direction to this air.
4, a blower 30 that blows the air that has passed through the cooling/heating device 24, or air that passes in the opposite direction to this air, and two blowers that switch the air flow in opposite directions during cooling and heating. A direction switching damper 31 and a filter unit 23 for filtering the air passing through the blower 30 or the air passing in the opposite direction to this air are provided. An inlet outside air connection port 16 is provided through which air passing through the filter unit 23 or air passing in the opposite direction to this air passes, and a supply air outlet and return air inlet 17 is provided.
An exhaust indoor air intake 67a is provided at one end of the other side of the system air conditioner casing 1, and the air that has passed through the exhaust indoor air intake 67a is provided in the system air conditioner casing 1. an indoor air exhaust fan 69a that blows air;
a bypass duct 77b that connects the pressurized air to the indoor air exhaust duct connection port 80; and a stationary total heat exchanger 76.
Switching dampers 70a and 70b that can blow air are provided, and an outside air intake duct connection port 72 and an indoor air intake port 67b for exhaust are provided at the other end of the other side of the system air conditioner casing 1, and further, Inside the system air conditioner casing 1, there is an intake fresh air fan 71 that pressurizes the air introduced from the fresh air intake duct connection port 72 and passed through the filter unit 23, and an air intake fan 71 that pressurizes the air that has been introduced from the fresh air intake duct connection port 72 and passed through the filter unit 23. , a bypass duct 77a connected to an intake outside air outlet 78 for introducing outside air 53a into the air conditioner section, and switching dampers 70g and 70f capable of blowing air to the stationary total heat exchanger 76 are provided, and the indoor air intake for exhaust air is An indoor air exhaust fan 69 is installed at the bottom of the opening 67b.
Next to the indoor air exhaust fan 69b, a bypass duct 77c connected to the indoor air exhaust duct connection port 80 is provided, and switching dampers 70e and 70d that can blow air are provided to the stationary total heat exchanger 76, Then, the exhaust indoor air 86b that has passed through the stationary total heat exchanger 76 is guided to the indoor air exhaust duct connection port 80, and the intake outside air 87 that has passed through the stationary total heat exchanger 76 is guided to the intake outside air outlet 78. A system air conditioner integrated with a partition wall, the system air conditioner being formed so as to be guided and provided with an automatic control device for controlling each device of the system air conditioner. (3) The partition wall integrated type system air conditioner according to claim 1 or 2, wherein the system air conditioner casing 1 is formed of a damping steel plate in which a resin is sandwiched between metal plates.