JPH08254327A - Air conditioner unit - Google Patents

Abstract

PURPOSE: To simplify the installation of air conditioner by a method wherein the inside of a casing is divided into an instrument part and a chamber part while a suction port is opened and a compressor, a condenser as well as a fan are arranged in the instrument part but an air outlet port is opened and an evaporator is arranged in the chamber part. CONSTITUTION: The inside of a rectangular parallelepiped casing 2 is divided into an upper section and a lower section by a partitioning plate 5, provided at the substantially center of the casing 2 while the upper section is constituted so as to be an instrument part and the lower section is constituted so as to be a chamber part 4. A suction port is opened on the side surface of the instrument part 3 and an air outlet port is opened on the side surface of the chamber part 4. A compressor 10, a condenser 11 and a fan 12 are arranged in the instrument part 3 while an evaporator is aranged in the chamber part 4. In this case, a refrigerating cycle is provided in the casing 2. According to this method, an air conditioner unit 1 can be installed simply in a building.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an integrated air conditioner unit for cooling and heating.

[0002]

2. Description of the Related Art Conventionally, for example, an air conditioner of Japanese Utility Model Laid-Open No. 6-51732 has been known. In this air conditioner, a suction port is opened on the upper surface of the casing, and air outlets are opened on the left and right sides of the suction port. A duct for taking in air from the room is connected to the suction port, and a duct for returning the air after air conditioning to the room is connected to the air outlet. Then, a filter for removing dust from the air taken in from the suction port is arranged on the upper side in the casing, and a blower for blowing down the dust-removed air downward in the casing is installed below the filter. Further, on the left and right of the lower side in the casing, heat exchangers for air-conditioning the air blown from this blower are respectively installed, and the air that has passed through these left and right heat exchangers passes through the outlet on the upper surface of the casing, It is configured to return to the room from the duct.

[0003]

[Problems to be Solved by the Invention]
As shown by No. 32, in the conventional air conditioner, although the heat exchanger and the filter are arranged in the casing, the heat source device is generally installed outside the casing. Therefore, when a conventional air conditioner is installed in a building, a heat source device must be provided in the building in addition to the air conditioner. In addition, a pipe is also required for passing a heat medium such as cold water or hot water between the air conditioner and the heat source device.
Further, the conventional air conditioner has a structure in which a plurality of ducts cannot be directly attached to the air outlet. Therefore, when it is desired to supply the conditioned air produced by the air conditioner to a plurality of locations, it is necessary to attach a chamber to a duct connected to the outlet on the upper surface of the casing and connect the plurality of ducts to the chamber. As described above, conventionally, the duct is branched by attaching the chamber, and the conditioned air is supplied to each location through the plurality of ducts. Therefore, the conventional air conditioner requires a high cost for installation, and is very troublesome in terms of construction.

An object of the present invention is to provide an air conditioner which is extremely simple to install.

[0005]

According to the present invention, there is provided an integrated air conditioner unit for cooling, comprising a refrigeration cycle and a blower in a casing, wherein the casing has a device section and a chamber section. An air conditioner unit is provided, which is divided into a device part, an intake port is opened, a compressor, a condenser, and a blower are arranged, a chamber part is opened, a blowout port is opened, and an evaporator is arranged. It

Further, according to the present invention, there is provided an integrated air conditioner unit for heating, comprising a refrigeration cycle and a blower in a casing, wherein the casing is divided into a device section and a chamber section, Provided is an air conditioner unit in which a suction port is opened in the device section, a compressor, an evaporator, and a blower are arranged, a blowout port is opened in the chamber section, and a condenser is arranged.

Further, according to the present invention, a cooling cycle and a blower capable of switching between heating and cooling are provided in the casing,
An integrated air conditioner unit for cooling and heating,
The inside of the casing is divided into a device section and a chamber section,
A suction port opens in the device section, and a compressor, a heat exchanger having the functions of an evaporator and a condenser, and a blower are arranged.
An air conditioner unit is provided in which a blowout port is opened in a chamber portion and a heat exchanger having functions of an evaporator and a condenser is arranged.

In the above air conditioner unit,
It is possible to open two or more air outlets in the chamber portion and blow out cooling air and / or heating air in at least two different directions.

[0009]

With the operation of the blower, air is sucked into the device section inside the casing through the suction port, and the air is sent into the chamber section. Then, the evaporator arranged in the chamber section absorbs heat, or the condenser arranged in the chamber section radiates heat to generate cooled air or heated air. The cooling and heating air thus created is blown out from the air outlet and supplied to the air-conditioned space.

[0010]

Embodiments of the present invention will be described below. Figure 1
It is a perspective view of air-conditioner unit 1 for performing air conditioning concerning an example of the present invention. FIG. 2 is a transparent view for explaining the internal structure of the air conditioner unit 1, and FIG. 3 is a bottom view of the air conditioner unit 1.

In the air conditioner unit 1 of the embodiment, inside the casing 2 having a rectangular parallelepiped shape, the upper part is the device part 3
And the lower portion is configured as the chamber portion 4. The device section 3 and the chamber section 4 are divided into upper and lower parts by a partition plate 5 provided at the substantially center of the casing 2. Further, the suction port 6 is opened on the side surface of the device section 3, and the air outlet 7 is opened on the side surface of the chamber section 4. In the illustrated embodiment, the air outlets 7 are provided on the front, rear, left and right side surfaces of the chamber portion 4, respectively, and as described later, the cooling air created by the air conditioner unit 1 is blown out from the respective air outlets 7. The cooling air can be simultaneously supplied in the front, rear, left and right directions of the air conditioner unit 1.

The device section 3 includes a compressor 10, a condenser 11, and
And the blower 12 is arrange | positioned. An evaporator 13 is arranged in the chamber section 4. As shown in FIG. 3, the evaporator 13 is also arranged on the front, rear, left and right sides of the chamber portion 4 corresponding to the outlet 7. Although not shown, an expansion valve for adjusting the flow rate of the refrigerant flowing into the evaporator 13 is provided. These evaporator 13 and compressor 1
A refrigeration cycle in which the refrigerant is circulated in the order of 0, the condenser 11, and the expansion valve is configured inside the casing 2.
The evaporator 13 arranged in the chamber section 4 takes away heat from the surroundings thereof to produce cooling air. Further, the bottom surface of the chamber portion 4 is configured as a drain pan 16 that is inclined toward the drain port 15.

As shown in FIG. 1, an L-shaped hanging metal fitting 20 is attached to a side surface of a casing 2, and a bolt 21 is hung vertically on a ceiling in a room where the air conditioner unit 1 is installed. As shown in FIG.
The air-conditioning unit 1 is fixed by passing it through a hole (not shown) formed in the horizontal portion 22 and applying the anti-vibration rubber 23 to the lower side of the horizontal portion 22 and then fixing it with the nut 25 via the washer 24. I support you.

Therefore, the air conditioner unit 1 of this embodiment is
It can be easily installed in a room having a so-called system ceiling in which the bolts 21 are suspended from the ceiling. Then, when cooling is performed by the air conditioner unit 1, the blower 12 arranged in the device section 3 is operated, air is sucked into the casing 2 through the suction port 6, and the air is sent to the chamber section 4. On the other hand, the refrigeration cycle configured in the casing 2 is operated to change the state of a refrigerant such as a CFC refrigerant in the order of evaporation, compression, condensation, and expansion, thereby absorbing heat around the evaporator 13. In this way, the cooling air created around the evaporator 13 in the chamber section 4 is blown out from the blowout port 7 and supplied to the room. At this time, since the air outlets 7 are provided in the front, rear, left, and right of the chamber portion 4, it is possible to simultaneously supply the cooling air in the front, rear, left, and right directions of the air conditioner unit 1.

Thus, the air conditioner unit 1 of this embodiment
Can be easily installed on the system ceiling and can supply cooling air to the room without installing a special heat source device or providing a heat medium pipe. In addition, this air conditioner unit 1
Since it has a plurality of outlets 7, it is possible to directly connect a duct to the chamber portion 4 and to supply cooling air to a plurality of locations at the same time. In order to supply the cooling air in a plurality of directions by using the conventional air conditioner, it is necessary to separately provide a complicated chamber. However, if a configuration such as the air conditioner unit 1 of the present embodiment is adopted, a special chamber is required. It is not necessary to provide a large chamber.

Next, the case of heating will be described.
FIG. 5 shows the internal structure of the air conditioner unit 30 for heating according to the embodiment of the present invention. The air conditioner unit 30 basically has the same configuration as the air conditioner unit 1 described in FIGS. That is, the upper part of the casing 31 is configured as the device part 32, and the lower part is configured as the chamber part 33, and the device part 32 and the chamber part 33 are provided with a suction port and a blowout port. The outlets are provided on the front, rear, left, and right side surfaces of the chamber portion 33, respectively. Other,
Although not shown, the air-conditioner unit 1 is similar to the air-conditioner unit 1 described above in that it can be easily installed on the system ceiling.

However, the device unit 3 of the air conditioner unit 30
A compressor 35, an evaporator 36, and a blower 37 are arranged at 2, and a condenser 38 is arranged at the chamber portion 33. The condenser 38 has a chamber portion 33 corresponding to the outlet.
They are arranged on the front, back, left and right respectively. Further, although not shown, an expansion valve for adjusting the flow rate of the heat medium flowing into the evaporator 36 is provided. As described above, the refrigeration cycle in which the refrigerant is circulated in the order of the evaporator 36, the compressor 35, the condenser 38, and the expansion valve is configured inside the casing 31, and the condenser 38 arranged in the chamber portion 33 is arranged around the refrigeration cycle. It is designed to produce heated air by releasing heat.

When heating is performed by the air conditioner unit 30, the blower 37 arranged in the device section 32 is operated to suck air into the casing 31.
On the other hand, the refrigeration cycle configured in the casing 31 is operated, and the heating air created around the condenser 38 is changed by changing the state of a refrigerant such as a CFC refrigerant in the order of evaporation, compression, condensation, and expansion in the chamber. It is blown out from the air outlet of the part 33 and supplied to the room. At this time, it is possible to simultaneously supply heated air in the front, rear, left, and right directions of the air conditioner unit 30. As described above, according to the air conditioner unit 30, it becomes possible to supply the heating air into the room without installing a special heat source device or providing a pipe for the heat medium.

Next, a device capable of switching between cooling and heating will be described. FIG. 6 shows the internal structure of the air conditioner unit 40 capable of switching between heating and cooling according to the embodiment of the present invention. This air conditioner unit 40 also basically has the same configuration as the air conditioner unit 1 described in FIGS. That is, the upper portion of the casing 41 is configured as the device portion 42, and the lower portion is configured as the chamber portion 43, and the device portion 42 and the chamber portion 43 are provided with the suction port and the air outlet. Further, the air outlets are provided on the front, rear, left and right side surfaces of the chamber portion 43, respectively. Although not shown, the air-conditioner unit 1 is similar to the air-conditioner unit 1 described above in that it can be easily installed on the system ceiling.

However, the device section 4 of this air conditioner unit 40
A compressor 45, a heat exchanger 46 having the functions of an evaporator and a condenser, and a blower 47 are arranged in the chamber 2.
A heat exchanger 48 having the functions of an evaporator and a condenser is arranged at 3. In the chamber part 43, heat exchangers 48 are respectively arranged on the front, back, left and right of the chamber part 43 corresponding to the outlets.

FIG. 7 shows these compressor 45 and heat exchanger 4.
6 shows a system diagram of the refrigeration cycle constituted by 6 and the heat exchanger 48. Heat exchanger 46 and heat exchanger 48
Both have the functions of both a condenser and an evaporator.
The heat exchanger 46 of the device section 42 is connected to the expansion valve 51 by the refrigerant circuit 50, and the expansion valve 51 is connected to the heat exchanger 48 of the chamber section 43 by the refrigerant circuit 52. Heat exchanger 48
Is connected by a refrigerant circuit 53 to a four-way valve 54 whose connection path is freely switchable. In addition to the refrigerant circuit 53, refrigerant circuits 55, 56, 57 are connected to the four-way valve 54, respectively, and the switching operation of the four-way valve 54 allows the refrigerant circuit 53 and the refrigerant circuit 55 to communicate with each other and the refrigerant circuit 56 and the refrigerant circuit 57. To a state in which the refrigerant circuit 53 and the refrigerant circuit 56 are communicated with each other (a state indicated by a dotted line in the figure). Can be changed. The compressor 45 is provided between the refrigerant circuit 55 and the refrigerant circuit 56, and the refrigerant circuit 57 is connected to the heat exchanger 46 of the device section 42.

When performing the cooling operation in the refrigeration cycle as described above, the refrigerant circuit 53, the refrigerant circuit 55, and the refrigerant circuit 56 are operated by switching the four-way valve 54.
And the refrigerant circuit 57 are communicated with each other, and the refrigerant is circulated in the clockwise direction in the drawing. The pressure of the refrigerant liquid that has passed through the expansion valve 51 drops, passes through the refrigerant circuit 52, and enters the heat exchanger 48 of the chamber portion 43 that functions as an evaporator. Then, the latent heat of vaporization is taken from the surrounding conditioned air to cool it and the refrigerant liquid is vaporized. The vaporized refrigerant is the refrigerant circuit 53, the four-way valve 54,
After passing through the refrigerant circuit 55 and compressed by the compressor 45, it becomes high-temperature and high-pressure refrigerant gas (vapor), and the refrigerant circuit 56 and the four-way valve 5
4. After passing through the refrigerant circuit 57, it enters the heat exchanger 46 of the device section 42 which functions as a condenser. Then, the refrigerant that has lost heat in the heat exchanger 46 and becomes liquid again becomes the refrigerant circuit 50.
And enters the expansion valve 51. Thus, during cooling, the heat exchanger 48 of the chamber portion 43 functions as a condenser, and the heat exchanger 46 of the device portion 42 functions as an evaporator, thereby performing the operation.

When performing the heating operation, the four-way valve 54 is switched to connect the refrigerant circuit 53 and the refrigerant circuit 56, and the refrigerant circuit 55 and the refrigerant circuit 57, respectively.
In contrast to the cooling operation, the refrigerant is circulated counterclockwise in the figure. The heat exchanger 46 of the device unit 42 functions as an evaporator, and the heat exchanger 48 of the chamber unit 43 functions as a condenser, so that the expansion valve 51 and the heat exchanger 46.
The operation is performed by circulating the refrigerant in the order of the (evaporator), the compressor 45, and the heat exchanger 48 (condenser).

Thus, the air conditioner unit 4 of this embodiment
In No. 0, a refrigeration cycle capable of switching between heating and cooling operation, which is configured by the compressor 45, the heat exchangers 46 and 48, the expansion valve 51, and the four-way valve 54, is configured inside the casing 41. A heat exchanger 48 arranged in the chamber portion 43 takes away heat from the surroundings to produce cooling air, and also releases heat to the surroundings to produce heating air. Therefore, according to the air conditioner unit 40, it is possible to arbitrarily switch between cooling air and heating air to supply the indoor air without installing a special heat source device or providing a pipe for the heat medium.

[0025]

As described above, since the air conditioner unit of the present invention is provided with the refrigeration cycle inside the casing, no other special heat source device or piping is required when installing in the building, Remarkably easy to install. Also,
By providing a plurality of outlets in the chamber portion, a duct or the like can be directly connected to the chamber portion, and cooling / heating air can be simultaneously supplied to a plurality of locations. Therefore, the labor of construction can be saved.

[Brief description of drawings]

FIG. 1 is a perspective view showing an outer appearance of an air conditioner unit for cooling according to an embodiment of claim 1. FIG.

FIG. 2 is a transparent view for explaining the internal structure of the air conditioner unit of the embodiment.

FIG. 3 is a bottom view of the air conditioner unit of the embodiment.

FIG. 4 is an enlarged view of a mounting portion of an air conditioner unit.

FIG. 5 is a transparent view for explaining the internal structure of an air conditioner unit for performing heating according to the second embodiment.

FIG. 6 is a transparent view for explaining an internal structure of an air conditioner unit capable of switching between heating and cooling operations according to the third embodiment.

FIG. 7 is a system diagram of a refrigeration cycle of an air conditioner unit according to an embodiment of claim 3.

[Explanation of symbols]

 1 Air Conditioner Unit 2 Casing 3 Device Part 4 Chamber Part 6 Suction Port 7 Blow Out Port 10 Compressor 11 Condenser 12 Blower 13 Evaporator

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[Procedure amendment]

[Submission date] April 24, 1995

[Procedure Amendment 1]

[Document name to be corrected] Drawing

[Name of item to be corrected] Figure 2

[Correction method] Change

[Correction content]

[Fig. 2]

[Procedure Amendment 2]

[Document name to be corrected] Drawing

[Name of item to be corrected] Figure 5

[Correction method] Change

[Correction content]

[Figure 5]

[Procedure 3]

[Document name to be corrected] Drawing

[Name of item to be corrected] Figure 6

[Correction method] Change

[Correction content]

[Figure 6]

Claims (4)

[Claims] 1. An integrated air conditioner unit for cooling, comprising a refrigeration cycle and a blower inside a casing, wherein the casing is divided into a device part and a chamber part, and the device part has a suction port. An air conditioner unit in which the compressor, the condenser, and the blower are arranged, the air outlet is opened in the chamber portion, and the evaporator is arranged. 2. An integrated air conditioner unit for heating, comprising a refrigeration cycle and a blower in a casing, wherein the casing is divided into a device part and a chamber part, and the device part has a suction port. An air conditioner unit in which the compressor, the evaporator, and the blower are arranged, the air outlet is opened in the chamber portion, and the condenser is arranged. 3. An integrated air conditioner unit for cooling and heating, comprising a refrigeration cycle capable of switching between heating and cooling and a blower, wherein the casing is divided into a device section and a chamber section. , A suction port is opened in the device part, a compressor, a heat exchanger having the functions of an evaporator and a condenser, and a blower are arranged, and a blowout port is opened in the chamber part, and the functions of the evaporator and the condenser are The air conditioner unit, where the heat exchanger with is located. 4. The chamber section has two or more blowout openings, which can blow cooling air and / or heating air in at least two different directions.
The air conditioner unit according to claim 1.