JP2001108257A - Separate type air-conditioner using carbon dioxide refrigerant and its installation method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To facilitate a work to install a separate type air-conditioner using a carbon dioxide refrigerant. SOLUTION: This installation method is an installation method for a separate type air-conditioner formed such that an outdoor machine A and an indoor machine B are interconnected through communication pipings 11 and 12 and a carbon dioxide is used as a refrigerant. The refrigerant circuit of the outdoor machine A before installation is sealed with a surplus carbon dioxide refrigerant exceeding rated capacity, and during installation, the internal parts of the refrigerant piping on the indoor machine B side and the communicating pipings 11 and 12 are purged by the surplus carbon dioxide refrigerant.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a separate type air conditioner using a carbon dioxide refrigerant and a method for installing the same.

[0002]

2. Description of the Related Art In the case of a conventional air conditioner using a chlorofluorocarbon-based refrigerant, releasing the refrigerant to the air causes destruction of the ozone layer and global warming. Therefore, when installing the air conditioner, it is necessary to vacuum deaerate the indoor unit-side refrigerant pipe and the communication pipe connecting the outdoor unit and the indoor unit, and perform vacuum deaeration using a vacuum pump or other means. A complicated installation method of connecting by means was adopted.

[0003]

Accordingly, in the case of a separate type air conditioner using a conventional chlorofluorocarbon-based refrigerant,
The installation work required many tools and man-hours in addition to the vacuum pump, and the work was difficult.

[0004] On the other hand, the carbon dioxide refrigerant has an ozone depletion potential of zero, and has a very low global warming potential as compared with a CFC-based refrigerant. Further, if carbon dioxide emitted from a thermal power plant or the like is used after being purified, the global warming potential is substantially zero, and there is no need to collect refrigerant.

Therefore, purging to the outside during installation work is also possible.

SUMMARY OF THE INVENTION The present invention has been made from such a viewpoint. In a separate type air conditioner using an outdoor unit and an indoor unit connected by a communication pipe and using carbon dioxide as a refrigerant, and a method of installing the same, the present invention relates to An extra carbon dioxide refrigerant exceeding the rated capacity is sealed and placed in the refrigerant circuit of the outdoor unit, and the refrigerant pipe and the communication pipe on the indoor unit side are purged by the extra carbon dioxide refrigerant during installation. This is intended to facilitate installation work.

[0007]

Means for Solving the Problems In order to achieve the above object, the present invention is provided with the following means for solving the problems.

(1) The separate type air conditioner using a carbon dioxide refrigerant according to the present invention provides a communication pipe between the outdoor unit A and the indoor unit B.
In a separate type air conditioner that uses carbon dioxide as a refrigerant, the extra carbon dioxide refrigerant exceeding the rated capacity is sealed in the refrigerant circuit of the outdoor unit A before installation. Features.

In this configuration, an extra amount of carbon dioxide refrigerant exceeding the originally required rated capacity is sealed in the outdoor unit A refrigerant circuit. Refrigerant piping and communication piping 11, 1
By purging the interior of the chamber 2, degassing can be easily performed without using degassing means such as a vacuum pump.

Therefore, the installation work is facilitated.

(2) The separate type air conditioner using the carbon dioxide refrigerant of the present invention according to the second aspect of the present invention, in the configuration of the first aspect of the present invention, further comprises a refrigerant circuit of the indoor unit B before installation. , Characterized by being filled with a carbon dioxide refrigerant having a predetermined pressure.

Therefore, in this configuration, only by keeping the pressure of the carbon dioxide refrigerant in the indoor unit B side refrigerant circuit at least at the atmospheric pressure level, for example, nitrogen or oxygen or the like is externally introduced into the refrigerant circuit of the indoor unit B. Can be prevented from entering, and there is almost no need for degassing, so that the installation work is further simplified.

(3) A third aspect of the present invention, in the separate type air conditioner using the carbon dioxide refrigerant according to the present invention, wherein the refrigerant flows in the same direction during cooling and heating in the configuration of the first aspect of the present invention. A check valve 9 for purging carbon dioxide refrigerant is provided at the ends of the communication pipes 11 and 12.

In this configuration, the purge with the carbon dioxide refrigerant can be commonly performed regardless of whether the connection state of the refrigerant circuit is the cooling state or the heating state, and the number of purging steps can be reduced.

(4) The invention of claim 4 The separate type air conditioner using a carbon dioxide refrigerant according to the present invention, in the configuration of the invention described in claim 1, 2, or 3, has an outdoor unit A and an indoor unit after installation. An adsorbent is sealed in a refrigerant circuit including the machine B.

Therefore, in this configuration, moisture and oxygen in the refrigerant circuit including the outdoor unit A and the indoor unit B installed as described above are surely adsorbed and removed by the adsorbent.

(5) The invention of claim 5 The method for installing a separate type air conditioner using a carbon dioxide refrigerant according to the present invention comprises connecting the outdoor unit A and the indoor unit B by connecting pipes 11 and 12, and using the refrigerant as refrigerant. A method for installing a separate type air conditioner using carbon dioxide, wherein an extra carbon dioxide refrigerant exceeding a rated capacity is sealed in a refrigerant circuit of the outdoor unit A before installation, and the extra carbon dioxide is added at the time of installation. The refrigerant pipe and the communication pipes 11 and 12 on the indoor unit B side are purged by a carbon refrigerant.

In this configuration, an extra amount of carbon dioxide refrigerant exceeding the originally required rated capacity is sealed in the refrigerant circuit of the outdoor unit A. Refrigerant piping and communication piping 11,
By purging the interior of the chamber 12, degassing can be easily performed without using degassing means such as a vacuum pump.

Therefore, installation work becomes easy.

(6) The method of installing a separate type air conditioner using a carbon dioxide refrigerant according to the invention of claim 6 in the configuration of the invention of claim 5, wherein the refrigerant of the indoor unit B before the installation is further provided. The circuit is characterized in that a carbon dioxide refrigerant of a predetermined pressure is sealed and placed in a circuit so that an impurity gas such as moisture or oxygen from the outside does not enter before installation.

Therefore, in this configuration, an impurity gas from the outside enters the refrigerant circuit of the indoor unit B only by keeping the pressure of the carbon dioxide refrigerant in the indoor unit B side refrigerant circuit at least at the atmospheric pressure level. There is no need to perform degassing, and installation work becomes simpler.

[0022]

As described above, according to the separate type air conditioner using the carbon dioxide refrigerant of the present invention and the method of installing the same, the following advantages are obtained.

The number of steps for vacuum degassing can be reduced. Especially for a relatively large air conditioner, the construction time can be significantly reduced.

Since a device such as a vacuum pump becomes unnecessary, if a connecting member such as a quick connector is used for connection between the communication pipe and the outdoor unit or the indoor unit, which is easily connected, a separate air conditioning system with almost no work is required. Can be provided.

Since the amount of air and moisture entering the refrigerant circuit (indoor unit) is reduced, the amount of remaining oxygen and moisture is also reduced, and the reliability of the device itself is increased.

[0026]

(Embodiment 1) FIGS. 1 and 2
1 shows a configuration and an installation method of a separate type air conditioner using a carbon dioxide refrigerant according to Embodiment 1 of the present invention.

First, FIG. 1 is a view showing a state during installation work of the separate type air conditioner, FIG. 2 is a view showing a state after installation of the separate type air conditioner is completed, and FIG. It is FIG. 3 which shows the refrigerant circuit between the outdoor unit A and the indoor unit B after completion, and the refrigerant | coolant distribution state.

First, the separate type air conditioner of this embodiment is configured by connecting an outdoor unit A and an indoor unit B via connecting pipes 11 and 12, as shown in detail in FIG. I have.

The outdoor unit A includes a compressor 1 driven to rotate by a motor (not shown), an expander 6 connected to the compressor 1 on the same shaft, an outdoor heat exchanger 2, 1
An accumulator 4 interposed in the suction side refrigerant pipe of
The expansion device 6 includes a receiver 5 interposed in a suction-side refrigerant pipe, and first and second four-way switching valves 7 and 8. On the other hand, the indoor unit B includes the indoor heat exchanger 3
It is provided with.

A refrigerant pipe on the discharge side of the outdoor unit A-side compressor 1 is selectively connected to the outdoor heat exchanger 2 and the indoor unit-side indoor heat exchanger 3 via a first four-way switching valve 7. Is to be connected to. On the other hand, the suction side refrigerant pipe of the compressor 1 is alternatively provided to the indoor unit B side indoor heat exchanger 3 and the outdoor unit A side outdoor heat exchanger 2 via the second four-way switching valve 8. Is to be connected to. Further, the suction side refrigerant pipe of the expander 6 is connected to the outdoor heat exchanger 2 and the indoor heat exchanger 3 through the receiver 5 and the second four-way switching valve 8 so as to be selectively connected. Has become. The expander 6
Is connected to the indoor heat exchanger 3 and the outdoor heat exchanger 2 via the first four-way switching valve 7. In the drawing, the switching positions of the first and second four-way switching valves 7 and 8 and the flow of the refrigerant are indicated by solid lines during the cooling operation and by broken lines during the heating operation.

In this case, a carbon dioxide refrigerant (CO ₂ ) is employed as the refrigerant, and the carbon dioxide refrigerant is controlled to a predetermined pressure and temperature state, thereby controlling the gas or liquid state or supercritical state. It is used in a state.

During a cooling operation, for example, the refrigerant discharged from the compressor 1 is cooled in the outdoor heat exchanger 2 via the first four-way switching valve 7. This refrigerant is introduced into the expander 6 through the second four-way switching valve 8 and the receiver 5, and is decompressed by isentropic expansion in the expander 6. After that, it is introduced into the indoor heat exchanger 3 via the communication pipe 12.
The refrigerant introduced into the indoor heat exchanger 3 evaporates here and cools the room by the heat of evaporation, and the refrigerant after evaporation passes through the communication pipe 11 to the second four-way switching valve 8 and the accumulator 4. After that, it is sucked into the compressor 1.

On the other hand, during the heating operation, the refrigerant discharged from the compressor 1 is introduced into the indoor heat exchanger 3 from the communication pipe 12 through the first four-way switching valve 7 and is cooled. Heating of the room is performed by the heat radiation at the time. The refrigerant cooled in the indoor heat exchanger 3 is introduced into the expander 6 from the communication pipe 11 through the second four-way switching valve 8 and the receiver 5, and is decompressed in the expander 6 by isentropic expansion. Thereafter, the refrigerant is introduced into the outdoor heat exchanger 2 via the first four-way switching valve 7 and evaporated, and is sucked into the compressor 1 via the second four-way switching valve 8 and the accumulator 4.

As described above, in the separate type air conditioner of this embodiment, the first four-way switching valve 7 and the second four-way switching valve 8 are provided in the refrigerant circuit of the outdoor unit A. The four-way switching valve 7 allows the discharge side refrigerant pipe of the compressor 1 to be selectively connected to the outdoor heat exchanger 2 and the indoor heat exchanger 3 and the discharge side refrigerant of the expander 6. The pipe can be selectively connected to the indoor heat exchanger 3 and the outdoor heat exchanger 2, while the second four-way switching valve 8 connects the suction side refrigerant pipe of the compressor 1 to the outdoor heat exchanger. And the heat exchanger side of the expander 4 is selectively connected to the outdoor heat exchanger 2 and the indoor heat exchanger 3. I can do it.

Therefore, in this configuration, as is apparent from FIG. 3, the flow direction of the refrigerant in the compressor 1 and the expander 6 during the cooling operation and the compressor 1 and the expander 6 during the heating operation. And the flow direction of the refrigerant in the expansion machine 6 is the same, and the power recovery in the expander 6 is performed in the same manner in both the cooling operation and the heating operation. For example, the power is recovered only in the cooling operation. As compared with the case where the recovery cannot be performed, the power recovery rate is improved, and the efficiency of the refrigeration cycle is enhanced by incorporating the expander 6 into the refrigerant circuit.

In the outdoor heat exchanger 2 and the indoor heat exchanger 3 as well, the refrigerant flow direction during the cooling operation and the refrigerant flow direction during the heating operation in the heat exchangers 2 and 3 are the same. Therefore, each of these heat exchangers 2, 3
, The refrigerant circulation mode in each of the embodiments can be in a counterflow configuration, and the heat efficiency of the refrigeration cycle can be further improved by an effective heat exchange action between the refrigerant and the cooling air.

Further, as a result, the flow direction of the refrigerant at the time of cooling and heating at the connecting pipes 11 and 12 connecting the outdoor unit A and the indoor unit B becomes the same.

Further, in the same configuration, since the receiver 5 is interposed in the suction side refrigerant pipe of the expander 6, the excess refrigerant in the expander 6 is excessively stored in the receiver 5 due to the temporary storage of the excess refrigerant in the receiver 5. The introduction of the refrigerant is prevented, the reliability of the expander 6 is improved, and the required refrigerant due to the difference in the volume ratio between the outdoor heat exchanger 2 and the indoor heat exchanger 3 between the cooling operation and the heating operation The adaptability to the change in the circulation amount is enhanced, and as a result, the degree of freedom in designing the refrigeration system can be expected.

In the case of this embodiment, in the above-described configuration, the respective end portions of the refrigerant pipes 31, 32 are connected to the connection lead pipes 31a, 32a from the indoor unit B side indoor heat exchanger 3. As a predetermined length,
One end of each of the communication pipes 11 and 12 is connected through quick connectors C ₁ and C _2, and the indoor unit A is connected to the first and second four-way switching valves 7 and 8 on the outdoor unit A side. The connection ends of the refrigerant pipes 21 and 22 to the machine B side are:
Through the quick connectors C ₃ and C ₄ ,
12 is connected to the other end.

Further, as described above, the above-described communication pipes 11, 12 through which the refrigerant flows in the same direction during the cooling and heating, respectively.
For example, a check valve 9 that allows the refrigerant to flow only from the indoor unit B side to the outdoor unit A side, but not in the opposite direction, to any one side, for example, near the other end of the communication pipe 11 (the end portion on the outdoor unit A side) Is provided.

In the case of this embodiment, before the installation work, the refrigerant pipe (refrigerant circuit) of the outdoor unit A, for example, at the time of shipment from the factory, has a predetermined amount (the indoor unit B side) larger than the original rated capacity. Refrigerant piping 31, 32, connecting lead piping 31
(a sufficient amount for purging the inside of the communication pipes 11 and 12) and an excess amount of carbon dioxide refrigerant.

(Installation Method) By the way, the above-described separate type air conditioner is connected to each other from the state of FIG. 1 to the state of FIG. It is installed so as to perform an operation like the configuration of 3.

The installation is performed, for example, as follows.

(1) Installation and Latching Steps of the Outdoor Unit A and the Indoor Unit B First, the outdoor unit A is installed and fixed at a predetermined installation place such as on the outdoor ground using a mounting table, and the indoor unit B is fixed. It is hooked and fixed to a predetermined hooking place such as a wall in a room.

At this time, when the indoor unit B is hung, the connection lead pipes 31a and 32a provided on the indoor unit B side and having a sufficient length to be drawn out of the room are connected to the extraction holes 30 of the wall W. From the outside.

[0046] (2) Air purge preparing step Next, as air purge preparatory step, while connecting the one end of the communication pipe 12 and the connecting end of the connecting leads pipe 32a via a quick connector C _2, of the communication pipe 12 the other end side connection terminal via the quick connector C ₄ connected to the carbon dioxide inlet carbon dioxide recovery container 15 accommodating the carbon dioxide adsorbent, and through the quick connector C ₁ to the connection end of the connecting lead pipe 31a while connected to one end of the communication pipe 11 Te, the other end of the communication pipe 11 through the quick connector C ₃ connected to the refrigerant pipe 21 to the outdoor unit a side first switching valve 7.

(3) Air Purge Step As described above, in the state where the air purge preparation step has been completed, the refrigerant pipe (refrigerant circuit) of the outdoor unit A previously contains the An extra amount of carbon dioxide refrigerant (CO ₂ ) necessary for air purging exceeding the rated capacity of the above is filled and sealed.

Accordingly, in this state, the closing valve provided on the connection end side of the outdoor unit A side refrigerant pipe 21 is opened to perform the air purging.

Then, an extra amount of carbon dioxide from the outdoor unit A-side refrigerant pipe 21 passes through the communication pipe 11, the connection lead pipe 31a, the indoor heat exchanger 3 on the indoor unit B side, and
Further, it is supplied to the carbon dioxide recovery container 15 through the connection lead pipe 32a, the communication pipe 12, and the check valve 9.

After the carbon dioxide is adsorbed and recovered by the carbon dioxide adsorbent in the carbon dioxide recovery container 15, only air is released to the atmosphere. When the purging is completed in this way, the closing valve is closed once.

(4) Final Connection Step As described above, the indoor unit B side refrigerant pipes 31, 32, the connection lead pipes 31a, 32a, and the connection pipes 11, 1
When the air purging of each part in the interior 2 is completed, the connection end of the communication pipe 11 on the check valve 9 side is finally connected to the outdoor unit A-side refrigerant pipe 2.
Connected via the 2 and quick connector C _4, eventually opening the aforementioned shut-off valve.

As a result, a connection state in which the cooling and heating operation can be performed as shown in FIG. 3 is realized.

In the separate type air conditioner using carbon dioxide refrigerant of the present invention, as described above, the outdoor unit A and the indoor unit B are connected by the connecting pipes 11 and 12, and the separate type air conditioner using carbon dioxide as the refrigerant. Type air conditioner,
First, an extra amount of carbon dioxide refrigerant exceeding the originally required rated capacity is sealed in the refrigerant pipe (refrigerant circuit) of the outdoor unit A before the installation work as described above.

In this configuration, an extra amount of carbon dioxide refrigerant exceeding the originally required rated capacity is sealed in the refrigerant pipe (refrigerant circuit) of the outdoor unit A. Refrigerant piping 31, 3 on indoor unit B side
2. By continuously purging the connection lead pipes 31a and 32a and the inside of the connection pipes 11 and 12, degassing can be easily performed without using degassing means such as a vacuum pump. .

Therefore, installation work becomes easy.

In the separate type air conditioner using a carbon dioxide refrigerant according to the present invention, the outdoor unit A of the communication pipe 11 (or 12) in which the refrigerant flows in the same direction at the time of cooling and heating is further provided. A check valve 9 for purging carbon dioxide refrigerant is provided at the side connection end.

Therefore, in this configuration, even if the connection state of the refrigerant circuit is either the cooling state or the heating state,
Purging with a carbon dioxide refrigerant is possible in common, and at that time, the air is purged into the atmosphere via a carbon dioxide recovery container 15. At this time, only the air in the pipe is discharged into the atmosphere during the purging. Since it is not performed, the man-hour for air purging can be reduced without affecting the environment at all.

The carbon dioxide refrigerant has an ozone depletion potential of zero, and has a very low global warming potential as compared with a CFC-based refrigerant. Further, if carbon dioxide emitted from a thermal power plant or the like is used after being purified, the global warming potential is substantially zero, and there is no need to collect refrigerant.

Therefore, the carbon dioxide recovery container 15
Is preferably installed if possible, but is not always essential.

Further, in the separate type air conditioner using the carbon dioxide refrigerant of the present invention, in the above configuration, the outdoor unit A and the indoor unit B after the installation are installed, if necessary.
An adsorbent is sealed in the refrigerant circuit including

Therefore, in this configuration, moisture and oxygen in the refrigerant circuit including the outdoor unit A and the indoor unit B installed as described above are reliably adsorbed and removed by the adsorbent.

Further, in the method of installing a separate type air conditioner using a carbon dioxide refrigerant according to the present invention, as described above, the outdoor unit A and the indoor unit B are connected by the connecting pipes 11 and 12, and the carbon dioxide is used as the refrigerant. In the method of installing a separate type air conditioner using carbon, the outdoor unit A before the installation work
An extra amount of carbon dioxide refrigerant exceeding the originally required rated capacity is sealed and placed in the refrigerant pipe (refrigerant circuit), and the refrigerant pipes 31, 32, 32 on the indoor unit B side by the extra carbon dioxide refrigerant at the time of installation. It is characterized in that the connection lead pipes 31a and 32a and the communication pipes 11 and 12 are purged.

Therefore, according to the installation method, an extra amount of carbon dioxide refrigerant exceeding the originally required rated capacity is sealed and placed in the refrigerant pipe (refrigerant circuit) of the outdoor unit A in advance, and the installation is performed at the time of installation. Excess carbon dioxide refrigerant causes the refrigerant pipes 31 and 32 on the indoor unit B side and the connection lead pipe 31
By purging the insides a and 32a and the communication pipes 11 and 12, degassing can be easily performed without using degassing means such as a vacuum pump.

As a result, according to the separate type air conditioner using the carbon dioxide refrigerant of the present invention and the installation method thereof, the following merits are obtained.

The number of steps for vacuum degassing can be reduced. Especially for a relatively large air conditioner, the construction time can be significantly reduced.

Since a device such as a vacuum pump becomes unnecessary, if a connection member such as a quick connector is used for connection between the communication pipe and the outdoor unit and the indoor unit, which is easy to connect, a separate air conditioning system with almost no work is required. Can be provided.

Since the amount of air and moisture entering the refrigerant circuit (indoor unit) is reduced, the amount of remaining oxygen and moisture is also reduced, and the reliability of the device itself is increased.

(Embodiment 2) A separate type air conditioner using a carbon dioxide refrigerant according to the present invention is the same as that of Embodiment 1 except that the refrigerant pipe (refrigerant) of the indoor unit B before the installation work is added. In the circuits 31 and 32, for example, a carbon dioxide refrigerant having a predetermined pressure, such as the atmospheric pressure, may be sealed in advance and placed.

In this case, the refrigerant pipe (refrigerant circuit) 31, 36 of the indoor unit B can be obtained simply by keeping the pressure of the carbon dioxide refrigerant in the refrigerant pipe (refrigerant circuit) on the indoor unit B side at least at the atmospheric pressure level. Impurities such as nitrogen and oxygen can be prevented from invading into the interior of the chamber 32, and purging is facilitated and degassing is hardly required, thereby simplifying installation work.

Similarly, the method of installing a separate type air conditioner using a carbon dioxide refrigerant according to the present invention is the same as that of the first embodiment, except that the refrigerant pipe (refrigerant circuit) of the indoor unit B before the installation work is further added. For example, carbon dioxide refrigerant having a predetermined pressure such as atmospheric pressure may be sealed in advance and placed in 31, 32 so that an impurity gas such as moisture or oxygen from the outside does not enter before installation. it can.

Therefore, in this installation method, the pressure of the carbon dioxide refrigerant in the indoor unit B side refrigerant pipes (refrigerant circuits) 31 and 32 is maintained at least at the atmospheric pressure level.
Since the above-mentioned impure gas does not enter the refrigerant pipe (refrigerant circuit) of the indoor unit B from the outside and the necessity of degassing is eliminated, the installation work is further simplified.

[Brief description of the drawings]

FIG. 1 is a diagram of an installation work state showing a separate type air conditioner using a carbon dioxide refrigerant and a method of installing the same according to Embodiment 1 of the present invention.

FIG. 2 is a diagram after installation of the air conditioner is completed.

FIG. 3 is a diagram showing a configuration of an entire refrigerant circuit after installation of the air conditioner is completed.

[Explanation of symbols]

1 is a compressor, 2 is an outdoor heat exchanger, 3 is an indoor heat exchanger, 4
The accumulator 5 is receiver, 6 expander, 9 check valve, 11 and 12 communication pipe, 15 carbon dioxide recovery container, C ₁ -C ₄ is a quick connector.

Claims (6)

[Claims] 1. A separate type air conditioner in which an outdoor unit (A) and an indoor unit (B) are connected by connecting pipes (11) and (12), and carbon dioxide is used as a refrigerant. A separate type air conditioner using a carbon dioxide refrigerant, characterized in that an extra carbon dioxide refrigerant exceeding a rated capacity is sealed in a refrigerant circuit of the outdoor unit (A). 2. In the refrigerant circuit of the indoor unit (B) before installation,
The separate type air conditioner using a carbon dioxide refrigerant according to claim 1, wherein a carbon dioxide refrigerant of a predetermined pressure is sealed. 3. A check valve (9) for purging carbon dioxide refrigerant at the ends of the communication pipes (11) and (12) in which the refrigerant flows in the same direction during cooling and heating. A separate type air conditioner using the carbon dioxide refrigerant according to claim 1 or 2. 4. The carbon dioxide refrigerant according to claim 1, 2, or 3, wherein an adsorbent is sealed in a refrigerant circuit including the outdoor unit (A) and the indoor unit (B) after installation. Separate type air conditioner to be used. 5. A method for installing a separate type air conditioner, wherein an outdoor unit (A) and an indoor unit (B) are connected by connecting pipes (11) and (12), and carbon dioxide is used as a refrigerant. An extra carbon dioxide refrigerant exceeding the rated capacity is sealed and placed in the refrigerant circuit of the outdoor unit (A) before the installation, and the refrigerant pipe and communication between the indoor unit (B) side by the extra carbon dioxide refrigerant at the time of installation. A method of installing a separate type air conditioner using a carbon dioxide refrigerant, wherein the inside of the pipes (11) and (12) is purged. 6. The refrigerant circuit of the indoor unit (B) before installation,
6. A separate type air conditioner using a carbon dioxide refrigerant according to claim 5, wherein a carbon dioxide refrigerant of a predetermined pressure is sealed and placed so as to prevent infiltration of impurity gases from the outside before installation. Installation method.