JPS5938687Y2 - Separate air conditioner - Google Patents

Description

[Detailed description of the invention] The invention relates to a separate air conditioner having a dehumidifier function, and is particularly designed to reduce the refrigerant noise of the indoor unit during dehumidification operation.

FIG. 1 is a refrigeration cycle diagram showing the configuration between an indoor unit and an outdoor unit in a conventional separated air conditioner during refrigerant operation.

In FIG. 1, A indicates an outdoor unit and B indicates an indoor unit.

The outdoor unit t-A has a compressor 1, an outdoor heat exchanger 2, and a first
It is composed of a capillary tube 3, a first solenoid valve 4, and I.

Further, the indoor unit B includes a first indoor heat exchanger 6, a second indoor heat exchanger 7, a second capillary tube 8, and a second electromagnetic valve 9.

The indoor heat exchanger 5 includes a first indoor heat exchanger 6 and a second indoor heat exchanger T.

The outdoor unit A and the indoor unit B are connected by a unit connecting pipe 10.
is covered with a heat insulating piping cover 111.

Thus, each member of the outdoor unit A, each member of the indoor unit B, and the unit connecting pipe 10 constitute a refrigerant circuit.

In FIG. 1, during cooling operation, outdoor unit A
The first solenoid valve 4 in the indoor unit B is closed, and the second solenoid valve 9 in the indoor unit B is opened to short-circuit the second capillary tube 8.

By doing so, the refrigerant compressed by the compressor 1 in the outdoor unit A flows in the direction shown by the arrow.

In other words, the outdoor heat exchanger 2 - the first capillary tube 3
- Unit connection piping 1〇 - Indoor first heat exchanger 6 in indoor unit A - Second solenoid valve 9 - Indoor second heat exchanger 1 - Unit connection piping 1〇 - Compressor 1 in outdoor unit A The refrigerant is circulated by the refrigerant circuit to perform the well-known cooling.In addition, during dehumidification operation, the refrigerant circuit becomes as shown in FIG. 2, and the first solenoid valve 4 opens and the second solenoid valve 9 closes.

As a result, the refrigerant is transferred from the compressor 1 to the outdoor heat exchanger 2 to the first
Solenoid valve 4 - unit connection piping 10 - indoor first heat exchanger 6 - second capillary tube 8 - indoor second heat exchanger 1
- Unit connection piping 10 - It is circulated through the compressor 1 route to perform dehumidification.

That is, the indoor first heat exchanger 6 acts as a condenser, and the refrigerant is depressurized by the second capillary tube 8.
It reaches the second indoor heat exchanger 1, where it evaporates and absorbs heat.

Therefore, indoor air is passed through the second indoor heat exchanger 7 for cooling and dehumidification j7, and then passed through the first indoor heat exchanger 6 to be returned to room temperature.

In the conventional separated air conditioner having such a configuration, since the second capillary tube 8 is located in the indoor unit B, there are the following drawbacks during dehumidification operation.

That is, when the refrigerant passes through the second capillary tube, a sudden pressure change is applied to the refrigerant due to a sudden increase in the tube diameter, especially at the outlet side of the second capillary tube, which generates refrigerant noise. .

This refrigerant sound resonated in indoor unit B, causing abnormal refrigerant noise to be generated by the indoor unit installed in the living space.

As a countermeasure, there are treatments such as covering the second capillary tube with damping material, which is somewhat effective, but does not completely suppress the sound generation, and this damping material occupies the volume inside the indoor unit. This hinders the miniaturization of the indoor unit and also increases the number of man-hours required for manufacturing.

This idea was made in order to eliminate the above-mentioned drawbacks of the conventional method.The second capillary tube, which generates refrigerant noise indoors, is brought outside along the unit connecting pipe that connects the indoor unit and the outdoor unit. An object of the present invention is to provide a separate air conditioner that can suppress refrigerant noise that resonates indoors from an indoor unit.

Hereinafter, embodiments of the separated air conditioner of this invention will be described based on the drawings.

FIG. 3 shows the configuration of one embodiment, and shows a refrigerant circuit of a refrigeration cycle.

In FIG. 3, the same parts as in FIGS. 1 and 2 will be described with the same reference numerals.

As is clear from comparing FIG. 3 with FIG. 1, the operation of the refrigeration cycle is the same as the conventional one, but the configuration is different.

First, in the outdoor unit A, the configuration is exactly the same as that shown in FIG. It is arranged inside the wiring cover 11.

Inside this heat insulating wiring cover 11, there are the same types as before.
A pair of unit connection pipes 10 connecting the outdoor unit A and the indoor unit B are housed.

The aforementioned second capillary reach tube 8 is placed along the I pair of unit connecting pipes 10.

It goes without saying that the heat insulating piping cover 11 is used to insulate the unit connecting pipe 10 and the second capillary tube 8.
It provides protection.

The second capillary tube 8 is exposed to the outside of the indoor unit B together with the unit connecting pipe 10 housed within the heat insulating pipe cover 11.

Due to this configuration, the outlet portion of the second capillary tube 8 is installed outdoors during installation.

As is clear from the above, even if the refrigerant flows into the second capillary tube 8 during dehumidification operation and generates refrigerant noise especially at the outlet of the second capillary tube 8, the source of the sound is outside the room. , the generation of noise into the living space is eliminated.

Furthermore, since the second capillary tube 8 is housed within the heat insulating pipe cover 11, the heat insulating pipe cover 11 acts as a sound absorber and a sound insulator, thereby suppressing refrigerant noise emitted to the outside.

Moreover, since the second capillary tube 8 is not housed in the indoor unit B, it becomes possible to make the indoor unit B more compact than before.

As mentioned above, according to the separated air conditioner of this invention,
A second capillary tube located between the first indoor heat exchanger and the second indoor heat exchanger in the indoor unit used during dehumidification operation is placed along the unit connection pipe connecting the indoor unit and the outdoor unit. In addition, since it is housed within the heat insulating piping cover, the indoor unit can be made more compact and the refrigerant noise into the living space during dehumidification operation can be reduced.

[Brief explanation of the drawing]

Fig. 1 is a refrigeration cycle diagram during cooling operation showing the configuration between the indoor unit and outdoor unit in a conventional separation type air conditioner, and Fig. 2 is a refrigeration cycle diagram during dehumidification operation in a conventional separation type air conditioner. FIG. 3 is a refrigeration cycle diagram showing the configuration between the outdoor unit and the indoor unit of an embodiment of the separate air conditioner of this invention. 1...Compressor, 2...Outdoor heat exchanger, 3...First capillary tube, 4...
...first solenoid valve, 6...indoor first heat exchanger,
7... Second indoor heat exchanger, 8... Second capillary tube, 9... Second solenoid valve, 1
0...Unit connection piping, 11...Insulation piping cover, A...Outdoor unit, B...
...Indoor unit. Note that the same reference numerals in the figures indicate the same parts.

Claims (1)

[Scope of utility model registration request] The first indoor unit in the indoor unit used during dehumidification operation.
The second capillary tube located between the heat exchanger and the second indoor heat exchanger is brought out to the outside of the indoor unit and placed inside the heat insulating piping cover along the unit connection piping that connects the indoor unit and the outdoor unit. This is a separate type air conditioner that is characterized by being able to store the following items.