KR0151470B1 - Airconditioner - Google Patents

Abstract

This patent discloses an air conditioner for both cooling and heating.

The present patent discloses a main short tube orifice 10 installed between indoor and outdoor heat exchangers and having a through hole through which a refrigerant passes, and a sub short tube orifice through which the refrigerant flows to both sides when cooling and passes through a central through hole when heated. Short tube orifice 30 with flange 20 is provided.

Therefore, since the simple structure connected by the main short tube orifice and the sub short tube orifice uses only the flow direction of the refrigerant without using the check valve, the effect of configuring the refrigeration cycle without separately separating the expansion and cooling valves for heating and cooling independently There is.

Description

Air Conditioning

1 is a system diagram of a heat pump refrigeration cycle according to the prior art.

2 is a cross-sectional view showing a heat pump to which a refrigerant expansion mechanism of a heat pump according to the present invention is applied.

3 is a sectional view showing a refrigerant expansion mechanism of the heat pump according to the present invention.

4 is a cross-sectional view taken along the line A-A of FIG.

* Explanation of symbols for main parts of the drawings

10: evaporator 11: compressor

12: 4-way valve 13: Outdoor side heat exchanger

15: indoor side heat exchanger 20: short tube orifice

The present invention relates to an air conditioner (air conditioner) for both air conditioning and heating, and more particularly, to an air conditioner used for both heating and cooling (air conditioner in using a heating and air conditioner) using a single expansion mechanism to control the refrigerant when switching between heating and cooling cooling).

Generally, A AIR CONDITIONER APPLIANCE, such as an air conditioner, uses a cooling cycle to cool and heat a room.

The air conditioner maintains a constant temperature by lowering the indoor temperature. The air is forced to circulate the external hot air by the driving of the biower, and the hot air is uniformly controlled by the action of a condenser and an evaporator. It is cooled to temperature and supplied as cold air.

The refrigerant cycle of such an air conditioner is illustrated in FIG.

As shown in FIG. 1, in the case of air conditioning, the refrigerant is supplied from the evaporator 1 to the compressor 2, and the refrigerant compressed by the operation of the compressor 2 is a four way valve (3). Is supplied.

In addition, the refrigerant is condensed by the operation of the outdoor heat exchanger (4) and flows through the check valve (5) to the expansion valve (6) (7) (expansion valve) for heating and cooling. The refrigerant passing through the expansion valves 6 and 7 is supplied to the indoor heat exchanger 9 via the check valve 8 to prevent load imbalance of the cycle.

The latent heat of evaporation is absorbed by the refrigerant circulating in the refrigerant cycle so that the hot air is cooled and heated.

On the other hand, the check valve (5) (8) provided between the outdoor heat exchanger (4) and the indoor heat exchanger (9) is used as another expansion valve in the separate use of the heating expansion valve (6) and the cooling expansion valve (7) Prevents refrigerant from entering and expanding.

However, the air-conditioning combined air conditioner is used to separately check the expansion valve for cooling and heating in order to prevent load imbalance of the refrigerant cycle when switching from cooling to heating or switching from heating to cooling. This check valve is expensive and there is a problem that a separate assembly and work process is required.

The present patent has been made to solve the conventional problems as described above, the purpose of this patent is to use a separate cooling and expansion expansion valve independently because it uses only the flow direction of the refrigerant without using a check valve by a simple structure It is to provide a combined air conditioning and cooling system to configure the refrigeration cycle without separating.

Features of the present patent for achieving this purpose,

The main short tube orifice is installed between the indoor and outdoor heat exchanger and has a through hole through which the refrigerant passes in the center, and the short short tube orifice that flows through the center through hole when the refrigerant flows to both sides and passes through the central through hole when heated. An air conditioner for cooling and heating is provided in which an orifice is provided and the amount of refrigerant can be adjusted according to the flow direction of the refrigerant during cooling and heating.

Since the air conditioner configured as described above does not need to have a separate check valve, there is an advantage that the assembly work is simplified and the maintenance is simple.

Hereinafter, one preferred embodiment of a combined air conditioning and air conditioner according to the present invention will be described in detail with reference to the accompanying drawings.

2 to 4 are diagrams for explaining the air-conditioning combined air conditioning according to the present patent.

As shown in FIG. 2, in the case of air conditioning, the refrigerant is supplied from the evaporator 10 to the compressor 11, and the refrigerant compressed by the operation of the compressor 11 is a four way valve 12. Is supplied.

In addition, the refrigerant is condensed by the operation of the outdoor side heat exchanger 13 and passes through the short tube orifice 20. The refrigerant passing through the short tube orifice 20 is supplied to the indoor heat exchanger 15 to prevent load imbalance of the cycle. The latent heat of evaporation is absorbed by the refrigerant circulating in the refrigerant cycle so that the hot air is cooled and heated.

On the other hand, as shown in FIG. 3, the short tube orifice 20 is installed between the outdoor side heat exchanger 13 and the indoor side heat exchanger 15, and the main short tube orifice 20 and the sub short tube orifice are provided. It consists of 30.

The main short tube orifice 20 has a through hole 21 in the center, and the through hole 21 is provided to allow a refrigerant to pass through during heating and cooling. The sub short tube orifice 30 is formed such that refrigerant flows into the peripheral spaces on both sides during cooling, and a through hole 31 is formed in the center thereof so that the refrigerant flows during heating.

In addition, the cross section of this sub shot tube orifice 30 is shown in FIG.

The refrigerant passing through the through hole 31 of the sub short tube orifice 30 is naturally and flexibly distributed equally along the copper tube 32.

Thus, since the flow of the refrigerant is equally distributed to the tubes 24 while maintaining the flow of the natural and flexible, the temperature variation of the evaporator 10 in the refrigerant cycle described in FIG. 2 is reduced. The life of the compressor 11 is normally maintained, and as a result, the efficiency of the product is remarkably improved due to equal distribution of the refrigerant.

The operation of the air-conditioning combined air conditioner configured as described above will be described in detail with reference to FIG.

As shown in FIG. 3, during the cooling operation, the refrigerant expands through the main short tube orifice 20 and flows to the surrounding space of the sub tube orifice 30. At this time, expansion of the refrigerant occurs only in the main tube orifice.

On the other hand, during the heating operation, the sub tube orifice 30 is in close contact with the main short tube orifice 20 while pushing at a high pressure. This close contact causes expansion through the main short tube orifice 20 and the sub short tube orifice 30.

As such, the present invention does not require independent use of a check valve when switching between heating and cooling, because the refrigerant cycle is configured as one single expansion mechanism when switching between heating and cooling using the flow direction of the cooling medium. It also has the advantage of simple assembly and maintenance and repair.

On the other hand, the above embodiments are merely described one preferred embodiment of the present patent, the scope of application of this patent is not limited to such, and can be changed appropriately within the scope of the same idea.

As described above, according to the distributor of the air conditioner according to the present invention, the equal distribution of the refrigerant is naturally and flexibly made possible by the simple structure of the short and tube orifice in which the main short tube orifice and the sub short tube orifice are integrally flanged. This is significantly improved.

In addition, since the use of the expansion mechanism is independently configured during the heating and cooling switching has the effect of simplifying assembly and maintenance simple.

Claims (1)

A main short tube orifice 10 installed between indoor and outdoor heat exchangers and having a through hole through which a refrigerant passes, and a sub short tube orifice 20 through which a refrigerant flows to both sides during cooling and passes through a central through hole when heated. Short-circuit orifice 30 is coupled to the flange is equipped with a cooling and heating air conditioner, characterized in that the amount of refrigerant can be adjusted according to the flow direction of the refrigerant during cooling and heating.