KR100300579B1 - Accumulator - Google Patents

Abstract

The present invention relates to an accumulator constituting a heat pump cycle applied to an air conditioner, and more particularly, a gas discharge pipe for moving a gaseous refrigerant present in an upper side of an accumulator case to a compressor side, and a gas discharge tube existing in a lower side of the case. A liquid discharge tube for moving a liquid refrigerant and oil in a compressor state, a first temperature sensor installed at an inlet side of the compressor to sense a temperature, a second temperature sensor installed at an evaporator for sensing a temperature, and the liquid It provides an accumulator including a heater mounted on the discharge pipe to apply a proper level of heat to the liquid refrigerant to be moved through the liquid discharge pipe in accordance with the detection results of the first temperature sensor and the second temperature sensor to change to a gas state This prevents the inflow of liquid refrigerant to the inside of the compressor. Improved capability is, of course, be such that a size reduction is not necessary to increase the size to prevent the refrigerant in the liquid state into the interior of the compressor.

Description

Accumulator

The present invention relates to an accumulator constituting a heat pump cycle applied to an air conditioner. In particular, the gaseous refrigerant, the liquid refrigerant and the oil in the liquid state are separately moved to prevent the liquid refrigerant from entering the compressor. The present invention relates to an accumulator having a structure for heating a liquid refrigerant to a gaseous state.

Figure 1 is a schematic diagram showing the structure of a general heat pump cycle, Figure 2 is a block diagram showing the structure of the accumulator according to the prior art.

Referring to Figure 1 describes the operation of the heat pump cycle when the air conditioner is heating operation as follows.

First, when the refrigerant compressed by the compressor 1 is changed into a vapor state of high temperature and high pressure, and then passes through the four sides 2 and is sucked into the indoor heat exchanger 3, the indoor heat exchanger 3 releases heat. It raises the ambient air temperature and changes a refrigerant into the liquid state of normal temperature and high pressure. In this way, the air warmed by the indoor heat exchanger (3) is supplied to the room to perform heating.

Thereafter, the refrigerant condensed by the indoor heat exchanger 3 is decompressed while passing through the expansion valve 4, and a part of the refrigerant is decompressed to be in a two-phase state in which liquid and gas are mixed. Thereafter, the refrigerant sucked into the outdoor heat exchanger 5 is completely vaporized, and once the vaporized refrigerant passes through the four sides 2 and enters the compressor 1, one cycle is completed. Thereafter, the above process is repeated.

In the above, an accumulator 10 is installed between the compressor 1 and the outdoor heat exchanger 5 to separate a liquid refrigerant and a gaseous refrigerant and to send only the gaseous refrigerant to the compressor 1. It is. The accumulator 10 is to prevent this because the liquid refrigerant from the outdoor heat exchanger 5 is introduced into the compressor 1 when the load is suddenly changed, which may cause a failure.

Referring to Figure 2 describes the operation of the accumulator according to the prior art in detail as follows.

First, the refrigerant evaporated through the outdoor heat exchanger 5 is introduced into the case 11 of the accumulator 10 through the suction tube 12. Subsequently, the refrigerant introduced into the case 11 passes through the screen mesh 13 and is purged by removing impurities, and then through a hole formed in an edge portion of the screen 14 installed below the screen mesh 13. It will fall down by the force of gravity.

At this time, the refrigerant in the liquid state and the oil mixed with the coolant falls to the lower portion of the case 11, the refrigerant in the gas state through the L tube (15) installed on the lower side of the compressor (1) Is inhaled. At the same time, the oil accumulated in the lower part of the case 11 is introduced into the L tube 15 through the hole 15 ′ formed in the lower part of the L tube 15, and the gas is supplied to the compressor 1. Inhaled with refrigerant.

In the above, the L tube 15 is fixed and held by a fixing holder 16 installed inside the case 11 so that the upper end thereof is located below the screen 14.

However, in the conventional accumulator as described above, when the oil is introduced into the L tube 15 through the hole 15 'of the L tube 15, the liquid refrigerant is introduced together with the oil. The refrigerant causes the compressor 1 to overload, causing an overcurrent to flow in the compressor 1, which causes a malfunction such as starting failure in the compressor 1.

The inflow of the liquid refrigerant into the compressor 1 as described above can hardly be avoided when the heat pump cycle is initially started or when the operation on the ground is repeated. Therefore, the malfunction of the compressor 1 becomes more severe.

In addition, the accumulator according to the related art needs to change the size and volume of the accumulator 10 in order to prevent the liquid refrigerant from flowing into the compressor 1. For this reason, when the volume of the accumulator 10 is increased, As well as the size of the system to which the accumulator 10 is applied, such as a conditioner, and the like, the price also increases, and the connection pipe of the compressor 1 and the accumulator 10 is broken when the fixing in the system is unstable. there was.

The present invention has been made in order to solve the above problems, and provided with a gas discharge tube and a liquid discharge tube for separately moving the refrigerant in the gas state and the liquid and refrigerant in the liquid state and at the same time moves through the liquid discharge tube By providing a heater for heating the liquid refrigerant to a gaseous state to prevent the liquid refrigerant flow into the compressor is completely prevented to improve the performance of the compressor, as well as to prevent the liquid refrigerant flow into the compressor It is an object of the present invention to provide an accumulator that can be miniaturized because it is not necessary to increase the size in order to achieve this.

1 is a configuration diagram schematically showing the structure of a general heat pump cycle,

2 is a block diagram showing the structure of an accumulator according to the prior art,

3 is a block diagram showing the structure of an accumulator according to the present invention.

<Explanation of symbols for the main parts of the drawings>

51 case 55 gas discharge pipe

57: liquid discharge tube 58: heater

59: first temperature sensor 60: compressor

70 evaporator 71 second temperature sensor

Features of the accumulator according to the present invention for achieving the above object is a gas discharge tube for moving the gas refrigerant in the upper case of the accumulator inside the compressor to the compressor side, the liquid refrigerant in the lower case inside the case and A liquid discharge tube for moving oil toward the compressor, a first temperature sensor installed at an inlet side of the compressor to sense a temperature, a second temperature sensor installed at an evaporator for sensing a temperature, and mounted at the liquid discharge tube And a heater for applying a proper level of heat to the liquid refrigerant moving through the liquid discharge tube according to the detection result of the first temperature sensor and the second temperature sensor to change the gas state.

In addition, an additional feature of the present invention is that the gas discharge pipe and the liquid discharge pipe is configured to be joined to each other at the point where all the refrigerant in the liquid state to be moved through the liquid discharge pipe is converted to the gas state.

The present invention configured as described above is completely prevented the inflow of the liquid refrigerant into the compressor by the gas discharge tube, the liquid discharge tube and the heater to improve the performance of the compressor, as well as the inflow of the liquid refrigerant into the compressor Since there is no need to increase the size to prevent it has the advantage that the miniaturization is possible.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

3 is a block diagram showing the structure of an accumulator according to the present invention.

Referring to FIG. 3, the accumulator according to the present invention includes a gas discharge pipe 55 for moving a gaseous refrigerant present in the upper part of the case 51 to the compressor 60, and a lower side of the case 51. After the liquid is discharged to the gas state by applying heat to the liquid discharge pipe 57 for moving the liquid refrigerant and oil in the liquid state to the compressor (60) and the liquid refrigerant moving through the liquid discharge pipe (57) It comprises a heating means provided to 60.

Here, the gas discharge pipe 55 is fixed and maintained by the fixing holder 56 installed inside the case 51 so that the upper end is located on the lower side of the screen 54, the liquid discharge pipe 57 is It is provided in the lower end of the case 51.

In addition, the heating means is installed on the inlet side of the compressor 60, the first temperature sensor 59 for sensing the temperature, the second temperature sensor 71 is installed in the evaporator 70 for sensing the temperature, and A heater 58 for applying a proper level of heat to a liquid refrigerant moving through the liquid discharge pipe 57 and changing it into a gas state according to a detection result of the first temperature sensor 59 and the second temperature sensor 71. It consists of).

In addition, the gas discharge tube 55 and the liquid discharge tube 57 is configured to be joined to each other at the point where all the liquid refrigerant that is moved through the liquid discharge tube 57 is converted to the gas state.

Operation of the accumulator according to the present invention configured as described above is as follows.

First, the refrigerant evaporated through the evaporator 70 is introduced into the case 51 through the suction tube 52. Thereafter, the refrigerant introduced into the case 51 passes through the screen mesh 53 and is purged by removing impurities, and then through a hole formed in an edge portion of the screen 54 installed under the screen mesh 53. It will fall down by the force of gravity.

At this time, the refrigerant in the liquid state and the oil mixed with the coolant falls to the lower portion of the case 51, the refrigerant in the gas state through the gas discharge pipe 55 installed below the screen 54, the compressor (60) ) Is moved to the side.

At the same time, the liquid refrigerant and the oil accumulated in the lower part of the case 51 are moved to the compressor 60 through the liquid discharge pipe 57. Thereafter, the liquid refrigerant moving through the liquid discharge pipe 57 is heated by the heater 58 and converted into a gas state.

At this time, the amount of heat provided to the refrigerant in the liquid state by the heater 58 is detected by the first temperature sensor 59 and the second temperature sensor 71 installed at the inlet side of the compressor 60 and the evaporator 70, respectively. According to the result, it is adjusted to an appropriate level. Thus, the heater 58 is capable of completely converting the refrigerant in the liquid state to the gas state by applying an appropriate level of heat in accordance with the state of the refrigerant, so when the heat pump is started after being left at a low temperature for a long time or the liquid discharge pipe Even when a large amount of the refrigerant in the liquid state is moved to the compressor 60 through the 57, the refrigerant in the liquid state does not flow into the compressor 60.

Subsequently, at the point where the gas discharge pipe 55 and the liquid discharge pipe 57 are joined, the refrigerant and the oil in the gaseous state joined together are introduced together into the compressor 60. In the above, the inner diameter of the liquid discharge pipe 57 and the capacity of the heater 58 is determined through various experiments.

The accumulator according to the present invention constructed and operated as described above includes a gas discharge tube 55 and a liquid discharge tube 57 for separately moving the gas refrigerant, the liquid refrigerant and the oil, respectively, and the liquid. By providing a heater 58 for heating the liquid refrigerant moving through the discharge tube 57 to change it into a gaseous state, the inflow of the liquid refrigerant into the compressor 60 is completely prevented. This has the advantage of improving performance.

In addition, the present invention has the advantage that the refrigerant in the liquid state to the compressor 60 is prevented even in the case where the outside temperature is low temperature, such as a heat pump or the operation is repeated on the landing to ensure the reliability of the compressor (60).

In addition, the accumulator according to the present invention, since both the liquid refrigerant in the gaseous state by the liquid discharge tube 57 and the heater 58 is changed to the gas state, the volume of the accumulator to prevent the liquid refrigerant flow into the compressor (60) Therefore, it is not necessary to increase the size of the accumulator, thereby reducing the size of the accumulator and a large capacity, thereby reducing the size of a system such as an air conditioner to which the accumulator is applied.

In addition, since the accumulator according to the present invention can be miniaturized, various defects caused by the enlargement of the size, such as a broken connection pipe with the compressor 60, are eliminated even if the fixing in the system is slightly unstable.

Claims (2)

A gas discharge pipe for moving the gaseous refrigerant in the upper case inside the accumulator to the compressor side, a liquid discharge pipe for moving the liquid refrigerant and oil in the lower case inside the compressor to the compressor side, and an inlet side of the compressor A first temperature sensor installed at the second temperature sensor, a second temperature sensor installed at the evaporator, sensing the temperature, and mounted to the liquid discharge pipe according to a detection result of the first temperature sensor and the second temperature sensor; An accumulator comprising a heater for changing a gaseous state by applying an appropriate level of heat to a liquid refrigerant moving through the liquid discharge pipe. The method of claim 1, And the gas discharge tube and the liquid discharge tube are configured to merge with each other at a point where the liquid refrigerant, which is moved through the liquid discharge tube, is converted into a gas state.