KR200161985Y1 - Accumulator - Google Patents

Abstract

The present invention discloses an accumulator. The disclosed subject matter includes a body of an accumulator installed through a compressor of a refrigeration cycle, an inlet pipe penetrating an upper side of the main body and receiving refrigerant after heat exchange in an evaporator, and one end protrudes into the main body. An inlet tube corresponding to the inlet tube and having an inlet and the other end extending outwardly of the main body to form an outlet penetrating through one side of the compressor, and provided on an upper side of the outlet tube and introduced through the inlet tube Gas refrigerant is passed through the inlet of the outlet pipe, characterized in that the bypass means for limiting the passage of the liquid refrigerant is provided.

Description

Accumulator

The present invention relates to an accumulator, and more particularly, after the heat exchange in the evaporator of the refrigeration cycle, the liquid refrigerant flowing into the body of the accumulator passes directly through the upper side of the screen, and then down It relates to an accumulator for preventing the inflow of the inside of the compressor through the outlet pipe disposed in the.

In general, a refrigeration cycle is composed of a compressor, a condenser, a capillary, and an evaporator. By enclosing a certain amount of refrigerant therein, the refrigerant is circulated while changing from liquid to gas and gas to liquid.

In such a refrigeration cycle, when the load suddenly fluctuates, after the heat exchange is performed in the evaporator, the liquid refrigerant that has not been evaporated flows into the compressor, and the refrigeration cycle may cause a failure.

Therefore, in order to prevent this, an accumulator is installed between the compressor and the evaporator to separate the liquid refrigerant and the gaseous refrigerant and to send only the gaseous refrigerant to the compressor side.

The general structure of such an accumulator is the same as that of FIG.

That is, the main body 10 of the accumulator is penetrated to one side of the compressor 20 for compressing the gas refrigerant at high temperature and high pressure in the refrigerating cycle.

An inlet tube 11 communicating with an evaporator (not shown) protrudes from the upper end of the main body 10, and an outlet tube 12 communicating with the compressor 20 is provided at the lower end of the main body 10.

One end portion of the outlet pipe 12 protrudes into the main body 10 to form an inlet 31 corresponding to the inlet pipe 11, and the other end thereof has an outlet 14 communicating with the compressor. Is formed.

On the other hand, the upper portion of the inside of the main body 10 is provided with a screen 15 for separating the liquid refrigerant and the gas refrigerant introduced through the inlet pipe 11 to send only the gas refrigerant to the inlet (13) side.

That is, the screen 15 is composed of a mesh, and is disposed between the lower side of the inlet pipe 11 and the inlet 13 side of the outlet pipe 12.

Therefore, after the heat exchange in the evaporator, the gas refrigerant introduced into the main body 10 through the inlet pipe 11 is introduced into the inlet 13 through the screen 15, and then the outlet 14 The liquid refrigerant is separated into the particulate state by the screen (15), and then recovered again into the compressor through the inlet (13) and the outlet (14).

However, the following problems arise in such accumulators.

That is, after the heat exchange in the evaporator, the refrigerant introduced into the body 10 of the accumulator through the inlet pipe 11 falls directly to the upper side of the screen 15, the noise is generated, and, The problem that the liquid refrigerant dropped to the upper side of the screen 15 flows through the inlet 13 of the outlet pipe 12 in a state in which the liquid refrigerant is not sufficiently filtered from the screen 15 is generated.

Thus, when the liquid refrigerant is introduced into the main body of the compressor in a state in which the liquid refrigerant is not sufficiently filtered by the screen, the compressor is overloaded, which causes another problem of shortening the life of the product.

Therefore, the technical problem to be achieved by the present invention, that is, the object of the present invention is to solve the problems of the accumulator as in the prior art, after the heat exchange in the evaporator, and then back to the inside of the accumulator body The present invention provides an accumulator for preventing the introduced refrigerant from directly flowing into the inside of the compressor through an outflow pipe disposed below the screen.

1 is a cross-sectional view showing a typical accumulator

2 is a cross-sectional view showing an accumulator according to the present invention

Figure 3 is an enlarged cross-sectional view showing the main portion according to the present invention in detail

Explanation of symbols on the main parts of the drawings

10; Accumulator body 11; Inlet pipe

12; Outlet pipe 13; Entrance

14; Outlet 20; compressor

30; Bypass means 31; holder

32; Bypass member 32 '; Inflow hole

33; screen

In order to achieve the above object, the present invention provides a main body of an accumulator installed through a compressor and a refrigerating cycle, an inflow pipe through which the refrigerant flows after passing through an evaporator through an upper portion of the main body, and one end of the main body. An inlet pipe which protrudes inward to correspond to the inlet pipe and forms an inlet, and the other end extends outward of the main body to form an outlet penetrating through one side of the compressor, and is provided on an upper side of the outlet pipe; The gas refrigerant flowing through the pipe is passed through the inlet of the outlet pipe and the accumulator is provided with a bypass means for restricting the passage of the liquid refrigerant.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention for achieving this purpose will be described in detail.

2 is a cross-sectional view showing the internal configuration of the accumulator to which the present invention is applied, and the same parts as in the prior art have been described with the same reference numerals.

In other words, the bypass means according to the present invention is shown and described with the reference numeral "30".

As shown in this, according to the present invention, one side of the compressor 20 for compressing the gas refrigerant at high temperature and high pressure in the refrigerating cycle is installed through the body 10 of the accumulator.

An inlet pipe 11 is formed at the upper end of the main body 10 to communicate with an evaporator (not shown) to form a conduit, and the lower end is provided with an outlet pipe 12 installed through one side of the compressor 20.

One end portion of the outlet pipe 12 protrudes into the inside of the main body 10 to form an inlet 31 corresponding to the inlet pipe 11, and the other end of the outlet pipe 12 communicates with the compressor 20. 14 is formed.

Here, a feature of the present invention is that the gas refrigerant flowing through the inlet pipe 11 is passed through the inlet 13 of the outlet pipe 12 above the outlet pipe 12 and the passage of the liquid refrigerant is limited. The bypass means 30 is provided.

As shown in FIG. 3, the bypass means 30 accommodates a part of the upper side of the outlet pipe 12 and is provided on the holder 31 provided on the upper inner circumferential surface of the main body 10 and on the upper side of the holder 31. The bypass member 32 is disposed and covers the inlet of the outlet pipe 12, and the screen 33 covers the upper side of the bypass member 32.

The bypass member 32 is formed of a cylinder whose upper side is sealed and the lower side is opened, and an inlet hole 32 'is formed on the outer circumferential surface thereof.

On the other hand, the screen 33 is composed of a mesh, the outer periphery is located on the edge side of the holder 31 and the inner side is curved upward to accommodate the bypass member (32).

The operation of the accumulator according to the present invention configured as described above will be described.

That is, after the heat exchange in the evaporator, the refrigerant introduced into the inside of the main body 10 through the inlet pipe 11 will be a mixture of gas refrigerant and liquid refrigerant.

In this way, when the refrigerant mixed in the gas and liquid state is introduced through the inlet pipe 11, the liquid and gas is filtered by the screen 33 disposed below the same as conventional.

However, a feature of the present invention is that the gas refrigerant discharged toward the screen 33 is introduced through the screen 33, and then the inlet hole formed in the outer peripheral surface of the bypass member 32 provided below 32 '), as shown by the one-point arrow in FIG.

On the other hand, the liquid refrigerant is recovered after falling to the inner lower side of the main body 10, and is naturally evaporated, and the inflow hole 32 'formed on the outer circumferential surface of the screen 33 and the bypass member 32 similarly to the gas refrigerant described above. And it will be introduced into the compressor through the inlet of the outlet pipe 12.

Therefore, as in the prior art, after the heat exchange in the evaporator, the refrigerant introduced into the body of the accumulator through the inlet pipe falls directly to the upper side of the screen and the noise is solved.

In addition, as the liquid refrigerant that has fallen to the upper side of the screen is recovered from the inside of the compressor through the inlet of the outlet pipe without being sufficiently filtered from the screen, the cause of the overload of the compressor and the problem of shortening the life of the product accordingly Resolved.

As described in detail above, the present invention, after the heat exchange in the evaporator of the refrigerating cycle, the liquid refrigerant introduced into the body of the accumulator passes directly through the upper side of the screen, and is disposed below By preventing the inflow of the inside of the compressor through the outlet pipe, there is a feature such as to prevent the noise is caused in the compressor, and to extend the life of the product.

Claims (4)

A main body of the accumulator installed through the compressor of the refrigeration cycle, an inlet pipe penetrating the upper side of the main body and receiving refrigerant after heat exchange in the evaporator, and one end thereof protrudes inside the main body to correspond to the inlet pipe. And an inlet and the other end extending outwardly of the main body to form an outlet penetrating through one side of the compressor, and an upper side of the outlet pipe and a gas coolant flowing through the inlet pipe. An accumulator having a bypass means for passing through the inlet of the pipe and restricting the passage of the liquid refrigerant. According to claim 1, wherein the bypass means for receiving a portion of the upper side of the outlet pipe and the holder provided on the upper inner peripheral surface of the main body, the bypass member disposed on the upper side of the holder and covering the inlet of the outlet pipe and And an accumulator having a screen overlying the bypass member. The accumulator according to claim 2, wherein the bypass member is formed of a cylindrical body whose upper side is closed and the lower side is opened, and an inlet hole is formed in an outer circumferential surface thereof. 3. The accumulator according to claim 2, wherein said screen is composed of a mesh, and an outer circumference thereof is located at an edge of the holder and an inner side thereof is curved upward to accommodate the bypass member.