KR200205884Y1 - Accumulator for air conditioning - Google Patents

Abstract

The present invention is installed on the refrigerant gas inlet side of the accumulator used for the air conditioner to quickly filter out the refrigerant liquid that has not been vaporized from the refrigerant gas entering through the evaporator through the baffle membrane and at the same time firmly fixing the discharge pipe to prevent noise. The present invention relates to an accumulator structure of an air conditioner capable of improving the efficiency of an air conditioner by preventing excessive vibration, and the present invention has a flange portion formed at one side, and an inlet pipe is fitted to the flange portion, and the first chamber 26 formed inside. A body 12 having a baffle fixed to an inner circumferential surface thereof, and a flange portion formed at one side thereof, and a fixing ring 28 fitted to the inner circumferential surface of a second chamber formed therein, to be fixed and coupled to the body 12. 10 and one end of the discharge pipe fitted to the body 10 is fixed to the flange portion, and the stop portion of the discharge pipe introduced into the second chamber is fitted into the fixed ring. It is secured to prevent vibration of the discharge pipe generated when the vaporized refrigerant entering through the baffle porous network is discharged to prevent vibration and vibration of the discharge pipe generated when the introduced refrigerant is vaporized and introduced into the discharge pipe. By suppressing the noise, there is an advantage that can provide an accumulator of a quiet structure.

Description

Accumulator for air conditioning {Accumulator for air conditioning}

The present invention relates to an accumulator of an air conditioner, and more particularly, a refrigerant liquid that is not vaporized among refrigerant gas entering through an evaporator by being installed on the refrigerant gas inlet side of an accumulator used for an air conditioner is quickly connected through a baffle membrane. The present invention relates to an air conditioner accumulator structure which can improve the efficiency of the air conditioner by preventing the noise and vibration by fixing the exhaust pipe securely at the same time.

In other words, the main body of the accumulator is an inexpensive steel plate with a relatively low price and high pressure resistance, which makes it possible to reduce the cost and improve the pressure resistance to 120kgf / cm2 or more. And to minimize the leakage of the refrigerant gas to the outside and at the same time useful to prevent the vibration and noise of the discharge pipe.

In general, in various plumbing installations such as air conditioning and heating, each component is connected by using a pipe having a predetermined diameter. Accordingly, it is necessary to connect and fix the tubular pipe to the tubular or plate components. do.

The accumulator stabilizes the refrigerant pressure by separating gas-liquid mixed refrigerant and gas-liquid in the process of recovering the refrigerant after cooling in the evaporator of the air conditioner to the compressor.

Looking at the configuration, the upper part of the accumulator (accumula-tor) body configured to combine the shaft portion and the shaft portion is coupled to the inlet pipe is connected to the evaporator, the lower portion is coupled to the discharge pipe is connected to the compressor.

A baffle having a porous network is bonded to the inside of the body.

The refrigerant introduced into the inlet pipe is gas-liquid separated through the baffle so that the refrigerant in the gas phase is recovered by the compressor and the liquid refrigerant accumulates inside the body.

At this time, in the cooling cycle of the air conditioner, the hydraulic oil for lubrication of the compressor is circulated together with the refrigerant, and the hydraulic oil is collected together with the liquid refrigerant inside the body and is recovered to the compressor through a recovery hole formed in the discharge pipe.

In order to manufacture an accumulator with such a configuration, a baffle is joined in the shaft portion, the shaft portion and the shaft portion are joined to form an accumulator body, and the process of joining the inlet and discharge tubes, Fixing process is necessary.

1 to 3 are cross-sectional views showing the structure of a conventional accumulator.

Referring to FIGS. 1 to 3, the structure of a conventional accumulator is as follows.

Accumulator (accumulator), first of all, the body (1) as shown in Figure 1 is a three-piece (Piece) bonding method or a two-piece bonding method as shown in FIG. 2 was mostly.

The three-piece joining method is made by welding shaft pipe parts 1a and 1b to both sides of a central body 1, and connecting pipes to the outside of each of the shaft pipe parts 1a and 1b.

At this time, the body 1 is formed by cutting a metal pipe, the shaft pipe portion (1a) and the shaft pipe portion (1b) is produced in a hemispherical shape by pressing the iron plate, one side discharge pipe (4) and the entry pipe It is manufactured by forming each through hole to be inserted.

However, in the three-piece joining method as described above, the welded part 2 to which the body 1 and the shaft pipe parts 1a and 1b are welded is not firm and leaks, and the shaft pipe part 1a and the shaft pipe are leaked. Since the work of pressing the part 1b should be prioritized, there was a disadvantage in that the cost increased.

In addition, the two-piece joining method divides the center part of the body 1 into 2 parts, and joins the axial pipe parts 1a and 1b which processed the iron plate by the press as mentioned above by welding.

However, the two-piece joining method as described above also lowers the manufacturability and increases the cost, and there is a concern that the weld part 2 still remains leaky.

In addition, as described above, an accumulator having a structure as shown in FIG. 3 in addition to the two-piece or three-piece bonding method has been used. An accumulator having such a structure uses a copper pipe for the body 1 itself. After cutting to length, both ends are spin-processed to obtain shaft tube parts (1a) and (1b), which have fewer welding parts than those of FIGS. 1 and 2, thereby preventing leakage. Because it is used, it brought down the economical factor.

In addition, the structure of the accumulator (accumulator) using a two-piece, three-piece or copper pipe as described above, one end of the discharge pipe 4 is a baffle when a pipe (entry and discharge pipe) is installed therein Only a part is fixed by welding with the shaft tube part 1b in the state which separated | separated about (5) by 8 mm.

According to the structure as described above, since the discharge pipe 4 is fixed to the shaft pipe portion 1b and only a part of the discharge pipe 4 to form a cantilever, the fixing is unstable, and the baffle classifies the refrigerant to form a vortex. In order to promote vaporization, when the refrigerant introduced through the entry and exit pipe is introduced into the discharge pipe 4 through the baffle, the discharge pipe 4 is severely shaken due to the generated vortex, and noise is greatly generated.

The present invention has been made to solve the above problems, to provide an accumulator of the air conditioner to reduce the vibration and noise of the discharge pipe by adopting a fixed ring to fix the discharge pipe inside the compressor body of the accumulator fixed to the body. For that purpose.

1 to 3 is a cross-sectional view showing the structure of a conventional accumulator (accumulator)

4 is a front sectional view showing the accumulator of the present invention;

5 is a front view showing a fixing ring for fixing the pipe in the interior of the accumulator of the present invention

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

* Explanation of symbols for the main parts of the drawings

10,12: body 14: inlet pipe

16: filler metal 18: discharge pipe

20,22: Flange 24: Baffle

26: first chamber 28: fixed ring

30: porous network 32,34: through hole

36: second chamber

The present invention for achieving the object as described above is a body in which a baffle is fixed to the inner circumferential surface of the first chamber 26 formed inside the flange portion is formed in one side, the inlet pipe is fitted to the flange ( 12), the body 10 is coupled to the body 12 and the fixing ring 28 is fixed to the inner circumferential surface of the second chamber formed inside the flange portion formed on one side and is coupled to the body 10, One end of the discharge pipe is fixed to the flange portion and the discontinuity of the discharge pipe introduced into the second chamber is fixed by being fitted into the fixed ring to prevent vibration of the discharge pipe generated when the vaporized refrigerant entering through the porous network of the baffle is discharged. It is characterized by preventing.

Preferred embodiments of the present invention as described above will be described in detail with reference to the accompanying drawings.

Figure 4 is a front sectional view showing the accumulator of the present invention, Figure 5 is a front view showing a fixed ring for fixing the pipe inside the accumulator of the present invention, Figure 6 is a cross-sectional view when the line A-A of FIG.

First, referring to FIG. 4, the accumulator 100 of the air conditioner according to the present invention has a flange portion 20 formed at a left side thereof, a body 10 having a second chamber 36 at an inner side thereof, and a flange portion at a right side thereof. A body 12 is formed and has a first chamber 26 therein, and is fitted to the flange portion 20 of the body 12 and fixed to the flange portion 22 by the filler material 16. And an inlet tube 14 through which the refrigerant is introduced, a baffle 24 fixedly installed to partition the first chamber 26 of the body 12, and vaporizing the introduced refrigerant, and the body 10. A fixed ring 28 fixed to the inner end of the second chamber 36 to fix the discharge pipe, and fitted to the flange portion 20 formed on the left side of the body 10 to be welded by the filler material 16. It is made of a discharge pipe 18 is fitted into the fixed ring 28 and the vaporized refrigerant is discharged.

At this time, the body 10 is fitted to the body 12 and the outer coupling portion is firmly welded and fixed by the filler metal 16 to prevent leakage.

As described above, the fixing method fixed by the filler metal 16 uses a brazing welding method.

In addition, the baffle 24 has a plurality of porous networks 30 formed in a circular shape, and a central portion thereof is formed to be concave in one direction, and its outer circumferential surface is fixed to the inner circumferential surface of the body 12. .

At the same time, as illustrated in FIGS. 5 and 6, one end portion of the inner second chamber 36 of the body 10 has a through hole 34 formed at the center thereof, and a plurality of through holes are formed at the outside thereof. The disk-shaped fixed ring 28, which is formed at regular intervals while forming 32, is fixed by the filler metal 16. As shown in FIG.

As described above, the discharge ring 18 is fixed to the flange portion 20 of the body 10 in a state in which the fixed ring 28 is fixed to the second chamber 36 and the baffle is fixed to the first chamber 26. It is fitted so that the discharge pipe 18 passes through the center through hole 34 of the fixed ring 28, and the end thereof is located in the recess of the baffle 24.

At this time, the distance between one side of the concave portion of the baffle 24 and the end of the discharge pipe 18 is about 8mm.

The operation according to the structure of the accumulator (accumulator) of the present invention having the structure as described above will be described.

Refrigerant is introduced through the inlet pipe (14) installed on one side of the body (12). The refrigerant flows into the first chamber 26 formed in the body 12 through the inlet pipe 14, and flows out from the right side of the baffle 24 in the left direction. In this case, the porous network Filtering through the (30) flows into the discharge pipe 18 in the direction of the arrow.

The refrigerant introduced as described above is rapidly evaporated by the baffle 24 to form a vortex.

As the vortex is formed, a vacuum pressure is generated between the baffle 24 and the end of the discharge pipe 18, and for this reason, the discharge pipe 18 vibrates.

Then, as the vortex is formed as described above, the vaporized refrigerant continuously flows along the discharge pipe 18 in the direction of the arrow and flows to the compressor (not shown) connected to the discharge pipe 18.

On the other hand, the discharge pipe 18 is fixed to the second chamber 36, that is, is fixed to the fixed ring 28 fixed to the inner peripheral surface of the body 10, the vacuum pressure is generated by the vaporized refrigerant Even if the fixed ring 28 serves to prevent the vibration.

As such, the discharge pipe 18 has one end fixed to the flange portion 20, and the stop portion is fixed by the fixing ring 28, thereby suppressing the generation of vibration and preventing noise caused by the vibration in advance. It will provide an accumulator.

In addition, the present invention as described above is not limited to the specific embodiment described above, any person having ordinary knowledge in the field of the present invention without departing from the spirit of the present invention claimed in the claims various modifications It can be said that such a technical configuration is within an equal range.

Accumulator (accumulator) of the present invention as described above by using a separate fixed ring fixed to the inside of the body to hold the discharge pipe is not shaken by preventing the vibration and vibration of the discharge pipe generated when the introduced refrigerant is vaporized into the discharge pipe noise There is an advantage that can provide a quiet accumulator (accumulator) by suppressing.

Claims (1)

A body 12 having a flange portion formed at one side, and an inlet pipe fitted to the flange portion, and having a baffle fixed to an inner circumferential surface of the first chamber 26 formed inside; A flange portion formed at one side, and a fixed ring 28 is fitted into and fixed to an inner circumferential surface of the second chamber formed at an inner side thereof, the body 10 being coupled to the body 12; One end portion of the discharge pipe fitted to the body 10 is fixed to the flange portion, and the discontinuity of the discharge pipe introduced into the second chamber is fixed to the fixed ring by the vaporized refrigerant entering through the porous network of the baffle. Accumulator of the air conditioner, characterized in that to prevent the vibration of the discharge pipe generated when.