KR20130013801A - Accumulator for compressor - Google Patents

Abstract

PURPOSE: An accumulator of compressor is provided to separately form an interconnection pipe of a steel material, to simplify a process and installation. CONSTITUTION: An accumulator of compressor comprises a top cover(100), a screen member(200), a body(300), a bottom cover(400), an interconnection pipe of a steel material(500), and an oil ball(600). The screen member(200) is combined and fitted which the outer periphery is contacted to the lower part inner periphery of the top cover, passes the oil to the downward. The body is a cylinder tube shape which is opened up and down. The lower perimeter of the screen member is suppressed to the upper direction, is inserted to the inner periphery of the top cover and is welded and connected. The interconnection pipe is located inside of the body, is welded and connected to connect to the upper end of the connection pipe through hole, and is extended and formed which the other end is not interfered in the screen member from the one end. The oil ball is penetrated and is formed to the end of the interconnection pipe.

Description

Accumulator of Compressor {ACCUMULATOR FOR COMPRESSOR}

The present invention relates to an accumulator of a compressor that prevents liquid refrigerant from directly flowing into a compressor main body, which is one component of a refrigerator or an air conditioner, which constitutes a refrigeration cycle.

In general, a compressor is an element constituting a refrigeration cycle of various cooling devices such as a refrigerator or an air conditioner, and is used for compressing a low temperature low pressure gas refrigerant into a high temperature high pressure gas refrigerant.

As shown in FIG. 1, the compressor is largely connected to the compressor main body 1 and one side of the compressor main body 1 so that the refrigerant does not flow into the compressor main body 1 so that the liquid refrigerant does not flow into the compressor main body 1. And an accumulator 2 which separates the liquid into a gas and supplies only a refrigerant in a gaseous state to the compressor.

The conventional configuration of the accumulator 2 has an accumulator body 21 having a coolant inlet 21a at an upper end and a hollow portion 21b in communication with the coolant inlet 21a. And, the upper portion is accommodated by a predetermined length in the hollow portion 21b of the accumulator body 21, the lower end is formed with a connecting pipe 22 connected to the compressor body 1, formed on the upper end of the accumulator body 21 The oil in the refrigerant flowing through the refrigerant inlet 21a is fixed while being positioned between the refrigerant inlet 21a and the connection pipe 22 accommodated in the hollow portion 21b of the accumulator body 21. The screen member 23 for filtering various impurities in the refrigerant while falling along the inner circumference of the hollow portion 21b without falling directly below the connection portion, and the connection accommodated in the hollow portion 21b of the accumulator body 21. Lower part of the tube (22) An oil ball 24 formed in the hollow part 21b of the accumulator body 21 when the compressor stops, and into the connection pipe 22 and the hollow part of the accumulator body 21 ( It is provided between the 21b) and the connecting pipe 22, and comprises a fixing member 25 for fixing the connecting pipe (2).

The fixing member 25 is to prevent this because the connection pipe 22 is a copper tube easily bent to contact the inner diameter of the accumulator body 21, causing noise and vibration. At this time, in order to fix the screen member 23 and the fixing member 25 to the interior of the accumulator body 21, the screen member 23 and the outer diameter of the accumulator body 21 as shown in FIG. Before and after the fixing member 25, a pair of fixing grooves 26 are formed, respectively.

In order to manufacture the accumulator 2 configured as described above, a circular tube having an appropriate length is prepared, and after inserting the screen member 23 and the fixing member 25 into the circular tube, the fixing groove 26 is formed in the accumulator body. The screen member 23 and the fixing member 25 should be fixed to the inside of the accumulator body 21 by forming along the outer diameter circumference of the 21. At this time, when the width of the fixing groove 26 is larger than the width of each of the screen member 23 and the fixing member 25, since the noise due to the vibration can be greater, it is important to form the width of the precise fixing groove 26 . Next, the upper and lower ends of the circular tube are axially formed, and the refrigerant inlet 21a is formed at the upper portion and the connection tube insertion opening is formed at the lower portion, thereby completing the accumulator 2 shown in FIG. 1.

In the case of the accumulator 2 manufactured through such a process, the manufacturing process is too complicated and there is a problem that productivity is extremely low due to the high occurrence rate of defects when the fixing groove 26 is formed.

Moreover, rather than producing, manufacturing and selling compressors and accumulators at the same time, they are usually divided and manufactured by separate manufacturers to sell and install them separately. ) Is pre-installed in the compressor body, and there is a problem that it is difficult to insert and weld the accumulator.

That is, since the accumulator is made in advance in a closed state, it is difficult to know how much is inserted when the connector 22 is inserted, and the connector 22 is fixed even if the connector 22 is too short or long. The fitting to the member 25 is also a significant burden, which causes a great difficulty in installing the accumulator.

The object of the present invention devised to solve the above problems, while simplifying the structure while maintaining the function of the accumulator can significantly reduce the manufacturing process can improve productivity, without forming a fixed groove separately It is to provide an accumulator of the compressor that can easily fix the screen member and the connecting pipe to significantly reduce the failure rate.

Other objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments with reference to the accompanying drawings.

In order to achieve the above object, the accumulator of the compressor according to the present invention has a shape of upper and lower light, and a coolant inlet is formed through the upper cover to protrude upward, and the outer circumferential surface is in contact with the lower inner circumferential surface of the upper cover. The screen member is fitted, and the screen member for passing the oil downward while filtering impurities in the refrigerant flowing through the refrigerant inlet, and the upper and lower cylindrical tube shape, the upper end while pressing the upper circumference of the lower end of the screen member upwards A body inserted into the lower inner circumferential surface of the cover and welded to each other, and having a shape of a light beam, and having a connection through-hole formed in the lower portion, protruding downward, and a lower cover inserted into the upper inner circumferential surface and welded to Is located inside the body, the lower end so that one end is in communication with the upper end of the connecting tube It is welded to the burr, the other end is upright from the one end comprises an inner connection tube of steel material formed so as not to interfere with the screen member, and an oil hole formed through one end of the inner connection tube.

In addition, the upper end of the protruding refrigerant inlet of the upper cover and the lower end of the protruding connection communication port of the lower cover, characterized in that it further comprises a copper tube welded to extend.

The accumulator of the compressor according to the present invention is welded while the upper cover, the body and the lower cover are each manufactured in a separate configuration, so that the conventional shaft tube forming operation can be omitted, thereby providing a mass production format.

Through this, the screen member is also fixed by the pressing between the upper cover and the body can be omitted the conventional forming groove for fixing the conventional screen member, in particular by configuring the inner connection pipe of the steel material, the conventional fixing member Omitting the installation, as well as the fixing groove forming operation for fixing the fixing member can also be excluded, simplifying the process and maximizing the convenience of manufacturing.

In addition, according to the above configuration, when the accumulator is manufactured in the state of being coupled to the inside of the body through the internal connection in advance can solve the problem of inserting and installing the connection tube with the conventional compressor, of course, the upper cover and the lower cover Each copper pipe welding part can be easily welded to the copper pipe through which the refrigerant moves, thereby improving the ease of installation.

1 is a longitudinal sectional view showing an accumulator of a compressor according to the prior art,
2 is a perspective view of the embodiment of FIG. 1,
3 is a longitudinal sectional view showing one embodiment of an accumulator of the compressor according to the present invention;
4 is a partial cutaway perspective view of the embodiment of FIG. 1,
5 is a perspective view showing another embodiment of the accumulator of the compressor according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the accumulator of the compressor according to the present invention.

Accumulator of the compressor according to the present invention, as shown in Figure 3 and 4, the upper cover 100, the screen member 200, the body 300, the lower cover 400, the inner connecting pipe 500 and the oil hole ( 600, and may further include a copper tube welding part 700 as shown in FIG. 5.

3 and 4, the upper cover 100 has a shape of upper and lower light, and a coolant inlet 110 protrudes upward. The upper cover 100 is manufactured as a steel material and produced in large quantities, and the lower cover 400 to be described later is also mass-produced in the same shape and material as the upper cover 100. Refrigerant, oil and various foreign substances are introduced into the refrigerant inlet 110 of the upper cover 100 through a refrigerant pipe (not shown) disposed along a refrigeration cycle.

As shown in FIGS. 3 and 4, the screen member 200 is fitted while the outer circumferential surface is in contact with the lower inner circumferential surface of the upper cover 100, and filters the impurities in the refrigerant flowing through the refrigerant inlet 110. Pass it downwards. The screen member 200 has a disk shape as a whole and is fitted to the lower portion of the upper cover 100, and has a mesh filter to filter out impurities in the refrigerant. In addition, as shown in FIG. 4, the oil hole 210 is formed such that the center thereof is blocked and the refrigerant and oil flowing from the refrigerant inlet 110 do not fall directly below the center of the screen member, but exit in the radial direction. . This is because the internal connection pipe 500 to be described later is installed coaxially with the refrigerant inlet 110 so that the refrigerant and oil do not flow into the internal connection pipe 500 directly from the refrigerant inlet 110.

The body 300 has a cylindrical tube shape opened up and down as shown in FIGS. 3 and 4, and the upper end is inserted into the lower inner circumferential surface of the upper cover 100 while pressing the upper circumference of the lower end of the screen member 200 upward. Welded together. The body 300 stores the oil flowing from the refrigerant inlet 110 of the upper cover 100 together with the lower cover 400 to be described later, and the refrigerant as a sealed container for moving to the internal connection pipe 500 to be described later. Perform the function. Since the upper end of the body 300 is inserted into the lower inner circumferential surface of the upper cover 100 while pressing the lower circumference of the screen member 200 upward, the screen member 200 is the body 300 and the upper cover 100. ) Is fully pressed in between. Therefore, the screen member 200 can be easily and firmly fixed by its assembly without the need to fix the screen member 200 through a separate fixing groove or fixing member, and can prevent vibration and noise at the source.

The lower cover 400 is the same shape as the upper cover 100, but the coupling position is symmetrical, so as shown in Figures 3 and 4 is the shape of the upper and lower strait, the connecting communication port 410 in the lower portion Protruding is formed, the lower end of the body 300 is inserted into the upper inner peripheral surface is welded. The screen member 200 is provided between the upper cover 100 and the body 300, but there is no separate component between the lower cover 400 and the body 300, it is sufficient if it is fixed by welding after simple insertion. However, after the inner connection pipe 500 to be described later in the manufacture of the present invention to the lower cover 400 in advance, the welding is made of the lower cover 400 and the body 300 will be in order.

3 and 4, the inner connection pipe 500 is located inside the body 300 and welded to the lower cover 400 so that one end is in communication with the upper end of the connection pipe communication port 410. It is coupled, the other end is formed to extend so as not to interfere with the screen member 200 is upright from the one end. In the case of the connection pipe inserted through the lower portion of the conventional accumulator, but made of a copper tube and requires a fixing member for fixing it separately, the internal connection pipe 500 according to the present invention is separate from the conventional connection pipe configuration It is made of steel and does not bend easily like a copper tube, so it is not necessary to install a fixing member. That is, the inner connecting pipe 500 is a steel material, one end is welded to the lower cover 400, the other end is freely formed to extend freely bent even without a separate fixing member or to the inner diameter surface of the body 300 There is no risk of contact. However, the other end of the inner connection pipe 500 should be extended to stand up in a state to secure a certain separation distance so as not to touch or touch the screen member 200.

In addition, the oil ball 600 is formed through one end of the inner connecting pipe 500, the oil ball 600, as is well known when the operation of the compressor stops the oil stored in the body 300 Through the connection pipe communication port 410 through the connection pipe (not shown) connected to the compressor will enter the compressor to perform cooling and lubrication.

Looking at the operation of the accumulator of the compressor according to the present invention configured as described above, the refrigerant 300 and the oil is introduced through the refrigerant inlet 110 of the upper cover 100 through the screen member 200 through the body 300 and It is stored in the lower cover 400. At this time, the impurities are filtered by the screen member 200, and the refrigerant and the oil do not fall directly below, but fall radially through the radially perforated oil hole 210 of the screen member 200 with the center blocked. Since the pure refrigerant falling downward from the screen member 200 is light, it rises again and enters the compressor through the connection pipe communication port 410 through the internal connection pipe 500, but the oil is heavy, so it rises with the refrigerant. Do not, it is stored intact inside the body 300. The above process is when the compressor is in the operating state, on the contrary, in the case where the compressor is not in operation, the suction force is not generated, so that the oil stored in the interior of the body 300 is formed in the inner connection pipe 500. To get through.

On the other hand, the refrigerant inlet 110 of the upper cover 100 and the connecting communication port 410 of the lower cover 400 is made of steel as part of each cover 100,400, but is connected to each In the case of the refrigerant pipe or the connection pipe of the compressor, the copper pipe is so different that it is difficult to weld easily. In other words, if the compressor and the accumulator are manufactured separately and supplied to each other, difficult welding work is performed by steel and other materials of the same material during installation. You need to make sure that the quick installation is done. Therefore, as shown in FIG. 5, the upper end of the protruding refrigerant inlet 110 of the upper cover 100 and the lower end of the protruding connection communication port 410 of the lower cover 400 are respectively welded copper. To form an extended copper tube welding portion 700.

The embodiments of the present invention described above and shown in the drawings should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art will be able to modify the technical idea of the present invention in various forms. Accordingly, such improvements and modifications will fall within the scope of the present invention as long as they are obvious to those skilled in the art.

100: upper cover 110: refrigerant inlet
200: screen member
300: body
400: lower cover 410: connector communication port
500: Internal connector
600: Oil Ball
700: copper tube welding part

Claims (2)

An upper cover having a shape of upper and lower light, and having a coolant inlet protruding upward from the upper cover;
A screen member which is fitted while the outer circumferential surface is in contact with the lower inner circumferential surface of the upper cover, and which passes oil downward while filtering impurities in the refrigerant flowing through the refrigerant inlet;
A cylindrical tube shape opened up and down, the upper end of which is inserted into and welded to the lower inner circumferential surface of the upper cover while pressing the upper circumference of the lower end of the screen member upwardly;
The lower cover that is in the shape of the ordinary light and narrow, the connecting tube through the lower portion protruding downward, the lower end of the body is inserted into the upper inner peripheral surface and welded,
Located inside the body, the one end is welded and coupled to the lower cover so as to communicate with the upper end of the connecting tube communication port, the other end of the inner connection tube of steel material formed so as not to interfere with the screen member upright,
Accumulator of the compressor comprising an oil hole formed through one end of the inner connecting pipe.
The method of claim 1,
The accumulator of the compressor further comprises a copper pipe welding part which is welded to the upper end of the protruding refrigerant inlet of the upper cover and the lower end of the protruding connecting communication port of the lower cover.

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