KR101565295B1 - rotary compressor - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rotary compressor, and more particularly, to a rotary compressor capable of reducing a noise by improving a suction structure of a rotary compressor.

The rotary compressor of the present invention comprises a case including a cylinder, an accumulator connected to a suction pipe for supplying refrigerant to the cylinder, a tube suction part provided on one side of the case to connect the suction pipe, a suction tube inserted into the tube suction part, And a welded portion accommodated in the welded portion so that the welded portion can be inserted in a large amount when welding the suction tube and the tube suction portion.

Description

Rotary compressor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rotary compressor, and more particularly, to a rotary compressor improved in the connection structure between a rotary compressor case and an accumulator suction pipe.

2. Description of the Related Art Generally, a compressor is a device that receives power from a driving device such as an electric motor, applies pressure to a fluid such as an air refrigerant, compresses the compressed fluid, and discharges the compressed fluid, and is used in products such as an air conditioner and a refrigerator.

Compressors are classified as positive type compressors and turbo type compressors depending on how they are compressed. The positive type compressors include a rotary compressor in which a fluid is compressed by a roller rotating in an eccentric state inside the cylinder.

The rotary compressor includes a hermetically sealed container having a hermetically sealed receiving space therein and having a suction port and a discharge port, a transmission mechanism mounted inside the hermetically sealed container, a compression mechanism connected to the transmission mechanism to compress the refrigerant, And an accumulator communicating with the compression mechanism.

At this time, a suction pipe for supplying fluid from the accumulator is connected to one side of the hermetically sealed container, and the suction pipe is welded together with the suction tube and the suction tube of the case.

However, the welding method of the suction tube, the suction tube, and the suction pipe of such a case may not be able to penetrate the welding material between the suction tube and the suction pipe, and the fixing force may be weakened, and accordingly, deformation and noise may be generated.

One aspect of the present invention provides a rotary compressor capable of reducing a noise by improving a connection structure between a rotary compressor case and an accumulator suction pipe.

To this end, an embodiment of the present invention includes a case including a cylinder, an accumulator connected to a suction pipe for supplying a refrigerant to the cylinder, a tube suction part provided at one side of the case to connect the suction pipe, The suction tube includes a suction tube inserted into the suction tube, and a welded portion accommodated in the suction tube such that the suction tube can be inserted into the suction tube in a large amount when the suction tube is welded.

Further, the welded product receiving portion is formed between the outer peripheral surface of the suction tube and the inner peripheral surface of the tube suction portion.

Further, the welded article receiving portion is characterized in that the diameter of the suction tube is gradually reduced.

Further, the welded article receiving portion is characterized in that the diameter of the tube suction portion is gradually enlarged.

The suction tube includes a case formed with a tube suction part, a cylinder provided inside the case, a suction port provided at one side of the cylinder and sucking fluid into the cylinder, a suction tube connected to the suction port, The suction tube is formed with a welded member insertion portion formed inwardly recessed so as to be able to insert a large amount of welding material between the suction tube and the tube suction portion.

The suction tube includes a case formed with a tube suction part, a cylinder provided inside the case, a suction port provided at one side of the cylinder and sucking fluid into the cylinder, a suction tube connected to the suction port, The tube sucking portion is provided with a welded portion inserting portion having a diameter enlarged to the outside so that a large amount of the welded material can be inserted between the suction tube and the suction tube.

The rotary compressor according to an embodiment of the present invention described above improves the suction structure of the case to reinforce the strength and prevent noise.

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

1, a variable capacity rotary compressor according to an embodiment of the present invention includes a case 1 forming an outer shape, a driving unit 10 installed inside the case 1 to generate a rotating force, a driving unit 10 And a compression unit 20 for compressing the gas.

A discharge pipe 1a through which the compressed fluid is discharged is provided in the upper part of the case 1 and a certain amount of lubricating oil is filled in the lower part of the case 1 for lubricating and cooling the member for friction movement.

The driving unit 10 includes a cylindrical stator 12 provided inside the case 1, a rotor 11 rotatably installed in the stator 12, And a rotary shaft 13 that is rotated together with the rotor 11 in the forward and reverse directions.

Therefore, when power is supplied to the stator 12, the rotor 11 is rotated by the electromagnetic force, and the rotating shaft 13 integrally formed with the rotor 11 is transmitted to the compression unit 20 .

The compression section 20 includes a first compression chamber 24 and a second compression chamber 25 which are different in contents from each other in an upper portion and a lower portion and a cylindrical cylinder 23 provided with a second compression chamber 25, A first flange 21 and a second flange 22 which are disposed in the first compression chamber 24 and rotatably support the rotary shaft 13 and a second flange 22 which is disposed between the first compression chamber 24 and the second compression chamber 25, And an intermediate plate 23 'so that the first compression chamber 24 and the second compression chamber 25 are partitioned from each other.

The first compression chamber 24 is formed to be larger than the second compression chamber 25 so that the first compression chamber 24 is provided with a larger volume than the second compression chamber 25 and has a variable capacity.

Only one of the first compression chamber 24 and the second compression chamber 25 is selected in the first compression chamber 24 and the second compression chamber 25 in accordance with the rotation direction of the rotary shaft 13, An eccentric device 30 is provided.

The first and second rollers 26 and 27 are rotatably disposed on the outer peripheral surface of the eccentric device 30 in the first compression chamber 24 and the second compression chamber 25, The first suction port 28 and the second suction port 29 are formed so as to communicate with the first compression chamber 24 and the second compression chamber 25, respectively.

An accumulator (40) for separating the liquid refrigerant from the case (1) and allowing only the gas refrigerant to flow into the compressor is provided.

The accumulator 40 has a housing 41 formed in the inside of the case 1 and fixed to the side of the case 1 and an inlet pipe 42 having an inlet port 42a formed on the upper side of the housing 41, A tube 43 is formed.

The first suction pipe 45 and the second suction pipe 29 are provided in the outlet pipe 43 of the accumulator 40 so that the gas refrigerant is supplied only to the suction port side where the compression operation is performed out of the first suction port 28 and the second suction port 29 formed in the cylinder 23, A flow path switching device 44 for selectively opening and closing the second suction pipe 46 is provided and a first suction pipe 45 and a second suction pipe 29 connected to the first suction port 28 are provided inside the flow path switching device 44, (Not shown) operated by the pressure difference of the second suction pipe 46 connected to the second suction pipe 46 is installed to be movable left and right.

The first suction pipe 45 and the second suction pipe 46 of the accumulator 40 are vertically bent so as to be connected to the first suction port 28 and the second suction port 29 of the case 1, And a suction tube 60 for connecting to the first suction port 28 and the second suction port 29 of the suction port 28 are installed.

The first suction port 28 and the second suction port 29 of the rotary compressor cylinder 23 according to the embodiment of the present invention are provided with the first suction pipe 45 and the second suction pipe 26 of the accumulator 40, And a suction tube 60 connected to the second suction pipe 46 is installed.

A cylindrical intake groove 1b is formed in the lower portion of the outer circumferential surface of the case 1. The first intake port 28 and the second intake port 29 of the cylinder 23 and the accumulator 40 are formed in the installation groove 1b. And a tube suction part 50 for connecting the first suction pipe 45 and the second suction pipe 46 of the first suction pipe 45 are installed.

The tube suction part 50 is formed in a cylindrical shape with a predetermined length so that one side is inserted into the installation groove 1b of the case 1 and the other side is projected to the outside of the installation groove 1b.

The first suction port 28 and the second suction port 29 of the cylinder 23 are connected to the first suction pipe 45 and the second suction pipe 46 of the accumulator 40 through the tube suction part 50 The suction tube 60 is inserted.

The first insertion pipe 45a and the second insertion pipe 46 of the accumulator 40 are provided with a first insertion pipe 45a and a second insertion pipe 45b having an outer diameter reduced to be inserted into the suction tube 60, 46a are formed.

The suction tube 60 includes a first insertion portion 61 formed at one side in a cylindrical shape having a predetermined length, a second insertion portion 62 formed at the other side, a first insertion portion 61, And a tapered portion 63 formed to be inclined between the upper and lower portions 62 and forming the welded portion 70 to be described later.

The first insertion portion 61 of the suction tube 60 is formed to have a corresponding size to be inserted into the tube suction portion 50 and is inserted into the first suction port 28 and the second suction port 29 of the cylinder 23 And the first insertion tube 45a and the second insertion tube 46a of the accumulator 40 are fitted to the second insertion portion 62. [

The first suction port 28 and the second suction port 29 of the cylinder 23 connected through the suction tube 60 and the first suction pipe 45 and the second suction pipe 46 of the accumulator 40 are connected through welding do.

At this time, the diameter d ₁ of the first insertion portion 61 of the suction tube 60 is formed to be larger than the diameter d ₂ of the second insertion portion 62, (70) having a predetermined height is formed between the inner tube (62) and the inner diameter of the tube suction part (50).

A large amount of welding material 71 can be inserted into the welding material receiving portion 70 formed between the suction tube 60 and the tube suction portion 50.

Therefore, the suction force of the suction tube 60, the first suction pipe 45 and the second suction pipe 46 welded to the tube suction portion 50 of the case 1 is increased to prevent noise generated during the operation of the rotary compressor can do.

4 and 5, the first suction port 28 and the second suction port 29 of the rotary compressor cylinder 23 according to another embodiment of the present invention are provided with a first suction pipe 45 And a suction tube 60 'to be connected to the second suction pipe 46 are installed.

One end of the suction tube 60 'is inserted into the first suction port 28 and the second suction port 29 of the cylinder 23 and the other end thereof is connected to the first suction pipe 45 of the accumulator 40 And is inserted into the second suction pipe 46, respectively.

A first insertion tube 45a and a second insertion tube 46a whose outer diameters are reduced to be inserted into the suction tube 60 'are formed at the ends of the first suction pipe 45 and the second suction pipe 46 of the accumulator 40 .

The first suction port 28 and the second suction port 29 of the cylinder 23 and the first suction pipe 45 and the second suction pipe 46 of the accumulator 40 are connected to each other through the suction tube 60 ' Respectively.

A tube-shaped installation groove 1b is formed in the lower part of the outer circumference of the case 1 and a tube suction part 50 'is installed in the installation groove 1b so that the suction tube 60' .

The tube suction part 50 'has a cylindrical part 51 formed into a cylindrical shape with a predetermined length and inserted into the installation groove 1b of the case 1 and a cylindrical part 51 having a diameter gradually increasing toward the end part from the cylindrical part 51 And an enlargement section 52. Fig.

The diameter d ₄ of the enlarged portion 52 of the tube suction part 50 'is formed to be larger than the diameter d ₃ of the cylindrical part 51 of the tube suction part 50' A welded portion 70 'having a predetermined space is formed between the inner side of the suction tube 60' and the outer peripheral surface of the suction tube 60 ', so that a large amount of the welded material 71' can be inserted.

Therefore, the fixing force of the suction tube 60 ', the first suction pipe 45 and the second suction pipe 46 welded to the tube suction part 50' of the case 1 is increased, and the noise generated upon compression of the rotary compressor Can be prevented.

1 is a cross-sectional view of a rotary compressor according to an embodiment of the present invention.

2 is an exploded perspective view schematically showing a suction structure of a rotary compressor according to an embodiment of the present invention.

3 is a cross-sectional view schematically showing a coupling portion of a rotary compressor suction structure according to an embodiment of the present invention.

4 is an exploded perspective view schematically showing a suction structure of a rotary compressor according to another embodiment of the present invention.

5 is a cross-sectional view schematically showing a coupling portion of a rotary compressor suction structure according to another embodiment of the present invention.

Description of the Related Art [0002]

10: Case 10:

11: rotor 20: compression section

24: first compression chamber 25: second compression chamber

30: Eccentric device 40: Accumulator

42: inlet pipe 43: outlet pipe

45: first suction pipe 46: second suction pipe

50: tube suction part 60: suction tube

70:

Claims (6)

A case including a cylinder, An accumulator connected to a suction pipe for supplying a refrigerant to the cylinder, A tube sucking part provided at one side of the case to connect the suction pipe, And a suction tube inserted into the tube suction part, The suction tube includes a first insertion portion formed at one side, a second insertion portion formed at the other side, and a tapered portion formed to be inclined between the first insertion portion and the second insertion portion, And a welded portion formed between the portion of the outer circumferential surface of the suction tube and the inner circumferential surface of the tube suction portion so that a large amount of the welded material can be inserted when the suction tube and the tube suction portion are welded. The method according to claim 1, And the diameter of the first insertion portion of the suction tube is larger than the diameter of the second insertion portion. The method according to claim 1, Wherein the suction-receiving portion is provided with a reduced diameter of the suction tube. The method according to claim 1, Wherein the welded portion is provided with an enlarged diameter of the tube suction portion. A cylinder provided in the case; a suction port provided at one side of the cylinder and sucking fluid into the cylinder; a suction tube connected to the suction port; and a suction pipe inserted into the suction tube, A rotary compressor comprising a connected accumulator, The suction tube includes a first insertion portion formed on one side, a second insertion portion formed on the other side of the first insertion portion and having a smaller diameter than the first insertion portion, and a taper formed between the first insertion portion and the second insertion portion ≪ / RTI > Wherein a welded member insertion portion is formed between the portion of the outer circumferential surface of the suction tube and the inner circumferential surface of the tube suction portion so that a large amount of welding material can be inserted between the tube suction portion and the tube suction portion. A cylinder provided in the case; a suction port provided at one side of the cylinder and sucking fluid into the cylinder; a suction tube connected to the suction port; and a suction pipe inserted into the suction tube, A rotary compressor comprising a connected accumulator, The suction tube includes a first insertion portion formed on one side, a second insertion portion formed on the other side of the first insertion portion and having a smaller diameter than the first insertion portion, and a taper formed between the first insertion portion and the second insertion portion ≪ / RTI > Wherein the suction tube is formed with a welded member insertion portion whose diameter is expanded outward so that a large amount of welding product can be inserted between the suction tube and the suction tube.

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