KR101171122B1 - Body cover for linear compressor - Google Patents

Abstract

The present invention includes a main body frame in which one end of the piston is inserted into the cylinder and the one end of the cylinder is fixed to form a compression space for sucking and compressing the refrigerant; A motor cover configured to include an inner stator, an outer stator, and a mover on the outer circumference of the cylinder to fix the linear motor for reciprocating the piston by mutual electromagnetic force, and to fix the outer stator between the main frame and the main frame; And a supporter connected to the other end of the piston to elastically support a spring that is compressed when the refrigerant is compressed / discharged between the motor cover and the linear compressor, the linear compressor being installed to be connected to the motor cover. In the body cover of the linear compressor that elastically supports the spring compressed when the refrigerant is sucked into the refrigerant, in particular, the body cover is made of sheet metal so that unnecessary parts are composed of mass parts so that the piston reciprocating linearly can be more stably supported. It relates to a body cover of the compressor.

Linear compressor, body cover, spring, spring support, coupling part, mass part

Description

Body cover of linear compressor {BODY COVER FOR LINEAR COMPRESSOR}

1 is a perspective view showing a main body cover of a linear compressor according to the prior art,

2 is a development view in which a main body cover of a linear compressor according to the prior art is manufactured;

3 is a side sectional view showing a linear compressor according to the present invention;

4 is a perspective view of a main body cover of the linear compressor according to the present invention;

5 is a development view in which a main body cover of the linear compressor according to the present invention is manufactured.

DESCRIPTION OF THE REFERENCE NUMERALS

90: body cover 92: spring support

94: connection portion 96: coupling portion

98a, 98b: parts by mass

The present invention relates to a linear compressor provided to elastically support a structure in which a cylinder, a piston, and a linear motor are assembled by a body frame, a motor cover, and a body cover inside a shell, which is an enclosed space. It is related with the main body cover of the linear compressor which consists of a mass part and can support the piston which reciprocates linearly more stably.

In general, a linear compressor forms a compression space in which one end of a piston is inserted in a cylinder, and a linear motor composed of an inner stayer, an outer stator, and a permanent magnet moves the piston reciprocally linearly by mutual electromagnetic force, and thus the refrigerant moves into the compression space. Suction is compressed and then discharged.

At this time, the cylinder is installed so that one end is fixed to the main body frame, while the inner stator is installed to be fixed to the outer peripheral surface of the cylinder and the outer stator is fixed between the main body frame and the motor cover at a predetermined interval on the outer peripheral surface thereof. The permanent magnet is installed to be connected to the other end of the piston with a gap between the inner and outer stators.

Of course, a supporter connected to the other end of the piston is installed to be elastically supported in the movement direction by a plurality of springs between the motor cover and the body cover provided at a predetermined interval in the movement direction.

Therefore, the cylinder, the inner stator, the outer stator, the main frame, the motor cover, and the main cover are fixed, and the piston, the permanent magnet, and the supporter reciprocate linearly. Accordingly, the refrigerant is changed as the pressure inside the compression space is changed. Is sucked into the compression space, compressed, and then discharged.

1 is a perspective view illustrating a main body cover of a linear compressor according to the prior art, and FIG. 2 is a development view in which the main body cover of the linear compressor according to the prior art is manufactured.

Specifically, the body cover of the conventional linear compressor is formed to be bent and bent into a sheet metal as shown in Figures 1 and 2, the plate-like spring support 12 for supporting the spring and the spring support 12 The upper and lower ends of the upper and lower ends are bent toward the motor cover to form a connection portion 14 to maintain a predetermined interval, and the end of the connection portion 14 is bent to contact with the motor cover and bolt holes 16h are bolted and fastened to each other. Part 16 is made.

At this time, the spring support 12 is formed so as to support the four springs at the corner portion at the same time the hole (12h) is formed so that the refrigerant flows into the piston in the center, these springs are made of a rigid material Accordingly, the main body cover 10 may be worn as a casting so that it is seated and supported by a separate support cap (not shown).

Of course, the spring support part 12 supports the support cap horizontally in the direction of movement of the piston by the elastic force of the spring, so that the support cap is closer to the upper and lower ends of the spring support part 12 in order to be more stably supported. Four seating portions 18a, 18b, 18c, 18d are formed to be bent toward the motor cover at both ends.

However, the body cover of the linear compressor according to the prior art is configured to be bent in the upper and lower ends and both ends on the basis of the spring support 12 in a sheet metal shape, the four seating portion ( As a result of configuring 18a, 18b, 18c, and 18d, there is a problem in that a process of deleting unnecessary portions is added.

The present invention has been made to solve the above problems of the prior art, the upper and lower ends and both ends are formed to be bent on the basis of the spring support, which is a sheet metal shape to support the body cover of the linear compressor to more stably support using unnecessary parts The purpose is to provide.

The main body cover of the linear compressor according to the present invention for solving the above problems is the main body frame is fixed to one end of the cylinder is inserted into the cylinder to form a compression space for sucking and compressing the refrigerant; A motor cover configured to include an inner stator, an outer stator, and a mover on the outer circumference of the cylinder to fix the linear motor for reciprocating the piston by mutual electromagnetic force, and to fix the outer stator between the main frame and the main frame; And a supporter connected to the other end of the piston to elastically support a spring that is compressed when the refrigerant is compressed / discharged between the motor cover and the linear compressor, the linear compressor being installed to be connected to the motor cover. A main body cover of a linear compressor for elastically supporting a spring compressed when a refrigerant is sucked in the air, comprising: a flat spring support portion horizontally positioned on the motor cover and the spring support portion bent, and upper and lower ends of the spring support portion are bent to support the spring support portion. It comprises a connecting portion for maintaining a predetermined distance from the motor cover, a coupling portion connected thereto and fixed to the motor cover horizontally, and a mass portion formed to extend at both ends of the spring support portion to impart a mass.

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

Figure 3 is a side sectional view showing a linear compressor according to the present invention, Figure 4 is a perspective view showing a body cover of the linear compressor according to the present invention, Figure 5 is a development view in which the body cover of the linear compressor according to the present invention is manufactured to be.

In the linear compressor according to the present invention, as shown in FIG. 3, one end of the piston 54 is inserted into the cylinder 52 to form a compression space P therein, and the piston 54 is a linear motor ( 60 is configured to suck and compress the refrigerant into the compression space P while being driven by the reciprocating linear movement, and then discharge the refrigerant. Both ends of the supporter 70 radially extended to the other end of the piston 54. Various main springs S1 and S2 are installed in the axial direction so that the piston 54 and the supporter 70 are buffered and supported in the axial direction.

Here, the cylinder 52 is installed to be fixed in a state where one end is penetrated through the body frame 53, one end of the piston 54 is inserted in the inner side, respectively, on both sides of the compression space (P) Allow refrigerant to flow in and out.

At this time, the suction hole 54h is formed so that the refrigerant can be supplied to the compression space P at one end of the piston 54, and the thin suction valve can open and close the suction hole 54h. 56 is fixedly installed.

In addition, the discharge valve 58a is installed to open and close so that the refrigerant compressed in the compression space P may be discharged to one end of the cylinder 52, and the discharge cap 58b fixed to one end of the cylinder 52. ) Is installed to be elastically supported by the spiral discharge valve spring 58c.

Next, the linear motor 60 has a cylindrical inner stator 62 configured to stack a plurality of laminations in a circumferential direction, and a plurality of laminations are circumferentially spaced in a circumferential direction on a coil wound body wound around the circumferential direction. The cylindrical outer stator 64 is provided with a pair of stacked core blocks and a permanent magnet 66 positioned between the inner stator 62 and the outer stator 64 and reciprocating linearly by mutual electromagnetic force.

At this time, the inner stator 62 is installed so that the other end is fixed to the outer peripheral surface of the cylinder 52 by a fixing ring (not shown) while the one end is supported by the main frame 53, the outer stator 64 Is positioned on the outer circumferential surface of the inner stator 62 at a predetermined interval so that the other end is supported by the motor cover 800 while one end is also supported by the main body frame 53 and the motor cover 80 is Bolted to the body frame 53, the permanent magnet 66 is installed to be axially movable between the inner stator 62 and the outer stator 64 is installed to be connected to the other end of the piston 54 do.

Next, the supporter 70 is formed to extend radially to the other end of the piston 54, the suction support end 72 and the compression support is supported around the various main springs (S1, S2) A stage 74 is formed, wherein the suction support end 72 and the compression support end 74 have an interval in the axial direction from the suction support end 72 to the piston 54 rather than the compression support end 74. And a connection part (not shown) are positioned to be close to the other end of the c), and are connected to each other in the axial direction between the suction support end 72 and the compression support end 74.

Of course, the suction support end 72 and the compression support end 74 of the supporter are formed so that the support protrusions protrude in different axial directions so that the various main springs S1 and S2 can be seated.

Next, the main springs (S1, S2) is used a kind of coil spring to give an elastic force in the axial direction, so that the elastic modulus to be large by elastically supporting the piston (4) to suck the refrigerant to compress at high pressure It is preferably made of a rigid material.

Specifically, the main springs (S1, S2) is a suction buffer spring (S1) is installed to be compressed during the suction stroke of the piston 54, and a compression buffer spring is installed to be compressed during the compression stroke of the piston (54). It is made of (S2), the suction buffer spring (S1) is installed between the suction support end 72 of the supporter and the main body cover 90 is fixedly installed at a predetermined distance therefrom, the compression buffer spring (S2) Is installed between the compression support end 74 of the supporter and the motor cover 80 positioned at a predetermined distance therefrom.

Of course, a suction support end 92 is formed at a portion of the main body cover 90 that faces the suction support end 72 of the supporter so that the suction buffer spring S1 can be supported, and the compression support of the supporter is supported. A portion of the motor cover 80 facing each other with the stage 74 is provided with a compression support end 82 so that the compression buffer spring S2 can be supported.

At this time, the supporter 70 is installed to be movable in the axial direction between the motor cover 80 and the main body cover 90, the main body cover 90 is fixed to the motor cover 80 and the supporter 70 is installed on the main body cover 90 so as to be movable in the axial direction by the fastening bolt.

Therefore, when power is supplied to the outer stator 64, the inner stator 62 and the outer stator 64 and the permanent magnet 66 reciprocate linearly and simultaneously while generating the mutual electromagnetic force. The piston 54 and the supporter 70 connected thereto reciprocate linearly, and as a result, the refrigerant is sucked into the compression space P, compressed as the pressure is changed in the cylinder 52, and then discharged.

Of course, the piston 54 is installed to be elastically supported by the suction buffer spring (S1) and the compression buffer spring (S2) between the motor cover 80 and the body cover 90 together with the supporter 70. Therefore, the moving structure consisting of the piston 54, the permanent magnet 66 and the supporter 70 moves in the movement direction, while the cylinder 52, the main frame 53, the inner stator 62, and the outer stator ( 64, the fixing structure consisting of the motor cover 80 and the main body cover 90 is fixed.

In addition, the oil stored in the shell is pumped by the vibration between the moving structure and the fixed structure, and the oil is circulated along a predetermined oil circulation flow path to allow cooling and lubrication.

In particular, the main body cover 90 is formed to be bent into a metal sheet as shown in Figures 4 and 5 are bent to be fixed to the bolt to the motor cover 80, the suction contraction spring (S1) to support Flat spring support 92 to be connected, the upper and lower ends of the spring support 92 is bent toward the motor cover 80, the connecting portion 94 to maintain a predetermined interval, and the end of the connecting portion 94 A coupling part 96 having a bolt hole 96h which is bent and bolted to abut the motor cover 80, and both ends of the spring support part 92 are also bent toward the motor cover 80, and the predetermined portion is bent. It consists of mass parts 98a and 98b for adding mass, so that the mass parts 98a and 98b are formed over both ends of the spring support part 92.

At this time, the upper and lower ends of the spring support part 92 are bent at right angles to face the motor cover 80 so that the connection part 94 is formed in two, and both ends of the connection part 94 are connected to the motor. The coupling portion 96 is formed in two by being bent at right angles so as to be in contact with the cover 80, while the two ends of the coupling portion 96 are bent at right angles so as to face the motor cover 80. Thus, the mass parts 98a and 98b are formed in two.

Of course, the spring support 92 is a hole 92h is formed in the center to allow the refrigerant to flow, while the support projection 90a is formed to support the four suction buffer spring (S1) in the corner portion Since the suction buffer springs S1 are made of a rigid material, the suction cover springs S1 may wear the main body cover 90 made of a casting, and thus may be seated and supported by a separate support cap (not shown).

In particular, the spring support 92 is to support the support cap horizontally by the elastic force of the suction buffer spring (S1), in order to contact the support cap so that the support cap is more stably supported by the connection portion ( 94) and a seating portion 99 consisting of a portion and a portion of the mass portion 98a, 98b.

In this case, the seating portion 99 is formed to protrude a predetermined interval toward the motor cover 80 so as to support the corner portion of the support cap, the mass portion 98a, 98b constituting this also the support The protruding length is determined to support the corner portion of the cap.

Of course, the mass portions 98a and 98b may not be bent with respect to the spring support portion 92, but a part of the motor cover may be supported to contact the support cap to form the seating portion 99. It is preferable to configure so that it may be bent toward 80.

Furthermore, the mass portions 98a and 98b may be configured larger from the spring support 92 to impose a larger mass on the fixed structure, but vibration of the moving structure may cause vibration of the moving structure to the fixed structure due to excessive mass imposition. Even if it is transmitted, the vibration generated in the whole can be reduced, thereby preventing the oil from being pumped smoothly between the cylinder 52 and the piston 54, the mass portion (98a, 98b) is the spring support portion 92 Preferably configured to impose a suitable mass for the design value.

In the above, the present invention has been described in detail by way of examples based on the embodiments of the present invention and the accompanying drawings. However, the scope of the present invention is not limited by the above embodiments and drawings, and the scope of the present invention will be limited only by the contents described in the claims below.

The main body cover of the linear compressor according to the present invention configured as described above is bent at the upper and lower ends based on the spring support, which is a sheet metal, to form a connection part and a coupling part that are assembled at a predetermined interval to the motor cover, while both ends based on the spring support. This bend not only supports the circumference of the suction buffer spring, but also imposes a predetermined mass, thus supporting the suction buffer spring more stably, and eliminating the process of eliminating the unnecessary parts. There is an advantage.

Claims (3)

A main body frame in which one end of the piston is inserted into the cylinder and the one end of the cylinder is fixed to form a compression space for sucking and compressing the refrigerant; A motor cover configured to include an inner stator, an outer stator, and a mover on the outer circumference of the cylinder to fix the linear motor for reciprocating the piston by mutual electromagnetic force, and to fix the outer stator between the main frame and the main frame; And a supporter connected to the other end of the piston to elastically support a spring that is compressed when the refrigerant is compressed / discharged between the motor cover and the linear compressor, the linear compressor being installed to be connected to the motor cover. In the main body cover of the linear compressor for elastically supporting the spring compressed when the refrigerant is sucked into the A flat plate spring supporter horizontally positioned on the motor cover to support the spring; A connection part for bending the upper and lower ends of the spring support part to maintain the spring support part with the motor cover, and a coupling part connected thereto and horizontally fixed to the motor cover; And a mass part formed to extend at both ends of the spring support part to impart a mass. The method of claim 1, The body cover of the linear compressor further comprises a seating portion for supporting the wear-resistant support cap on which the spring is seated. The method of claim 2, And the seating portion is formed such that the connecting portion and the mass portion are perpendicular to the spring support toward the motor cover.

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