KR101468735B1 - Linear Compressor - Google Patents

Abstract

The present invention provides a refrigerating machine comprising: a stationary member including a cylinder for providing a space in which a refrigerant is compressed; A movable member including a supporter having a piston for compressing the refrigerant in the cylinder, a center portion coinciding with the center of the piston, and a supporter extending in the radial direction of the piston, the movable member linearly reciprocating with respect to the stationary member; A plurality of main springs supported on the supporter of the supporter and elastically supporting the piston in the axial direction; And a mass member having a center portion coupled with a center portion of the supporter and having a plurality of end portions extending at a central portion to maintain a clearance with the supporter and the main springs of the supporter, Therefore, it is possible to effectively add the mass member having the maximum mass to the limited space of the movable member, thereby preventing the material loss and securing the installation space.

A linear compressor, a stationary member, a movable member, a piston, a supporter, a mass member,

Description

[0001] LINEAR COMPRESSOR [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a linear compressor, and more particularly, to a linear compressor capable of adding a mass member having a maximum mass to a limited space of a reciprocating linear moving member.

BACKGROUND ART [0002] Generally, a reciprocating compressor is constituted such that a compression space in which a working gas is sucked and discharged is formed between a piston and a cylinder, so that the piston linearly reciprocates within the cylinder and compresses the refrigerant.

In recent years, since the reciprocating compressor includes components such as a crankshaft in order to convert the rotational force of the driving motor to the reciprocating linear motion force of the piston, there is a problem that mechanical loss due to the motion conversion is largely generated. A large number of linear compressors are being developed.

In particular, the linear compressor is directly connected to a linear motor in which the piston reciprocates linearly, so that there is no mechanical loss due to the switching of the motion, so that the compression efficiency is improved and the structure is simple. Since the operation can be controlled, the noise is smaller than that of other compressors, and thus it is widely applied to home appliances such as refrigerators used indoors.

1 is a view showing an example of a linear compressor according to the prior art. The conventional linear compressor includes a frame 1, a cylinder 2, a piston 3, a suction valve 4, a discharge valve assembly 5, a linear motor 6, a motor cover 7 A main body cover 9, main springs S1 and S2, a muffler assembly 10 and a mass member 20 are elastically supported.

The cylinder 2 is fitted and fixed to the frame 1 so that the discharge valve assembly 5 composed of the discharge valve 5a, the discharge cap 5b and the discharge valve spring 5c blocks the one end of the cylinder 2. [ While the piston 3 is inserted inside the cylinder 2 and the thin intake valve 4 is installed to open and close the intake port 3a of the piston 2. [

The linear motor 6 is installed such that the permanent magnet 6c is reciprocatingly linearly movable while maintaining a gap between the inner stator 6a and the outer stator 6b and the permanent magnet 6c is fixed by the connecting member 6d The permanent magnet 6c is reciprocally linearly moved between the inner stator 6a, the outer stator 6b and the permanent magnet 6c by mutual electromagnetic force to operate the piston 3 .

The motor cover 7 axially supports the outer stator 6b to fix the outer stator 6b and is bolted to the frame 1. The main cover 9 is coupled to the motor cover 7 A supporter 8 connected to the other end of the piston 3 is installed between the motor cover 7 and the main body cover 9 so as to be elastically supported in the axial direction by the main springs S1 and S2, The muffler assembly 10 is also fastened together with the supporter 8.

At this time, the main springs S1 and S2 include four forward springs S1 and four rear springs S2 at positions symmetrical with respect to the supporter 8, and the linear motors 6 The front springs S1 and the rear springs S2 are reversely moved so that the piston 3 and the supporter 8 are cushioned. In addition, the refrigerant at the side of the compression space (P) functions as a kind of gas spring to buffer the piston (3) and the supporter (8).

Therefore, when the linear motor 6 is operated, the piston 3 and the muffler assembly 10 connected thereto are linearly reciprocated, and as the pressure in the compression space P is varied, the suction valve 4 and the discharge valve assembly The operation of the compressor 5 is automatically controlled so that the refrigerant is compressed through the inlet pipe of the shell side, the opening of the main cover 9, the muffler assembly 10 and the inlets 3a of the piston 3, Is sucked into the space (P), compressed, and then exits to the outside through the discharge cap (5b), the loop pipe and the outflow pipe on the shell side.

2 is a view showing an example of a mass member installation structure of a linear compressor according to the prior art. An example of the mass member 20 is bolted together with the piston 3, the muffler assembly 10, and the supporter 8. The piston 3 is provided with intake ports 3a at a closed front end and a flange portion 3b extending in the radial direction at the other opened end and a flange portion 3b of the piston 3 is provided with four Bolt holes 3h are provided. The muffler assembly 10 is inserted into a part of the piston 3 and the remaining part is exposed to the rear of the supporter 8 and bolts B to the flange portion 3b of the piston 3. The supporter 8 is provided with a circular center portion 8a corresponding to the flange portion 3b of the piston 3 and a pair of front and rear supporting portions 8b, 8c, 8d and 8e around the central portion 8a, 8 is engaged with the rear portion of the flange portion 3b of the piston 3. [ The mass member 20 is formed in a relatively circular shape in a shape corresponding to the flange portion 3b of the piston 3 and the central portion 8a of the supporter 8. The mass member 20 is also formed in the center portion 8a of the supporter 8, (8a). At this time, the four bolts B are fastened one by one in the direction in which the front and rear support portions 8b, 8c, 8d, 8e of the supporter 8 are formed.

3 is a view showing an example of a mass member of a linear compressor according to the prior art. 2 and 3, an example of the mass member 20 is formed in a circular shape as a whole, and a hole 21 is provided at the center so that the muffler assembly 10 can pass therethrough, and the supporter 8 and the bolt Four bolt holes 22a, 22b, 22c, and 22d are provided in the direction in which the front and rear support portions 8b, 8c, 8d, and 8e of the supporter 8 are formed so as to be able to be fastened. Since the mass member 20 constitutes a kind of movable member reciprocatingly linearly moving together with the piston 3, the supporter 8 and the muffler assembly 10, Four resistance reducing holes 23a, 23b, 23c and 23d are provided between the bolt holes 22a, 22b, 22c and 22d. Of course, the mass member 20 is formed in the same circular shape as the central portion 8a of the supporter 8 by cutting the scrap a from the rectangular sheet metal A, do.

The mass member 20 is added in order to increase the mass of the movable member. The linear compressor has a structure in which the movable member is elastically supported by the gas spring which is the front / rear main springs S1 and S2 (shown in FIG. 1) The mass member 20 is attached to the movable member rather than the rigidity of springs having high scattering in order to adjust the resonant frequency of the linear compressor to the driving frequency of the linear motor 6 (shown in FIG. 1) In addition, the mass of the movable member is adjusted.

However, since the conventional linear compressor is manufactured in a circular shape for coupling with the center portion of a supporter having a circular mass member and is processed to have various holes therein, the rectangular linear member is processed into a circular mass member, And there is a problem that a sufficient mass can not be secured with respect to the material. Therefore, if the mass member is formed thicker in order to secure a sufficient mass with respect to the material, the installation space is increased. If the mass member is formed in the radial direction large, it is difficult to assemble with a counterpart such as a supporter, There is a problem that interference is generated and operational reliability is lowered.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a linear compressor capable of adding a mass member having a maximum mass to a limited space of a reciprocating linear motion member.

According to an aspect of the present invention, there is provided a refrigerator comprising: a fixing member including a cylinder for providing a space in which a refrigerant is compressed; A movable member which includes a piston for compressing the refrigerant in the cylinder, a center portion coinciding with the center of the piston, and a supporter composed of a radially expanded support portion of the piston, the movable member linearly reciprocating with respect to the fixed member; A plurality of main springs supported on the supporter of the supporter and elastically supporting the piston in the axial direction; And a mass member having a center portion coupled with a center portion of the supporter and having a plurality of end portions extending at a center portion to maintain a gap with the support portion and the main springs of the supporter .

Further, the supporter includes at least two front support portions that are bent in two ends so as to extend rearwardly and radially from the center portion, and at least two rear support portions that extend in the radial direction from the center portion, and the main spring supports the fixing member and the front support portion A plurality of front main springs and a plurality of rear main springs supported on the rear support portion, wherein the mass member includes at least four end portions that hold the front support portions and the rear main springs and the gap In the linear compressor.

Further, the mass member further includes a plurality of mounting grooves provided at the ends to maintain the gap with the rear main springs so that the rear main springs can be installed.

Further, the mass member further includes a plurality of resistance reducing holes provided inside the end portion to maintain the clearance with the front support portions in order to reduce the flow resistance.

The mass member further includes a plurality of bolt holes provided between the rear main springs and an end portion for holding the clearance and between the front support portions and the end portion for holding the clearance in order to bolt with the piston and the supporter Thereby providing a linear compressor.

The piston and the supporter are each provided with a guide hole through which the guide pin is inserted in the axial direction so that the piston and the supporter can respectively be engaged with each other, and the mass member further includes a guide groove provided at an end thereof to maintain a gap with the guide pin. Thereby providing a linear compressor.

Further, the central portion of the supporter is formed in a longer rectangle in the direction in which the front support portion is formed, than in the direction in which the rear support portion is formed, and the mass member is formed to correspond to the center portion of the supporter.

The linear compressor according to the present invention is constituted as a movable member by bolting a piston, a muffler assembly, a supporter and a mass member so as to constitute a movable member. The linear member has a polygonal shape having a plurality of end portions, It is possible to prevent the waste of the material for manufacturing the mass member, thereby reducing the cost, and it is possible to manufacture the mass member capable of securing a sufficient mass with respect to the material, thereby reducing the installation space. Further, There is an advantage that not only the interference can be prevented but also the operation reliability can be secured by preventing the interference with the parts close to the operation.

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

4 is a view showing an example of a linear compressor according to the present invention. An example of the linear compressor 100 according to the present invention includes a cylinder 200, a piston 300, an inner stator 420, an outer stator 440 and a permanent magnet 460 in a shell 110, The linear motor 400 and the mass member 900. When the permanent magnet 460 linearly reciprocates by the mutual electromagnetic force between the inner stator 420 and the outer stator 440, the permanent magnet 460 is connected to the permanent magnet 460 The piston 300 reciprocates linearly together with the permanent magnet 460.

The inner stator 420 is fixed to the outer periphery of the cylinder 200. The outer stator 440 is fixed in the axial direction by the frame 520 and the motor cover 540, And the outer stator 440 is fixed between the frame 520 and the motor cover 540. As shown in Fig. The frame 520 may be integrally formed with the cylinder 200 and may be separately manufactured from the cylinder 200 and combined with the cylinder 200. In the embodiment shown in FIG. 4, an example in which the frame 520 and the cylinder 200 are integrally formed is shown.

A supporter 320 is connected to the rear of the piston 300. The four front main springs 820 are supported at both ends by the supporter 320 and the motor cover 540. The four rear main springs 840 are supported at both ends by the supporter 320 and the back cover 560 and the back cover 560 is engaged at the rear of the motor cover 540. A suction muffler 700 is further provided at the rear of the piston 300 to reduce noise during suction of the refrigerant while the refrigerant flows into the piston 300 through the suction muffler 700.

The inside of the piston 300 is hollow so that the refrigerant introduced through the suction muffler 700 flows into the compression space P formed between the cylinder 200 and the piston 300 and can be compressed. A suction valve 610 is provided at the tip of the piston 300. The suction valve 610 opens to allow the refrigerant to flow into the compression space P from the piston 300, The piston 300 is closed so as not to be introduced into the cylinder 300.

When the refrigerant is compressed to a predetermined pressure or more by the piston 300 in the compression space P, the discharge valve 620 located at the tip of the cylinder 200 is opened. The discharge valve 620 is installed inside the support cap 640 fixed to one end of the cylinder 200 so as to be elastically supported by a spiral discharge valve spring 630. The compressed high-pressure refrigerant is discharged into the discharge cap 660 through a hole formed in the support cap 640 and is discharged to the outside of the linear compressor 100 through the loop pipe L to circulate the refrigeration cycle.

Each of the components of the linear compressor 100 described above is supported by the front support spring 120 and the rear support spring 140 in the assembled state and is separated from the bottom of the shell 110. [ The vibrations generated by the respective components of the compressor 100 are not directly transmitted to the shell 110 while compressing the refrigerant since they are not in direct contact with the bottom of the shell 110. [ Therefore, it is possible to reduce the noise generated by the vibration transmitted to the outside of the shell 100 and the vibration of the shell 110.

5 is a view showing an example of a mass member installation structure of the linear compressor according to the present invention. Fig. 6 is a view showing an example of a supporter and a mass member applied to Fig. 5, and Fig. 7 is a view showing an example of a mass member of a linear compressor according to the present invention. An example of the movable member includes a piston 300, a supporter 320, a suction muffler 700 (shown in Fig. 4), a mass member 900, and a linear motor 460 And is configured to be elastically supported in the axial direction by the front / rear main springs 820 and 840 (shown in Fig. 4).

One example of the piston 300 includes a plurality of intake ports 302 formed at a closed end 301 while two flanged portions 303 and 304 extending radially at another opened end are formed, Four bolt holes 305a, 305b, 305c, and 305d are provided in the bolts 303 and 304, respectively. In this case, the flange portions 303 and 304 are formed as two symmetrical portions that are extended in the radial direction, rather than being formed as a single closed structure. The flange portions 303 and 304 are formed in the left- Are formed in the same direction as the direction in which the rear supporting portions 323a and 323b of the rear supporting portions 323a and 323b are formed. The bolt holes 305a, 305b, 305c, and 305d are formed at both end portions of the flange portions 303 and 304, respectively. The bolt holes 305a, 305b, 305c, 320 are symmetrically formed in a direction in which the rear supporting portions 323a and 323b of the supporter 320 are formed and are symmetrical in the vertical direction, that is, the direction in which the front supporting portions 322a and 322b of the supporter 320 are formed.

In addition, the flange portions 303 and 304 of the piston 300 are provided with guide holes 306a and 306a for assembling the piston 300, the supporter 320, the suction muffler 700 (shown in FIG. 4) 306b.

An example of the supporter 320 includes a center portion 321 abutting against the flange portions 303 and 304 of the piston 300 and a pair of front and rear support portions 322a 322b and 323a extending from four sides of the center portion 321 And 323b. The center portion 321 of the supporter 320 is provided with a mounting hole 321 'through which a suction muffler 700 (shown in FIG. 4) passes, and the direction in which the rear supporting portions 323a and 323b are formed (X direction) in which the front support portions 322a and 322b are formed. The front support portions 322a and 322b of the supporter 320 are formed to be bent in two ends so as to extend rearward and radially from the upper and lower portions of the center portion 321 of the supporter 320 and the rear support portions 323a and 323b Are formed to extend radially from both sides of the central portion 321 of the supporter 320. [ Since the central portion 321 of the supporter 320 is formed in a rectangular shape, the front and rear support portions 322a, 322b, 323a, and 323b of the supporter 320 are simply bent from the central portion 321 of the supporter 320, . Of course, the front and rear support portions 322a, 322b, 323a, and 323b of the supporter 320 are provided with protrusions so that the front and rear main springs 820 and 840 (shown in Fig. 4) Four main / rear main springs 820 and 840 (shown in FIG. 4) are installed so that two main springs 820 and 840 (shown in FIG. 4) are installed on the supporting portions 322a, 322b, 323a and 323b .

The center portion 321 of the supporter 320 is provided with four bolt holes 324a, 324b, 324c and 324d located between the front and rear support portions 322a, 322b, 323a and 323b of the supporter 320 And are formed at four corners so as to correspond to the bolt holes 305a, 305b, 305c, and 305d of the piston 300, respectively.

In addition, a center hole 321 of the supporter 320 is provided with a mounting hole 321 'through which a suction muffler 700 (shown in FIG. 4) passes through the center thereof, And various guide holes 326a and 326b formed to correspond to the guide holes of the piston 300 on both sides of the mounting holes 321 'and the various resistance reducing holes 325a and 325b formed therein.

An example of the mass member 900 is formed of a rectangular sheet metal corresponding to the center portion 321 of the supporter 320. The mass member 900 is disposed in front of the supporter 320 in order to minimize a portion of the scrap a cut when the sheet metal A is manufactured (See FIG. 4) and the opposite ends that maintain the clearance, and are provided at the rear side of the central portion 321 of the supporter 320, and the upper ends of the support portions 322a and 322b Assembled so as not to interfere with the parts. Of course, the mass member 900 may be formed in various polygonal shapes depending on the shape of the center portion 321 of the supporter 320, but various types of holes and grooves that maintain the gap with the adjacent components may be added, In order to prevent the material loss caused by the scrap (a) in the production of the sheet metal (A) in the form of a rectangular shape having a gap of 10 mm or less in consideration of the adjacent parts and the assembly tolerance.

The mass member 900 is provided with a mounting hole 901, four bolt holes 902a, 902b, 902c and 902d and two resistance reducing holes 903a and 903b. That is, the mounting hole 901 of the mass member 900 corresponds to the mounting hole 321 'of the supporter 320 at the center of the mass member 900 so that the suction muffler 700 (shown in FIG. 4) . The bolt holes 902a, 902b, 902c and 902d of the mass member 900 are inserted into the four corners of the mass member 900 so as to be bolted to the piston 300 and the supporter 320, The bolt holes 902a, 902b, 902c, and 902d of the mass member 900 are formed to correspond to the bolt holes 324a, 324b, 324c, and 324d of the piston 300, Like the bolts holes 324a, 324b, 324c and 324d of the holes 305a, 305b, 305c and 305d and the supporter 320, the front supports 322a and 322b of the supporter 320 The direction in which the rear supports 323a and 323b of the supporter 320 are formed and the direction in which the rear supports 323a and 323b of the supporter 320 are formed Is preferably formed at a position where the angle a is 45 ㅀ or less. The resistance reducing holes 903a and 903b of the mass member 900 are also formed on the upper and lower sides of the mounting hole 901 of the mass member 900 in order to reduce the flow resistance at the time of reciprocating linear motion, And 305 and the resistance reduction holes 325a and 325b of the supporter 320 are formed.

The mass member 900 is provided with four mounting grooves 904a, 904b, 904c and 904d and two guide grooves 905a and 905b at both ends thereof. That is, the mounting grooves 904a, 904b, 904c, and 904d of the mass member 900 are respectively provided at both ends so as to maintain the gap in a state where the four rear main springs 840 (shown in Fig. 4) Respectively. The guide grooves 905a and 905b of the mass member 900 are formed at the opposite end portions of the guide holes 326a and 326b of the supporter 320 so as to maintain a gap in a state where the guide pin is fitted. Of course, the mounting grooves 904a, 904b, 904c, 904d and the guide grooves 905, 905b of the mass member 900 are formed in a semicircular or arcuate shape, and two One guide groove 905a may be provided between the mounting grooves 904a and 904b so as to form one continuous curved incision.

The mass member 900 as described above is assembled with the movable member together with the piston 300, the supporter 320, and the suction muffler 700 (shown in Fig. 4). The guide pin of the assembling jig is engaged with the guide holes 306a and 306b of the piston 300. The guide pins of the assembling jig are engaged with the guide holes 306a and 306b of the piston 300, The bolt holes 305a and 305b of the piston 300 and the bolt holes 305a and 305b of the piston 300 are engaged with each other so as to be fitted into the guide holes 326a and 326b of the supporter 320 and the guide grooves 905a and 905b of the mass member 900, The bolt holes 324a, 324b, 324c and 324d of the supporter 320 and the bolt holes 902a, 902b, 902c and 902d of the mass member 900 are bolted to each other . Of course, the front and rear support portions 322a, 322b, 323a and 323b of the supporter 320 are elastically supported by the front and rear main springs 820 and 840 (shown in Fig. 4) The elastic force of the front / rear main springs 820 and 840 (shown in Fig. 4) acts on the center portion 321 of the supporting portions 303 and 304 and the supporter 320. [ At this time, the mounting grooves 904a, 904b, 904c, and 904d formed at both side ends of the mass member 900 maintain the clearance with the rear main springs 840 (shown in Fig. 4) Since the end portion maintains the clearance with the front supporting portions 322a and 322b, the mass member 900 is installed so as not to interfere with the mating member, and can be configured and installed to have a maximum mass in a limited space.

In the foregoing, the present invention has been described in detail by way of examples on the basis of 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 content of the following claims.

1 is a view showing an example of a linear compressor according to the prior art;

2 is a view showing an example of a mass member installation structure of a linear compressor according to the prior art.

3 is a view showing an example of a mass member of a linear compressor according to the prior art;

4 is a view showing an example of a linear compressor according to the present invention.

5 is a view showing an example of a mass member installation structure of a linear compressor according to the present invention.

Fig. 6 shows an example of a supporter and a mass member applied to Fig. 5; Fig.

7 is a view showing an example of a mass member of a linear compressor according to the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

300: Piston 320: Supporter

900: mass member

Claims (7)

A fixing member including a cylinder for providing a space in which the refrigerant is compressed; A movable member including a supporter having a piston for compressing the refrigerant in the cylinder, a center portion coinciding with the center of the piston, and a supporter extending in the radial direction of the piston, the movable member linearly reciprocating with respect to the stationary member; A plurality of main springs supported on the supporter of the supporter and elastically supporting the piston in the axial direction; And, A mass member having a rectangular shape and having a center portion coupled with a center portion of the supporter and having a plurality of ends extending in a central portion to maintain a gap with the supporter portion and the main springs of the supporter, The central portion of the supporter is formed in a longer rectangle in the direction in which the front support portion is formed than in the direction in which the rear support portion is formed, And the rectangular-shaped mass member is formed so as to correspond to the center portion of the supporter. The method according to claim 1, Wherein the supporter includes at least two front support portions that are bent at two ends so as to extend rearwardly and radially from the center portion and at least two rear support portions that extend radially from the center portion, The main spring includes a plurality of front main springs and a fixing member supported by the fixing member and the front support portion, and a plurality of rear main springs supported by the rear support portion, And the mass member includes at least four ends that hold the gap with the front support portions and the rear main springs. 3. The method of claim 2, Wherein the mass member further comprises a plurality of bolt holes provided between the rear main springs and an end portion for holding the gap and between the front support portions and the end portion for holding the clearance so as to bolt with the piston and the supporter, . 3. The method of claim 2, Wherein the mass member further includes a plurality of resistance reducing holes provided inside the end portion so as to maintain a clearance with the front support portions to reduce the flow resistance. 3. The method of claim 2, Wherein the mass member further comprises a plurality of mounting grooves provided at the ends so as to maintain the gap with the rear main springs so that the rear main springs can be installed. 3. The method of claim 2, The piston and the supporter are each provided with a guide hole into which a guide pin is inserted in the axial direction to align the fastening positions, Wherein the mass member further comprises a guide groove provided at an end portion to maintain a gap with the guide pin. delete

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