KR100527585B1 - Cylinder fixing structure of reciprocating compressor and assembling method of the same - Google Patents

Abstract

The present invention relates to a cylinder fixing structure and a method of assembling the reciprocating compressor, and more particularly, to a cylinder fixed structure of a reciprocating compressor capable of more firmly fixing the inner stator and the cylinder together in a frame fixed inside the shell, and It relates to an assembly method.

The cylinder fixing structure and the assembly method of the reciprocating compressor according to the present invention are configured such that a support end is formed so that an inner stator is engaged at one end of the cylinder, and a removal prevention means is formed at the other end of the cylinder, The other end of the cylinder is fitted to the frame while the one end of the inner stator is assembled to support the other end of the inner stator to the frame.

Description

CYLINDER FIXING STRUCTURE OF RECIPROCATING COMPRESSOR AND ASSEMBLING METHOD OF THE SAME}

The present invention relates to a cylinder fixing structure and a method of assembling the reciprocating compressor, and more particularly, to a cylinder fixed structure of a reciprocating compressor capable of more firmly fixing the inner stator and the cylinder together in a frame fixed inside the shell, and It relates to an assembly method.

In general, a compressor is a mechanical device that increases pressure by receiving power from a power generator such as an electric motor or a turbine to compress air, refrigerant, or various other working gases. It is widely used throughout.

These compressors are classified into a reciprocating compressor which compresses the refrigerant while linearly reciprocating the inside of the cylinder by forming a compression space in which the working gas is absorbed and discharged between the piston and the cylinder. And a rotary compressor for compressing the refrigerant while the roller is eccentrically rotated along the inner wall of the cylinder to form a compression space in which the working gas is sucked and discharged between the eccentrically rotating roller and the cylinder. As a scroll compressor that compresses the refrigerant while the rotating scroll rotates along the fixed scroll to form a compression space in which the working gas is absorbed and discharged between the orbiting scroll and the fixed scroll. Divided.

Recently, among the reciprocating compressors, in particular, the piston is directly connected to the reciprocating linear motion drive motor, so that there is no mechanical loss due to the motion conversion to improve the compression efficiency as well as a simple linear compressor has been developed a lot.

Figure 1 is a side cross-sectional view showing a typical reciprocating compressor, Figures 2 and 3 are side cross-sectional view showing a cylinder fixing structure and the fixing sequence of the reciprocating compressor according to the prior art.

A typical reciprocating compressor compresses a working fluid such as a refrigerant while the piston reciprocates linearly in a cylinder. FIG. 1 relates to a linear compressor among reciprocating compressors. And a shell (Shell: 2) provided with an outlet pipe (2b) connected thereto, a cylinder (Cylinder: 4) installed inside the shell (2), and a compression space (P) while reciprocating linear motion inside the cylinder (4). A piston (Piston: 6) for sucking and compressing the refrigerant, and being discharged to be fixed to the outside of the cylinder (4), the driving means (10) for reciprocating linear movement of the piston (6), and the compression space ( It is installed at one end of the piston (6) forming the P), the suction valve 22 for sucking the refrigerant into the compression space (P), and one end of the cylinder (4) forming the compression space (P) The refrigerant from the compressed space (P) And a discharge valve assembly 24 for ejecting.

Here, the cylinder 4 is formed in a hollow shape so that the piston 6 can reciprocate linearly therein, and one end of the discharge valve assembly 24 is installed.

Next, the piston 6 has a refrigerant passage 6a formed at the center of the piston 6 so as to allow the refrigerant flowing from the inlet pipe 2a to flow therein, and is inserted into the cylinder 4 to form a compression space P at one side. The suction valve 22 is installed to open and close the refrigerant passage 6a at one end of the compression space P, and the other end is provided by restoring springs 8a and 8b provided in the axial direction. It is elastically supported by the cylinder 4 and a separate support frame 26, respectively.

Next, the driving means 10 is installed to be fixed to the outside of the cylinder 4, a cylindrical inner stator 12 having a plurality of laminations 12a laminated in the circumferential direction, and the inner stator 12. The outer outer stater 14 and the inner stator 12 and the outer stator 14 provided with a predetermined interval on the outer side and having a plurality of laminations 14b laminated on the outer side of the coil 14a in the circumferential direction. The permanent magnet 16 is installed in the space between the (6) and at the same time is connected to the other end of the piston (6) by the mounting member (15).

At this time, the inner stator 12 and the outer stator 14 are installed to be fixed by the frame 18 on the outside of the cylinder 4, the permanent magnet 16 is the mounting member 15 and the piston ( 6) together with the reciprocating linear motion is installed.

Next, the suction valve 22 is formed in a thin plate shape so that the center portion is partially cut to open and close the refrigerant passage 6a at one end side of the piston 6, and one side is at one end of the piston 6. It is installed to be fixed by a screw on.

Next, the discharge valve assembly 24 has a discharge cover 24a installed to form a discharge space O at one end of the cylinder 4 and a discharge valve installed to open and close one end of the cylinder 4. 24b and a valve spring 24c for providing an elastic force in the axial direction between the discharge cover 24a and the discharge valve 24b.

At this time, a curved loop pipe 28 is installed between one side of the discharge cover 24a and the outlet pipe 2b to guide the compressed refrigerant to be discharged to the outside as well as the cylinder 4. The vibrations caused by the interaction of the piston 6 and the driving means 10 buffer the transmission of the entire shell 2.

As described above, the cylinder 4, the piston 4, the driving means 10 and the oil supply device 30 and the like are connected to each other to form an assembly, which is a support spring 29 in the shell (2) It is installed to be supported by a shock absorber such as.

On the other hand, the lower side of the frame 18 is provided with an oil supply device 30 for supplying the oil stored in the inner bottom of the shell (2) between the piston (6) and the cylinder (4) the piston (6) The cylinder 4 is cooled while preventing friction and wear between the cylinder and the cylinder 4.

Looking at the assembled state of the cylinder 4, the drive means 10 configured as described above, as shown in Figure 2, the flange 4a is formed so as to protrude to the outer periphery of the cylinder 4, the frame The cylinder 4 is fitted to the mounting hole 18h on which the cylinder flange 4a is seated, and the inner stator 12 is installed to surround the outer circumference of the cylinder 4. However, one end is supported by the frame 18 and the other end is installed to be supported by a snap ring SR fixed to the outer periphery of the cylinder 4.

As shown in FIG. 3, the assembling process of the cylinder 4 and the driving means 10 will be described with reference to FIG. 3. The cylinder 4 has the other end as shown in (a) and (b). And the cylinder flange 4a is assembled so as to be engaged with the seating hole 18h, and the inner stator 12 is inserted from the other end of the cylinder 4 as shown in (c) so that the cylinder ( 4) is assembled to surround the outer periphery, one end is assembled to support the frame 18, the other end of the cylinder 4 is fitted with the snap ring (SR) is the other end of the inner stator 12 is the cylinder It is supported so that it is not removed from the other end of (4).

Finally, the discharge valve assembly 24 is fixed to one end of the cylinder 4 as shown in (d), and the discharge cover 24a is positioned to cover one end of the cylinder 4, It is installed to be fixed to the frame 18.

However, the cylinder fixing structure of the reciprocating compressor according to the prior art is inferior in assembly workability because the cylinder 4 and the inner stator 12 are assembled to the frame 18, respectively, to support the other end of the inner stator 12. Since the snap ring SR is fixed to the outer circumference of the cylindrical cylinder 4 in order to shock the compressor or the like, the snap ring SR easily moves in the axial direction of the cylinder 4 to firmly secure the inner stator 12. Not only can not be supported, the cylinder 4 also has a problem that can not be firmly fixed to the frame (18).

The present invention has been made to solve the above-mentioned problems of the prior art, and an object thereof is to provide a cylinder fixing structure of a reciprocating compressor that can firmly fix a cylinder and an inner stator to a frame.

In addition, it is an object of the present invention to provide a cylinder assembly method of a reciprocating compressor that can be assembled to the frame and the inner stator at a time to improve the assembly workability.

The cylinder fixed structure of the reciprocating compressor according to the present invention for solving the above problems is driven by a drive means made of an inner stator, outer stator, permanent magnet, while reciprocating linear movement in the cylinder is inserted into the frame In a reciprocating compressor that sucks and compresses a refrigerant, and then discharges the cylinder, the cylinder is formed on an outer circumference of one end that is not fitted to the frame, and supports an inner stator on both sides of the cylinder, which is inserted to surround the cylinder. And a removal preventing means formed at the other end of the cylinder to be fitted to the frame to prevent the cylinder into which the inner stator is inserted from being removed from the frame.

In the present invention, the removal prevention means, characterized in that the locking groove is formed on the outer peripheral end of the cylinder and the stopper is fitted to protrude more than the outer diameter of the cylinder in the locking groove.

At this time, the locking groove is formed in a ring shape along the outer periphery of the other end of the cylinder, the stopper is preferably a snap ring (snap ring) fitted to the locking groove.

On the other hand, the cylinder assembly method of the reciprocating compressor according to the present invention inserts the inner stator toward the end of the cylinder formed on the outer periphery of the cylinder, and inserts the other end of the cylinder into which the inner stator is inserted into the frame, By fixing the other end to the frame, the inner stator is supported by both the locking end and the frame so that the cylinder into which the inner stator is inserted is not removed from the frame.

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

Figure 4 is a side sectional view showing a cylinder fixing structure of the reciprocating compressor according to the present invention, Figure 5 is a side sectional view showing a cylinder fixing sequence of the reciprocating compressor according to the present invention.

As shown in FIG. 4, the cylinder fixing structure of the reciprocating compressor according to the present invention includes a cylinder 54 having a locking end 54a formed to protrude radially at one end thereof, and one end at one end of the cylinder 54. An inner stator 62 installed to cover the cylinder 54 and a frame 68 installed to surround the cylinder 54 while one surface is in contact with the other end of the inner stator 62, and the inner The stator 62 and the frame 68 includes detachment preventing means 80 for fixing the cylinder 54 to prevent the stator 62 and the frame 68 from being detached from the other end of the cylinder 54.

Of course, the frame 68 not only fixes the cylinder 54 and the inner stator 62 but also fixes an outer stator (not shown) at a predetermined interval from the inner stator 62, One end is installed to be fixed to the frame 68, and the discharge valve assembly 74 for discharging the refrigerant is fixed to the other end side of the cylinder 54.

In addition, between the inner stator 62 and the outer stator, a permanent magnet (not shown) is installed to be connected to a piston (not shown) that reciprocates linearly in the cylinder 54 to enable linear reciprocating motion. 62, the piston is driven by the mutual electromagnetic force of the drive means consisting of the outer stator, the permanent magnet.

In addition, the assembly consisting of the cylinder 54, the piston, the drive means and the frame 68 is installed to be fixed inside the shell (not shown), and an oil supply device (not shown) is installed below the assembly to the inside of the shell The oil stored on the bottom surface may be supplied between the cylinder 54 and the piston to prevent friction and wear as well as to cool the cylinder 54 to increase the reliability of the product.

In this case, the cylinder 54 has a cylindrical shape, and a locking end 54a is formed to protrude radially at one end thereof to compress the refrigerant while the piston reciprocates linearly therein.

Next, the inner stator 62 has a plurality of laminations 62a stacked in the circumferential direction, and fixed rings (not shown) are installed at one end and the other end thereof, so that one end thereof is supported by the engaging end 54a. 54) is inserted from the other end.

Next, the frame 68 is formed so that the mounting hole 68h is stepped so that the cylinder 54 can be inserted in the center thereof so that one surface thereof is supported at the other end of the inner stator 62 to surround the cylinder 54. Are assembled.

At this time, the seating hole 68h has a first diameter D1 formed on one surface side of the frame 68 in the same manner as the outer diameter of the cylinder 54, and on the opposite side of the frame 68. It is formed stepped to have a second diameter (D2) formed larger than the outer diameter of the cylinder (54).

Next, the removal preventing means 80 is a locking groove 82 formed on the outer circumference of the other end of the cylinder 54, and the stopper 84 is inserted into the locking groove 82 to protrude more than the outer diameter of the cylinder 54. Although the locking groove 82 is formed in a ring shape over the other end of the cylinder 54, the stopper 84 is an outer diameter of the cylinder 54 even if the stopper 84 is fitted into the locking groove 82 It may also consist of a snap ring formed larger.

Of course, a plurality of the locking grooves 82 may be formed only on the outer circumference of the other end of the cylinder 54, and the stopper 84 may also be configured as a locking protrusion that can be fitted into the locking grooves 82 as well.

At this time, the stopper 84 has an outer diameter smaller than the second diameter D2 of the seating hole so that the oil can be circulated into the space between the other end of the cylinder 54 and the frame 68.

Next, the discharge valve assembly 74 is installed to block the discharge cover 74a fixed to the frame 68 and the other end of the cylinder 54 to form a discharge space of the coolant outside the other end of the cylinder 54. The discharge valve 74b is provided between the discharge cover 74a and the discharge valve 74b, and a spring 74c elastically opens and closes the discharge valve 74b according to the pressure of the refrigerant.

Looking at the cylinder assembly method of the reciprocating compressor as described above with reference to Figure 5, the inner stator 62 is fitted to the cylinder 54 as shown in (a) and (b) so that one end of the cylinder One end of the 54 is assembled to be supported by the locking end 54a, and the cylinder 54 and the inner stator 62 have the other ends of the cylinder 54 as shown in (c). The other end of the cylinder 54 is fixed to the frame 68 while being inserted into the seating hole 68h and assembled so that one surface of the frame 68 is supported by the other end of the inner stator 62.

Specifically, the inner circumference of the stopper 84 is fitted into the locking groove 82 on the outer circumferential side of the cylinder 54 and is installed such that the outer circumference of the stopper 84 is locked to the seating hole 68h of the frame. Thus, the cylinder 54 can be fixed so as not to be removed from the frame 68.

At this time, the inner stator 62 and the frame 68 are installed to be supported by the locking end 54a formed at one end of the cylinder 54, and at the same time, the locking groove 82 formed at the other end of the cylinder 54; Since it is supported by the stopper 84 installed in the locking groove 82, the adjacent parts are installed so as not to be removed from each other in the axial direction.

Finally, the discharge valve assembly 74 is fixed to one end of the cylinder 54 as shown in (d), and the discharge cover 74a is positioned to cover one end of the cylinder 54. It is installed to be fixed to the frame 68.

The cylinder fixing structure of the reciprocating compressor according to the present invention configured as described above is formed with a locking end so that the inner stator is supported on one outer periphery of the cylinder, and a locking groove is formed so that the frame can be supported on the outer periphery of the cylinder. In addition, since the stopper is installed to be fitted to the locking groove and to be locked to the frame, the cylinder and the inner stator may be firmly fixed to the frame so as not to be removed in the axial direction, thereby increasing the reliability of the product.

In addition, the cylinder assembly method of the reciprocating compressor according to the present invention is installed so that the other end of the cylinder is inserted into the frame and fixed in the state in which the inner stator is assembled to support one end of the cylinder so that the cylinder and the inner stator are assembled to the frame at once. By improving the assembly workability there is an advantage that can increase the production efficiency.

1 is a side cross-sectional view showing a typical reciprocating compressor,

Figure 2 is a side sectional view showing a cylinder fixing structure of the reciprocating compressor according to the prior art,

Figure 3 is a side cross-sectional view showing a cylinder fixing sequence of the reciprocating compressor according to the prior art,

Figure 4 is a side sectional view showing a cylinder fixing structure of the reciprocating compressor according to the present invention,

Figure 5 is a side cross-sectional view showing a cylinder fixing sequence of the reciprocating compressor according to the present invention.

<Explanation of symbols on main parts of the drawings>

54: cylinder 54a: locking end

62: inner stator 68: frame

68h: seating hole 74: discharge valve assembly

74a: discharge cover 74b: discharge valve

74c: spring 80: stripping prevention means

82: locking groove 84: stopper

Claims (4)

In a reciprocating compressor which is driven by a drive means composed of an inner stator, an outer stator, and a permanent magnet, inhales and compresses a refrigerant while reciprocating linear movement in a cylinder inserted into a frame, and then discharges the same. The cylinder is formed at an outer circumference of one end which is not fitted to the frame and is formed at both ends of an inner stator which is inserted to surround the outer circumference of the cylinder together with the frame, and at the other end of the cylinder fitted to the frame. And a detachment preventing means for preventing the cylinder into which the inner stator is inserted from being removed from the frame. The method of claim 1, The removal preventing means is a cylinder fixed structure of the reciprocating compressor, characterized in that the locking groove is formed on the other end of the cylinder and the stopper is fitted to protrude more than the outer diameter of the cylinder in the locking groove. The method of claim 2, The locking groove is formed in a ring shape along the outer periphery of the other end of the cylinder, the stopper is a cylinder fixed structure of the reciprocating compressor, characterized in that the snap ring (Snap ring) fitted to the locking groove. Inserting the inner stator toward the end of the cylinder formed at the outer periphery of the cylinder, inserting the other end of the cylinder into which the inner stator is inserted into the frame, and fixing the other end of the cylinder protruding out of the frame to the frame, A cylinder assembling method of a reciprocating compressor, characterized in that both sides of the frame are supported by the frame so that the cylinder into which the inner stator is inserted is not removed from the frame.