KR20030073666A - Piston initial position control device for reciprocating compressor - Google Patents

Abstract

The present invention relates to a piston initial position adjusting device of a reciprocating compressor, the present invention is a frame unit for assembling and installing at least two or more frames in the casing, and fixedly installed in the frame unit and the mover linear reciprocating motion In a reciprocating compressor including a reciprocating motor, a compression unit fixed to a frame unit to suck and compress a fluid, and a resonant spring unit for inducing the resonant motion of the mover and the compression unit of the reciprocating motor, The cylinder may be formed by coupling to one frame and another frame to be coupled thereto to adjust the compression amount of both resonant springs, or to form a male screw portion on the outer circumferential surface of the cylinder and a female thread portion on the inner circumferential surface of the corresponding frame unit. By screwing into the frame unit, It is possible to reduce the trouble of such as the polyvalent group reassembled again solved the frame unit was assembled to meet a position it is possible to improve the productivity.

Description

Piston Initial Position Control Device for Reciprocating Compressor {PISTON INITIAL POSITION CONTROL DEVICE FOR RECIPROCATING COMPRESSOR}

The present invention relates to a piston initial position adjusting device of a reciprocating compressor, and more particularly, to a piston initial position adjusting device of a reciprocating compressor, which is capable of screwing a frame unit supporting a resonant spring.

In general, a reciprocating compressor is a piston that suctions and compresses and discharges gas while reciprocating in a cylinder, and FIG. 1 is a longitudinal sectional view showing an example of a conventional reciprocating compressor.

As shown in the drawing, a conventional reciprocating compressor includes a casing 10 having a gas suction pipe SP and a gas discharge pipe DP, a frame unit 20 elastically supported inside the casing, and a frame unit ( Fixed to 20), the reciprocating motor 30 in which the mover linearly reciprocates, and fixed to the frame unit 20 and coupled to the mover 33 of the reciprocating motor 30 to suck and compress the gas and discharge it. The compression unit 40 and the mover 33 of the reciprocating motor 20 are elastically supported together with the piston 42 of the compression unit 40 so as to resonate with the mover 33 and the piston 42. It consists of a resonant spring unit 50 for inducing.

The frame unit 20 supports the cylinder 41 and the piston 42 of the compression unit 40 together with the front frame 21 and the front frame 21 for supporting one side of the reciprocating motor 30. The intermediate frame 22 is coupled to support the other side of the reciprocating motor 30 and the rear frame 23 is coupled to the intermediate frame 22 to accommodate the resonant spring unit 50.

The reciprocating motor 30 has an outer stator 31 positioned outside the cylinder 41 of the compression unit 40 and a front side of the front frame 21 with a predetermined gap inside the outer stator 31. To the piston 42 of the compression unit 40 via an inner stator 32 fixed to an outer circumferential surface thereof, and an air gap between the outer stator 31 and the inner stator 32. It consists of the movable body 33 which reciprocates linearly with the piston 42. As shown in FIG.

The compression unit 40 is coupled to the cylinder 41 to be inserted and fixed to the front frame 21 and the mover 33 of the reciprocating motor 30 to reciprocate in the compression space P of the cylinder 41. Piston 42 and the suction valve 43 which restricts suction of refrigerant gas while opening and closing the suction flow path F of the piston 42 and the cylinder 41. It is composed of a discharge valve assembly 44 mounted on the discharge side to limit the discharge of the compressed gas while opening and closing the compression space (P).

The resonant spring unit 50 is inserted between the outer circumferential surface of the cylinder 41 and the corresponding inner stator 32 and one end is supported by the front frame 21 while the other end of the movable member 33 and the piston 42 One front side resonant spring 51 supporting the connecting portion, and one rear side supporting the inner end of the rear frame 23 while the other end supports one end of the connecting portion of the mover 33 and the piston 42. It consists of a resonant spring (52).

The front resonant spring 51 and the rear resonant spring 52 each consist of a compression coil spring so as to have an inner diameter larger than the outer diameter of the cylinder 41 so that the connection between the movable member 33 and the piston 42 is formed. I put it on and fix it.

The conventional reciprocating compressor as described above operates as follows.

That is, when power is applied to the outer stator 31 of the reciprocating motor 30, a flux is formed between the outer stator 31 and the inner stator 32 to form the movable element 33 and the piston 42. ) Are reciprocated in a straight line by the resonant spring unit 50 while moving along the direction of the flux, and with the piston 42 reciprocating in a straight line inside the cylinder 41, the cylinder 41 is compressed. By generating a pressure difference in the space P, a series of processes of inhaling the refrigerant gas, compressing it to a predetermined pressure, and then discharging the gas were repeated.

Here, in order to adjust the initial position of the piston 42 in consideration of the stroke distance of the piston 42, as shown in Figure 2 through the separate spacer 60 at the end of the rear resonant spring 52 or As shown in FIG. 3, a separate spacer 60 was inserted between the intermediate frame 22 and the rear frame 23 to adjust the initial position of the piston 42.

However, the piston initial position adjusting device of the conventional reciprocating compressor as described above, as described above through the separate spacer 60 at the end of the resonant spring 51 for supporting the piston 42 or the intermediate frame 22 By adjusting the amount of compression of both resonant springs 51 and 52 by inserting a separate spacer 60 between the rear frame 23 and the rear frame 23, the initial position of the piston 42 was adjusted. The thickness of the spacers 60 and 60 can be determined only after assembling the intermediate frame 22 and the rear frame 23 after determining the thickness of the piston 60. If improperly determined, there was a problem of reassembling and reassembling while repeating the above process.

The present invention has been made in view of the problems of the conventional reciprocating compressor as described above, it is an object of the present invention to provide a piston initial position adjusting device of the reciprocating compressor that can easily adjust the initial position of the piston.

1 is a longitudinal sectional view showing an example of a conventional reciprocating compressor.

2 and 3 are longitudinal cross-sectional views showing one example of adjusting the initial position of the piston in the conventional reciprocating compressor.

Figure 4 is a longitudinal sectional view showing an example for adjusting the initial position of the piston in the reciprocating compressor of the present invention.

Figure 5 is a half cross-sectional view comparing before and after adjustment in the reciprocating compressor with an example of the piston initial position adjustment device of the present invention.

Figure 6 is a half sectional view comparing before and after adjustment in the reciprocating compressor with a modification of the piston initial position adjustment device of the present invention.

** Description of symbols for the main parts of the drawing **

41,241: Cylinder 42,242: Piston

100: frame unit 110: front frame

120: intermediate frame 121a: female thread

130: rear frame 131: male thread

111: through protrusion 111a: female thread

241a: male thread

In order to achieve the object of the present invention, a frame unit for assembling and installing at least two or more frames in the casing, the outer stator and the inner stator fixed to the frame unit and linear reciprocating motion between the outer stator and the inner stator A reciprocating motor with a mover that is installed so that it can be installed, a cylinder fixed to the frame unit, a slide that is inserted into the cylinder, and coupled to the mover of the reciprocating motor, the fluid is sucked in a linear reciprocating motion inside the cylinder. A compression unit provided with a piston for compression, and a front side between one side of the connecting portion of the reciprocating motor and the piston of the compression unit and the side of the corresponding reciprocating motor or the side of the frame unit in close contact with the reciprocating motor. The other side of the connecting portion having a side resonance spring and corresponding thereto In a reciprocating compressor including a resonant spring unit having a rear resonant spring between inner surfaces of a frame unit to induce a resonant motion of a piston, the frame unit is screwed to one frame and the other frame coupled thereto. It provides a piston initial position adjusting device of a reciprocating compressor, characterized in that coupled to adjust the amount of compression of both resonant springs.

The present invention also provides a piston initial position adjusting device of a reciprocating compressor, wherein a male screw portion is formed on an outer circumferential surface of a cylinder and a female screw portion is formed on an inner circumferential surface of a frame unit corresponding thereto to screw the cylinder to the frame unit.

Hereinafter, the piston initial position adjusting device of the reciprocating compressor according to the present invention will be described in detail based on the embodiment shown in the accompanying drawings.

Figure 4 is a longitudinal cross-sectional view showing an example for adjusting the initial position of the piston in the reciprocating compressor of the present invention, Figure 5 is a comparison between before and after adjustment in the reciprocating compressor having an example of the piston initial position adjusting device of the present invention. Half section view.

As shown in the drawing, the reciprocating compressor according to the present invention is a frame unit 100 that is elastically supported in the casing 10 and is installed, and a reciprocating type which is fixed to the frame unit 100 to generate a driving force in a straight line. It is coupled to and operated between the motor 30, the compression unit 40 supporting the frame unit 100 by suction and compressing the fluid, and the mover 33 of the frame unit 100 and the reciprocating motor 30. The magnet 33 and the piston 42 of the compression unit 40 includes a resonant spring unit 50 for inducing a resonant movement together.

The frame unit 100 supports the outer stator 31 and the inner stator 32 of one side of the reciprocating motor 30 together with the front of the cylinder 41 of the compression unit 40 to be described later. A fastening bolt long to the front frame 110 with the frame 110 and the outer stator 31 of the reciprocating motor 30 interposed therebetween to support the other side of the outer stator 31 of the reciprocating motor 30. The intermediate frame 120 and the intermediate frame 120 to be coupled to the intermediate frame 120 by screwing together to support the other side of the stator 31 and the inner stator 32 of the reciprocating motor 30 and the rear side to be described later It consists of a rear frame 130 for supporting the resonant spring (52).

The rear end diameter of the intermediate frame 120 is preferably formed large enough to be inserted in the state in which the front end of the rear frame 130 corresponding to the sliding contact. In addition, the female screw portion 131 is formed on the inner circumferential surface of the rear end of the intermediate frame 120 and the female screw portion 131 can be engaged with the female screw portion 121 on the outer circumferential surface of the front end of the rear frame 130 corresponding thereto. To form.

In addition, the intermediate frame 120 and the rear frame 130 is preferably coupled to both frames by welding (W) to increase the coupling force after screwing.

The reciprocating motor 30 has an outer stator 31 fixedly installed between the front frame 110 and the intermediate frame 120, and press-fits the front frame 110 with a predetermined gap inside the outer stator 31. Coupling to the piston 42 of the compression unit 40 through the air gap between the inner stator 32, the outer stator 31 and the inner stator 32 and in a straight line with the piston 42 It consists of a mover 33 for reciprocating motion.

Compression unit 40 is coupled to the cylinder 41 to be inserted into the front frame 110 and fixed to the mover 33 of the reciprocating motor 30, the reciprocating motion in the compression space (P) of the cylinder 41 Piston 42 and the suction valve 43 which restricts suction of refrigerant gas while opening and closing the suction flow path F of the piston 42 and the cylinder 41. The discharge valve assembly 44 is mounted on the discharge side to limit the discharge of the compressed gas while opening and closing the compression space P.

The resonant spring unit 50 is inserted between the outer circumferential surface of the cylinder and the corresponding inner stator 32 and one end is supported by the front frame 110 while the other end is supported by the connecting portion of the mover 33 and the piston 42. One front side resonant spring 51 and one rear side resonant spring supporting one end of the connecting portion of the mover 33 and the piston 42 while the other end is supported on the inner side of the rear frame 130 ( 52).

The front resonant spring 51 and the rear resonant spring 52 are each composed of a compression coil spring so as to have an inner diameter larger than the outer diameter of the cylinder 41 so that the connecting portion between the mover 33 and the piston 42 is formed therebetween. Place it in place and fix it.

In the drawings, the same reference numerals are given to the same parts as in the prior art.

In the figure, reference numeral 111 denotes a through protrusion.

The reciprocating compressor of the present invention as described above is assembled as follows.

First, the cylinder 41 is inserted into and fixed to the inner circumferential surface of the through protrusion 111 of the front frame 110, and the inner stator 32 of the reciprocating motor 30 is disposed on the outer circumferential surface of the through protrusion 111 of the front frame 110. Press-fix and secure a certain gap on the outside of the inner stator 32, the outer stator 31 is inserted in close contact with the front frame 110 and the middle frame 120 to the other side of the outer stator 31 The outer stator 31 is fixed by tightening the front frame 110 and the intermediate frame 120 with a fastening bolt (not shown) in close contact.

Next, the mover 33 to which the piston 42 is coupled is inserted to move in a straight line between the outer stator 31 and the inner stator 32, and the front side is connected to the connection portion of the piston 42 and the mover 33. The resonance spring 51 and the rear resonance spring 52 are mounted so that the front resonance spring 51 is fixed to the front end surface of the through protrusion 111 of the front frame 110 while the rear resonance spring 51 is fixed. 52 is fixed to the inner surface of the rear frame 130.

Next, as shown in FIG. 5, after the male screw part 131 provided at the front end of the rear frame 130 is fastened to the female screw part 121 provided at the rear end of the intermediate frame 120, the middle frame 120 is closed. End is welded (W) to the outer peripheral surface of the rear frame (130). At this time, while the rear frame 130 is fastened to the intermediate frame 120, the front resonant spring 51 and the rear resonant spring 52 are compressed appropriately so that the initial position of the piston 42 is based on the front end surface of the cylinder. Adjust appropriately from the initial interval (L1) to the final interval (L2).

On the other hand, there is another embodiment of the piston initial position adjustment of the reciprocating compressor according to the present invention is as follows.

That is, in the above-described example, the female screw 121 and the male screw 131 are respectively formed on the intermediate frame 120 and the rear frame 130 to be directly fastened. 241 is screwed to the through-hole 211 of the front frame 210.

To this end, a male screw portion 241a is formed on the outer circumferential surface of the cylinder 241 and a female screw portion 211a is formed on the inner circumferential surface of the through-projection portion 211 of the front frame 210 so that the male screw 241a portion can engage. To form.

In this case, the welding between the cylinder 241 and the through-projection portion 211 of the front frame 210 so that the cylinder 241 is firmly fixed without moving in the through-projection portion 211 of the front frame 210. However, it is preferable to interpose the gap maintaining part 260 by molding or post-assembly.

In this way, when determining the initial position of the piston, adjust the initial position of the piston appropriately while moving the frame unit to receive the compression mechanism and finally assemble the piston, or when fixing the cylinder during the initial stage of assembly, As it can be adjusted to the initial position, productivity can be improved by reducing the hassle of assembling the frame unit and re-assembling it if the initial position of the piston is not correct.

Piston initial position adjusting device of the reciprocating compressor according to the present invention is coupled to adjust the amount of compression of both resonant springs while screwing to one of the frame and the other frame coupled thereto or to form a male screw on the outer peripheral surface of the cylinder By forming a female thread on the inner circumferential surface of the corresponding frame unit and screwing the cylinder to the frame unit, it is possible to reduce the trouble of assembling, releasing and reassembling the frame unit to adjust the initial position of the piston. Can improve.

Claims (5)

A frame unit for assembling and installing at least two frames inside the casing, an outer stator and an inner stator fixedly installed in the frame unit, and a movable member for linear reciprocating motion between the outer stator and the inner stator. A reciprocating motor, a cylinder fixedly mounted to the frame unit, a compression unit including a piston to slide into the cylinder and coupled to the mover of the reciprocating motor to perform suction and compression of the fluid while linearly reciprocating in the cylinder; And a front side resonance spring between one side of the connecting portion of the reciprocating motor and the piston of the compression unit and the side of the corresponding reciprocating motor or the side of the frame unit in close contact with the reciprocating motor. Between the other side and the inner side of the corresponding frame unit. In the reciprocating compressor and having a side resonance spring including a resonance spring unit for inducing a resonant movement of the piston, The frame unit is the piston initial position adjusting device of the reciprocating compressor, characterized in that coupled to adjust the amount of compression of both resonant springs while screwing to one frame and the other frame coupled thereto. The method of claim 1, The frame unit is a piston initial position adjusting device of the reciprocating compressor, characterized in that for forming a screw portion which can be engaged with each other on the contact surface of each frame to be screwed while inserting one frame into another frame coupled thereto. The method of claim 2, Piston initial position control device for a reciprocating compressor, characterized in that the two frames by welding after each frame is screwed together. A frame unit for assembling and installing at least two frames inside the casing, an outer stator and an inner stator fixedly installed in the frame unit, and a movable member for linear reciprocating motion between the outer stator and the inner stator. A reciprocating motor, a cylinder fixedly mounted to the frame unit, a compression unit including a piston to slide into the cylinder and coupled to the mover of the reciprocating motor to perform suction and compression of the fluid while linearly reciprocating in the cylinder; And a front side resonance spring between one side of the connecting portion of the reciprocating motor and the piston of the compression unit and the side of the corresponding reciprocating motor or the side of the frame unit in close contact with the reciprocating motor. Between the other side and the inner side of the corresponding frame unit. In the reciprocating compressor and having a side resonance spring including a resonance spring unit for inducing a resonant movement of the piston, And a male screw portion formed on an inner circumferential surface of a frame unit corresponding to the male screw portion on an outer circumferential surface of the cylinder, thereby screwing the cylinder to the frame unit. The method of claim 4, wherein Piston initial position control device for a reciprocating compressor, characterized in that for forming a gap holding portion by welding or molding between the cylinder and the corresponding frame unit.