KR100348620B1 - Passive balancer for oilless pulse tube refrigerator - Google Patents

Abstract

The present invention relates to a passive balancer of a non-lubricated pulsating tube freezer. In the conventional non-lubricating pulsating tube freezer, a passive balancer is mounted, and then final tuning is performed by fastening at least one nut to a lower end of the fastening shaft. Since the mass of the nut that can be added to or subtracted from the fastening shaft is limited, it is difficult to actually make fine adjustments, which causes problems such as the inability to control a very small vibration amount to a satisfactory level. Is mounted on the lower end of the sealing shell of the driving side of the lubricating tube freezer of the non-lubricated pulsating tube, and the vibration amount adjusting means for fine-tuning by adjusting the amount of vibration on the outer peripheral surface of the balancer body of the passive balancer for reducing the vibration of the pulsating tube freezer To adjust the amount of fine vibration precisely by adding a small mass to the passive balancer. Accurate vibration control can improve the reliability of the entire refrigerator.

Description

Passive BALANCER FOR OILLESS PULSE TUBE REFRIGERATOR}

The present invention relates to a passive balancer of a non-lubricated pulsating tube freezer, and more particularly, to precisely adjust the amount of fine vibration by adding or subtracting a small mass to a passive balancer mounted on a driving unit of a lubricating pulsating tube freezing machine.

In general, a cryogenic freezer for cooling small electronic components and superconductors is mainly used a thermal regeneration refrigerator such as a Stirling Refrigerator and a GM Refrigerator, and these refrigerators operate to increase their reliability. There is a search for a method of lowering the speed, removing the shape of the sealing material in which friction occurs, and removing the moving part.

On the other hand, the development of a highly reliable cryogenic freezer that does not require long-term maintenance is also required. One of such cryogenic freezers is a lubricationless pulse tube refrigerator.

On the open side of the tube, the pulsating tube freezer uses a principle that a large temperature gradient can be obtained when the pressure is changed by periodically injecting a gas having a constant temperature into one of the clogged tubes, when the flow of gas is small. It is a device that implements cryogenic refrigeration, and the pulsating tube freezer is a variation of a stirling freezer suitable for use as a freezer having a relatively low freezing capacity and requiring reliability because of a low average pressure and pressure ratio. Compared to having two moving parts such as standing, the moving part of the pulsating tube freezer has a difference of having only one separate compressor.

1 is a longitudinal cross-sectional view showing a conventional pulsating tube refrigerator, Figure 2 is an exploded perspective view showing a state in which the passive balancer of Figure 1 is coupled, Figure 3 is a cross-sectional view showing a passive balancer of Figure 1, a conventional pulsating tube refrigerator The piston coupled to the mover of the linear motor is capable of pumping the working gas while linearly reciprocating the cylinder without a separate lubrication action, the drive unit 10 for generating a reciprocating motion of the working gas, and the drive It is largely divided into a refrigeration unit 50 having a cryogenic portion by a thermodynamic cycle of working gas pumped by the unit 10 and reciprocating in the tube.

The drive unit 10 is coupled to the casing 26, the linear drive motor 27 mounted inside the casing 26, the cylinder 25 is provided on the upper end, and the drive motor 27 A drive shaft 28, a piston 29 connected to the drive shaft 28 and inserted into the cylinder 25, and a support member inserted into the upper and lower ends of the drive shaft 28 and respectively inside the casing 26. And a flexure bearing 31 which is coupled to the 30 and overlaps a plurality of leaf springs formed in a spiral type in order to induce resonance and straight movement of the piston 29, and a lower portion of the casing 26. It consists of a drive side sealing shell 11 to surround the seal.

The refrigeration unit 50 generates heat in the on-side heat exchanger 51B in which compression and expansion occur at both ends as the working gas inside is flowed by the working gas pumped by the driving unit 10, thereby compressing and expanding at both ends. On the other hand, in the cold side heat exchanger 51A in which expansion occurs, the mass flow and the pressure pulsation of the pulsating tube 51 absorbing external heat and the working gas reciprocated by being connected to the on-side heat exchanger 51B of the pulsating tube 51 An orifice 52 for generating a phase difference and achieving thermal equilibrium therebetween, a reservoir 53 connected to the orifice 52 to temporarily hold a working gas, and an operation pumped by the pulsation tube 51 Regenerator 54 to store the heat of the gas and to compensate the temperature of the working gas returned from the pulsation tube 51 to the drive unit 10, the cylinder 25 of the regenerator 54 and the drive unit 10. Between It consists of a precooler 55 for cooling the operating gas of the high temperature and high pressure connected and pumped, and a freezing side sealing shell 56 surrounding the pulsation tube 51 and the regenerator 54.

Therefore, as power is applied to the drive motor 27, the drive shaft 28 reciprocates in a straight line, and at the same time, the piston 29 integrally coupled to the drive shaft 28 is linear in the cylinder 25. By operating the reciprocating motion to pump the working gas of the refrigeration unit 50 to form the cryogenic portion on the cold side heat exchanger (51A) side of the pulsating tube (51).

In addition, a passive balancer 17a for reducing the vibration of the pulsating tube refrigerator is mounted on the lower end of the driving side sealing shell 11 of the driving unit 10. When the passive balancer 17a is assembled, FIGS. As shown in FIG. 3, first, the fastening shaft 14 is inserted into the insertion hole 12 formed in the lower center of the driving side sealing shell 11, and then the insertion hole 12 of the driving side sealing shell 11 is inserted into the insertion hole 12. The fastening shaft (13) formed on the outer circumference and the fastening hole (16) formed on the upper outer circumference of the fastening shaft (14) are fastened as bolts (15) to the fastening shaft ( Fix the upper end of 14).

Then, after fastening the fastening hole 20 in the center of the balancer body 19a in which the plurality of spiral springs 18 of the spiral type are coupled to the fastening shaft 14, finally, the lower end of the fastening shaft 14. The at least one hexagonal nut 21 is fastened to prevent the balancer body 19a from being removed from the fastening shaft 14 while serving as a mass weight for controlling vibration.

On the other hand, the main factors involved in the resonance system are the mass (M) and the spring constant (K), in the case of the spring constant is fine adjustment is difficult to adjust the resonance by the mass.

Therefore, in the conventional non-lubricated pulsating tube refrigerator, after the passive balancer 17a is mounted, at least one nut 21 is fastened to the lower end of the fastening shaft 14 to perform final tuning. Since the mass of the nut 21 that can be added to or subtracted from the fastening shaft 14 is limited, it is difficult to actually make fine adjustments, and thus there are many problems such as being unable to control a very small vibration amount to a satisfactory level. .

Therefore, the present invention is to solve the above-mentioned problems, by adding or subtracting a small mass to the passive balancer mounted on the drive unit of the non-lubricated pulsating tube refrigerator, it is possible to precisely control the amount of fine vibration, It is an object of the present invention to provide a passive balancer of a non-lubricated pulsating tube refrigerator that can improve the reliability of the entire refrigerator.

Figure 1 is a longitudinal cross-sectional view showing a conventional pulsating tube refrigerator.

Figure 2 is an exploded perspective view showing a state in which the passive balancer of Figure 1 is coupled

3 is a cross-sectional view showing the passive balancer of FIG.

Figure 4 is an exploded perspective view showing a state in which the passive balancer is coupled according to the present invention

5 is a cross-sectional view showing the passive balancer of FIG.

Explanation of symbols on the main parts of the drawings

10; Drive unit 11; Drive Side Sealing Shell

12; Insertion hole 13,16; Fastener

14; Fastening shaft 15; volt

17; Passive balancer 18; Leaf spring

19; Balancer body 20; Fastener

21; Nut 22; Vibration amount adjusting means

23; Fastening groove 24; volt

In order to achieve the above object, the present invention is mounted to reduce the vibration of the pulsating tube refrigerator at the lower end of the drive side sealing shell of the drive unit, the upper end of the fastening shaft is fixed to the center of the lower end of the drive side sealing shell, a plurality of spiral type At least one balancer body having a leaf spring coupled therein is fastened to the fastening shaft, and finally serves as a mass weight for controlling vibration while preventing the balancer body from being detached from the fastening shaft at the lower end of the fastening shaft. In a passive balancer to which at least two nuts are fastened, a plurality of fastening grooves formed on an upper outer circumferential surface of the balancer body and a plurality of bolts selectively inserted into and fastened to the fastening grooves to finely adjust the vibration amount Lubrication-free pulsating tube refrigerator characterized in that the vibration amount adjustment means for Passive balancers are provided.

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

Figure 4 is an exploded perspective view showing a state in which the passive balancer according to the present invention is coupled, Figure 5 is a cross-sectional view showing the passive balancer of Figure 4, the same reference numerals for the same parts as in the prior art will be described the present invention. .

According to the present invention, an insertion hole 12 is formed at the center of the lower end of the driving side sealing shell 11 of the driving unit 10 of the lubricating tube freezer, and the insertion hole 12 of the driving side sealing shell 11 is formed. A plurality of fixing holes 13 are formed at the periphery thereof and correspond to the fixing holes 13 at the upper outer periphery of the fastening shaft 14 which is inserted into and coupled to the insertion holes 12 of the driving side sealing shell 11. And a plurality of fixing holes 16 are fastened by bolts 15.

In addition, a fastening hole 20 is inserted into the fastening shaft 14 and fastened to the center of the balancer body 19 having a plurality of spiral type springs 18 of the passive balancer 17 for reducing vibration. ) Is formed, and at the lower end of the fastening shaft 14, the balancer body 19 is prevented from being detached from the fastening shaft 14, and at least one hexagon is formed to serve as a true weight to control vibration. Nut 21 is fastened.

In addition, vibration amount adjusting means 22 is mounted on the balancer body 19 upper outer circumferential surface of the passive balancer 17 to adjust and finely adjust the amount of vibration, and the vibration amount adjusting means 22 includes the balancer body ( 19 is composed of a plurality of fastening grooves 23 formed on the upper outer circumferential surface and a plurality of bolts 24 selectively inserted into and fastened to the fastening grooves 23.

4 and 5, the present invention configured as described above, the passive balancer for reducing the vibration of the pulsating tube refrigerator at the lower end of the drive side sealing shell 11 of the drive unit 10 of the non-lubricated pulsating tube refrigerator. When the frequency corresponding to the vibration is to be adjusted in the state of mounting (17), the mass that is insufficient in the state where the mass is once removed due to the plurality of fastening grooves 23 formed on the upper outer circumferential surface of the balancer body 19 is Final adjustment of the passive balancer 7 can be performed by fastening the bolts 24 to the plurality of fastening grooves 23 or by additionally fastening the nuts 21 to the lower ends of the fastening shafts 14. The amount can be easily adjusted.

As described above, the present invention is attached to the lower end of the sealing shell of the drive side of the drive unit of the non-lubricated pulsating tube freezer, by adding or subtracting the amount of vibration to the upper peripheral surface of the balancer body of the passive balancer for reducing the vibration of the pulsating tube freezer. Equipped with a vibration amount adjusting means for adjustment, it is possible to precisely adjust the amount of fine vibration by adding or subtracting a small mass to the passive balancer, and it is very useful with many advantages such as improving the reliability of the entire refrigerator due to accurate vibration control. Invention.

Although the preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the above-described embodiments, and is generally defined in the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the following claims. Anyone with knowledge of the world will be able to make various changes.

Claims (2)

It is mounted to the lower end of the sealing shell of the drive unit to reduce the vibration of the pulsating tube freezer, the upper end of the fastening shaft is fixed to the lower center of the driving side sealing shell, the balancer body having a plurality of spiral type spring In the passive balancer is fastened to the fastening shaft, and at least one nut is fastened to prevent the balancer body from being removed from the fastening shaft at the lower end of the fastening shaft, and to serve as a mass weight for controlling vibration. Composed of a plurality of fastening grooves formed on the upper outer peripheral surface of the balancer body, and a plurality of bolts are selectively inserted into and fastened to the fastening groove is characterized in that the vibration amount adjusting means for fine-tuning the vibration amount is mounted Passive balancer of lubrication-free pulsating tube freezer. delete