RU2451209C2 - Linear compressor having piston rod with pre-compressed spring, and refrigerating device - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: linear compressor (1) includes housing (2) of piston and reciprocating piston (4) of compressor, which moves in it along axis (3). Compressor piston (4) is connected through rod (5) to drive (6) for reciprocating movement. Rod (5) includes pre-compressed spring (7), mainly helical spring; at that, spring (7) pre-compression is more than tension created with drive (6) in rod (5). Also, invention refers to refrigerating device and to product cooling or freezing method; at that, refrigerating device includes linear compressor (1). Invention differs by the fact that due to design of pre-compressed spring there can be achieved especially accurate ratio of axial rigidity to transverse rigidity of connection between drive (6) and piston (4) of compressor, and thus, various compressors designs with various power values can be realised by means of one and the same assembly.

EFFECT: reducing not only piston rod deviation, but also the quantity of required fasteners on the side of piston and on the side of drive.

4 dwg, 8 cl

Description

Technical field

The invention relates to a linear compressor comprising a piston body and a reciprocating piston of a compressor moving along it along an axis, the compressor piston being connected through a rod to a drive for reciprocating motion. The invention also relates to a refrigerating apparatus and to a method for cooling or freezing products.

State of the art

A known solution is that for linear lubrication-free compressors, the compressor piston is supported by a cushion of gaseous refrigerant, which flows through micro-holes through the wall of the piston body inward to the compressor piston. To maintain this gas abutment carried out by means of a cushion, a continuous supply of gas is required, since otherwise the compressor piston will contact the housing wall. This contact will cause friction and thereby lead to wear of the linear compressor. From DE 695 26 217 T2 it follows that, especially in the case of gas bearings, the piston and the cylinder must not be touched in working order to minimize friction and thereby wear of the linear compressor.

In order to keep the gas flow as low as possible, as well as to increase the service life of the linear compressor, especially in linear compressors that have similar gas bearings, the linear motion of the linear actuator should be transmitted to the piston through the piston rod, if possible without transverse forces.

The piston rod known from DE 695 26 217 T2 provides an elastic rod or tube by means of which forces are transmitted. However, a simple tube or a simple elastic rod is insufficient to create the necessary combination of small lateral stiffness to accept undesirable lateral forces and high axial stiffness to transmit the stroke. For this reason, special solutions include spring elements specially made in the form of a rod with two narrow sections, which serve as bending points, if possible, and provide a small transverse stiffness.

A disadvantage of the known solutions is that, due to thin bending points, the likelihood of a break also during normal operation is relatively high. Subsequently, it is required for each application, that is, for each compressor variant, to develop its own specially adapted piston rod so that the delicate balance of transverse and axial stiffness due to the design is observed. In addition, tying the piston rod to the piston and linear actuator is costly due to the small diameter of the narrow sections.

The solution known from DE 695 26 217 T2 has too low axial stiffness. The result of this may be loss of power, as well as malfunctions during operation, and thus, the linear compressor under certain circumstances operates inefficiently and unreliably.

Disclosure of invention

Therefore, an object of the present invention is to provide a linear compressor or a refrigeration apparatus, wherein a compressor piston can be coupled to a drive, rigid in the axial direction, but soft relative to the transverse forces. Further, the task is to create a method of cooling or freezing products that operates with a high efficiency and allows you to quickly and efficiently cool the products.

These problems are solved according to the invention by means of a linear compressor, a refrigerating apparatus, and also by means of a method, as indicated in the independent claims. Other preferred options for implementation and development options that can be combined individually or in any combination with each other are the subject of the respective dependent claims.

The linear compressor proposed by the invention comprises a piston body and a reciprocating piston of the compressor moving along it along the axis, the compressor piston being connected via a rod to the reciprocating drive, the rod containing a pre-compressed spring, especially a coil spring.

A thrust may be formed by one or more piston rods. A plurality of piston rods may be connected to each other in parallel and / or in series.

The linear compressor may be lubrication-free. It especially contains a gas bearing, by means of which the compressor piston rests non-contact in the piston housing during reciprocating motion.

The rod for transmitting the drive force to the compressor piston contains a pre-compressed spring, that is, a spring that changes its length only when the specified force threshold is exceeded.

The spring can be made of metal, especially steel, as well as plastic or composite material. Fiber reinforced springs, such as carbon, glass reinforced and / or polyaramide reinforced springs, can especially be used.

Advantageously, the spring is a tightly wound helical spring, that is, adjacent coils touch each other, moreover, the surfaces of adjacent coils lie on top of each other under pressure. In the case of such a spring, the predetermined force threshold, i.e., a certain predetermined force value, must be exceeded so that adjacent spring turns are separated from each other. Between two adjacent turns of the spring along the contact surface can be affected by compression pressure, the value of which lies above zero.

With the help of such a thrust, relatively large axial forces can be received, while relatively small transverse forces can be gently damped. If the spring is tightly wound, then the pressure force can be received in the longitudinal direction by the lateral surfaces of the coils lying on top of each other, thus achieving greater longitudinal stiffness. In the case of a pre-compressed spring, longitudinal stiffness is achieved by pre-compression. Relatively small lateral forces can, however, be absorbed and balanced through a lever effect. Due to the effect of the lever and the possibility that the coil can unilaterally rise from the coil adjacent to it, the spring in the transverse direction is very soft.

Due to pre-compression, forces in the longitudinal direction lead less to destabilization of the spring in the transverse direction than in the case of known piston rods.

Advantageously, the pre-compression of the spring is greater than the tension produced by the drive in traction. In this way, it is guaranteed that the spring will not be further compressed or stretched, and thus a rigid connection between the drive and the compressor piston will be achieved. Especially because of this, the thrust due to the spring will not become an oscillating system.

In a special embodiment, the thrust has on each of at least two sections along a pre-compressed spring. However, it is particularly preferred when the thrust as such is made by means of a spring. In this way, a particularly soft joint is achieved in the transverse direction, which can take on a wide variety of vibration modes, especially S-shaped deformation of the thrust.

In a particularly advantageous embodiment of the invention, the thrust, especially with the spring section, is screwed onto the drive and / or on the compressor piston. Due to the special geometry of the tightly wound helical spring, it is especially possible to make the connection between the compressor piston and the drive in the form of a threaded connection so that the coils of the coil spring at the ends are used as threads, which is more reliable and economical than the known technique of fastening by gluing or clamping.

The ratio of axial stiffness to lateral stiffness of the spring or the thrust proposed by the invention is at least 20: 1, especially at least 50: 1, preferably at least 200: 1. Due to its design, the described thrust has a particularly good ratio of axial stiffness to lateral stiffness. As a result, the same unit can be used for various linear compressors, especially linear compressors with different power values, for example 40 W, 80 W, 120 W or 160 W. A special adjustment of the thrust to the appropriate type of linear compressor is no longer required. This further reduces the cost of manufacturing a linear compressor.

In an advantageous embodiment of the invention, the compressor piston is guided in the piston housing by means of a housing wall containing holes, and by means of a working medium passing through the holes, especially with the help of refrigerant.

In general, using the linear compressor proposed by the invention, reliable operation can be realized while achieving a high efficiency. Power losses due to an excessively soft piston rod in the longitudinal direction are prevented. Power losses are also prevented due to the distortion of the compressor piston in the piston body due to excessive lateral stiffness of the piston rod or due to a break in the piston rod in a narrow area. Total, thereby reducing wear on the linear compressor and further reduces the susceptibility of the linear compressor to malfunctions.

The refrigeration apparatus proposed by the invention, especially a refrigerator and / or freezer or air conditioner, especially a car air conditioner, comprises the linear compressor proposed by the invention. The advantageous properties of the linear compressor proposed by the invention are thereby transferred to the refrigeration apparatus and thereby contribute to the particularly reliable and energy-saving operation of the refrigeration apparatus, which expands the possibilities of using the refrigeration apparatus, especially with regard to mobile applications.

The method of cooling or freezing products proposed by the invention comprises the refrigeration apparatus proposed by the invention. Due to the high reliability, as well as the high efficiency of the refrigeration unit, particularly reliable and energy-efficient cooling or freezing of products is possible. This contributes to particularly fast and economical cooling or freezing of products.

Brief Description of the Drawings

Other particular advantages or features are illustrated by the following drawings, which do not limit the present invention, but merely illustrate it by way of example. They show the following.

Figure 1: section of the proposed invention, a linear compressor.

Figure 2: sectional view of a fragment of another proposed invention of a linear compressor.

Figure 3: proposed by the invention, a linear compressor in axonometric projection.

Figure 4: proposed by the invention refrigeration apparatus.

The implementation of the invention

Figure 1 shows a longitudinal section of a fragment of the proposed invention, the linear compressor 1 with the piston 4 of the compressor. The compressor piston 4 comprises a drive 6 and a rod 5 inside the wall 14 of the housing for connecting the piston 4 of the compressor to the drive 6, and the wall 14 of the bearing housing contains openings 12 through which the medium passes. A rod 5 made in the form of a piston rod is formed by a tightly wound coil spring 7, which is pre-compressed. The pre-compression force is from about 5 to 50 N, that is, at least 5 to 50 N must be applied in the axial direction of the thrust 5 to separate adjacent coils 16. Due to the effect of the lever in the transverse direction, only from 0, 14 to 1.4 N, so that in the lever indicated here, one coil is lifted from a coil adjacent to it. The piston 4 of the compressor moves reciprocally in the wall 14 of the housing, made in the form of a cylindrical sleeve on the axis 3. The piston 4 is supported by the working medium 17, which flows between the wall 14 of the housing and the housing 2 of the piston through the holes 12. The flowing working medium forms a gas cushion , and thus a gas bearing is created.

Figure 2 shows a longitudinal section of a fragment of another linear compressor 1 proposed by the invention, wherein the rod 5 is tube-shaped and is created in the first section 8 and in the second section 9 in the form of a tightly wound spring. Both sections 8, 9 contribute to the bending of the rod 5 in these sections and thereby contribute to a particularly small transverse stiffness.

Figure 3 shows a perspective view of the inventive linear compressor 1 with drive 6, piston body 2, the compressor piston not shown in the drawing, being driven by drive 6 using rod 5.

The compression pressure is between 9 and 10 bar. The mass of the piston 6 of the compressor is 50 g. The operating frequency is slightly less than 50 Hz. The compressor stroke is approximately 20 mm, and the compressible volume is 1 to 9 cm ³ .

Figure 4 shows the inventive refrigeration apparatus 13 with the inventive linear compressor 1 and products 15 that are cooled. Due to the high reliability and high efficiency of the inventive linear compressor 1, a particularly reliable, fast and energy-efficient cooling of the products 15 is achieved.

The invention relates to a linear compressor 1 comprising a piston housing 2 and a reciprocating piston 4 of a compressor moving along it along axis 3, the piston 4 of the compressor being connected through a rod 5 to a drive 6 for reciprocating movement, and the rod 5 comprising a pre-compressed spring 7 The invention also relates to a refrigeration apparatus and a method for cooling or freezing products, the refrigeration apparatus comprising the linear compressor 1 proposed by the invention. With the design of the pre-compressed spring, a particularly good ratio of axial stiffness to lateral stiffness of the connection between the drive 6 and the piston 4 of the compressor can be achieved, and thus, different compressors with different power values can be realized using the same assembly. This reduces not only the deviation of the piston rod, but also the number of necessary fasteners on the piston side and on the drive side.

Claims (9)

1. A linear compressor (1) comprising a piston housing (2) and a reciprocating piston (4) of the compressor moving along it along the axis (3), the compressor piston (4) being connected via a rod (5) to the drive (6) for reciprocating movement, characterized in that the rod (5) contains a pre-compressed spring (7), especially a coil spring, while the pre-compression of the spring (7) is greater than the tension produced by the drive (6) in the rod (5). 2. The linear compressor (1) according to claim 1, characterized in that the spring (7) is a tightly wound coil spring. 3. A linear compressor (1) according to claim 1 or 2, characterized in that the rod (5) in at least two sections (8, 9) contains a pre-compressed spring (7). 4. The linear compressor (1) according to claim 1 or 2, characterized in that the rod (5) is formed by a spring (7). 5. The linear compressor (1) according to claim 1 or 2, characterized in that the rod (5), especially with the spring section (10, 11), has a threaded connection to the drive (6) and / or the piston (4) of the compressor. 6. A linear compressor (10) according to claim 1 or 2, characterized in that the ratio of axial stiffness to lateral stiffness of the thrust (5), especially the spring (7), is at least 20: 1, especially at least 50: 1 preferably at least 200: 1. 7. Linear compressor (1) according to claim 1 or 2, characterized in that the piston (4) of the compressor is guided in the piston housing (2) by the wall (14) of the housing containing the holes (12), and using a working medium, flowing through openings (12), especially with the help of refrigerant. 8. A refrigerator (13), especially a refrigerator, or a freezer, or an air conditioner, comprising a linear compressor (1), as claimed in one of claims 1 to 7. 9. A method of cooling or freezing products, using a refrigeration apparatus (13) as claimed in claim 8.

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