KR20230077856A - Cylinder device for linear compressor - Google Patents

Abstract

The present invention relates to a cylinder device for a linear compressor, and more specifically to the cylinder device for a linear compressor in which a suction hole through which refrigerant is sucked is formed in the center of a honeycomb-shaped cylinder body, a plurality of piston holes are formed radially around the suction hole, a connection hole is formed connecting the suction hole and the piston hole, and the pistons are formed in the plurality of piston holes and make reciprocating linear motion in the axial direction of the piston holes to suck in or discharge refrigerant, thereby capable of improving compression efficiency without mechanical loss. In addition, multiple pistons operate sequentially, resulting in higher compression efficiency than conventional linear compressors operated with a single piston. The cylinder device includes a cylinder body; a piston; and a discharge opening/closing valve.

Description

Cylinder device for linear compressor

The present invention relates to a cylinder device for a linear compressor, and more particularly, a suction hole through which refrigerant is sucked is formed in the center of a cylinder body formed in a honeycomb shape, and a plurality of piston balls are radially formed around the suction hole, A connection hole connecting the suction hole and the piston ball is formed, and a piston is formed in the plurality of piston balls to reciprocate and rectilinearly move in the axial direction of the piston ball to suck or discharge refrigerant, thereby increasing compression efficiency without mechanical loss. The present invention relates to a cylinder device for a linear compressor in which a plurality of pistons are sequentially operated to generate a higher compression efficiency than a conventional linear compressor operated with one piston.

A cooling system is a system that generates cold air by circulating a refrigerant, and repeatedly performs processes of compression, condensation, expansion, and evaporation of the refrigerant. To this end, the cooling system includes a compressor, a condenser, an expansion device and an evaporator. And, the cooling system, as a home appliance, may be installed in a refrigerator or an air conditioner.

In general, a compressor is a mechanical device that receives power from a power generator such as an electric motor or turbine and compresses air, refrigerant, or other various operating gases to increase pressure, and is widely used in home appliances or throughout the industry. It is being used.

If these compressors are broadly classified, a reciprocating compressor (Reciprocating compressor) compresses the refrigerant while the piston makes a linear reciprocating motion inside the cylinder by forming a compression space in which the working gas is sucked and discharged between the piston and the cylinder. ), and a compression space in which the working gas is sucked and discharged is formed between the roller and the cylinder that rotates eccentrically, and the roller rotates eccentrically along the inner wall of the cylinder to compress the refrigerant. Rotary compressor and orbiting scroll It can be divided into a scroll compressor in which a compression space in which working gas is sucked and discharged is formed between a scroll and a fixed scroll, and the orbiting scroll compresses the refrigerant while rotating along the fixed scroll.

Recently, among the reciprocating compressors, linear compressors having a simple structure and improving compression efficiency without mechanical loss due to motion conversion by directly connecting a piston to a drive motor that performs linear reciprocating motion have been developed.

In general, a linear compressor is configured to suck in, compress, and then discharge refrigerant while a piston moves in a reciprocating linear motion inside a cylinder by a linear motor inside a sealed shell.

The linear motor is configured such that a permanent magnet is positioned between an inner stator and an outer stator, and the permanent magnet is driven to linearly reciprocate by mutual electromagnetic force between the permanent magnet and the inner (or outer) stator. In addition, as the permanent magnet is driven while connected to the piston, the piston sucks in, compresses, and then discharges the refrigerant while linearly reciprocating inside the cylinder.

However, since the conventional linear compressor is driven using only one piston per cylinder, compression efficiency is low.

Republic of Korea Patent Registration No. 10-2225071

The present invention has been made to solve the above conventional problems,

A suction hole through which refrigerant is sucked is formed at the center of a cylinder body formed in a honeycomb shape, a plurality of piston balls are radially formed around the suction hole, and a connection hole connecting the suction hole and the piston ball is formed. Pistons are formed in a plurality of piston balls and reciprocate linearly in the axial direction of the piston balls to suck or discharge refrigerant, so that compression efficiency is improved without mechanical loss, and a plurality of pistons are operated sequentially to form one piston in the prior art. It is an object of the present invention to provide a cylinder device for a linear compressor in which a higher compression efficiency is generated than a linear compressor operated by.

In order to achieve the above object, the present invention is a cylinder device installed in a linear compressor,

It is formed in a honeycomb shape, a suction hole through which refrigerant is sucked is formed in the center, a plurality of piston balls are formed radially around the suction hole, and a connection hole connecting the suction hole and the piston ball is formed a cylinder body;

a piston formed in the piston ball of the cylinder body to reciprocate in the axial direction of the piston ball to suck or discharge refrigerant;

a discharge opening/closing valve formed on the discharge side of the piston ball to block the discharge side of the piston ball when the refrigerant is sucked by the piston and to open the discharge side of the piston ball when the refrigerant is discharged by the piston;

It relates to a cylinder device for a linear compressor, characterized in that it comprises a.

In addition, a plurality of pistons of the present invention are formed according to a plurality of piston balls, and the plurality of pistons relate to a cylinder device for a linear compressor, characterized in that they are operated sequentially.

In addition, the discharge opening/closing valve of the present invention relates to a cylinder device for a linear compressor, characterized in that it is formed as a leaf spring valve and opens and closes the discharge side of a piston ball by the operation of a piston.

In addition, the suction hole of the cylinder body of the present invention relates to a cylinder device for a linear compressor, characterized in that formed at an angle of inclination of 15 to 45 degrees with respect to the vertical standard of the cylinder body.

As described above, in the cylinder device for a linear compressor of the present invention, a suction hole through which refrigerant is sucked is formed in the center of a cylinder body formed in a honeycomb shape, and a plurality of piston holes are radially formed around the suction hole, A connection hole connecting the suction hole and the piston ball is formed, and a piston is formed in the plurality of piston balls to reciprocate and rectilinearly move in the axial direction of the piston ball to suck or discharge refrigerant, thereby increasing compression efficiency without mechanical loss. Improved, there is an effect that a plurality of pistons are sequentially operated to generate a higher compression efficiency than a conventional linear compressor operated with one piston.

1 is an exploded perspective view showing a cross section of a cylinder device according to an embodiment of the present invention;
2 is a cross-sectional view showing a cylinder device according to an embodiment of the present invention;
3 is a plan view showing a cylinder body according to an embodiment of the present invention;
Figure 4 is a schematic diagram showing the operation of the cylinder device according to an embodiment of the present invention.

The present invention having such characteristics will be more clearly explained through the preferred embodiments thereof.

Before describing various embodiments of the present invention in detail with reference to the accompanying drawings, it will be appreciated that the application is not limited to the details of the configuration and arrangement of components described in the following detailed description or shown in the drawings. will be. The invention is capable of being implemented and practiced in other embodiments and of being carried out in various ways. Also, device or element orientation (e.g., "front", "back", "up", "down", "top", "bottom") The expressions and predicates used herein with respect to terms such as ", "left", "right", "lateral", etc. are only used to simplify the description of the present invention and related devices. Or it will be appreciated that it does not indicate or imply that an element simply must have a particular orientation. Also, terms such as “first” and “second” are used herein and in the appended claims for descriptive purposes and are not intended to indicate or imply relative importance or significance.

Therefore, since the embodiments described in this specification and the configurations shown in the drawings are only one of the most preferred embodiments of the present invention and do not represent all of the technical ideas of the present invention, various alternatives may be used at the time of this application. It should be understood that there may be equivalents and variations.

1 is an exploded perspective view showing a cross section of a cylinder device according to an embodiment of the present invention, Figure 2 is a cross-sectional view showing a cylinder device according to an embodiment of the present invention, Figure 3 is a cross-sectional view according to an embodiment of the present invention It is a plan view showing the cylinder body, and Figure 4 is a schematic diagram showing the operation of the cylinder device according to an embodiment of the present invention.

1 to 4, the cylinder device for a linear compressor of the present invention is a cylinder device installed in a linear compressor, and is composed of a cylinder body 10, a piston 20, and a discharge opening/closing valve 30. do.

As shown in FIGS. 1 to 4, the cylinder body 10 is formed in a honeycomb shape as a whole, that is, it is formed in a hexagonal shape, and the refrigerant is sucked into the central portion of the cylinder body 10. A suction hole 11 is formed.

Here, a plurality of piston holes 12 are radially formed around the suction hole 11 formed in the central portion of the cylinder body 10 . At this time, the suction hole 11 and the piston hole 12 are formed to pass through both sides of the cylinder body 10 (corresponding to the upper and lower surfaces in the drawing).

In addition, a partition wall of the cylinder body 10 is formed between the suction hole 11 and the piston hole 12, and a connection hole 13 connecting the suction hole 11 and the piston hole 12 to the partition wall ) is formed through, and the connection hole 13 is provided at a low position on the side of the suction hole 11 and is provided at a high position on the side of the piston hole 12, so it is formed inclined.

In addition, the suction hole 11 of the cylinder body 10 is formed at an angle of 15 to 45 degrees with respect to the vertical standard of the cylinder body 10, so it is easy to manufacture and process.

As shown in FIGS. 1 to 4, the piston 20 is inserted one by one into a plurality of piston balls 12 formed in the cylinder body 10 and moves linearly and reciprocally in the axial direction of the piston balls 12, thereby This causes the refrigerant to be sucked in or discharged.

Here, a magnet (not shown) is further formed on the outer periphery of the piston 20 to operate in a reciprocating linear motion by an electromagnetic field transmitted from the outside, and when the piston 20 linearly moves to one side, the refrigerant enters the suction hole ( 11), it is sucked into the piston ball 12 through the connection hole 13, and when the piston 20 linearly moves to the other side, the refrigerant is discharged to the outside of the piston ball 12. At this time, the refrigerant is discharged through both ends of the piston ball 12.

In addition, a plurality of pistons 20 are formed according to a plurality of piston balls 12, and the plurality of pistons 20 are sequentially operated one by one to continuously suck/discharge the refrigerant.

As shown in FIGS. 1 to 2 and 4, the discharge opening/closing valve 30 is formed on the discharge side of the piston hole 12. In the present invention, the discharge opening/closing valve 30 is a cylinder body 10 Is formed at both ends of the piston 20 to block the discharge side of the piston ball 12 when the refrigerant is sucked, and when the refrigerant is discharged by the piston 20, the discharge side of the piston ball 12 open up

Here, the discharge opening/closing valve 30 is formed as a leaf spring valve and opens and closes the discharge side of the piston ball 12 by the operation of the piston 20, and has a plurality of opening and closing parts in accordance with the plurality of piston holes 12. is formed

On the other hand, in the present invention, the discharge opening and closing valve 30 for opening and closing the discharge of the refrigerant is formed, but the valve for opening and closing the intake of the refrigerant is not separately configured, so that the intake of the refrigerant is performed quickly and smoothly. In the present invention, a separate suction opening and closing valve is provided. Instead, a suction hole 11 and a connection hole 13 are formed, and since the connection hole 13 can be automatically opened and closed by the operation of the piston 20, fast and smooth refrigerant intake is possible.

On the other hand, cover parts (not shown) are further installed at both ends of the cylinder body 10 where the discharge open/close valve 30 is formed at both ends, and the cover part has a suction port (not shown) through which refrigerant flows from the outside and a piston As a result, a discharge port (not shown) through which the refrigerant is discharged is formed.

Here, a coil (not shown) to operate the piston 20 on which a magnet is formed is formed inside the cover part, and the coil is formed in accordance with the plurality of pistons 20, so that the plurality of pistons 20 are sequentially formed. it can work

10: cylinder body 11: suction hole
12: piston ball 13: connection hole
20: piston 30: discharge opening and closing valve

Claims (4)

In the cylinder device installed in the linear compressor,
It is formed in a honeycomb shape, a suction hole 11 through which refrigerant is sucked is formed in the center, a plurality of piston holes 12 are radially formed around the suction hole 11, and the suction hole A cylinder body 10 in which a connection hole 13 is formed connecting between (11) and the piston ball 12;
a piston 20 formed in the piston ball 12 of the cylinder body 10 and reciprocating in the axial direction of the piston ball 12 to suck or discharge refrigerant;
It is formed on the discharge side of the piston ball 12 to block the discharge side of the piston ball 12 when the refrigerant is sucked by the piston 20, and when the refrigerant is discharged by the piston 20, the piston ball 12 A discharge opening/closing valve 30 for opening the discharge side of );
Cylinder device for a linear compressor, characterized in that it comprises a.
According to claim 1,
A plurality of pistons 20 are formed in accordance with a plurality of piston holes 12, and the plurality of pistons 20 are sequentially operated.
According to claim 1,
The discharge opening/closing valve (30) is formed as a leaf spring valve and opens and closes the discharge side of the piston ball (12) by the operation of the piston (20).
According to claim 1,
The suction hole 11 of the cylinder body 10 is a cylinder device for a linear compressor, characterized in that formed at an angle of inclination of 15 to 45 degrees with respect to the vertical reference of the cylinder body 10.

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