KR0124737Y1 - Piston and cylinder of a linear compressor - Google Patents

Abstract

The present invention is formed by forming a step on the piston of the linear compressor to reduce the friction with the cylinder, and also to form a flaw in the piston and the cylinder to remove impurities accumulated in the gap between the step and the cylinder formed in the piston. It relates to a piston and cylinder structure of a linear compressor to solve the problem of hindering the movement of the piston by the impurities.

The piston and cylinder structure of the conventional oil supply type linear compressor has many advantages in lubrication and airtightness, but there is a problem in that friction loss is caused by oil because the contact area of the piston and the cylinder is wide.

The present invention reduces the area of contact between the piston and the cylinder by forming one or more steps in the piston in order to solve such a conventional problem, thereby minimizing frictional losses and also forming grooves in the piston and the cylinder. It is to prevent the accumulation of impurities in the gap between the step formed in the piston and the cylinder, so that the reciprocating movement of the piston is not hindered by the generated impurities to ensure the smooth movement of the piston.

Description

Piston and Cylinder Structure of Linear Compressor

The present invention is a linear to solve the problem that hinders the movement of the piston by the impurities generated by forming a groove in the piston and the cylinder to remove the impurities accumulated in the gap between the cylinder and the cylinder formed in the linear compressor. The piston and the cylinder structure of the compressor.

As shown in FIG. 1, the piston and the cylinder structure of the conventional oil supply type linear compressor, the structure of the piston and cylinder of the oil supply type linear compressor is to the suction chamber (1) and the suction chamber (1) into which the refrigerant flows into the compressor. A suction valve 2 for sucking the introduced refrigerant into the cylinder 4 and a reciprocating motion to allow the refrigerant to be sucked into the cylinder 4 through the suction valve 2 to compress the refrigerant to discharge the discharge valve 5. Through the piston (3) for discharging through the discharge chamber, the discharge valve (5) for discharging the refrigerant compressed into the discharge chamber (6) by the reciprocating motion of the piston (3), and the discharge valve (5). And a discharge chamber 6 for discharging the introduced refrigerant out of the compressor. And the oil (7) is filled between the piston (3) and the cylinder (4) is configured to enable the reciprocating movement of the piston (3).

The piston and cylinder structure of the conventional linear compressor configured as described above sucks the refrigerant flowing into the suction chamber 1 by reciprocating the piston 3 by the oil 7 filled between the piston 3 and the cylinder 4. It is sucked into the cylinder 4 through the valve 2, and then compressed and discharged through the discharge valve 5 into the discharge chamber 6 to be discharged out of the compressor.

At this time, the reciprocating piston (3) and the cylinder (4) is friction occurs, but the friction is reduced by the lubrication action of the oil (7) is filled.

However, the piston and cylinder structure of the conventional linear compressor as described above has many advantages in lubrication and airtightness, but the friction area is generated by the oil 7 due to the large contact area between the piston 3 and the cylinder 4. There was a problem.

The present invention provides a groove in the piston and the cylinder to reduce the area of contact between the piston and the cylinder in order to solve such a conventional problem to prevent the accumulation of impurities in the gap between the step formed in the piston and the cylinder, The reciprocating motion of the piston is not hindered by the impurities, so that the smooth movement of the piston is achieved.

1 is a cross-sectional view showing the structure of a piston and a cylinder of a conventional oil-based linear compressor

(A) is a cross-sectional view showing the structure of the piston and the cylinder of the linear compressor of the present invention (b) is a cross-sectional view taken along the line A-A in FIG.

3 is a cross-sectional view showing another embodiment of the piston and the cylinder structure of the linear compressor of the present invention

* Explanation of symbols for main parts of the drawings

1: suction chamber 2: suction valve

3 ': piston 4,4': cylinder

5: discharge valve 6: discharge chamber

7; oil 8: step

9,9 '; Home

As the structure of the linear compression stone and the cylinder of the present invention is shown in FIG. 2, the piston 3 is filled with the oil 7 between the piston 3 'and the cylinder 4 by lubrication of the oil 7. In the linear compressor where the ') is reciprocated, the piston and the cylinder structure of the linear compressor configured to reduce the contact area between the piston 3' and the cylinder 4 by forming a step 8 in the piston 3 '. One or one at the same depth as the step 8 on the circumferential surface of the portion not adjacent to the compression chamber of the piston 3 'to prevent the accumulation of impurities in the step 8 formed on the piston 3'. The above groove 9 is formed.

The piston and cylinder structure of the present invention linear compressor is treated with the same reference numerals for the same parts as in the prior art, and overlapping descriptions are omitted as follows.

The piston and cylinder structure of the linear compressor of the present invention having such a structure has a piston when the piston 3 'is reciprocated by lubrication of the oil 7 filled between the piston 3' and the cylinder 4. Since the contact area between the piston 3 'and the cylinder 4 is reduced by the step 8 formed in the 3', the friction loss caused by the oil 7 is minimized. At this time, when the piston 3 'continues to reciprocate continuously, impurities are accumulated between the step 8 and the cylinder 4 formed in the piston 3'.

As the impurity is high as described above, in the compressor to operate at a high speed, not only damages the surface of the piston (3) and the cylinder (4) but also causes the phenomenon that the piston (3) does not move in severe cases In this invention, the step 8 and the cylinder 4 formed in the piston 3 'by the groove 9 formed in the circumferential surface of the portion of the piston 3' which is not adjacent to the compression chamber of the piston 3 'with the same depth. Impurities generated between the) are released, and impurities do not accumulate between the step 8 and the cylinder 4.

On the other hand, Figure 3 is a view showing another embodiment of the piston and the cylinder structure of the linear compressor of the present invention, the groove (9 ') is a cylinder to prevent the accumulation of impurities between the step (8) and the cylinder (4') It has a structure in which at least one of 4 'is formed.

The piston and cylinder structure of the linear compressor having such a structure also removes impurities generated between the step 8 and the cylinder 4 'formed in the piston 3' as in the above-described effect. The smooth movement of the piston (3 ') is to be made.

As described above, the grooves 9.9 'are provided with the piston 3' and the cylinder 4 to prevent the accumulation of impurities in the step 8 so as to reduce the contact area between the piston 3 'and the cylinders 4 and 4'. By forming between '), there is an effect that the smooth movement of the piston (3') is made.

Claims (5)

The piston 3 'and the cylinder in a linear compressor in which the oil 3 is filled between the piston 3' and the cylinder 4 so that the piston 3 'reciprocates by the lubrication of the oil 7. In the linear compressor configured to reduce the contact area with (4), the circumferential surface of the portion not adjacent to the compression chamber of the piston 3 'to prevent the accumulation of impurities between the step 8 and the cylinder 4 is prevented. Piston and cylinder structure of a linear compressor, characterized in that the groove is formed to the same depth as the step (8). The piston and cylinder structure of a linear compressor according to claim 1, wherein the groove (9) is formed in the piston (3 '). 3. The piston and cylinder structure of a linear compressor according to claim 2, wherein one or more grooves (9) formed in the piston (3 ') are formed. The piston and cylinder structure of a linear compressor according to claim 1, wherein the groove (9 ') is formed in the cylinder (4'). 5. The piston and cylinder structure of a linear compressor according to claim 4, wherein one or more grooves (9 ') formed in said cylinder (4') are formed.