KR200163927Y1 - Piston lubrication apparatus of a compressor - Google Patents

Abstract

The present invention relates to a piston lubricator of a compressor, and forms a groove in the cylinder installed inside the compressor and the surface of the piston reciprocating at high speed in the cylinder, so that the oil can be smoothly supplied to the piston outer peripheral surface It relates to a lubrication device.

In the piston lubrication apparatus of the compressor according to the present invention, in the piston of the compressor provided with a piston corresponding to the inner circumference of the cylinder, and a piston pin is fitted into the coupling hole formed in the piston predetermined portion, the connecting rod and the piston, An oil groove is formed on the outer circumferential surface of the piston to communicate with a predetermined portion of the coupling hole, such that oil supplied to the coupling hole flows to the piston surface through the oil groove.

Description

Piston Lubricator of Compressor

The present invention relates to a piston lubricator of a compressor, and more particularly, to form a groove in the cylinder installed inside the compressor and the surface of the piston reciprocating at high speed in the cylinder, so that oil can be smoothly supplied to the outer peripheral surface of the piston. It relates to a piston lubricator of a compressor.

As shown in FIG. 1, a general hermetic compressor includes an electric mechanism part 5 including a stator 3 and a rotor 4 inside the upper and lower containers 1 and 2, and the rotor 4. By the rotational operation of the crankshaft 6 press-fitted fixed in the center of the refrigerant may be divided into a compression mechanism (7) for sucking and compressing.

The compression mechanism 7 described above is coupled to the lower end of the cylinder block 9 and the crankshaft 6 in which the cylinder 8 constituting the suction space of the refrigerant is integrally linearly reciprocated in the interior of the cylinder 8. A piston 10, a cylinder head 11 which is fixed to the end of the cylinder 8, and the refrigerant between the cylinder 8 and the cylinder head 11 and interposed between the cylinder 8 and the cylinder head 11. And a valve device 12 for discharging the compressed refrigerant and discharging the compressed refrigerant.

In addition, a muffler 13 having a predetermined shape is erected and fixed to the upper part of the cylinder head 11 so as to be in close contact with the stator 3, and the muffler 13 has a suction pipe installed through the lower container 2. (14) is fixed.

In the conventional hermetic compressor as described above, the suction process in which the refrigerant sucked through the suction pipe 14 passes through the muffler 13 and passes through the cylinder head 11 and the valve device 12 and then flows into the cylinder 8. And a compression process in which the suction refrigerant is compressed by the linear reciprocating motion of the piston 10 according to the rotation of the crankshaft 6, and the refrigerant compressed in the cylinder 8 is again the valve device 12 and the cylinder. The discharge process discharged to the outside along the discharge path through the head 11 is repeated.

The piston 10, which linearly reciprocates in the above-described cylinder 8, can be reciprocated in correspondence with the cylinder 8, as shown in FIGS. 1 and 2, so that the inner diameter of the cylinder 8 and the piston 10 can be reciprocated. ) The outer diameter maintains a minute gap. At this time, the gap of the upper side (a) of the cylinder 8 is usually maintained twice or more than the gap of the lower side (b). Here, when the piston 10 is coupled to the cylinder 8, it is positioned to the lower side (b) of the cylinder 8 by the weight of the piston 10, and as a result, than the lower side (b) of the cylinder 8 The gap on the upper side a becomes large.

In order to smoothly reciprocate the piston 10 in the cylinder 8, oil is supplied to a predetermined portion of the piston pin 16 that couples the piston 10 and the connecting rod 15. Oil is supplied around the pin 16 to lubricate between the cylinder 8 and the piston 10. As a result, the piston 10 is linearly reciprocated in the cylinder 8 while continuing the process of sucking and discharging the refrigerant.

However, such a piston lubricator of the conventional compressor is the piston 10 and the cylinder 8 because the oil supplied to the piston pin 16 is stagnated around the piston pin 16 without flowing to the surface of the piston 10. There was a problem that the lubrication action is not made smoothly.

Accordingly, the present invention is to solve the above problems, an object of the present invention is to provide a piston lubrication device of the compressor to smoothly lubrication between the piston and the cylinder.

1 is a cross-sectional view showing a typical compressor,

2 is a perspective view showing a piston installed in a conventional compressor,

3 is a cross-sectional view of a conventional cylinder and the piston is coupled,

4 is a perspective view schematically showing a piston according to the present invention,

5 is a cross-sectional view of the cylinder and the piston of the present invention are combined.

<Description of the code used in the main part of the drawing>

100: cylinder 200: piston

230: coupling hole 250: oil groove

300: connecting rod 400: piston pin

The object of the present invention described above is a piston of a compressor having a piston corresponding to an inner circumference of a cylinder and a piston pin inserted into a coupling hole formed in the piston predetermined portion so that a connecting rod and a piston are coupled to each other. By forming an oil groove in the outer peripheral surface in communication with the predetermined portion of the coupling hole, the oil supplied to the coupling hole is achieved by providing a piston lubricator of the compressor, characterized in that flow through the oil groove to the piston surface do.

According to a preferred feature of the present invention, the oil groove,

It is formed in an X (x) shape around the coupling hole.

Other features and effects of the present invention will become more apparent from the preferred embodiments of the present invention, which will be described in detail below with reference to the accompanying drawings.

Accompanying drawings Figure 4 is a perspective view schematically showing a piston according to the present invention, Figure 5 is a cross-sectional view of the cylinder and the piston of the present invention is coupled.

As shown in FIGS. 4 and 5, the piston lubricator of the compressor according to the present embodiment is formed to correspond to a cylinder 100 having an inner space and an inner circumference of the cylinder 100, and the cylinder 100. The piston 200 which linearly reciprocates within is provided. The center predetermined portion of the above-described piston 200 forms a coupling hole 230, and is provided with a piston pin 400 inserted into the coupling hole 230 so that the piston 200 and the connecting rod 300 are coupled to each other. do.

The outer periphery of the above-described piston 200 forms an oil groove 250 in communication with the coupling hole 230 around the coupling hole 230, so that the oil supplied to the coupling hole 230 is the oil groove 250. ) To flow on the surface of the piston (200). Here, the piston 200 is coupled to the cylinder 100 to supply oil around the piston pin 400 inserted into the coupling hole 230 so as to minimize the frictional loss during the linear reciprocating motion.

The oil groove 250 described above is formed in an X (x) shape around the coupling hole 230 to cover the entire surface portion of the piston 200. Oil flows through the oil groove 250 through the entire surface of the piston 200, so that the piston 200 smoothly moves in the cylinder 100.

In another preferred form of the oil groove 250, along the outer circumferential surface of the piston 200 to form a straight groove in communication with the coupling hole 230, the oil supplied through the coupling hole 230 is always a constant amount You can keep it. The shape of the oil groove may form several in the transverse direction of the piston 200, so that the piston 200 may be balanced in the process of linear reciprocating motion in the cylinder 100.

When the oil groove 250 is formed on the outer circumferential surface of the piston 200 as described above, when the cylinder 100 is coupled to the linear reciprocating motion, the oil is supplied around the piston pin 400 of the coupling hole 230. The oil supplied to the periphery of the piston pin 400 flows through the oil groove 250 communicating with the coupling hole 230, and the oil groove 250 is formed over the entire surface of the piston 200. Therefore, as a result, the oil covers the entire surface of the piston 200 through the oil groove 250. Here, the oil flowing through the entire surface of the piston 200, the friction between the cylinder 100 and the piston 200 is reduced, and the intake and discharge process of the refrigerant by the linear reciprocating motion of the piston 200 is repeated It is done smoothly.

When the oil is supplied to the periphery of the piston pin 400 coupled to the coupling hole 230 and the oil is supplied to the surface of the piston 200 through the oil groove 250, the oil shown in FIG. As described above, the same amount of oil is present on the upper side (c) and the lower side (d) of the piston 200. Here, the gap of the upper side (c) is maintained by about two times or more than the gap of the lower side (d) by the weight of the piston 200, oil in the oil groove 250 of the lower side (d) Since it is accommodated, even if there is no clearance of the lower side d, the lubrication between the cylinder 100 and the lower side d of the piston 200 does not interfere. Then, the piston 200 is moved to the upper side (c) by the oil pressure present in the lower side (d) of the oil groove 250 of the piston 200 to perform a linear reciprocating motion, as a result of the cylinder 100 It keeps the balance within and linearly reciprocates.

As described above, according to the piston lubricator of the compressor according to the present invention, the oil supplied to the piston pin coupled to the coupling hole flows through the entire piston surface portion through the oil groove, so that the lubrication action between the piston and the cylinder is made smoothly. There is an effect.

Claims (2)

In a piston of a compressor having a piston corresponding to an inner circumference of a cylinder and a piston pin inserted into a coupling hole formed in the piston predetermined portion to connect the connecting rod and the piston to each other: An oil groove is formed on the outer circumferential surface of the piston to communicate with a predetermined portion of the coupling hole, so that oil supplied to the coupling hole flows to the piston surface through the oil groove. According to claim 1, The oil groove, Piston lubricator of the compressor, characterized in that formed in the x-shape around the coupling hole.