KR20090112245A - Piston Device for a Compressor - Google Patents

Abstract

PURPOSE: A piston device for a compressor is provided to extend the service life of the piston by keeping the airtightness of lip seals for a long time. CONSTITUTION: A piston device for a compressor comprises a piston body and a connecting rod. The piston body reciprocates within cylinder(1) in an airtight manner. The connecting rod(4) is installed to eccentrically connect to a crank arm(3). A horizontal axis(5) connects the inner lower side of the piston body and the upper side of the connecting rod. A top lip seal(20) and a bottom lip seal(21) are installed on the piston body.

Description

Piston device for a compressor

The present invention relates to a compressor piston device, and more particularly, to a compressor piston device in which a reciprocating motion is performed inside a cylinder in a piston compressor.

In general, in the case of a piston compressor, the piston is configured to perform the function of the compressor as the reciprocating motion is performed in the cylinder, and the piston used here has a specific shape in the process of reciprocating in the cylinder. If the long time passes while the deformation and return to the circle is repeated, the leakage is often not due to partial leakage, and the life of the cup seal, which performs the sealing function at the piston, is shortened. have.

Therefore, the present inventors have already proposed the "compressor piston device and its manufacturing method" of Korean Patent Publication No. 10-0591527 as part of solving the conventional problem to some extent.

In the case of the prior art, the piston rod is integrally formed so that the connecting rod is angularly displaced inside the cylinder, and even though the piston is reciprocated, the piston rod receives the deformation sufficiently during operation and is durable. On the other hand, the following problems have occurred while prolonging the service life and preventing the occurrence of leakage during use.

That is, as the piston moves up and down inside the cylinder in a fixed state, the piston moves up, down and angularly at the same time. As a result, the inner wall of the cylinder and the lip seal of the piston come into contact with each other. From time to time and from circular to elliptical, the effect of maintaining the airtightness is significantly lowered over time, which is not desirable for the service life. I can't.

The present invention has been made with the following objectives to fundamentally solve such a conventional problem.

An object of the present invention is to move the piston to move up and down inside the cylinder does not show the angular displacement, while maintaining a horizontal state at a constant position simply by raising and lowering in the vertical direction is constant without deformation of the lip seal It is intended to extend the service life of the piston by maintaining the state as it is going up and down as it is possible to maintain the airtight maintenance function of the lip seal for a long time.

Another object of the present invention is to install a lip seal on the piston body at the top and bottom at the same time to further improve the airtight performance, to improve the operational stability, to improve the structure to improve the assemblability and use more economically To be.

In order to achieve the above object, according to the present invention, the piston body reciprocating in the airtight state in the cylinder, and the connecting rod which is installed to be coupled to the crank arm and eccentrically configured to separate, but the lower inner and It provides a compressor piston device formed by coupling the upper portion of the connecting rod in the horizontal axis.

In addition, the piston body provides a compressor piston device made by installing the upper lip seal and the lower lip seal at the same time.

Furthermore, the piston body has a disk-shaped upper lip seal fixing member having fastening holes on both sides from an upper side, an upper lip seal having fastening holes on both sides, and fastening holes on both sides, and an upper lip seal sheet part is formed and a lower accommodating shaft portion. An upper shaft fixing member having a portion and a connecting rod receiving portion, a lower shaft fixing member having a fastening hole on both sides and an upper shaft holding portion and a connecting rod receiving portion, and having a lower seal seat portion formed thereon, and a connecting rod having a fastening hole on both sides. A lower lip seal having a receiving portion, and a lower lip seal fixing member having a connecting rod receiving portion therein, and a connecting rod having a fastening hole formed therein, and accommodating an upper shaft engaging portion of the connecting rod inside the connecting rod receiving portion. The upper and lower shaft fixing member in the state in which the horizontal axis is coupled to the shaft receiving portion and the upper shaft coupling portion in the state. Combining the upper, lower lip seal and the fastening hole in the state in which the fastening hole is coupled to the fastening hole to provide a compressor for the compressor device is configured by fitting the fastening holes respectively.

During operation, when the motor shaft is rotated by the drive motor, the crank arm installed on the motor shaft is rotated and the connecting rod eccentrically installed on the crank arm is driven, thereby raising and lowering the piston body inside the cylinder. The upper part of the piston body is coupled to each other by the horizontal axis, so the piston body rides on the inner surface of the cylinder without any angular displacement, and ascends and descends as it is, so that the external gas flows into the upper space of the piston body as the cylinder. Compressor function is performed by the operation of forcibly discharging to the outside of the cylinder.

Therefore, the movement of the piston body that is moved up and down inside the cylinder does not show the angular displacement and maintains the horizontal state at a constant position, so that the up and down is simply performed in the vertical direction without deformation of the upper and lower lip seals. The airtight function of the upper and lower lip seals can be maintained for a long time by allowing the upper and lower lip seals to be maintained while maintaining a constant state, thereby significantly extending the service life of the piston body, and the upper and lower lip on the piston body. Simultaneous installation of seals improves hermetic performance or operational stability, and improves its assembly and improves its economical efficiency.

According to a preferred embodiment of the compressor piston device of the present invention as illustrated in FIGS. 1 to 4, the piston body 2 and the crank arm 3 reciprocating in the airtight state inside the cylinder 1 It is configured by separating the connecting rod (4) which is installed in an eccentric coupling, the lower inner side of the piston body (2) and the upper portion of the connecting rod (4) is made by coupling the shaft to the horizontal axis (5).

In addition, the piston body (2) is installed at the same time the upper lip seal 20 and the lower lip seal 21 at the top, the bottom can be kept in double airtight to increase the airtight effect and further increase the service life. It is preferable to configure so that extension is possible.

Furthermore, the piston body 2 is a disk-shaped upper lip seal fixing member 22 having a fastening hole 221 on both sides from an upper side, an upper lip seal 20 having fastening holes 201 on both sides, and fastening on both sides. An upper shaft fixing member 23 having a ball 231 and an upper lip seal sheet part 232 formed therein and having a lower shaft receiving part 233 and a connecting rod receiving part 234, and fastening holes 241 on both sides. The lower shaft fixing member 24 having the shaft receiving part 243 and the connecting rod receiving part 244 at the upper part, and the lower lip seal sheet part 242 formed thereon, and fastening holes 211 at both sides. Lower lip seal 21 having a connecting rod receiving portion 214, and a lower lip seal fixing member having a connecting protrusion 252 having a fastening hole 251 formed therein and a connecting rod receiving portion 254 therein. 25 and the shaft in a state in which the upper shaft engaging portion 40 of the connecting rod 4 is accommodated inside the connecting rod receiving portions 214 and 244. The upper and lower shaft fixing members 23 and 24 are coupled to the accommodating parts 233 and 243 and the upper shaft coupling part 40 while the horizontal shaft 5 is coupled to the upper and lower lip seals 20 and 21. Combining the fastening holes 201, 211, 221, 231, 241 to the fastening holes 251 in the state in which the fastening projections 252 are coupled to each other, the configuration is made.

In the case of the compressor piston device of the present invention as described above, when the motor shaft is rotated by the drive motor during operation, the connecting rod (4) eccentrically installed on the crank arm (3) is rotated by rotating the crank arm (3) installed on the motor shaft. As a result, the piston body 2 inside and outside the cylinder 1 is raised and lowered. The upper shaft coupling portion 40 and the piston body 2 of the connecting rod 4 are connected to each other by a horizontal shaft 5. Since the piston body 2 together with the connecting rod 4 moves up and down inside the cylinder 1, the piston body 2 moves the inner surface of the cylinder 1 in a horizontal state without angular displacement. If the piston body 2 is lowered inside the cylinder 1 as the riding and lifting operation is performed as it is, the external gas flows into the upper space of the piston body 2 as the interior of the cylinder 1. When the piston body 2 rises and compresses the inside of the cylinder 1 again, the gas introduced into the cylinder 1 is forced out of the cylinder 1 by a compressor. Will perform its own function.

That is, as the reciprocating operation of the piston main body 2 is repeatedly performed in the interior of the cylinder 1 as described above, the operation of the compressor for continuously compressing and discharging the gas inside the cylinder 1 to the outside continuously. Will be done.

Therefore, the movement of the piston body 2, which is moved up and down inside the cylinder 1, does not exhibit any angular displacement phenomenon in the conventional piston compressor, and the piston body 2 always maintains the horizontal state while maintaining the cylinder. The airtightness of the lip seals 20 and 21 is made by simply raising and lowering them in the vertical direction so that the lip seals 20 and 21 can be lifted and lowered while maintaining a constant state without deformation of the lip seals 20 and 21. Since the holding function can be maintained for a long time, the service life of the piston body 2 can be significantly extended, and the lip seals 20 and 21 are simultaneously installed on the upper and lower parts of the piston body 2 to maintain the airtight performance. While improving the operational stability, the structure of the piston body 2 is drastically improved to improve the assemblability and to be more economically available industrially.

1 is an exploded perspective view showing main parts of a preferred example of the present invention;

Figure 2 is a longitudinal cross-sectional view illustrating a state in which the piston body is located in the middle portion of the inside of the cylinder in the engaged state of Figure 1,

Figure 3 is a longitudinal cross-sectional view illustrating a state in which the piston body in the upper portion in the interior of the cylinder in the engaged state of Figure 1,

Figure 4 is a longitudinal cross-sectional view illustrating a state in which the piston body in the lower portion in the interior of the cylinder in the engaged state of Figure 1;

Claims (3)

The piston body (2) reciprocating in an airtight state inside the cylinder (1) and the connecting rod (4) which is installed in an eccentric manner with the crank arm (3) are separated and configured, Compressor piston device characterized in that the lower inner and the connecting rod (4) is made by coupling the shaft to the horizontal axis (5). The method of claim 1, Compressor piston device, characterized in that the piston body (2) is made by installing the upper lip seal (20) and the lower lip seal (21) at the same time. The method of claim 1, The piston body 2 is a disk-shaped upper lip seal fixing member 22 having a fastening hole 221 on both sides from the top, an upper lip seal 20 having a fastening hole 201 on both sides, An upper shaft fixing member 23 having a fastening hole 231 on both sides and an upper lip seal sheet part 232 is formed and a lower shaft receiving part 233 and a connecting rod receiving part 234. A lower shaft fixing member 24 having a fastening hole 241 at both sides and having a shaft receiving portion 243 and a connecting rod receiving portion 244 at an upper portion thereof, and a lip seal sheet portion 242 formed at a lower portion thereof; Lower lip seal 21 having a fastening hole 211 on both sides and having a connecting rod receiving portion 214, and It is composed of a lower lip seal fixing member 25 having a fastening protrusion 252 having a fastening hole 251 formed therein and a connecting rod receiving portion 254 therein. The upper shaft coupling part 40 of the connecting rod 4 is accommodated inside the connecting rod receiving parts 214 and 244, and the horizontal shaft 5 is coupled to the shaft receiving parts 233 and 243 and the upper shaft coupling part 40. Combine the upper and lower shaft fixing members (23, 24) in the state, The upper and lower lip seals 20 and 21 are coupled and the fastening holes 201, 211, 221, 231 and 241 are coupled to the fastening holes 251 in the state where the fastening protrusions 252 are coupled to each other so that the configuration is achieved. Compressor piston device characterized by the above-mentioned.

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