KR20070035743A - A hydraulic seal for persistence increase - Google Patents

Abstract

The present invention relates to a hydraulic seal for a hydraulic machine, and more particularly, is formed in a cylindrical shape, a plurality of beads (11) is formed on the inside and compressed to the shaft (20) by an O-ring spring on the outside. In the hydraulic seal 10 for preventing oil from entering and leaking, the plurality of beads 11 formed to gradually increase in diameter from one end of the hydraulic seal 10 to the other end in the axial direction are formed of the spring 13. Durability, characterized in that to be made to contact the shaft 20 by the spring force (F _s ) and the hydraulic force (F _h ) in order to increase the durability of the hydraulic seal can extend the life of the product A hydraulic seal for increasing.

Hydraulic Seals, Oils, Springs, Beads

Description

Hydraulic Seal for Persistence Increase

1 is a partial cross-sectional view schematically showing a hydraulic seal according to the prior art.

2 is a partial cross-sectional view schematically showing a hydraulic seal according to the present invention.

3 is a cross-sectional view schematically showing the primary wear state of the hydraulic seal according to the present invention.

4 is a cross-sectional view schematically showing the secondary wear state of the hydraulic seal according to the present invention.

5 is a cross-sectional view schematically showing the tertiary wear state of the hydraulic seal according to the present invention.

The present invention relates to a hydraulic seal for a hydraulic machine, and more particularly, is formed in a cylindrical shape, a plurality of beads are formed on the inner side and the hydraulic pressure is compressed to the shaft by the O-ring-shaped spring on the outer side to prevent oil inflow and leakage In the seal, a plurality of beads formed to gradually increase in diameter from one end of the hydraulic seal to the other end in the axial direction are made to sequentially contact the shaft by the elastic force and the hydraulic force of the spring, thereby increasing the durability of the hydraulic seal. It relates to a hydraulic seal for increasing durability, characterized in that can extend the life of the product.

In general, hydraulic seals used in various hydraulic machines are oil leaks due to aging seal wear until the hydraulic machine is discarded after a long operation. There is problem to do.

In order to solve this problem, as shown in Figure 1, formed in a cylindrical shape according to the prior art is formed a plurality of beads 110 on the inside and the O-ring-shaped spring 120 on the outside Hydraulic seals 100 have been used that are compressed on shafts (not shown) to prevent oil from entering and leaking.

However, in the conventional hydraulic seal 100, as the shaft (not shown) operates, a plurality of beads 110 are worn, which is applied to the hydraulic seal 100 by an elastic force to be compressed from the spring 120 from the outside. As the formed bead 110 is worn, there is a problem in that the life of the product does not follow the life of the hydraulic machine or the degree of wear is severe, causing the oil rig phenomenon.

An object of the present invention for resolving the above problems is, in the hydraulic seal which is formed in a cylindrical shape and a plurality of beads are formed on the inner side and compressed to the shaft by an O-ring-shaped spring on the outer side to prevent the inflow and leakage of oil. In this case, the plurality of beads formed to gradually increase in diameter from one end of the hydraulic seal to the other end in the axial direction are made to sequentially contact the shaft by the elastic force and the hydraulic force of the spring, thereby increasing the durability of the hydraulic seal, thereby increasing the service life of the product. It is to provide a hydraulic seal for increasing durability, characterized in that can be extended.

The present invention relates to a hydraulic seal for a hydraulic machine, and more particularly, is formed in a cylindrical shape, a plurality of beads are formed on the inner side and the hydraulic pressure is compressed to the shaft by the O-ring-shaped spring on the outer side to prevent oil inflow and leakage In the seal, a plurality of beads formed to gradually increase in diameter from one end of the hydraulic seal to the other end in the axial direction are made to sequentially contact the shaft by the elastic force and the hydraulic force of the spring, thereby increasing the durability of the hydraulic seal. Characterized in that can extend the life of the product.

One or more springs may be further provided, and the plurality of beads may have different sizes, and the plurality of beads may have a semicircular shape and a conical shape.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a partial cross-sectional view schematically showing a hydraulic seal according to the present invention, Figure 3 is a schematic cross-sectional view showing a primary wear state of the hydraulic seal according to the present invention, Figure 4 is a secondary of the hydraulic seal according to the present invention 5 is a cross-sectional view schematically showing a wear state, and FIG. 5 is a cross-sectional view schematically showing a third wear state of the hydraulic seal according to the present invention.

Hydraulic seal for increasing durability according to the present invention is formed in a cylindrical shape, as shown in Figure 2, a plurality of beads (11) is formed on the inside and the O-ring (O-ring) on the outside is a predetermined elastic force Compressed to the shaft 20 by a spring 13 having a made to prevent the inflow and leakage of oil.

At this time, by forming a plurality of beads 11 to gradually increase the size of the diameter from one end of the hydraulic seal 10 to the other end in the axial direction, by the elastic force of the spring 13 and the external hydraulic force Mechanism to guide the two beads 11 to sequentially contact the shaft 20 so that sequential wear occurs according to the wear with the shaft 20, so that the sealing surface, like a new one, can be kept up to date mechanism is feasible.

This mechanism is achieved by the sequential wear of the hydraulic seal 10, as shown in FIGS. 3 to 5.

The spring force is represented by F _s and the hydraulic force is represented by F _h . The size of the arrow indicates the magnitude of the force.

The primary wear (see FIG. 3) of the hydraulic seal 10 is that the bead 11 at the bottom of the cylindrical inner circumferential surface is worn first.

At this time, as the hydraulic machine operates to rotate the shaft 20, the physical force acting on the hydraulic seal 10 is a spring force F received by the O-ring-shaped spring 13 having a constant elastic force. _s ) is greater than the hydraulic force (F _h ) acting from the outside of the hydraulic seal (10).

Therefore, the bead 11 at the bottom of the plurality of beads 11 which are sequentially in contact with the shaft 20 first wears first.

Secondary wear (see Fig. 4) is that the hydraulic force (F _h ) acting from the outside at the position of the bead 11 worn at the bottom of the inner circumferential surface of the hydraulic seal 10 is greater than when the primary wear And the spring force F _s of the spring 13 is offset by a small amount than during the primary wear but still acts larger than the hydraulic force F _h .

Finally, the third wear (see FIG. 5) is that the hydraulic seal 10 is located at the top of the inner circumferential surface of the hydraulic seal, and the bead 11 is smaller than that of the primary and secondary wear. The inner circumferential surface of the position of the bead 11 worn from the bottom at the same time as the sealing function by the spring force (F _s ) is a large hydraulic pressure (F _h ) from the outside acts as the shaft 20 It is in close contact with the outer peripheral surface of the sealing (sealing) function.

Through this mechanism, the hydraulic seals 10 according to the present invention are sequentially formed so that the diameter of the plurality of beads 11 gradually increases from the lower end of the hydraulic seal 10 to the upper end in the axial direction. As the contact force of the shaft 20 is sequentially worn by the elastic force and the hydraulic force of (13), there is an advantage in that the sealing durability performance can be realized more than the conventional products.

On the other hand, it is preferable that the spring 13 is provided with one or more more, it is preferable that the plurality of beads 11 are formed to be different in size from each other to be able to adjust the wear time of the bead (11). .

In addition, in the present invention, the shapes of the plurality of beads 11 are shown in a semicircular shape, but the shapes of the plurality of beads 11 may be formed in various shapes such as conical shapes to increase durability of the hydraulic seal 10. There is an advantage to this.

The present invention relates to a hydraulic seal for a hydraulic machine, and more particularly, is formed in a cylindrical shape, a plurality of beads are formed on the inner side and the hydraulic pressure is compressed to the shaft by the O-ring-shaped spring on the outer side to prevent oil inflow and leakage In the seal, a plurality of beads formed to gradually increase in diameter from one end of the hydraulic seal to the other end in the axial direction are made to sequentially contact the shaft by the elastic force and the hydraulic force of the spring, thereby increasing the durability of the hydraulic seal. It has the effect of extending the life of the product.

In addition, the spring may be provided with a plurality of one or more, the plurality of beads can be formed differently in size, the plurality of beads are semi-circular shape and can be formed in various shapes such as conical shape of the hydraulic seal There is an effect that can increase the durability.

Claims (5)

In the hydraulic seal (10) formed in a cylindrical shape, a plurality of beads (11) are formed on the inner side and compressed to the shaft (20) by an O-ring-shaped spring (13) on the outer side to prevent the inflow and leakage of oil. The plurality of beads 11 formed to gradually increase in diameter from one end of the hydraulic seal 10 to the other end in the axial direction may be formed by the spring force F _s and the hydraulic force F _h of the spring 13. Hydraulic seal for increasing durability, characterized in that made in order to sequentially contact the shaft (20). 2. The hydraulic seal for increasing durability according to claim 1, wherein the spring (13) may further include one or more pieces. 2. The hydraulic seal for increasing durability according to claim 1, wherein the plurality of beads (11) can be formed in different sizes. 2. The hydraulic seal for increasing durability according to claim 1, wherein the plurality of beads (11) are semi-circular in shape. The hydraulic seal of claim 1, wherein the plurality of beads (11) may be formed in various shapes such as conical shapes.

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