KR102004672B1 - Grease gun sealing piston for low viscosity - Google Patents

Abstract

There is provided a grease gun sealing piston which is applied to a low viscosity grease gun supplying a liquid grease with a very low viscosity. A low viscosity grease gun sealing piston according to an embodiment of the present invention moves from the rear end to the front end along the longitudinal direction of the grease gun and presses the grease contained in the grease gun; A sealing seal provided at a front end of the main body so as to maintain the sealing so that the grease does not flow back to the rear end; And a first o-ring provided at the rear end of the main body so as to prevent the grease lubricating oil leaking between the sealing seal and the inner periphery of the grease gun from flowing back to the rear end of the main body. Thereby, the grease can be stably operated until the grease lubricating oil filled therein is completely consumed by double-sealing the grease so that the grease does not flow back to the rear end of the main body.

Description

[0001] The present invention relates to a low-viscosity grease gun sealing piston,

The present invention relates to a grease gun sealing piston, and more particularly, to a grease gun sealing piston applied to a low viscosity grease gun supplying a liquid grease with a very low viscosity.

Generally, in industrial machinery, the driving site lubricating oils include liquid oil lubricants and semi-solid grease lubricants. Among them, grease is supplied through grease with automatic grease injector or manual grease gun. In the conventional manual grease gun, grease lubrication oil is charged to grease gun to supply grease lube oil, and then grease Lubricants are supplied, and power plant MV drive valves supply grease in this way.

As described above, the grease lubricating oil supplied to the MV valve system currently used in the power plant is a liquid type grease having a very low viscosity. The grease gun housing is filled with a grease having a low viscosity and filled in the grease gun housing. The grease leaks between the provided grease seal and the inner diameter of the housing of the grease gun, and the leaked grease lubricates back to the rear end of the grease gun, which may cause the grease gun to operate normally.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a low viscosity grease gun sealing piston which improves the structure so that the sealing piston is doubly sealed and prevents the grease lubricating oil from flowing back to the rear end. .

According to an aspect of the present invention, there is provided a low viscosity grease gun sealing piston for moving from a rear end to a front end along a longitudinal direction of a grease gun, and pressing the grease contained in the grease gun; A sealing seal provided at a front end of the main body so as to maintain the sealing so that the grease does not flow back to the rear end; And a first o-ring provided at the rear end of the main body so as to prevent the grease lubricating oil leaking between the sealing seal and the inner periphery of the grease gun from flowing back to the rear end of the main body.

The sealing seal is formed in a truncated cone shape in which the diameter of the circumference decreases from the front end to the rear end along the direction opposite to the moving direction of the main body so that the sealing state of the grease is continuously maintained. Can be formed to be equal to the inner peripheral diameter.

Further, the low viscosity grease gun sealing piston according to an embodiment of the present invention is provided at the rear end of the main body and is disposed at the rear end of the first o-ring, and grease lubricating oil, which leaks between the outer periphery of the main body and the inner periphery of the grease gun, And a second O-ring to prevent backflow to the rear end of the second O-ring.

And at least one O-ring of the first O-ring and the second O-ring may be formed in a rectangular shape in cross section so as to effectively prevent leakage of the grease to the inner periphery of the grease gun.

Also, the first O-ring and the second O-ring may be formed at a height of 0.125 times or more the height of the main body so that the grease does not flow back effectively to the rear end of the main body.

And the first O-ring and the second O-ring can be arranged such that the distance between them is twice the height so that the grease does not flow back effectively to the rear end of the main body.

According to an embodiment of the present invention, a low viscosity grease gun sealing piston is provided at a rear end of a main body in which a first O-ring is disposed, and is provided between an inner periphery of the main body and a housing rod penetrating the main body, And a third O-ring for preventing the grease lubricating oil leaking between the housing rods from flowing back to the rear end of the main body; And a fourth O-ring provided at the rear end of the main body in which the second O-ring is disposed, the fourth O-ring being provided between the inner periphery of the main body and the housing rod so that grease lubrication oil leaked between the third O-ring and the housing rod does not flow back to the rear end of the main body .

The main body may be provided with a plurality of inlet grooves at a position corresponding to a position where the third O-ring and the fourth O-ring are disposed along the inner circumference so that the third O-ring and the fourth O-ring are received.

In addition, the main body is provided with a plurality of recessed grooves for preventing the grease lubricating oil from leaking between the respective inlet grooves and the third o-ring or the fourth o-ring after the third o-ring or the fourth o- As shown in Fig.

And each step is effectively prevented from leaking the grease to the gap between the respective inlet grooves and the third O-ring or the fourth O-ring when the heights of the third O-ring and the fourth O-ring are equal to the heights of the first O- The height may be formed to be 0.2 times or more the height of the third O-ring and the fourth O-ring.

As described above, according to the embodiments of the present invention, the grease lubricating oil is double-sealed so as not to flow back to the rear end of the main body, so that the grease gun stably operates until the grease filled in the grease is completely consumed .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view of a grease gun to which a low viscosity grease gun sealing piston according to an embodiment of the present invention is applied,
2 is a view provided in the description of a low viscosity grease gun sealing piston according to an embodiment of the present invention, and
3 is a view provided in the description of a main body according to an embodiment of the present invention.

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

FIG. 1 is a view of a grease gun 10 to which a low-viscosity grease gun sealing piston according to an embodiment of the present invention is applied. FIG. 2 is a cross-sectional view of a grease gun sealing piston according to an embodiment of the present invention. Fig. The low viscosity grease gun sealing piston according to an embodiment of the present invention is provided so as to improve the structure so as to double seal the grease so that the grease does not flow back to the rear end.

For this purpose, the low viscosity grease gun sealing piston according to an embodiment of the present invention includes a main body 100, a sealing seal 200, a first O-ring 300, a second O-ring 400, a third O-ring 500, And a fourth O-ring 600.

The main body 100 is provided at the rear end of the grease lube oil storage part 11 for storing grease lubrication oil in the grease gun 10 and is provided at the rear end of the main body 100 through the housing rod 12, It is possible to press the grease lubricating oil accommodated in the grease gun 10 by moving along the longitudinal direction of the grease gun 10 by the compression spring 13 disposed along the longitudinal direction of the housing rod 12. [

At this time, the main body 100 can be manufactured using Teflon, which is a polytetrafluoroethylene fiber having excellent chemical resistance, heat resistance and hydrophobicity.

The sealing seal 200 is provided at the front end of the main body 100 and is provided to maintain the sealing so that the grease does not flow back to the rear end.

Specifically, the sealing seal 200 is formed in a truncated cone shape in which the diameter of the circumference decreases from the front end to the rear end along the direction opposite to the moving direction of the main body 100, so that the sealing state of the grease is continuously maintained. The diameter of the circumference may be the same as the inner circumference diameter of the grease gun 10.

The first O-ring 300 is provided at the rear end of the main body 100 so that the grease lubricating oil leaked between the sealing seal 200 and the inner peripheral edge of the grease gun 10 can not flow back to the rear end of the main body 100 .

That is, when the grease lubricant is released from the primary seal by the sealing seal 200 and leaks to the space between the sealing seal 200 and the inner circumference of the grease gun 10, the first O- And can be prevented from flowing back to the rear end of the main body 100.

In addition, the first O-ring 300 is formed in a rectangular shape in cross section to effectively prevent leakage of grease from the grease between the sealing seal 200 and the inner circumference of the grease gun 10. [

The second O-ring 400 is provided at a rear end of the main body 100 and is disposed at a rear end of the first O-ring 300 or the rear end of the first O-ring 300 or the main body 100, It is possible to prevent the lubricating oil from leaking to the rear end of the main body 100 from flowing backward.

The second O-ring 400 also has a rectangular cross section to effectively prevent leakage of grease from the first O-ring 300 or between the outer periphery of the main body 100 and the inner periphery of the grease gun 10. [ .

The third O-ring 500 is provided between the inner circumference of the main body 100 and the housing rod 12 which penetrates the main body 100 and is provided at the rear end of the main body 100 in which the first O-ring 300 is disposed , It is possible to prevent the grease lubricating oil leaking between the inner periphery of the main body 100 and the housing rod 12 from flowing back to the rear end of the main body 100.

The fourth O-ring 600 is provided at the rear end of the main body 100 in which the second O-ring 400 is disposed and is provided between the inner circumference of the main body 100 and the housing rod 12, It is possible to prevent the grease lubricating oil that leaks between the housing rod 12 and the housing rod 12 from flowing back to the rear end of the main body 100.

That is, the first O-ring 300 and the second O-ring 400 are provided between the outer periphery of the main body 100 and the inner periphery of the grease gun 10, and the third O- The first O-ring 300 is concentric with the third O-ring 500 and the second O-ring 400 is disposed between the inner periphery of the main body 100 and the housing rod 12, ) And a concentric relationship.

The third O-ring 500 and the fourth O-ring 600 are also formed in a rectangular shape in cross section to effectively prevent leakage of grease from the inner periphery of the main body 100 and the housing rod 12. [

3 is a view provided in the description of the main body 100 according to an embodiment of the present invention. The main body 100 according to the embodiment of the present invention is characterized in that the first O-ring 300 and the second O-ring 400 are provided between the outer periphery and the inner periphery of the grease gun 10 as described above, A third O-ring 500 and a fourth O-ring 600 may be provided between the housing rods 12.

The first O-ring 300 and the second O-ring 400 have a height h2 of not less than 0.125 times the height h0 of the main body 100 so that the grease does not flow back effectively to the rear end of the main body 100 , And may be arranged such that the spacing distance between them is twice the height h1.

Specifically, for example, when the height h0 of the main body 100 is 32 mm, the height h2 of the first O-ring 300 and the second O-ring 400 is 4 mm or more, (h1) may be arranged to be 8 mm.

The main body 100 has a structure in which the third O-ring 500 is disposed along the inner circumference in order to provide the third O-ring 500 and the fourth O-ring 600 between the inner circumference and the housing rod 12 The fourth O-ring 600 can be inserted at a position corresponding to a position where the first O-ring 500 and the fourth O-ring 600 are disposed at positions corresponding to the first O- A second inlet groove 120 may be provided.

The main body 100 has the third O-ring 500 housed in the first inlet groove 110 and the fourth O-ring 600 housed in the second inlet groove 120, First and second inlet grooves 110 and 120 are formed at the front ends of the first inlet groove 110 and the second inlet groove 120 in order to prevent the grease of the lubricating oil from leaking between the first and second O- The step 140 can be formed.

Here, the first and second stages 130 and 140 are formed such that the height h2 of the third O-ring 500 and the fourth O-ring 600 is greater than the height of the first O-ring 300 and the second O- the height h4 is greater than the height h4 of the third o-ring 500 and the fourth o-ring 600, in order to effectively prevent the grease from leaking between the respective inlet grooves and the third o- 4 of the O-rings 600. The height h2 of the O-

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

10: grease gun 11: grease lube oil reservoir
12: housing rod 13: compression spring
100: main body 110: first inlet groove
120: second inlet groove 130: first step
140: second step 200: sealing seal
300: first o-ring 400: second o-ring
500: Third O-ring 600: Fourth O-ring

Claims (10)

A body moving from the rear end to the front end along the longitudinal direction of the grease gun and pressing the grease contained in the grease gun;
A sealing seal provided at a front end of the main body so as to maintain the sealing so that the grease does not flow back to the rear end;
A first O-ring provided at a rear end of the main body so as to prevent the grease of lubricating oil leaking between the sealing seal and the inner circumference of the grease gun from flowing back to the rear end of the main body;
A second O-ring disposed at a rear end of the main body, the second O-ring being disposed at a rear end of the first O-ring so that grease lubricating oil leaking between the outer periphery of the main body and the inner periphery of the grease gun does not flow back to the rear end of the main body;
A lubricating oil supply unit provided at a rear end of the main body in which the first O-ring is disposed and provided between the inner periphery of the main body and the housing rod passing through the main body so that grease lubricating oil leaking into the space between the inner periphery of the main body and the housing rod does not flow back to the rear end of the main body 3 o-rings; And
And a fourth O-ring provided at the rear end of the main body in which the second O-ring is disposed, the fourth O-ring being provided between the inner periphery of the main body and the housing rod to prevent the grease lubricating oil leaking between the third O-ring and the housing rod from flowing back to the rear end of the main body and,
In the main body,
A plurality of inlet grooves are provided at positions corresponding to positions where the third O-ring and the fourth O-ring are disposed along the inner periphery so that the third O-ring and the fourth O-
After the third o-ring or the fourth o-ring is received in each of the inlet grooves, the front end of each inlet groove is individually provided with a step to prevent the lubricating oil from leaking between the respective inlet grooves and the third o- Wherein the low-viscosity grease gun sealing piston is made of a synthetic resin.
The method according to claim 1,
The sealing seal,
The diameter of the circumference at the front end is set to be equal to the inner circumference diameter of the grease gun so that the sealing state of the grease of the grease is continuously maintained along the direction opposite to the moving direction of the main body. Wherein the gasket is made of a synthetic resin.
delete The method according to claim 1,
At least one of the first O-ring and the second O-
Wherein a cross section of the grease gun is formed in a square shape to effectively prevent the grease of the grease from leaking through the inner periphery of the grease gun.
The method according to claim 1,
The first O-ring and the second O-
Is formed at a height of 0.125 times or more the height of the main body so that the grease does not flow back effectively to the rear end of the main body.
The method of claim 5,
The first O-ring and the second O-
Is arranged such that the spacing distance between them is twice the height of the first O-ring so that the grease does not flow back effectively to the rear end of the main body.
delete delete delete The method according to claim 1,
Each step has,
In order to effectively prevent leakage of the grease from between the respective inlet grooves and the third O-ring or the fourth O-ring when the height of the third O-ring and fourth O-ring is equal to the height of the first O-ring and the second O-ring, 3 < / RTI > and 4 < th > O-rings.

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