KR200484647Y1 - pressure seal for swivel jonit - Google Patents

Abstract

The present invention relates to a pressure chamber for use in a coupling portion of a swivel joint. More specifically, the present invention relates to a pressure chamber which is provided between coupling portions of different swivel joints to increase the fluidity of the passage formed inside the swivel joint, Not only the leakage of the fluid passing through is prevented but also the pressure in the outer direction of the pressure chamber is increased as the pressure of the oil passage is increased so that the oil tightness can be further increased while the space is secured on the inner side to increase the flexibility, A technical field of a pressure chamber for an easy swivel joint is disclosed.
In addition, this design is made of a material having high corrosion resistance, durability, and chemical resistance, and is effective in preventing wear and breakage due to corrosion or corrosion of a joint due to exposure to gas or fluid, By increasing the flexibility of the structure, the effect of facilitating the installation and the effect of increasing the pressure to the outside by the gas and the liquid passing through the flow path and improving the sealing function can be obtained.

Description

[0001] The present invention relates to a pressure seal for a swivel joint,

The present invention relates to a pressure chamber for use in a coupling portion of a swivel joint. More specifically, the present invention relates to a pressure chamber which is provided between coupling portions of different swivel joints to increase the fluidity of the passage formed inside the swivel joint, Not only the leakage of the fluid passing through is prevented but also the pressure in the outer direction of the pressure chamber is increased as the pressure of the oil passage is increased so that the oil tightness can be further increased while the space is secured on the inner side to increase the flexibility, The present invention relates to a pressure chamber for a swivel joint.

In general, various kinds of mechanical devices such as automobiles, industrial machines, pipes, etc. are provided with an O-ring (not shown) for preventing seizure by maintaining seals, ) Or a seal is installed.

The O-ring is generally circular in shape and circular in cross section, but may have a polygonal shape depending on the shape of the groove in which the O-ring is installed. In particular, since the shape of the O-ring is deformed in accordance with the close contact of the joining portion, airtightness, watertightness, and tightness (hereinafter, referred to as sealing function) are realized by the elastic force, It is common to install it in the groove.

The seals are mechanic seals which are installed at the joining parts of various devices to enhance their functions and enhance the sealing function by using o-rings as an element, and they are made of elastic materials such as O-rings, to be.

However, since the seal does not generally have a groove that is different from the O-ring, most of the portion not in contact with the inner surface of the O-ring is exposed, so that the seal comes in contact with gas or fluid. It is made of a material having high corrosion resistance, durability, and chemical resistance and has a problem of low elasticity as compared with the elasticity of the O-ring.

That is, when the seal is low in elasticity as compared with an O-ring and is installed at a joint portion of various devices, the seal is installed in a forced fit manner to improve the sealing function of the joint portion, There was a problem of breakage.

Particularly, in a structure of a device in which a coupling part is rotated like a swivel jonit, it is made of a more durable material in order to prevent abrasion and breakage due to frictional force due to rotation, .

In addition, a seal provided in a swivel joint is formed with a passage through which a gas, fluid, or the like can move inwardly. The seal surface is exposed to the inner surface of the seal, It is required to develop seals to prevent corrosion and function.

Korean Patent Publication No. 10-2004-0044606 Korea Public Utility Model No. 20-1998-055405

The present invention has been made in order to solve the above-mentioned problems of the prior art. Conventional seal is difficult to install in a tight fitting manner, is exposed to gas, fluid, etc., The solution for the swivel joint is provided between the engaging parts of the different swivel joints so as to increase the fluidity of the flow path formed inside the swivel joint as well as to increase the flexibility of the inner side by ensuring the space, The main purpose is to provide yarn.

In one embodiment, the pressure chamber is provided between the engaging portions of the different swivel joints. The pressure chamber includes at least one groove formed in an annular shape on an inner surface thereof. The groove has a plurality of bends protruding inward And the shape of the side end face is formed in a shape of '⊃', a half circle or a polygon.

According to another embodiment of the present invention, there is provided a pressure chamber provided between engaging portions of different swivel joints, wherein the pressure chamber is formed by a plurality of radial inner grooves and a plurality of auxiliary grooves formed between adjacent grooves, The grooves are characterized in that the shape of the side cross-section is in the shape of "⊃", semicircle or polygon.

The pressure chamber for a swivel joint according to the present invention is made of a material having high corrosion resistance, durability, and chemical resistance and can be prevented from being exposed to gas or fluid to prevent corrosion or abrasion due to friction at a bonding site, By securing a space on the inner surface and increasing the flexibility of the structure, it is possible to obtain an effect of facilitating the installation and an effect of increasing the pressure to the outside by the gas and the liquid passing through the channel and improving the sealing function.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a side cross-sectional view showing a coupling of a conventional swivel joint; Fig.
2 is a side cross-sectional view showing the coupling of a swivel joint using a pressure chamber according to a preferred embodiment of the present invention;
3 is a cross-sectional perspective view of a pressure chamber according to a preferred embodiment of the present invention;
4 is a side sectional view of a pressure chamber according to a preferred embodiment of the present invention;
5 is a plan sectional view of a pressure chamber according to a preferred embodiment of the present invention;
6 is a plan sectional view of a pressure chamber according to another embodiment of the present invention;
7 is a side sectional view of a pressure chamber according to another embodiment of the present invention;
8 is a plan sectional view of a pressure chamber according to another embodiment of the present invention;
Fig. 9 is an enlarged view of a portion "B"
10 is a partially enlarged side sectional view showing various embodiments of the pressure chamber of the present invention;

1, the pressure chamber 10 'used in the conventional swivel joint is installed between different swivel joints. More specifically, the first swivel joint 100 and the first swivel joint 10' The first swivel joint 100 may be coupled to the inside of the first swivel joint 100 before the second swivel joint 200 is coupled to the inside of the first swivel joint 100, So that the sealing function is exhibited.

At this time, the conventional pressure chamber 10 'is provided with the O-ring 20 in the direction of the first swivel joint 100, that is, the upward direction, thereby improving the sealing function and facilitating the engagement, (Not shown) of the first swivel joint 100 and the inner surface of the first and second flow paths 110 and 210 of the second swivel joint 200, A smooth flow can be obtained.

However, due to the nature of the swivel joint used in the conventional pressure chamber 10 ', fluid is leaked due to a gap (not shown) with the first swivel joint 100 and a gap (not shown) between the second swivel joint 100, Abrasion and breakage may occur due to friction, and problems such as corrosion of the inner side surface by the fluid have occurred.

In order to solve the above problems, the present invention relates to a pressure chamber used in a coupling portion of a swivel joint, and more particularly, to a pressure chamber provided between coupling portions of different swivel joints, (Hereinafter, referred to as "fluid") passing through the flow path of the swivel joint is prevented from leaking by increasing airtightness, watertightness, and tightness (hereinafter referred to as "sealing function" 14, it is possible to secure the hollow space 12, that is, to improve the flexibility of the structure to facilitate the interference fit, and to improve the sealing function by the pressure acting on the groove 12 when the fluid passes through the flow passage , Corrosion resistance, chemical resistance and durability.

In order to achieve the above object, the present invention provides a pressure chamber (10) provided between engaging portions of different swivel joints, comprising at least one groove (12) formed annularly on the inner side surface And a plurality of bends 12a protruding inwardly from the recesses 12. The recesses 12 are formed in a shape of a side cross-section of '⊃', semicircular or polygonal The shape of which is not particularly limited.

According to another aspect of the present invention, there is provided a pressure chamber (10) provided between engaging portions of different swivel joints, comprising: a groove (12) radially formed in the inner surface (14) And a plurality of auxiliary grooves 12c formed between neighboring grooves 12, wherein the grooves 12 have a shape of a side cross-sectional shape of '⊃', a half circle or a polygon .

Hereinafter, the present invention will be described in detail with reference to FIGS. 2 to 10 showing embodiments of the present invention and other embodiments.

First, a swivel joint refers to a joint of a pipe capable of turning. It is mainly used as a pipe used for pulling out a large amount of water from a main pipe passing through hot water and low pressure steam, and two or more elbows and a single pipe In the case of large expansion and contraction, there is a risk of leakage due to the looseness of the threaded portion. Therefore, a pressure chamber (10) is installed between the engaging portions of different swivel joints do.

The pressure chamber 10, which is a main component for achieving the present invention,

Since the groove 12 is formed in the inner side surface 14 and the flexibility of the structure is improved, it is possible to obtain an effect of facilitating installation of the interference fit type and to receive the pressing force in the outward direction by the fluid passing through the flow path of the swivel joint An effect of improving the sealing function can be obtained.

More specifically, the grooves 12 of the present invention are designed so that the fluid passing through the first swivel joint 100 and the first and second flow paths 110 and 210 of the second swivel joint 200 The pressure inside the first and second flow paths 110 and 210 increases due to the moving speed and the amount of the fluid. The pressure is increased by the fluid introduced into the groove 12, as shown in FIG. 9, So that the pressure chamber 10 can exhibit an improved sealing function.

2, the inner surface of the swivel joint, that is, the inner surface of the first swivel joint 100 (not shown) and the inner surface of the second swivel joint 200 The sealing function is improved by the pressing force of the fluid.

In addition, the grooves 12 of the present invention can form the upper inclined surface 12d and the lower inclined surface 12e so that the inflow and outflow of the fluid can be smoothly performed, as shown in Fig. 10a).

In addition, the groove 12 of the present invention may be formed in a triangular shape having an upper inclined surface 12d and a lower inclined surface 12e, so that the inflow and outflow of the fluid may be performed more efficiently.

In this connection, the grooves 12 of the present invention may be formed in any shape of '⊃', semicircle or polygon, and formed into a polygonal shape, The transmission of the pressing force exerted in the outward direction of the sealing member 10 is more efficiently generated, thereby realizing a further improved sealing function.

In addition, the groove 12 of the present invention may be formed with a pressing portion 12f having a short shape of "⊃" in four directions in order to more effectively generate the pressing force by the inflow fluid.

That is, in the groove 12 of the present invention, the pressing force generated in the outward direction of the pressure chamber 10 by the pressing portion 12f can be more efficiently generated. At this time, In order to compensate for the stiffness of the annular shape, it is preferable to be formed as Embodiment 2 which will be described below.

As shown in FIG. 9, the groove 12 of the present invention has a side cross-section of '⊃', and a length of a cross-section contacting the swivel joint is 'b' A 'is less than 0.5, the ratio of length' b 'to' a 'is preferably in the range of 1: 0.5 to 0.8. When the length' a 'is less than 0.5, The sealing function and stiffness of the pressure chamber 10 are increased, but the flexibility is not sufficiently formed, and the sealing function of the pressure chamber 10 is not sufficiently formed. It is not easy to install the fitting method and b: a = 0.5 to 0.8 is preferable.

In addition, the pressure chamber 10 of the present invention should be formed of a material having flexibility, corrosion resistance, chemical resistance, and durability, and the material is a rubber elastic body capable of exhibiting flexibility and sealing properties. The vinyl chloride fluoride elastomer (FKM ) Is preferably used, and it is preferable to use polytetrafluoroethylene (PTFE) as a material exhibiting corrosion resistance and chemical resistance.

Accordingly, in the present invention, it is desirable that the pressure chamber 10 be made of a rubber composition containing FKM and PTFE as a main component, such as nitrile rubber (NBR) or hydrogenated-nitrile rubber (H-NBR). More preferably, a rubber composition composed of 10 to 20 parts by weight of FKM and 10 to 20 parts by weight of PTFE may be used relative to 100 parts by weight of NBR.

In addition, when the FKM or PTFE is used in an excessively small amount beyond the above range, the flexibility and sealability are reduced, and the sealing effect is not sufficiently exhibited. If the FKM or PTFE is used outside the above range, the durability of the rubber composition decreases, It is preferable to use it within the above range.

In addition, in the case of the pressure chamber 10 formed of normal NBR, the fluid leaks during continuous use for 1 to 3 months due to insufficient durability and corrosion resistance, and it is necessary to manufacture the rubber composition as in the present invention .

Hereinafter, the pressure chamber 10 of the present invention will be described in detail through various embodiments.

In one embodiment, the pressure chamber 10, which is a component for achieving the present design,

As shown in FIG. 2, the first swivel joint 100 and the second swivel joint 200, which are inserted into the first swivel joint 100 and are rotatably coupled to each other, And a sealing function is exhibited.

The pressure chamber 10 of the present invention has an O-ring 20 which is additionally installed in one direction, that is, in the direction of the first swivel joint 100, like the pressure chamber 10 'used in a conventional swivel joint. As shown in FIG. 4, an o-ring groove (not shown) for installing the O-ring 20 is formed as a step.

2 to 5, the pressure chamber 10 of the present invention includes at least one groove 12 formed in an annular shape on the inner side surface 14, Flexibility is increased in the structure (structure) constituting the first swivel joint 100, thereby making it possible to achieve a more smooth effect in the first swivel joint 100.

In addition, the pressure chamber 10 of the present invention can further increase the flexibility of the structure by forming one or more grooves 12, and the two grooves 12, as shown in Fig. 4b) It is preferable to form too many grooves 12 so that the rigidity of the pressure chamber 10 itself is not lowered too much, although it is possible to obtain a better effect than when one recess 12 is formed.

That is, it is preferable that the pressure chambers 10 of the present invention have a groove 12 in a range of 1 to 3. At this time, when the plurality of grooves 12 are formed, the size of the groove 12 becomes smaller, It is necessary to maintain the rigidity of the groove 10 so as to maintain the rigidity of the groove 10 so that rigidity can be compensated by the protrusion (undefined portion) formed between the groove 12 and the adjacent groove 12 when the plurality of grooves 12 are formed It is preferable that the reinforcement portion 12g is formed on the base 12a.

As shown in FIG. 6, the pressure chamber 10 of the present invention further includes a plurality of bending portions 12a protruding inward, and the bending portion 12a can compensate for rigidity The effect is realized. At this time, the groove formed by the bent portion 12a is referred to as a concave portion 12b.

6A and 6B, the bent portion 12a may be formed to have a different size from the recessed portion 12b to compensate any one of the rigidity of the pressure chamber 10 and the flexibility of the structure. Or may be formed in the same size so that the rigidity and the flexibility of the structure may be formed in a balanced manner.

As shown in FIGS. 7 and 8, in another embodiment, the pressure chamber 10 of the major components for achieving the present design

And a groove (12) provided between the engaging portions of the different swivel joints, wherein the grooves (12) are formed radially in the inner side surface (14).

That is, in the pressure chamber 10 of the present invention, the recess 12 is formed radially, and the rigidity is further enhanced to prevent the pressure chamber 10 from being damaged or deformed by the rotation of the swivel joint Effect.

In addition, the pressure chamber 10 of the present invention has a plurality of auxiliary grooves 12c formed between adjacent grooves 12 as shown in FIG. 7 b to minimize the deterioration of rigidity, The effect of improving the flexibility can be realized. At this time, the auxiliary groove 12c is formed to be smaller in size than the groove 12, so that the auxiliary groove 12c can be made flexible and the reduction in rigidity can be minimized.

In connection with the above, although the pressure chamber 10 of the present invention is not shown in the drawing, a groove 12 in the form of a net may be formed on the inner surface 14 differently from the first and second embodiments described above .

In other words, the net-shaped groove 12 can further improve the rigidity of the pressure chamber 10 and realize the effect of improving the flexibility of the structure by the groove 12, To realize the effect that can be.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It is possible to carry out various changes in the present invention.

100: first swivel joint 110: first flow path
200: second swivel joint 210: second flow path
10: pressure chamber 12: groove
12a: bent portion 12b:
12c: auxiliary groove 12d: upper inclined surface
12e: Lower inclined surface 12f:
14: My Side 20: O Ring

Claims (5)

delete delete In a pressure chamber (10) provided between engaging portions of different swivel joints,
A plurality of grooves 12 formed radially in the inner side surface 14;
And a plurality of auxiliary grooves (12c) formed between adjacent grooves (12).
delete The method of claim 3,
The groove (12)
Wherein the shape of the side cross-section is one of a circle, a circle and a polygon.

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