KR100602768B1 - Tube coupling and lock claws - Google Patents

Abstract

An object of the present invention is to improve the structure of the lock claw used for the tube coupling, to facilitate the detachment of the tube and to provide a structure and the tube coupling of the lock claw that does not easily fall out even at high internal pressure and does not break. It is done.

To achieve the above object, the lock claw 80 used in the tube coupling of the present invention includes a plurality of inner ring portions formed by a plurality of outer ring portions 82 and inner cut grooves formed by the outer cut grooves 124 ( 81), and the inner ring portion and the outer ring portion are formed of a ring-shaped plate material that forms an obtuse angle with respect to the bend line C formed at the center portion.

In particular, the inner ring portion is formed by forming two inner cutout grooves 123 in each outer ring portion region to protrude in each outer ring portion region, and the first inner ring portion 81a;

The first inner ring portion 81a and the second inner ring portion 81b are configured to be formed of a second inner ring portion 81b formed to connect the outer ring portion 82 adjacent to the outer cutout groove and a position corresponding to each other. Are mutually complementary to each other so that uniformity does not occur at the inner end of the outer notch groove 124, and the coupling force with the tube 11 is improved.

Description

Tube coupling and lock claws

1 is an exploded perspective view of a typical tube coupling,

2 is a cross-sectional view of a typical tube coupling,

3 is a partially enlarged front view of the conventional lock claw shown in FIGS. 1 and 2;

4 is a side view of the conventional lock claw shown in FIGS. 1 and 2,

5 is a view for explaining the problem of the conventional lock claw,

6 is a front view of the lock claw for tube coupling of the present invention,

7 is a side view of the lock claw for tube coupling of the present invention,

8 is a three-dimensional view of the lock claw for tube coupling of the present invention,

9 is a front view showing another embodiment of the lock claw of the present invention,

10 is a view for explaining the effect of the lock claw of the present invention.

* Description of the symbols for the main parts of the drawings *

1-tube coupling body 2- threaded

3-1st step 4-2nd step

5-Packing 6-Backring

7-Collar 8, 80-Rock Claw

8a, 81-inner ring part 8b, 82-outer ring part

9-Sleeve 10-Groove

11-tube 25-crack

23, 123-inner cutout 24, 124-outer cutout

81a-1st inner ring part 81b-2nd inner ring part

The present invention relates to a lock claw used for a tube coupling, and more particularly, to improve the structure of the lock claw to facilitate the detachment of the tube and at the same time, the structure of the lock claw that does not easily fall out even at high internal pressure and does not occur. And providing a tube coupling.

In general, the tubes used for the transmission of pneumatic and hydraulic pressure are connected via a tube coupling.

The tube coupling is widely used in a device using pneumatic and hydraulic pressure because it can be simply combined by inserting the tube by using the deformation and restorability of the lock claw in the form of a leaf spring.

Prior to the detailed description of the present invention, the structure of a conventional tube coupling and lock claw will be described with reference to FIGS.

The body 1 of the tube coupling is formed in a tubular shape using a plastic resin, etc., one end of the body is formed with a screw portion 2 to be coupled to a hydraulic and pneumatic device (not shown). In addition, a first step portion 3 and a second step portion 4 are formed in the inner through-hole portion of the other end of the body portion, and the packing 5 made of an elastic member such as rubber is provided in the first step portion. The back ring 6 supporting the packing is fitted. In order to prevent the packing 5 and the back ring 6 from being separated, the collar 7 is fitted into the opening of the through part of the first stepped portion. A protrusion 7b is formed on an outer side of the rod 7a of the collar 7, and the protrusion 7b can be caught by a coupling groove 1a formed in the tube wall of the first step of the body 1. It is configured to be.

On the other hand, between the back ring 6 and the rod 7a of the collar 7 is provided with a groove 10 for supporting the end of the outer ring portion 8a of the lock claw 8, the groove as a reference point The inner ring portion 8b is configured to be elastic.

3 and 4, the lock claw 8 forms a hole in the center of the ring-shaped elastic body by using a metal circular plate-like elastic body, and each of the outer ring portion 8a and the inner ring portion 8b of the ring-shaped elastic body, respectively. Zigzag of the V-shaped or U-shaped outer notch groove 24 and the inner notch groove 23 is configured alternately. A curved line C is formed at the central portion of the lock claw, and the outer ring portion 8a and the inner ring portion 8b are formed at an obtuse angle with respect to the curved line, thereby forming the outer ring portion of the lock claw 8 in the groove 10. When the end of 8a is fitted, the inner ring portion 8b is inclined by a predetermined angle in the tube 11 press-fit direction.

In addition, a locking jaw 7c is formed inside the rod 7a of the collar 7, and a sleeve 9 for controlling the impact of the lock claw 8 is fitted to the locking jaw.

The sleeve 9 comprises a handle 9a, a rod 9b, and a latch 9c formed at an end of the rod, and the latch 9c of the sleeve 9 is a collar 7. By engaging and engaging with the engaging jaw 7c of the rod, the rod end end 9d portion of the sleeve 9 slides by a predetermined distance inside the through hole of the body 1 based on the engaging jaw 7c. It is configured to be possible. That is, when the user pushes the handle portion 9a of the sleeve 9 to move the rod 9b inward, the end portion of the inner ring portion 8b of the lock claw 8 is pushed by the end portion 9d of the rod. As a result, the lock shot of the lock claw is controlled.

As described above, the lock claw 8 that is fitted into the groove 10 between the back ring 6 and the collar 7 is configured such that the end of the inner ring portion 8b is clamped on the outer wall of the tube 11 to be inserted.

When the lock claw 8 is inserted into the tube 11 and the end of the inner ring portion 8a is pushed out, a strong elastic force is formed by the reaction force of the edge portion of the inner ring portion in the pushing direction of the tube.

When the force is applied in the direction in which the tube is removed in the inserted state of the tube 11, the end of the inner ring portion 8b of the lock claw is tightened more strongly to the outer wall of the tube by the elastic force. ) Will not fall easily.

In order to forcibly pull out the tube 11 inserted into the tube coupling, the tube can be pulled out while the sleeve 9 is pushed in the insertion direction of the tube while the inner diameter of the lock claw is larger than the outer diameter of the tube.

However, since the outer diameter (volume of the tube) of the lock claw 8 is constituted as described above and the hydraulic pressure or air pressure is applied to the tube 11, the outer diameter (volume of the tube) is continuously changed due to the pressure fluctuation. The part is stressed intensively.

That is, as illustrated in FIG. 5, when the inner ring portion 8b of the lock claw 8 moves in the direction of the arrow, stress is concentrated on the inner end portion of the outer notch groove 24 to generate a crack 25. The problem is that the claw is broken.

The present invention has been made to solve the above problems, the lock claw of the present invention does not form the inner ring portion and the outer ring portion in the same pattern of zigzag, and constitutes two or more inner cutout groove in one outer ring portion region One or more inner ring portions of the protruding form in each outer ring region. The inner ring portion protruding inward from the center of the outer ring portion region is configured to widen gradually toward the end of the inner ring portion to form a tapered shape.

In addition, the inner ring portion at the position corresponding to the outer notched groove connects the adjacent outer ring portions with each other, and is configured to be tapered in shape toward the end of the inner ring portion toward the end of the curved line C.

The present invention comprises two types of inner ring portions as described above, one of the two kinds of inner ring portions supports the center of the outer ring portion, and the other corresponds to the outer notch groove while connecting the adjacent outer ring portions to each other. By being formed in position, it is possible to effectively distribute the stress concentration applied to the inside of the V-shaped or U-shaped outer cut groove, and to further improve the bearing capacity of the tube.

Accordingly, an object of the present invention is to provide a tube coupling which extends the service life of the lock claw by allowing the stress to be evenly distributed without being concentrated in any one place (especially inside the outer cutout groove) even when repeated pressure is applied to the lock claw. To provide.

Still another object of the present invention is to provide a tube coupling in which a fastening force and a disengaging force between the lock claw and the tube are good, and the tube does not easily come off or dislodge even if the tube is twisted or distorted.

To achieve the above object, the present invention provides a tubular tube coupling body;

It has a plurality of outer ring portion formed by the outer notch groove and a plurality of inner ring portion formed by the inner notch groove, the bend line C is formed at a substantially central position, the inner ring portion in the insertion direction of the tube based on the bend line The end of the outer ring portion is inclined to the tube coupling body is fixed, the end of the inner ring portion of the plate shape to be prevented from moving in the direction of the tube pulled out by the outer peripheral surface of the tube inserted into the tube coupling body Rock Claw;

It is possible to slide by a predetermined distance in the tube coupling body and is inserted into and fixed to the inlet of the tube coupling body so as to open the bite of the lock claw and the tube by pushing the inner ring edge of the lock claw in the tube insertion direction. sleeve; In the tube coupling having:

The inner ring portion of the lock claw forms at least two inner cutout grooves in each outer ring portion region, and at least one first inner ring portion configured to protrude in each outer ring portion region;

And a second inner ring portion configured to connect the outer ring portion adjacent to the outer cutout groove with a corresponding position.

In addition, the first inner ring portion is configured to widen gradually toward the end of the first inner ring portion to form a tapered shape, and the second inner ring portion is an end portion of the second inner ring portion based on the bend line C approximately. It is characterized in that it is configured to gradually narrow toward the taper shape.

In addition, the outer cutout groove is configured in a V or U shape.

That is, the lock claw of the present invention used for the tube coupling has a plurality of outer ring portions formed by the outer cutout grooves and a plurality of inner ring portions formed by the inner cutout grooves, and the inner ring portion and the outer ring portion are approximately at the center. It consists of a ring-shaped plate that forms an obtuse angle based on the formed bending line C,

At least one first inner ring part configured to protrude in each outer ring part area by forming at least two inner cutout grooves in each outer ring part area;

And a second inner ring portion formed to connect the outer ring portions adjacent to the outer cutout grooves to the corresponding positions.

Hereinafter, the technical configuration and operation of the present invention will be described in detail with reference to FIGS. 6 to 10.

In the tube coupling of the present invention, the structure and operation of the tubular tube coupling body, the packing, the back ring, the collar, and the sleeve may use the general techniques described in the prior art, and thus, repeated descriptions are omitted, and the lock claw of the present invention is omitted. The technical configuration of the present invention will be described in detail.

The lock claw 80 of the present invention uses a circular metal plate made of an elastic body made of phosphor bronze, such as around 0.2 mm thick, as shown in FIGS. 6 to 8, to form a ring-shaped hole in the center, and a plurality of radial edges at the inner diameter edge. The inner cutout groove 123 is formed to form the inner ring portion 81, and the outer ring edges 82 are formed by forming a plurality of radial outer cutout grooves 124 at the outer diameter end edge. The outer cutout groove is configured in a V or U shape.

In addition, the inner ring portion 81 and the outer ring portion 82 is configured to be inclined in the same angle and direction to form an obtuse angle with respect to the bend line C located in the approximately center portion of the ring.

On the other hand, the inner end of the V-shaped or U-shaped outer notch groove 124 formed on the outer ring portion 82 side is formed to extend toward the inner ring portion slightly beyond the bend line C, the inner side formed in the inner ring portion 81 The inner end of the notch groove 123 is formed to extend toward the outer ring portion beyond the bend line C.

That is, the inner ends of the inner cutout groove 123 and the outer cutout groove 124 are formed at a position exceeding the reference line with respect to the bend line C, and the inner end of the inner cutout groove 123 is more biased toward the outer ring portion. It is composed.

In particular, the inner ring portion 81 is composed of a first inner ring portion 81a and a second inner ring portion 81b.

The first inner ring portion 81a is formed to protrude in the center portion of the outer ring portion 82 by forming two inner cutout grooves 123 at equal intervals in the regions of the outer ring portions 82. The first inner ring portion 81a is configured to form a tapered shape that becomes wider and wider as it descends toward the inner diameter end.

On the other hand, the second inner ring portion 81b is configured at a position corresponding to the outer notch groove 124 and is configured to connect adjacent outer ring portions to each other. The second inner ring portion 81b has a tapered shape that becomes narrower and becomes symmetrical as it descends toward the inner diameter end of the lock claw on the basis of the bend line C approximately.

The widths of the end portions of the first inner ring portion 81a and the second inner ring portion 81b, that is, the width d1 of the first inner ring portion contacting the tube 11 and the width d2 of the second inner ring portion 81 It is configured to have approximately the same length so that the elasticity of the inner ring portion is balanced.

6 and 8 illustrate a structure in which one first inner ring portion 81a protrudes from an area of the outer ring portion 82, but is not limited to the above structure, and the outer ring portion 82 as shown in FIG. 9. The two first inner ring portions 81a may be formed by forming three inner cutout grooves 123 in the region).

As shown in FIG. 9, when two first inner ring portions 81a are formed in the outer ring portion 82 region, the first inner ring portions 81a may be formed in the same width without having a tapered shape.

According to the present invention, when the inner ring portion 81 of the lock claw 80 moves in the direction of the arrow as shown in FIG. 10, the first inner ring portion 81a and the second inner ring portion 81b are configured as shown in FIG. Complementary to each other to distribute the force so that the stress is not concentrated in the outer notch groove portion 124, so that the crack does not occur at the inner end of the outer notch groove.

In addition, since the first inner ring portion 81a supports the tube 11 more strongly, even if the tube is twisted or distorted, the tube does not easily detach or fall off.

The lock claw 80 used in the tube coupling of the present invention has a plurality of inner ring portions 81 formed by a plurality of outer ring portions 82 and an inner cut groove 123 formed by the outer cut grooves 124. The inner ring portion and the outer ring portion is composed of a ring-shaped plate forming an obtuse angle with respect to the bend line C formed in the substantially central portion. Particularly, the inner ring portion 81 forms two inner cutout grooves in each outer ring portion region to protrude in each outer ring portion region, and the inner ring portion 81a corresponds to the outer cutout groove. By constructing the second inner ring portion 81b formed to connect the outer ring portions adjacent to the position with each other, it is possible to effectively prevent the inner end of the outer notched groove 124 from being broken by the stress.

In addition, compared with the conventional structure, it is possible to obtain an effect of greatly improving the coupling force between the inner ring portion 81 and the tube 11 without lowering the stripping force and the fastening force of the tube to the tube coupling.

Claims (6)

A tubular tube coupling body; It has a plurality of outer ring portion formed by the outer notch groove and a plurality of inner ring portion formed by the inner notch groove, the bend line (C) is formed at a substantially central position, the inner ring portion of the tube relative to the bend line The end of the outer ring portion is inclined in the insertion direction is fixed to the tube coupling body, the end of the inner ring portion of the plate material to be prevented from moving in the direction that the tube is pulled out by the outer peripheral surface of the tube inserted into the tube coupling body Ring-shaped lock claws; It is possible to slide by a predetermined distance in the tube coupling body and is inserted into and fixed to the inlet of the tube coupling body so as to open the bite of the lock claw and the tube by pushing the inner ring edge of the lock claw in the tube insertion direction. sleeve; In the tube coupling having: The inner ring portion of the lock claw forms at least two inner cutout grooves in each outer ring portion region, and at least one first inner ring portion configured to protrude in each outer ring portion region; And a second inner ring portion configured to connect the outer ring portions adjacent to the outer cut grooves to the corresponding positions. The method of claim 1, The first inner ring portion is configured to widen gradually toward the end of the first inner ring portion to form a tapered shape, and the second inner ring portion is an end portion of the second inner ring portion based on the bend line C. Tube coupling, characterized in that it is configured to become narrower toward the end toward the tapered shape. The method according to claim 1 or 2, The outer cut groove is a tube coupling, characterized in that consisting of V-shaped or U-shaped. A ring shape having a plurality of outer ring portions formed by the outer notch grooves and a plurality of inner ring portions formed by the inner notch grooves, wherein the inner ring portion and the outer ring portion have an obtuse angle with respect to the bend line C formed at the center portion. It consists of plates of At least one first inner ring part configured to protrude in each outer ring part area by forming at least two inner cutout grooves in each outer ring part area; And a second inner ring portion formed to connect the outer ring portion adjacent to the outer cutout groove to a position corresponding to the outer cut groove. The method of claim 4, wherein The first inner ring portion is configured to widen gradually toward the end of the first inner ring portion to form a tapered shape, and the second inner ring portion is an end portion of the second inner ring portion based on the bend line C. A lock claw for a tube coupling, characterized in that it is configured to taper as it goes down toward the taper shape. The method according to claim 4 or 5, The outer cut groove is a lock claw for a tube coupling, characterized in that consisting of a V or U shape.

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