KR101472949B1 - Connecting pipe assembly - Google Patents

Abstract

According to an embodiment of the present invention, the connector tube assembly includes: a cylindrical arm-connection tube; A water-connection tube inserted into the arm-connection tube; And a coil spring installed at one of the inside of the arm-connecting tube and the outside of the water-connecting tube and having one end fixed to one end of the arm-connecting tube and the water-connecting tube, The fixed end side opening of the coil spring is opened and the free end side outlet of the coil spring is closed.

Description

CONNECTING PIPE ASSEMBLY < RTI ID = 0.0 >

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a connector tube assembly, and more particularly, to a connector tube assembly using a coil spring to prevent the connector tube from being loosened.

Bolt and nut systems are often used as a means of joining structures, the purpose of which is to securely fasten the structure to prevent it from being easily released. However, there is a phenomenon that the joint is loosened easily due to vibration or impact due to movement or drop at the work site, which causes a problem that the reliability of the joint is lowered. Particularly, when the structure is used for a long time, the joint gradually loosens and loosening may occur.

Korean Public Utility Model Publication No. 97-42392 1997.07.29.

It is an object of the present invention to provide a connector assembly that can be semi-permanently combined to enhance reliability.

Other objects of the present invention will become more apparent from the following detailed description and the accompanying drawings.

According to an embodiment of the present invention, the connector tube assembly includes: a cylindrical arm-connection tube; A water-connection tube inserted into the arm-connection tube; And a coil spring installed at one of the inside of the arm-connecting tube and the outside of the water-connecting tube and having one end fixed to one end of the arm-connecting tube and the water-connecting tube, The fixed end side opening of the coil spring is opened and the free end side outlet of the coil spring is closed.

And a thread installed on the other of the inside of the arm-connecting tube and the outside of the water-connecting tube and moving along the coil springs to fasten the arm-connecting tube and the water-connecting tube .

The arm-connection tube may have a receiving space in which the threaded working space and the coil spring passed through the thread are received.

The water-connection tube may have a receiving space in which the threaded working space and the coil spring passing through the thread are received.

A fixing groove is formed at one end of one of the arm-connection tube and the water-connection tube, and the fixing end of the coil spring can be inserted and fixed in the fixing groove.

According to another embodiment of the present invention, the connector tube assembly comprises: a cylindrical arm-connection tube; An arm-coil spring installed inside the arm-connecting tube and having one end fixed to one end of the arm-connecting tube; A water-connection tube inserted into the arm-connection tube; And a water-coil spring installed on the outside of the water-connection pipe and having one end fixed to one end of the water-connection pipe, the fixed-end side entrance of the arm-coil spring and the water- , The free end of the arm-coil spring and the water-coil spring are closed.

According to an embodiment of the present invention, the connection of the coupling pipe can be prevented from being released by the elastic force of the coil spring. Further, the free end of the coil spring can be closed to prevent the coupling from being released by reverse rotation of the coupling tube.

1 is a schematic view of a connector assembly according to an embodiment of the present invention.
Fig. 2 is a sectional view showing the arm-connecting tube shown in Fig. 1. Fig.
3 is a cross-sectional view showing the water-connection tube shown in Fig.
FIGS. 4 to 6 are views showing the operation of the coupling tube assembly shown in FIG. 1. FIG.
7 is a schematic view of a connector assembly according to another embodiment of the present invention.
FIGS. 8 and 9 are views showing the operation of the coupling tube assembly shown in FIG.
10 is a schematic view of a connector assembly according to another embodiment of the present invention.
11 and 12 are views showing the operation of the coupling tube assembly shown in FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described below. The embodiments are provided to explain the present invention to a person having ordinary skill in the art to which the present invention belongs. Accordingly, the shape of each element shown in the drawings may be exaggerated to emphasize a clearer description.

1 is a schematic view of a connector assembly according to an embodiment of the present invention. Fig. 2 is a cross-sectional view showing the arm-connection tube shown in Fig. 1, and Fig. 3 is a cross-sectional view showing the water-connection tube shown in Fig.

As shown in FIG. 2, the female-female connector 10 has a cylindrical shape and a fixing groove 22 is formed at the distal end of the female-female connector 10. The coil spring 20 is inserted into the inside of the arm-connecting tube 10, and the fixed end 22 is inserted and fixed into the fixing groove 12. [ The coil spring 20 functions like a screw thread formed on the inner circumferential surface of the arm-connecting tube 10 and the coil spring 20 becomes a mountain and is located between the coils of the coil spring 20 (or between the coils of the arm- Inner circumference) becomes a goal. The free end (24) of the coil spring (20) is located inside the arm-connection tube (10). The coil spring 20 has a fixed end side inlet 23 and a free end side outlet 25 and the fixed end side inlet 23 is opened while the free end side outlet 25 is closed.

3, the water-connection pipe 30 is cylindrical and the fixing groove 32 is formed at the distal end of the water-connection pipe 10. The coil spring 40 surrounds the outer peripheral surface of the water-connection tube 30, and the fixed end 42 is inserted and fixed in the fixing groove 32. The coil spring 40 functions like a screw thread formed on the outer circumferential surface of the water-connection tube 30 and the coil spring 40 becomes acidic and is located between the coils of the coil spring 40 (or between the coils of the water- Outer circumferential surface) becomes a goal. The coil spring 40 has a fixed end side inlet 43 and a free end side outlet 45. The fixed end side inlet 43 is opened while the free end side outlet 45 is closed.

FIGS. 4 to 6 are views showing the operation of the coupling tube assembly shown in FIG. 1. FIG. Hereinafter, the operation of the connector assembly will be described with reference to FIGS.

4, the water-connection tube 30 is moved toward the inside of the arm-connecting tube 10, and the fixed end 42 of the coil spring 40 is moved to the inside of the arm- The coil spring 40 is moved between the coils of the coil spring 20 when the water-connecting tube 30 is rotated with respect to the arm-connecting tube 10 by arranging the water-connecting tube 30 at the fixed-

5, as the coil spring 40 moves between the coils of the coil spring 20, the free end 24 of the coil spring 20 is temporarily opened and the free end side outlet 25 are temporarily opened. At this time, the free end 44 of the coil spring 40 is also temporarily opened and the free end side outlet 45 is temporarily opened. 6, after the coil spring 40 has passed through the free end side outlet 25, the free ends 24, 44 return to their original positions by the elastic force, and the free end side exit 25 , 45) are closed.

Since the coil spring 20 and the coil spring 40 are resilient, the free-end side outlets 25, 25 and the free-end side openings 25, The free end 24 passes through the free end side outlet 45 or the free end 44 passes through the free end side outlet 25 I can not pass. Therefore, the arm-connecting tube 10 and the water-connecting tube 30 can not only maintain the coupled state semi-permanently, but also can not cause loosening due to vibration or impact. In particular, because the free ends 24, 44 are tapered, it is possible to prevent the free ends 24 from passing through the free end side exit 45 or from free end 44 passing through the free end side exit 25 have. On the other hand, the above-described closing means that the gap between the coils is small enough that the coils can not pass through, or does not exist, and does not mean that there is no gap at all.

FIG. 7 is a view schematically showing a connector tube assembly according to another embodiment of the present invention, and FIGS. 8 and 9 are views showing the operation of the connector tube assembly shown in FIG. Hereinafter, the contents distinguished from the contents described above will be described, and the description omitted below can be replaced with the contents described above.

The female coupling tube 10 has a thread 12 formed on the inner peripheral surface and the inlet 11 and the outlet 13 of the thread 12 are opened. The thread 12 becomes an acid and the thread 12 becomes a valley. Hereinafter, the operation of the connector assembly will be described with reference to FIGS. 8 and 9. FIG.

Connecting tube 30 is moved toward the inside of the arm-connecting tube 10 and the fixed end 42 of the coil spring 40 is inserted into the thread 12 as in the case of FIGS. 4 to 6, And the coil spring 40 is moved through the threads 12 when the water-connecting tube 30 is rotated with respect to the arm-connecting tube 10. [

8, as the coil spring 40 moves through the threads 12, the free end 44 of the coil spring 40 is temporarily opened and the free end side outlet 45 is opened, Is temporarily opened. 9, after the coil spring 40 has passed through the thread 12, the free end 44 returns to its original position by the resilient force, and the free end 45 is closed .

In this state, the arm-connecting tube 10 and the water-connecting tube 30 are kept in a coupled state, and the coil spring 40 has elasticity, so that the free end side outlet 45 is kept closed And the thread 12 can not pass through the free end side outlet 45 even if the water-connection tube 30 is reversely rotated. Therefore, the arm-connecting tube 10 and the water-connecting tube 30 can not only maintain the coupled state semi-permanently, but also can not cause loosening due to vibration or impact.

FIG. 10 is a schematic view of a connector tube assembly according to another embodiment of the present invention, and FIGS. 11 and 12 illustrate an operation of the connector tube assembly shown in FIG. Hereinafter, the contents distinguished from the contents described above will be described, and the description omitted below can be replaced with the contents described above.

The water-connection tube 30 has a thread 32 formed in the outer peripheral surface, and the inlet 31 and the outlet 33 of the thread 32 are opened. The thread 32 becomes an acid, and the space between the threads 32 becomes a valley. Hereinafter, the operation of the connector assembly will be described with reference to FIGS. 11 and 12. FIG.

The water-connection tube 30 is moved toward the inside of the female-connection tube 10 and the thread 32 is inserted into the fixed end side inlet 23 of the coil spring 20 And the threads 32 are moved through the coils of the coil spring 20 when the water-connection tube 30 is rotated with respect to the arm-connection tube 10.

11, as the thread 32 moves between the coils of the coil spring 20, the free end 24 of the coil spring 20 is temporarily opened and the free end side outlet 25 Is temporarily opened. 12, the free end 24 is returned to its original position by the resilient force after the thread 32 has passed through the free end side outlet 25, and the free end side outlet 25 is closed do.

In this state, the arm-connecting tube 10 and the water-connecting tube 30 are kept in a coupled state, and the coil spring 20 has elasticity, so that the free end side outlet 25 is kept closed And the screw thread 32 can not pass through the free end side outlet 25 even if the water-connection tube 30 is reversely rotated. Therefore, the arm-connecting tube 10 and the water-connecting tube 30 can not only maintain the coupled state semi-permanently, but also can not cause loosening due to vibration or impact.

Although the present invention has been described in detail by way of preferred embodiments thereof, other forms of embodiment are possible. Therefore, the technical idea and scope of the claims set forth below are not limited to the preferred embodiments.

10: Female - connector
12, 32: Fixing hole
20, 40: coil spring
22, 42:
24,44: free end
23,43: Fixed single-side inlet
25,45: free end exit
30: Water - Connector

Claims (6)

A cylindrical arm-connection tube;
A water-connection tube inserted into the arm-connection tube; And
A fixed end fixed to one of the inside of the arm-connecting tube and the outside of the water-connecting tube and fixed to a distal end of one of the arm-connecting tube and the water-connecting tube, And a coil spring having a free end movable along the longitudinal direction of any one of the water-connection tube,
And the other end of the arm-connecting tube is connected to the other end of the arm-connecting tube, and the other end of the arm- Further comprising a thread for fastening the tube and the water-
Wherein one of the arm-connection tube and the water-connection tube is connected to the first operation space in which the coil spring is installed and the first operation space in which the arm- And a first accommodating space which is accommodated inside the first operating space,
And the other of the arm-connection tube and the water-connection tube is configured to receive the threaded second working space and the coil spring having passed through the thread in a state where the arm-connection tube and the water- And a second accommodation space located inside the second operating space,
The fixed end side opening of the coil spring is opened and the free end side outlet of the coil spring is closed. The method according to claim 1,
Said free end being a tapered shape. The method according to claim 1,
A fixing groove is formed at a distal end of one of the arm-connection tube and the water-connection tube,
And the fixed end of the coil spring is inserted and fixed in the fixing groove. A cylindrical arm-connection tube;
A female-coil spring installed in the female-coupling tube and having an arm-fixed end fixed to a distal end of the female-female connection tube and a female-free end movable along the longitudinal direction of the female-female connection tube;
A water-connection tube inserted into the arm-connection tube; And
And a water-free end fixed to the distal end of the water-connection tube and a water-free end movable along the longitudinal direction of the water-connection tube, the water- And a water-coil spring which moves from the arm-fixed end toward the arm-free end along the space between the spring and the arm-connecting tube and the water-connection tube while passing through the arm-coil spring, ,
Wherein the female-coupling tube is configured to receive the male-coil spring through the female-coil spring in a state where the female-coil spring and the female-coupling tube are coupled to each other, And a first accommodating space located inside the first operating space,
Wherein the water-connection tube includes a second operation space in which the water-coil spring is installed, and a second operation space in which the arm-coil spring, which has passed through the water-coil spring in a state where the water- And a second accommodation space located inside the second operating space,
The fixed-end side entrance of the arm-coil spring and the water-coil spring is opened, and the free end of the arm-coil spring and the water-coil spring is closed. 5. The method of claim 4,
Said free end being a tapered shape. 5. The method of claim 4,
A fixing groove is formed at the tip of each of the arm-connecting tube and the water-connecting tube,
And the fixing ends of the arm-coil spring and the water-coil spring are inserted and fixed respectively into the fixing grooves.

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