KR101555593B1 - Section Connecting Device for Cylinder Structure - Google Patents

Abstract

A section connecting device for a cylindrical structure of the present invention comprises a male screw type breach screw(10-1) formed in a first cylindrical structure(10), a second cylindrical structure(20) connected with the first cylindrical structure(10) by screw connecting power using the breach screw(10-1) wherein a female screw type breach screw(20-1) is formed in the second cylindrical structure, and a locking pin(30) for enhancing fixation power to the first cylindrical structure(10) by frictional force between the second cylindrical structure(20) and the fixation pin. Therefore, two cylindrical structures are assembled without a space and conditions for the section connecting device outside or inside the cylindrical structures(10, 20).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a connecting device for a cylindrical structure,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cylindrical structure, and more particularly, to a cylindrical structure section fastening apparatus in which the disadvantages of a bolt or screw fastening system are solved by applying a rotation method when two cylindrical structures are manufactured into a cylindrical structure assembly.

Generally, a method of manufacturing a cylindrical structure assembly by connecting two cylindrical structures is performed by a section fastening method using a section fastening part. These section fasteners are mainly bolts or screws.

For example, when there are two cylindrical structures to be connected to each other, a space or a condition for connecting the two cylindrical structures to each other is made, and a bolt or a screw The two cylindrical structures can be made into a cylindrical structure assembly fixed with bolts or screws.

Thus, a section fastener made of bolts or screws is a convenient way to make two cylindrical structures into a single cylindrical structure assembly through a simple work process by screwing.

Korean Patent Publication No. 10-2008-0002985 (Jan. 04, 2008)

However, the bolts or screws constituting the section fastening parts must be fastened inside or outside the cylindrical structure to be connected to each other at the time of assembling. This fastening type is a cylindrical structure in which spaces or conditions for assembling or disassembling bolts or screws are connected to each other It is imperative to require that it be provided at all.

As a result, there is a fundamental restriction that a section fastener made of a bolt or a screw can not be applied when there is a structural restriction that makes it difficult to provide a space or a condition for assembling or disassembling a fastening part such as a military weapon including a missile.

In view of the above, the present invention takes the screw fastening force by the Breech thread and the frictional fastening force by the contact surface simultaneously at the rotation of only the relative parts of the cylindrical structure, And to provide a cylindrical structure section fastening apparatus in which two cylindrical structures are manufactured as an assembly without providing a space or a condition for the same.

According to an aspect of the present invention, there is provided a cylindrical structure section fastening apparatus comprising: a male screw type breech screw formed in a first cylindrical structure; A second cylindrical structure having a female thread type brittle thread formed therein and threaded with the breech screw and connected to the first cylindrical structure by a screwing force; A locking pin positioned at a screwed portion of the first cylindrical structure and the second cylindrical structure and reinforcing a fixing force with the first cylindrical structure by a frictional force formed between the first cylindrical structure and the second cylindrical structure; Is included.

Wherein the first cylindrical structure is formed with a male briquette thread portion having the male screw type briquette thread and the second cylindrical structure is formed with a male briquette thread portion having the female screw type briquette thread, A position hole for inserting the pin is drilled.

Wherein the male screw type briquette screw is formed on the outer circumferential surface of the male briquette thread portion, the female screw type briquette screw is formed on the inner circumferential surface of the male briquette thread portion and the position hole is adjacent to each of the male screw type briquette screws do.

Wherein the lock pin comprises an insert boss inserted into the position hole and a stopper flange formed integrally with the insert boss so as to extend around the position hole and the stopper flange forms a frictional force with the inner circumferential surface of the female brew thread portion, Thereby forming a surface.

An O-ring groove is formed on the outer circumferential surface of the e-mail brittle thread portion, and an O-ring is inserted into the O-ring groove. The O-ring is pressed to the inner circumferential surface of the female briquette thread portion coupled with the mail briquette thread portion.

In the present invention, two cylindrical structures are connected to each other only by rotation of a counterpart with a screwing force using a Breech thread, and the fixing force of the connecting part is strengthened by the frictional force generated by rotation, Two cylindrical structures can be fabricated into an assembly without any space or environment for the apparatus.

In addition, the present invention can form two cylindrical structures as an assembly without providing a space or a condition for a section fastening device inside or outside the cylindrical structure by forming a clamping force at the same time as the coupling by rotating only the relative parts of the cylindrical structure .

Further, in the present invention, the airtightness of the assembly of the cylindrical structure can be secured by applying O-rings using grooves as a portion where a screwing force and a friction fixing force are formed.

In addition, the present invention has the effect of greatly expanding its usability by eliminating the restriction that occurred when using a section fastener made of bolt or screw without changing the external design of the cylindrical structure.

FIG. 2 is a perspective view of a cylindrical structure section fastening apparatus according to the present invention. FIG. 3 is a cross-sectional view of a cylindrical structure section fastening apparatus according to the present invention. Sectional view of a cylindrical structure assembly connected with a clamping force and a friction clamping force.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, which illustrate exemplary embodiments of the present invention. The present invention is not limited to these embodiments.

Fig. 1 shows a structure of a cylindrical structure section fastening device according to the present embodiment.

As shown in the figure, the cylindrical structure section fastening device is composed of a mail breech thread portion 10A, a mail breech thread portion 20A, a lock pin 30, and an O-ring 40. [

The ebonite breech screw portion 10A is provided in the first cylindrical structure 10 and the ebonite breech screw portion 20A is formed in the second cylindrical structure 20 so that the first cylindrical structure 10 and the second cylindrical structure 20, (20) is fabricated into a cylindrical structure assembly in a rotational manner. Particularly, the manufactured cylindrical structure assembly maintains a strong fastening state by forming the screwing force by the breech threads 10-1 and 20-1 and the frictional force by the lock pin 30 together.

The breech screw 20-1 is formed on the inner circumferential surface of the mail breech screw portion 20A while the breech screw 10-1 and the position hole 10-1 are formed on the outer circumferential surface of the mail breech screw portion 10A. -2 and an O-ring groove 10-3.

Specifically, the breech screws 10-1 of the mail breech screw portion 10A are of a male screw type and are formed at equal intervals, for example, six pairs can be formed at intervals of 60 degrees. The breech screws 20-1 of the male briquette thread portion 20A are of a female type and are formed at equal intervals, for example, six pairs can be formed at intervals of 60 degrees. Therefore, the first cylindrical structure 10 and the second cylindrical structure 20 can be fixed by a strong screwing force formed by a plurality of breech screws 10-1 and 20-1.

The position hole 10-2 is communicated with the inner space of the breech screw 10-1 through the breech screw 10A at a position adjacent to the breech screw 10-1. Particularly, the size of the position hole 10-2 is smaller than the size of the breech screw 10-1. One end of the position hole 10-2 is not separated from the breech screw 10-1, Out of the breech screw 10-1. Also, the O-ring groove 10-3 is circularly cut along the outer peripheral surface of the female briquette thread portion 10A at a position adjacent to the briquette screw 10-1.

Specifically, the lock pin 30 includes an insert boss 31 having a predetermined height, a stopper 31 extending from the upper surface of the insert boss 31 to an upper surface of the insert boss 31, And a flange 32.

The width dimension of the insert boss 31 is such that it can be fitted into the width of the position hole 10-2. The width size of the stopper flange 32 is such that it can be rolled over the position hole 10-2. The stopper flange 32 has a taper guide surface 32a extending from one of the upper and lower surfaces of the insert boss 31 while forming an inclination angle alpha inclined in the width direction of the lock pin 30, And a stop surface 32b extending from the other side of the upper surface of the insert boss 31 and facing the taper guide surface 32a. Particularly, the stopper surface 32b increases the tightening strength of the section screws 10-1 and 20-1 to increase the section tightening rigidity, and stops the stopper portion 32b at a predetermined position.

Therefore, the lock pin 30 is inserted into the position hole 10-2 of the female breech screw portion 10A by using the insert boss 31, and the insert boss 31 is completely inserted into the position hole 10-2 In the inserted state, the stopper flange 32 protrudes to the outer peripheral surface of the female breech thread portion 10A. However, the protruding height of the stopper flange 32 is such that it comes into contact with the inner circumferential surface of the e-mail bristle thread portion 20A coupled to the e-mail bristle thread portion 10A.

The O-ring 40 is made of an elastic material and is inserted into the O-ring groove 10-3 of the E-mail breech-screw portion 10A so that the E-mail briquette thread portion 10A and the e-mail breech- Respectively.

FIGS. 2 and 3 show an assembly operation state and a connected state section of the cylindrical structure section fastening apparatus according to the present invention.

2, before the first cylindrical structure 10 and the second cylindrical structure 20 are fastened to each other, the female briquette thread portion 10A of the first cylindrical structure 10 is provided with a lock pin 30, (40) is first assembled. This assembly operation is performed by fitting the lock pin 30 into the position hole 10-2 of the female brisch thread portion 10A and by moving the O-ring 40 to the O-ring groove 10-3 of the female brisc screw portion 10A Simply by inserting it.

It should be noted that the insert boss 31 is fitted into the position hole 10-2 so that the direction of the inclination angle? Of the stopper flange 32 is aligned on one side in consideration of the fact that a plurality of the lock pins 30 are used. Tilt. The inclination angle? Direction of the stopper flange 32 means a fastening direction for fastening the mail bridging screw portion 20A to the female briquette screw portion 10A.

In addition, the O-ring 40 applies silicone grease to the surface of the O-ring 40 when assembled to the O-ring groove 10-3.

When the first cylindrical structure 10 is ready for fastening by assembling the lock pin 30 and the O-ring 40 to the female briquette thread portion 10A as described above, the e-mail briquette thread portion 20A is inserted into the female briquette thread portion 20A (For example, clockwise) until a certain torque is applied to the first cylindrical structure 10A and the second cylindrical structure 20 is completed. The first cylindrical structure 10 and the second cylindrical structure 20 then together with the screwing force of the breech screws 10-1 and 20-1 and the frictional engagement force of the lock pin 30 and the airtightness of the O- Thereby maintaining a firmly fastened state.

3, the screw fastening force Ft is formed by fastening between the breech screw 10-1 of the mail breech screw portion 10A and the breech screw 20-1 of the mail breech screw portion 20A. .

The frictional engagement force Ff is formed with a torque equal to or higher than a certain level felt by the operator. Specifically, when the e-mail brittle thread portion 20A enters the e-mail britched thread portion 10A in the rotation (for example, clockwise) of the e-mail britched thread portion 20A by the operator, The frictional relief force is generated between the earthed brittle thread portion 20A and the lock pin 30 by contacting the stop surface 32b of the earthed brittle thread portion 20A And the locking pin 30 are strengthened. Therefore, it can be seen that the lock pin 30 increases the section fastening rigidity between the outer circumferential surface of the female briquette thread portion 10A and the inner circumferential surface of the mail briquette thread portion 20A.

It can be seen that the airtightness is formed by pressing the O ring 40 inserted in the O ring groove 10-3 of the female briquette thread portion 10A by pressing the inner circumferential face of the E mail bleached screw portion 20A firmly.

As described above, in the rotary type cylindrical structure section fastening apparatus according to the present embodiment, the male thread type brittle thread 10-1 and the female thread type brittle thread 20-1 formed on the first cylindrical structure 10 are formed, The first cylindrical structure 10 and the second cylindrical structure 20 connected to the first cylindrical structure 10 by the screw 10-1 and the second cylindrical structure 20 are fixed to the first cylindrical structure 10 by a frictional force By including the locking pin 30 for strengthening, two cylindrical structures are fabricated into an assembly inside or outside of the cylindrical structures 10, 20 without providing space or conditions for the section fastening device.

10: first cylindrical structure 10A: mail brittle thread
10-1: Breech Thread
10-2: Position hole 10-3: O-ring groove
20: second cylindrical structure 20A: female briquette screw
20-1: Breech Thread
30: Lock pin 31: Insert boss
32: stopper flange 32a: tapered guide surface
32b: stop surface 40: O-ring

Claims (7)

A first cylindrical structure having a male thread type brittle thread;
A second cylindrical structure having a female thread type brittle thread formed therein and threaded with the male thread type brittle thread and connected to the first cylindrical structure by a screwing force;
A locking pin positioned at a screwed portion of the first cylindrical structure and the second cylindrical structure and reinforcing a fixing force with the first cylindrical structure by a frictional force formed between the first cylindrical structure and the second cylindrical structure;
Wherein the first and second fastening portions are fastened to each other.
[2] The apparatus of claim 1, wherein the first cylindrical structure is formed with a mail breech screw portion having the male screw type briquette screw, the second cylindrical structure is formed with a male briquette screw portion having the female screw type briquette screw, And a position hole for inserting the lock pin is formed in the breeze threaded portion.
The braking device according to claim 2, wherein the male screw type briscrew is formed on the outer circumferential surface of the male briquette screw portion, and the female screw type briquette screw is formed on the inner circumferential surface of the female briquette screw portion, Wherein each of the first and second screws is adjacent to each of the screws.
The insert boss according to claim 2, wherein the lock pin comprises an insert boss inserted into the position hole, and a stopper flange integrally formed with the insert boss so as to extend around the position hole, wherein the stopper flange has a frictional force Is formed on a side surface of the cylindrical structure.
[6] The apparatus according to claim 4, wherein the stopper flange forms a tapered surface by a taper guide surface extending from one of top and bottom surfaces of the insert boss.
[3] The apparatus according to claim 2, wherein an O-ring groove is formed on an outer circumferential surface of the mail breech thread portion, and an O-ring is inserted into the O-ring groove.
[7] The apparatus according to claim 6, wherein the O-ring is pressed to the inner circumferential surface of the e-mail bleed screw portion coupled with the e-mail bleed screw portion.

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