KR101915928B1 - A Pipe Coupling Clamp - Google Patents

Abstract

The present invention relates to a pipe connecting clamp for preventing loosening, comprising: two fixing holes; a clamp groove; a stopper; and a driving tool of the stopper.

Description

A Pipe Coupling Clamp}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a piping connection clamp for preventing loosening, and more particularly, to a piping connection clamp for preventing loosening of piping connected to a coaxial arrangement of a semiconductor and a vacuum tube of a liquid crystal display will be.

A process gas pipe is connected to a process chamber such as a film forming apparatus and an etching apparatus of a semiconductor and a liquid crystal display. In the case of the deposition or etching process, various process gases are introduced into the process chamber at a high temperature. During the deposition or etching process, a large amount of reaction by-product gas containing various kinds of flammable gases, corrosive foreign substances and harmful components is generated in the process chamber do.

The exhaust gas after the reaction in the process chamber flows to the exhaust piping line, which is a vacuum piping system, using a vacuum pump device, and finally purified in a scrubber and then discharged to the atmosphere.

Here, the exhaust pipe line is formed by connecting the pipe and the pipe to each other, and has an outwardly extending flange at the end (upper end or lower end) of the pipe abutted to each other. It is important that the vacuum exhaust line connecting the two pipes having the flange at the end is fastened by fastening the opposite flanges of the two coaxially arranged pipes with the vacuum pipe connection clamp so that the exhaust gas does not leak.

Therefore, a vacuum piping connection clamp is used for tightly fitting the flange, which is the joint portion of the piping. In the vacuum piping system, the vacuum piping line is connected to the vacuum pumping device in series, and the vibration due to the operation of the vacuum pumping device is transmitted along the vacuum piping line, so that the vacuum piping line continuously vibrates.

However, in the conventional vacuum piping connection clamp, as the vibration of the vacuum piping continues, the tightening state of the clamping nut gradually loosens and the clamp is loosened, thereby disabling the hermetic connection state of the vacuum piping.

KR 10-1684733 B1 KR 10-1200719 B1 KR 20-0464096 Y1 KR 20-0481234 Y1

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide an exhaust piping line connected to a vacuum pump apparatus in a piping connection clamp, To prevent loosening or loosening of the fastening state of the pipe connecting clamp due to an external force such as vibration after tightening the outer periphery of the flange to prevent loosening of the pipe connecting clamp.

The problems to be solved by the present invention are not limited to the above-mentioned problems. Other technical subjects not mentioned will be apparent to those skilled in the art from the description below.

According to an aspect of the present invention, there is provided a pipe clamp connecting clamp according to the present invention, wherein a first clamp and a second clamp, which are opposed to each other, are rotatably connected to each other by a semicircular ring member, A clamp bolt is rotatably engaged and fixed to the other end of the second clamp and is screwed to the clamp bolt which is pivoted by the clamping groove to be engaged with the clamp bolt, A pipe connecting clamp for a stainless steel material for preventing loosening, comprising: a loosening preventing nut having a plurality of loosening preventing gears formed around the latching protrusion,

Two fixing holes formed in the outer circumferential surface of the first clamp to penetrate into the through-hole,

A first fixing shaft and a second fixing shaft inserted into the fixing hole,

The figure pattern with a pitch on the inner wall of the clamping groove side wall formed in the inner peripheral surface of the edge leading to the circular arc direction are formed, one end and the middle portion and the other end in the width of the facing said inner wall are of the same width w ₁ from the peak height h ₁ to the bottom semi-elliptic pattern of three non-contact part region and the non-contact portion area between the opposing two contact portions of the triangular pattern is the width of the inner wall and having a width decreasing in the peak height h ₁ in the width w ₂ in the width w ₃ in the bottom of the A clamp groove having a width different from that of the inner wall facing the region,

A stopper which is installed in the through hole and whose upper and lower surfaces contact with each other,

The stopper is pivoted about the first fixed shaft when the loosening prevention nut is screwed to the clamp bolt so that the latching protrusion of the stopper is moved out of the latching protrusion window and inserted into the loosening prevention gear of the loosening prevention nut, And a driving mechanism of the stopper for preventing loosening of the loosening preventing nut,

Wherein the driving mechanism of the stopper places a torsion spring having a center portion of the coil portion and one end and the other end in a space formed by the lower end step portion of the stopper and the lower portion of the through- And the other end of the torsion spring is brought into contact with the wall of the through hole so that protrusions protruding from both side surfaces of the stopper are moved The locking protrusion is rotated about the first fixed axis by the force of the torsion spring to move the locking protrusion out of the locking protrusion window and is caught by the edge of the opening of the through slot and is prevented from rotating, do.

According to the present invention configured as described above, the stopper of the stopper is firmly fitted between the anti-loose gears of the anti-loose nut by the torsion spring force, which is provided on the stopper coupled to the fixed shaft, Can be effectively prevented from being easily released.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. Where the same number is used in different figures, this case refers to the same or similar component or step.
1 is an exploded perspective view of a pipe connection clamp for unlocking according to an embodiment of the present invention.
2 is a perspective view of a pipe connection clamp for unlocking according to an embodiment of the present invention.
3 is a perspective view of a first clamp after CNC machining according to the present invention.
4 is a partial enlarged view of Fig.
5 is a perspective view of a first clamp showing a stopper and a release preventing gear according to the present invention.
6 is a view showing the operating states of the stopper and the release preventing gear according to the present invention.
7 is a view showing a contact portion region and a non-contact portion region in the inner wall of the clamp groove side wall according to the present invention.
8 is a view showing the width of the inner wall of the clamp groove side wall in the non-contact area according to the present invention.
9 is a view showing the width of the inner wall of the clamp groove side wall in the contact portion region according to the present invention.

An exemplary embodiment will be described. Other embodiments may additionally or alternatively be used. For space saving and more effective representation, self-explanatory or unnecessary content may be omitted. Conversely, some embodiments may be practiced without using all of the specific details disclosed.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a preferred embodiment of a piping connection clamp for preventing unlocking of the present invention will be described in detail with reference to the accompanying drawings.

As illustrated in Figures 1 to 9

The unclamping pipe connecting clamp 500 is composed of a first clamp 200, a second clamp 300, a connecting block 330, a clamp bolt 150 and a loosening preventing nut (100).

At one end of the first clamp 200, first rivets 225 and 227 are coupled and fixed to the first rivet fixing grooves by the upper side of the connecting block 330 and the first hinge shaft so as to be rotatable, And a locking groove 291 in which the washer retaining jaw 290 and the locking projection window 279 are formed at the other end is surrounded by a pair of outwardly projecting protrusions having a certain length with both side edges opened. The through holes 280 through which the front and rear surfaces, that is, both side surfaces, are mutually connected are the same as the obstacle opening window 279 in the form of a sidewall opening. Two fixing shafts 250 and 260 are inserted into two fixing holes 248 and 249 which are formed in the outer circumferential surface and penetrate into the through hole 280. [

The second rivets 315 and 317 are rotatably connected to the second rivets 315 and 317 at the lower end of the connecting block 330 and the second hinge shaft at one end of the second clamp 300, And a third rivet fixing groove for fixing the third rivets 325 and 327 to the third hinge shaft is formed on the opposite end of the other end. The connecting block 330 includes first and second rivets 225 and 227 and first and second rivets 315 and 315 as first hinge shafts and second hinge shafts on both sides of the first clamp 200 and the second clamp 300, And 317 so that the first clamp 200 and the second clamp 300 can rotate. The clamp bolt 150 and the loosening preventing nut 100 are pivoted and inserted into the clamping groove 291 of the first clamp 200. The clamping bolt 150 and the loosening preventing nut 100 are inserted into the clamping groove 291 of the first clamp 200, Or rotation operation such as reverse rotation or the like. A locking groove 291 surrounded by a pair of outward protrusions is formed as a groove having an open end and an outer peripheral surface. A washer retaining step 290 is formed at an end of the locking groove 291 to clamp the clamp bolt 150. A locking protrusion window 279 is formed at a position where the release preventing gear 120 is placed. A through hole 280 is formed through both sides of the first clamp 200 to the front side and the rear side. The locking protrusion window 279 having a structure in which the unlocking nut 120 of the unlocking nut 100 is opened toward the locking groove 291 is formed in the through hole 280 of the through hole 280, (280).

Here, the first clamp 200 and the second clamp 300 are constituted by a pair of opposed faces, and when they are fastened with a ring body of a semicircular three-dimensional structure having a central hole, the other ends are connected to each other to form a circle Tighten the entire outer periphery of the flange facing the two pipes in the vacuum pipe.

The first clamp 200 and the second clamp 300 each have an inner circumferential surface 400 extending in the circumferential direction with a radius r ₁ at the center C of the semicircle and an outer circumferential surface 450 extending in the arc direction having a radius r ₂ , And a clamp groove side wall 470 extending in a circular arc direction with a radius r ₃ . The inner circumferential surface 400 has a circumferential length in a circumferential direction having a predetermined width and a radius r ₁ . The inner peripheral surface of the circular arc angle 400 is smaller than 180 ° with a radius of an inner circumferential surface of the circumferential length of r ₁ (400) is shorter than πr _1. The semicircular center C of the semicircular first clamp 200 and the second clamp 300 is not located between one end and the other end of the first and second clamps 200 and 300 and is located outside thereof .

The magnitude of the radius is r ₂ > r ₁ , and r ₁ > r ₃ .

The clamp groove 405 is formed by a clamp groove side wall 470 formed at the edge of the inner circumferential surface 400 extending in the circumferential direction with a radius r ₁ at the center C of the semicircle. The clamp groove 405 is a groove surrounding the opposite flanges of the two pipes and forms the figure patterns 410 and 420 having a height on the inner wall of the clamp groove 405. [ The figure patterns 410 and 420 formed on the inner wall are divided into a non-contact area 410 and a contact area 420. The noncontact portion 410 having a larger distance between the opposed inner walls of the clamp groove 405 when the opposite flanges of the two pipes are inserted into the clamp groove 405 is facilitated. The radius from the center of the class (C), r ₃ is the radius from the peak height h ₁ of the clamping groove side wall (470) extending in an arc direction r ₁ to the to the bottom h ₀ of the clamping groove side wall (470) extending in an arc direction 3 Shaped semi-elliptic patterns 410 are formed. The width of the clamp groove 405 in which the semi-elliptic pattern is formed on the inner wall of the clamp groove side wall 470 is equal to w ₁ .

In order to uniformly fasten the outer side of the opposite flange, the distance between the opposed inner walls of the clamp groove 405 is set to be the vertex height h ₁ of the clamp groove side wall 470 extending in the arc direction having a radius r ₃ from the center C of the semicircle and the width w _2, and the radius of the bottom of the clamping groove side wall 470 leading to r ₁ of the circle direction is a width w _3.

That is, two triangular patterns 420 having a decreasing width toward the bottom direction.

The width of the clamp groove 405 in which the triangular pattern is formed on the inner wall of the clamp groove side wall 470 is narrowed toward the bottom direction.

The size of the width is w ₁ > w ₂ , and w ₂ > w ₃ .

A clamp bolt 150 is rotatably coupled to the other end of the second clamp 300. The clamp bolt 150 is composed of a top portion having a predetermined length and a thread portion formed on the outer circumferential surface and a bottom portion which is a head portion. The lower head portion is engaged with the third rivets 325 and 327 by the third hinge shaft so as to be pivoted into the coupling groove 291 of the first clamp 200, The unlocking nut 100 has a cylindrical shape with a predetermined length and is inserted into the center of the clamp bolt 150 so that the length of the inner diameter of the unlocking nut 100 A threaded hole is formed in a long direction.

Thus, when the clamp bolt 150 is inserted into the threaded hole of the nut, the loosening prevention nut 100 moves forward or backward along the axial direction of the clamp bolt 150, 200 and the second clamp 300 are tightened or loosened together. The coupling force of the first clamp 200 and the second clamp 300 can be firmly established by the tightening force of the loosening nut 100 when the clamp bolt 150 is fastened to the thread of the clamp bolt 150. In the first clamp 200, The clamp bolt 150 and the loosening prevention nut 100 that are threadedly engaged with each other in the piping connection clamp using the second clamp 300 are prevented from being released from the clamp bolt 150 by an external force, A stopper 275 is required to be inserted into the unlocking gear 120 of the unlocking nut 100 by the locking protrusion 274 to prevent the nut 100 from being loosened and to fix the locking nut 100 without rotation. The preventive nut 100 has a cylindrical shape, and a plurality of release preventing gears 120 are formed on the outer circumferential surface at regular intervals.

A stopper 275 having the first fixing shaft 250 as a support pin is installed in the through hole 280 of the first clamp 200 while the upper and lower surfaces thereof contact the through holes 280. [ The stopper 275 has protrusions 278 extending out from the front surface and the rear surface of the first clamp 200 and latching protrusions 274 extending in the direction of the locking protrusion window 279, And the upper portion has a through hole 251 and an embossed groove 253 which are connected to the inner space. A torsion spring 273 is inserted into the stepped space at the bottom of the stopper 275 and a first fixing member 271 is inserted into the through hole 280 from the outer circumferential surface of the first clamp 200, The through hole 251 of the stopper 275 and the coil portion 272 of the torsion spring 273 are coupled and fixed to the shaft 250. One end of the torsion spring 273, which is an end portion of the torsion spring 273, is brought into contact with the lower stepped wall portion of the stopper 275, The other end of the torsion spring 273, which is the other end, is brought into contact with the wall of the through hole 280.

5 and 6, the first fixed shaft 250 and the second fixed shaft 260 correspond to the through hole 251 and the buried groove 253, respectively, and the stopper 275 is loosened or locked . In order to lock the stopper 275, it is necessary to move the protrusion 278 extending to the front to move the torsion spring 273 coupled with the first fixing shaft 250 to the stepped space of the lower portion of the stopper 275 And the latching protrusion 274 is moved out of the hooking window 279 by rotating about the first fastening shaft 250 by force. The moved locking protrusion 274 is inserted into the unlocking prevention gear 120 of the unlocking nut 100 to fix the unlocking nut 100 so as not to rotate.

The moved protrusion 278 is caught by the edge 285 of the through hole 280 and does not proceed any more. This causes the engaging protrusion 274 to be moved only a certain distance out of the engaging hole 279.

While the present invention has been described with reference to the accompanying drawings, it is to be understood that the present invention is not limited thereto.

Accordingly, it is a matter of course that various modifications and variations of the present invention can be made without departing from the scope of the present invention. Imitation is within the scope of the technical idea of the present invention.

100: Release prevention nut 120: Release prevention gear
150: Clamp bolt 200: First clamp
225, 227: first rivet 248, 249:
250, 260: fixed shaft 251: through hole
253: Throwing groove 272: Nose portion
273: Torsion spring 274:
275: Stopper 278: Projection
279: obstacle floor window 280: penetration hole
285: opening edge 290; Washer jaw
291: fastening groove 300: second clamp
315, 317: second rivet 325, 327: third rivet
330: connection block 400: inner peripheral surface
405: clamp groove 410, 420: figure pattern
410: non-contact area 420: contact area
450: outer peripheral surface 470: clamp groove side wall
500: Loosening piping clamp

Claims (5)

The first clamp 200 and the second clamp 300 which are opposed to each other are pivotally connected to the connecting block 330 by a semicircular ring body. The other end of the first clamp 200 is connected to the washer holding jaws 290, A clamp bolt 150 is rotatably coupled to the other end of the second clamp 300. The clamp bolt 150 is rotatably coupled to the clamp bolt (200) having a plurality of loosening preventing gears (120) formed on an outer periphery thereof and screwed to clamp bolts (150) which are pivotally inserted into the clamp bolts (150) A pipe connection clamp of a stainless steel material for preventing loosening comprising a long hole (280)
Two fixing holes 248 and 249 formed in the outer circumferential surface of the first clamp 200 so as to penetrate into the through-hole 280,
A first fixing shaft 250 and a second fixing shaft 260 inserted into the fixing holes 248 and 249,
The figure pattern with a pitch on the inner wall of the clamping groove side wall 470 is formed on the inner peripheral surface 400, the edges that lead to the arc direction is formed, one end and the middle portion and the other end in the width of the facing said inner wall is from the apex height h ₁ bottom h in between the semi-elliptical pattern of three non-contact portion area 410 of which has the same width w ₁ to _0, and the non-contact portion areas 410. in this the opposite the inner wall width of peak height h ₁ in the width w ₂ bottom h ₀ A clamp groove 405 having a width different from that of the inner wall opposite to the two contact regions 420 of the triangular pattern having the width decreasing to the width w ₃ ,
A stopper 275 disposed inside the through hole 280 and having a top and bottom surfaces contacting with the through hole 280 to support the first fixing shaft 250,
The stopper 275 rotates about the first fixing shaft 250 when the loosening preventing nut 100 is screwed to the clamp bolt 150 so that the latching protrusion 274 of the stopper 275 The stopper 275 is moved out of the stopping hole 279 to be fitted into the unlocking gear 120 of the unlocking nut 100 to prevent the unlocking nut 100 from being loosened. In addition,
The driving mechanism of the stopper 275 includes a torsion spring 273 having a coil part at the center and one end and the other end in a space formed by the lower stepped part of the stopper 275 and the lower part of the through- The coil portion of the torsion spring 273 is fixedly coupled to the first fixed shaft 250 and one end of the torsion spring 273 is brought into contact with the wall of the lower step portion, The other end of the torsion spring 273 is brought into contact with the wall of the through hole 280 so that the protrusion 278 out of both side surfaces of the stopper 275 moves, 250 so that the engaging protrusion 274 is moved out of the engaging hole 279 and is caught by the opening edge 285 of the through hole 280 so as to be prevented from rotating, Feature pool Pipe connection clamp for rim prevention. delete The method according to claim 1,
Wherein the width w ₁ of the inner wall in the non-contact area 410 is w ₁ > w ₂ with respect to the width w ₂ of the inner wall in the contact area 420. The method according to claim 1,
In the contact region 420, the width w ₂ of the inner wall loosening prevention pipe joining clamps, characterized in that the w _2> w ₃ for the width w ₃ of the inner wall. The method according to claim 1,
Wherein the shape of the first clamp (200) is manufactured using a CNC apparatus.

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