KR101828071B1 - Joints for earthquake and flexible - Google Patents

Abstract

The present invention relates to an earthquake-proof and flexible joint improved to stably maintain a connection state of a pipe when an earthquake occurs or the pipe is extended in a longitudinal direction. According to the present invention, the earthquake-proof and flexible joint can accept distortion or an angle change of a pipe in addition to a longitudinal extension of the pipe to stably maintain a connection state between an end of the pipe and a valve when an earthquake occurs.

Description

{Joints for earthquake and flexible}

The present invention relates to a joint pipe for earthquake-proofness and expansion and contraction, and more particularly to a joint pipe for earthquake-proof and expansion and contraction so that the connection state of a pipe is firmly maintained even in an earthquake or expansion or contraction in the longitudinal direction of the pipe.

Generally, water pipes are made of metal pipes and embedded in the ground. These pipes are divided at regular intervals, and the ends of the pipes are connected to each other by a joint pipe. That is, since the pipe shrinks or expands according to the temperature of the fluid flowing in the outside air or the inside thereof, the pipes are connected to each other through the expansion joint pipe so as to accommodate the longitudinal expansion and contraction of the pipe. Of course, additional valves may be installed at the connection points of the two pipes as necessary.

However, the conventional expansion joint pipe accommodates only the extension and retraction of the pipe in the longitudinal direction, and the change in the longitudinal direction of the pipe is relatively firm, but the pipe has a problem of warpage and the angle change of the pipe is weak. In other words, it is very vulnerable to the change of the ground due to the unevenness of the ground and the earthquake.

On the other hand, in order to solve the above-mentioned problem, Korean Patent No. 10-1318774 discloses a ball joint type expansion joint pipe.

However, the expansion joint pipe disclosed in the above patent has a disadvantage in that a portion accommodating the expansion and contraction of the pipe and a portion accommodating a twist or angle change of the pipe are divided, and the structure is very complicated.

In addition, there is an advantage in that the angle of the pipe changes when the external pressure is applied due to an earthquake or the like, but there is a disadvantage in that the pipe does not return to its original state when the applied external pressure is removed thereafter. That is, the pipe is maintained in the best condition in consideration of the surrounding environment, and when the angle of the pipe is changed, a weak point is generated in the changed portion. Therefore, it is ideal that the pipe returns to its original state when the external pressure is released after the angle of the pipe is deformed by the external pressure. However, the conventional expansion joint pipe has a disadvantage in that it does not have such a return function.

1) Republic of Korea Patent No. 10-1318774 (Registered on Oct. 10, 2013), title of invention: " 2) Korean Patent No. 10-1003293 (Registered on Dec. 15, 2010), entitled "Durability-Enhanced Pipe Connection Device" 3) Utility Model No. 20-0190671 (Registered on May 18, 2000), Registered Name of Design: "Flexible and Bendable Conduit Connector" 4) Korean Patent Laid-Open Publication No. 10-1996-0014740 (Publication Date: May 22, 1996)

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above-mentioned problems, and it is an object of the present invention to provide an apparatus and a method for controlling a piping system in which, even if a pipe is twisted or angularly changed, And to provide a joint pipe for earthquake-proof and expansion and contraction that maintains the best water condition by restoring the pipe to its original state when the external pressure for deforming the pipe angle is solved.

The above-mentioned object can be attained by a pipe-shaped pipe having a constant diameter and formed with a flange for a valve to be engaged with a valve at one end, and a pipe extending from the other end of the pipe to form a convex jar, A joint tube body including a formed jar part, a bottleneck part formed at an end of the jar part, and an expanded tube part extending outwardly in the longitudinal direction from the bottleneck part; A packing disposed on an inner circumferential surface of the expanded portion to seal the outer circumferential surface of the pipe; A ring-shaped fastening body portion having an inner diameter larger than the outer diameter of the pipe; a packing pressing portion protrudingly formed to press the packing in the longitudinal direction of the fastening body portion; A joint tube fastening member composed of a plurality of elongated arms protruding outwardly and a ring-shaped clamping-away preventing jaw integrally formed to connect ends of the elongate arms, the joint tube fastening member being press-fastened to an end of the joint tube body; And at least one cut portion formed in a part of the circumferential direction and fixed to the outer circumferential surface of the pipe by tightening to narrow the gap between the cut portion and the clamp, And a clamp whose longitudinal movement is limited between the body and the clamp release preventing jaw, wherein a coupling flange is formed protruding radially outward from an end of the bending portion of the coupling tube body, And a bolt insertion hole is formed in the hook bolt coupling portion so that the bolt head of the hook bolt is caught by the engagement flange of the body of the coupling tube, and the hook bolt is inserted into the bolt insertion hole Through holes and exposed to the upper part of the hook bolt connection part, tighten the nut, and the hook bolt And a fastening bolt fastening part protruding outwardly through an elongated arm and an elongated arm is formed at an end of the fastening part of the fastening pipe body and the hook bolt fastening part of the fastening tube fastening member And the fastening bolt fastening part is fastened to the outer circumferential surface of the pipe by fastening the fastening bolt fastening parts adjacent to each other through the fastening bolt which is formed through the bolt fastening hole and fastened through the bolt fastening hole, The inner circumferential surface of the clamp has a plurality of engaging portions formed on the outer circumferential surface of the pipe so as to be firmly fixed to the outer circumferential surface of the pipe. The flange is fixed to the valve through the valve flange of the connecting pipe body, , The end of the pipe is passed through the clamp, the joint pipe tightening member and the packing in order Wherein the pipe is connected to the pipe by fixing the pipe by tightening the clamp while being inserted into the jar part of the joint pipe body so as to connect the pipe and the valve.

Further, the above-mentioned object is achieved by a bottle cap which is formed in the form of a convex jar in the middle and which is formed so as to be able to receive an end of a pipe therein, a bottleneck which is symmetrically formed at both ends of the bottle, A diaphragm body formed of an expanding and expanding portion and formed symmetrically with respect to the middle; A packing disposed on an inner circumferential surface of the expanded portion to seal the outer circumferential surface of the pipe; A ring-shaped fastening body portion having an inner diameter larger than the outer diameter of the pipe; a packing pressing portion protrudingly formed to press the packing in the longitudinal direction of the fastening body portion; A joint tube fastening member composed of a plurality of elongated arms protruding outwardly and a ring-shaped clamping-away preventing jaw integrally formed to connect ends of the elongate arms, the joint tube fastening member being press-fastened to an end of the joint tube body; And at least one cut portion formed in a part of the circumferential direction and fixed to the outer circumferential surface of the pipe by tightening to narrow the gap between the cut portion and the clamp, And a clamp whose longitudinal movement is limited between the body and the clamp release preventing jaw, wherein a coupling flange is formed protruding radially outward from an end of the bending portion of the coupling tube body, And a bolt insertion hole is formed in the hook bolt coupling portion so that the bolt head of the hook bolt is caught by the engagement flange of the body of the coupling tube, and the hook bolt is inserted into the bolt insertion hole Through holes and exposed to the upper part of the hook bolt connection part, tighten the nut, and the hook bolt And a fastening bolt fastening part protruding outwardly through an elongated arm and an elongated arm is formed at an end of the fastening part of the fastening pipe body and the hook bolt fastening part of the fastening tube fastening member And the fastening bolt fastening part is fastened to the outer circumferential surface of the pipe by fastening the fastening bolt fastening parts adjacent to each other through the fastening bolt which is formed through the bolt fastening hole and fastened through the bolt fastening hole, A plurality of bites are formed on the inner circumferential surface of the clamp so as to be firmly fixed to the outer circumferential surface of the pipe so that the ends of the pipe are connected to each other on both sides of the joint pipe body, Clamps and joints Passing through the fastening elements and packing in turn, That eseo han so inserted to tighten the clamp fixedly installed pipe is achieved by a fitting for the earthquake-resistant and elastic, characterized.

In addition, piping angle restoring means is additionally provided on both sides of the jar part of the coupling body, and the piping angle restoring means is formed by integrally bending a retaining piece in a part of the inner surface of the jar part, A fixing part formed with an insertion groove corresponding to the engaging groove so as to be engaged with the engaging piece and having an insertion groove corresponding to the engaging piece; And is brought into close contact with the inner surface of the jar part when it is lifted in the direction of the entrance of the jar part in the state where the fixing part is engaged with the jar part and is brought into close contact with the inner side of the jar part when it is lowered inwardly of the jar part, A contact piece which is arranged so as to be spaced apart from the support piece and which is in contact with a part of the pipe, And an elastic portion formed of a spring piece for providing an elastic force.

The joint pipe for earthquake-proof and expansion / contraction according to the present invention not only extends and contracts in the longitudinal direction of the pipe but also accommodates the distortion and angle change of the pipe, so that the connection between the end of the pipe and the valve is maintained firmly even if an earthquake occurs have.

Further, in the joint pipe for earthquake-proof and expansion / contraction according to the present invention, when the external pressure for deforming the pipe angle is solved, the pipe is returned to its original state, and thus the water pipe can be maintained in the best water channel condition.

In addition, the joint pipe for earthquake-proof and expansion / contraction according to the present invention has an effect of eliminating the difficulty in construction and reducing the construction cost because the structure that accommodates the expansion, contraction, and angle change of the pipe is integrated. .

1 is a perspective view showing a joint pipe for vibration proofing and expansion and contraction according to an embodiment of the present invention,
FIG. 2 is an exploded perspective view of FIG. 1,
Fig. 3 is a sectional view of Fig. 1,
4 is a cross-sectional view illustrating an installation state of a joint pipe for vibration isolation and expansion / contraction according to an embodiment of the present invention,
Fig. 5 is an operational view showing longitudinal expansion and contraction of the pipe in Fig. 4,
Fig. 6 is an operation diagram showing the change in the angle of the pipe in Fig. 4,
FIG. 7 is a cross-sectional view of the valve in FIG. 4,
FIG. 8 is a perspective view showing a joint pipe for earthquake-proof and expansion and contraction according to the second embodiment of the present invention,
FIG. 9 is an exploded perspective view of FIG. 8,
Fig. 10 is a sectional view of Fig. 8,
11 is a cross-sectional view illustrating a state in which a joint pipe for earthquake-proof and expansion and contraction according to the second embodiment of the present invention is installed,
Fig. 12 is an operational view showing longitudinal expansion and contraction of the pipe in Fig. 11,
Fig. 13 is an operation diagram showing the change in angle of the pipe in Fig. 11,
FIG. 14 is a partial cross-sectional view showing a state in which a pipe angle restoring means is installed in a joint pipe for earthquake-proof and expansion / contraction according to the present invention;
Fig. 15 is a partial perspective view showing a part of the pipe angle restoring means according to the present invention,
16 is an operation diagram for explaining an installation state of the piping angle restoring means applied to the present invention,
17 is an operation diagram for explaining an operating state of a piping angle returning means applied to the present invention.

The present invention will now be described in detail with reference to the accompanying drawings.

First, a joint pipe for seismic and expansion / contraction according to the first embodiment of the present invention will be described.

1 to 4, a joint pipe for earthquake-proof and expansion / contraction according to a first embodiment of the present invention is for connecting an end of a pipe 10 to a valve 20, and includes a joint pipe body 100, A packing 200, a joint pipe coupling member 300, and a clamp 400.

First, the joint pipe body 100 will be described. The joint tube body 100 includes a straight tube portion 110, a jar portion 120, a bottleneck portion 130, and an expanding portion 140.

The straight pipe portion 110 is formed in a tubular shape having a constant diameter and is formed with a flange 111 for a valve for coupling the valve 20 to one end portion. The straight pipe portion 110 serves to prevent the jar portion 120 from being caught by the pipe insertion port 31 of the valve protector 30 when the valve protector 30 is installed in the valve 20.

The tub portion 120 is formed to extend in the form of a convex jar at the other end of the straight pipe portion 110. The end portion of the pipe 10 is inserted into the pot portion 120 and freely opened in a radial direction Can move.

A bottleneck 130 for inserting the pipe 10 into the jar part 120 is formed at the end of the jar part 120 and the tube 140 is formed to extend outwardly in the longitudinal direction in the bottleneck part 130 do. The expanding portion 140 is formed so as to be expanded so that the inner circumferential surface thereof is inclined. On the outer circumferential surface of the tube portion 140, a locking flange 141 protrudes radially outward.

A packing 200 for sealing the outer circumferential surface of the pipe 10 is disposed on the inner circumferential surface of the tube portion 140. The packing 200 is formed in a ring shape having an inner diameter corresponding to the outer diameter of the pipe 10 and the outer side in the radial direction is formed to be inclined so as to correspond to the inner circumferential surface of the expanded portion 140.

When the piping 10 is inserted into the jar part 120 of the coupling pipe body 100 through the packing 200 and the bottleneck part 130, the packing 200 is closely attached to the outer peripheral surface of the piping 10, 10 and the expanded portion 140. [

The packing 200 is made of elastic or resilient material such as rubber or silicone. Therefore, the sealed state is maintained even in the longitudinal expansion, contraction, and inclination of the pipe 10.

A joint pipe coupling member 300 to be press-fitted to the coupling pipe body 100 is provided. The joint tube fastening member 300 includes a fastening body 310, a packing pressing portion 311, an extension arm 322, a clamp release preventing jaw 321, and a hook bolt fastening portion 312, And is tightly fastened to the expanded portion 140 of the joint body 100 by fastening.

The fastening body portion 310 is formed in a ring shape having an inner diameter larger than the outer diameter of the pipe 10 and a packing pressing portion 311 protruding toward the packing 200 is formed inside the fastening body portion 310 in the longitudinal direction . The packing pressing portion 311 presses the packing 200 interposed between the coupling pipe coupling member 300 and the coupling pipe body 100 toward the coupling pipe body 100.

A plurality of extension arms 322 protruding outward along the longitudinal direction of the pipe 10 are formed on the outside of the fastening body 310 in the longitudinal direction. At the end of the extension arm 322, a clamp release preventing projection 321 protruding radially inward is formed.

In this embodiment, four extending arms 322 are protruded from the fastening body 310, and the clamp release preventing jaw 321 is formed in the shape of a ring connecting the ends of the four extending arms 322.

The hook bolt engagement portion 312 is formed radially outwardly of the fastening body portion 310. In this embodiment, four hook bolt coupling portions 312 formed through the bolt insertion holes 312a are formed protruding outward in the radial direction.

The hook bolt 331 is inserted into the bolt insertion hole 312a of the hook bolt coupling portion 312 so that the bolt head 331a of the hook bolt 331 is caught by the coupling flange 141 of the coupling body 100 The nut 332 is fastened with the washer 333 interposed therebetween so that the joint pipe fastening member 300 is press-fastened to the expanded portion 140 of the joint pipe body 100.

The number of the extension arm 322 or the hook bolt coupling portion 312 of the coupling pipe coupling member 300 can be changed according to the size of the coupling pipe coupling member 300. It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

Clamps 400 are provided in the space surrounded by the fastening body 310 of the joint pipe coupling member 300 and the four extension arms 322 and the clamp release preventing jaws 321.

The clamp 400 has a ring shape having a smaller width than the gap between the clamping body 310 and the clamp release preventing jaw 321. At least one cutout portion 410 is formed in a part of the circumferential direction. The clamp 400 is fixed to the outer circumferential surface of the pipe 10 by tightening the cut portion 410 so as to narrow the gap.

In this embodiment, the clamp 400 is formed so that two cutouts 410 are formed in a part of the circumferential direction to be divided into two arcs of the same shape. A fastening bolt fastening part 420 is formed at the end of the clamp 400 where the cutout part 410 is formed. The tightening bolt fastening part 420 has a shape protruding radially outwardly so as to pass between the pair of adjacent elongated arms 322 of the joint tube fastening member 300.

A bolt fastening hole 421 is formed in the tightening bolt fastening part 420 and a pair of tightening bolt fastening parts 420 adjacent to each other is tightened using a tightening bolt 441 and a tightening nut 442, The gap between the cutouts 410 is reduced and the clamp 400 is fixed to the outer circumferential surface of the pipe 10.

A plurality of bites 430 are formed on the inner circumferential surface of the clamp 400 so that the clamp 400 can securely fix the outer circumferential surface of the pipe 10 by being fixed. The shape of the biting teeth 430 may be variously modified according to the embodiment.

The clamp 400 of the present embodiment is fixed to the outer circumferential surface of the pipe 10 by tightening and tightening the tightening bolt fastening portion 420 using the tightening bolt 441 and the tightening nut 442. However, this type of fastening is only an embodiment, and other types of fastening members may be applied depending on the embodiment.

The clamp 400 is in the form of a ring having a smaller width than the gap between the clamping body 310 and the clamp release preventing jaw 321 of the joint pipe coupling member 300 and the clamping body 310 and the extension Is disposed in a space surrounded by the arm (322) and the clamp release preventing jaw (321).

The clamp 400 can freely move in the longitudinal direction or the radial direction of the pipe 10 within the space surrounded by the fastening body portion 310, the extension arm 322 and the clamp release preventing jaw 321. [ This movement is performed in the same manner even when the pipe 10 is fixed to the outer peripheral surface of the pipe 10 and serves to prevent the pipe 10 from being detached from the pipe joint member 300.

Now, the installation state of the joint pipe for earthquake-proof and expansion and contraction according to the first embodiment of the present invention will be described in detail.

First, the valve 20 is provided. The valve 20 is in the form of a wiping valve which is widely used for piping for tap water. On both sides of the valve (20), coupling fittings for valve seismic and expansion and contraction according to the first embodiment of the present invention are respectively coupled. The valve flange 111 formed on the straight pipe portion 110 of the coupling pipe body 100 is coupled to the valve 20 by flange connection. The flange coupling is a method widely used in the past, and this can be easily confirmed through the drawings.

After the coupling of the valve 20 and the coupling body 100 is completed, the end of the pipe 10 is connected to the clamp 400 by the coupling 200, the coupling pipe 300 and the clamp 400, The joint pipe 300 and the packing 200 in this order to be inserted into the jar part 120 of the joint pipe body 100. Thereafter, the inserted depth of the pipe 10 is adjusted, and the joint pipe coupling member 300 is press-fastened to the joint pipe body 100. Then, the tightening bolt 441 and the tightening nut 442 are tightened to fix the clamp 400 to the outer circumferential surface of the pipe 10.

The packing 200 is brought into close contact with the outer circumferential surface of the pipe 10 and the inner circumferential surface of the expanded portion 140 so that the joint pipe body 100 100 and the piping 10 are sealed. In addition, the clamp 400 is fixed to the outer circumferential surface of the pipe 10, thereby preventing the pipe 10 from being detached from the pipe fitting member 300.

The clamp 400 of the present embodiment is not fixed to the joint pipe body 100 or the joint pipe fastening member 300 but may be fixed to the fastening body portion 310 of the joint pipe fastening member 300 and the plurality of extension arms 322, And is accommodated in a space surrounded by the clamp releasing restricting tails 321 so as to be freely movable.

5, the clamp 400 is moved in the longitudinal direction of the pipe 10 or in the axial direction of the pipe 10 in the space in which the clamp 400 is accommodated together with the pipe 10 to which the clamp 400 is fixed And can be inclined at an angle with the pipe 10 as shown in FIG.

However, in spite of the free movement of the clamp 400 and the pipe 10, the clamping body 310, the extension arm 322, and the clamp release preventing jaw 321 of the joint pipe coupling member 300, And the piping 10 are prevented from being separated from each other.

On the other hand, as shown in FIG. 7, the valve 20 is provided with a valve protection box 30 for protecting the valve 20.

The pipe insertion port 31 of the valve protector 30 is formed to be smaller in size than the jar part 120 of the joint pipe body 100. However, due to the straight pipe part 110 of the joint pipe body 100, There is no problem in installing the valve protecting tube 30 in the case of the valve closing mechanism.

That is, it is not necessary to additionally connect a separate socket between the coupling body 100 and the valve 20 in order to install the valve protection box 30 in the valve 20, It is not necessary to deform the base 31 as well.

Next, a joint pipe for seismic and expansion / contraction according to a second embodiment of the present invention will be described. The second embodiment differs from the first embodiment only in the shape of the joint tube body, and the remaining components have the same configuration and function. Therefore, in the following description, the same components as those of the first embodiment Will be described using the same reference numerals.

8 to 11, a joint pipe for earthquake-proof and expansion / contraction according to a second embodiment of the present invention is for connecting the ends of two pipes 10, and includes a joint pipe body 100-1, a packing 200, a joint pipe coupling member 300, a clamp 400, and the like.

The joint body 100-1 includes a jar part 120-1 having a convex shape in the middle and formed in the center part and a jar part 120-1 having an end part of the pipe 10 inserted into the jar part 120-1 A bottleneck portion 130-1 formed symmetrically to both ends of the bottleneck portion 120-1 and an expanded portion 140-1 extending outwardly in the longitudinal direction from the bottleneck portion 130-1.

Since the jar part 120-1 is formed in a convex jar shape, the end of the pipe 10 inserted into the jar part 120-1 can freely move in the radial direction inside the jar part 120-1 . The bottleneck portion 130-1 is a portion where the diameter of the bottleneck portion 130-1 is narrowed as it is known by the name, and the pipe 10 is a portion through which the pipe 10 passes to be inserted into the jar portion 120-1.

The expanding portion 140-1 gradually increases in diameter and is formed in an inclined shape to provide a space in which the packing 200 can be seated. At the extended end of the tube portion 140-1, a latching flange 141-1 is formed protruding radially outwardly.

A packing 200 for sealing the outer circumferential surface of the pipe 10 is disposed on the inner circumferential surface of the tube portion 140-1. The packing 200 is formed in a ring shape having an inner diameter corresponding to the outer diameter of the pipe 10 and the outer side in the radial direction is formed to be inclined so as to correspond to the inner peripheral surface of the expanded portion 140-1.

When the piping 10 is inserted into the jar part 120-1 of the coupling body 100-1 through the packing 200 and the bottleneck part 130-1, Tightly adheres to the outer circumferential surface to seal the gap between the pipe 10 and the expanded portion 140-1.

The packing 200 is made of elastic or resilient material such as rubber or silicone. Therefore, the sealed state is maintained even in the longitudinal expansion, contraction, and inclination of the pipe 10.

A pair of joint pipe fastening members 300 are provided to be fastened to both ends of the joint pipe body 100-1.

The joint tube fastening member 300 includes a fastening body 310, a packing pressing portion 311, an extension arm 322, a clamp release preventing jaw 321, and a hook bolt fastening portion 312, And is fastened to the end of the coupling body 100-1 by fastening.

The fastening body portion 310 is formed in a ring shape having an inner diameter larger than the outer diameter of the pipe 10 and a packing pressing portion 311 protruding toward the packing 200 is formed inside the fastening body portion 310 in the longitudinal direction . The packing pressing portion 311 presses the packing 200 interposed between the coupling pipe coupling member 300 and the coupling pipe body 100-1 toward the coupling pipe body 100-1.

A plurality of extension arms 322 protruding outward along the longitudinal direction of the pipe 10 are formed on the outside of the fastening body 310 in the longitudinal direction. At the end of the extension arm 322, a clamp release preventing projection 321 protruding radially inward is formed.

In this embodiment, four extending arms 322 are protruded from the fastening body 310, and the clamp release preventing jaw 321 is formed in the shape of a ring connecting the ends of the four extending arms 322.

The hook bolt engagement portion 312 is formed radially outwardly of the fastening body portion 310. In this embodiment, four hook bolt coupling portions 312 formed through the bolt insertion holes 312a are formed protruding outward in the radial direction.

The hook bolt 331 is inserted into the bolt insertion hole 312a of the hook bolt coupling part 312 and the bolt head 331a of the hook bolt 331 is inserted into the engagement flange 141-1 of the coupling body 100-1 And then the nut 332 is fastened with the washer 333 interposed therebetween, so that the joint pipe fastening member 300 is press-fastened to the end of the joint pipe body 100-1.

The number of the extension arm 322 or the hook bolt coupling portion 312 of the coupling pipe coupling member 300 can be changed according to the size of the coupling pipe coupling member 300. It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

Clamps 400 are provided in the space surrounded by the fastening body 310 of the joint pipe coupling member 300 and the four extension arms 322 and the clamp release preventing jaws 321.

The clamp 400 has a ring shape having a smaller width than the gap between the clamping body 310 and the clamp release preventing jaw 321. At least one cutout portion 410 is formed in a part of the circumferential direction. The clamp 400 is fixed to the outer circumferential surface of the pipe 10 by tightening the cut portion 410 so as to narrow the gap.

In this embodiment, the clamp 400 is formed so that two cutouts 410 are formed in a part of the circumferential direction to be divided into two arcs of the same shape. A fastening bolt fastening part 420 is formed at the end of the clamp 400 where the cutout part 410 is formed. The tightening bolt fastening part 420 has a shape protruding radially outwardly so as to pass between the pair of adjacent elongated arms 322 of the joint tube fastening member 300.

A bolt insertion hole 421 is formed in the tightening bolt fastening part 420. When a pair of fastening bolt fastening parts 420 adjacent to each other is fastened with the fastening bolt 441 and the nut 442 and tightened, The gap between the cutouts 410 is reduced and the clamp 400 is fixed to the outer circumferential surface of the pipe 10.

A plurality of bites 430 are formed on the inner circumferential surface of the clamp 400 so that the clamp 400 can securely fix the outer circumferential surface of the pipe 10 by being fixed. The shape of the biting teeth 430 may be variously modified according to the embodiment.

The clamp 400 of the present embodiment is fixed to the outer circumferential surface of the pipe 10 by fastening and tightening the tightening bolt fastening portion 420 using the fastening bolt 441 and the nut 442. [ However, this type of fastening is only an embodiment, and other types of fastening members may be applied depending on the embodiment.

The clamp 400 is in the form of a ring having a smaller width than the gap between the clamping body 310 and the clamp release preventing jaw 321 of the joint pipe coupling member 300 and the clamping body 310 and the extension Is disposed in a space surrounded by the arm (322) and the clamp release preventing jaw (321).

The clamp 400 can freely move in the longitudinal direction or the radial direction of the pipe 10 within the space surrounded by the fastening body portion 310, the extension arm 322 and the clamp release preventing jaw 321. [ This movement is performed in the same manner even when the pipe 10 is fixed to the outer peripheral surface of the pipe 10 and serves to prevent the pipe 10 from being detached from the pipe joint member 300.

Next, the installation state of the joint pipe for earthquake-proof and expansion and contraction according to the second embodiment of the present invention will be described in detail.

The end of the pipe 10 is inserted into the joint portion 120-1 of the joint body 100-1 through the joint pipe fastening member 300 in which the clamp 400 is received and the packing 200 . Thereafter, the inserted depth of the pipe 10 is adjusted and the joint pipe coupling member 300 is press-fastened to the joint pipe body 100-1. Then, the clamping bolt 441 and the nut 442 are tightened to fix the clamp 400 to the outer circumferential surface of the pipe 10.

The packing 200 is brought into close contact with the outer circumferential surface of the pipe 10 and the inner circumferential surface of the expanded portion 140-1 when the joint pipe body 100-1 and the joint pipe fastening member 300 are press- Thereby sealing the joint pipe body 100-1 and the pipe 10. In addition, the clamp 400 is fixed to the outer circumferential surface of the pipe 10 to prevent the pipe 10 from being detached from the pipe fitting member 300.

The clamp 400 of the present embodiment is not fixed to the joint pipe body 100-1 or the joint pipe fastening member 300 but may be fixed to the fastening body portion 310 of the joint pipe fastening member 300 and the plurality of extension arms 322 And the clamp releasing restricting tails 321, and is freely movable.

That is, the clamp 400 moves along the longitudinal direction of the pipe 10 as shown in FIG. 12 in the space in which the clamp 400 is accommodated together with the pipe 10 to which the clamp 400 is fixed, And can be inclined at an angle with the pipe 10 as shown in FIG.

However, in spite of the free movement of the clamp 400 and the pipe 10, the clamping body 310, the extension arm 322, and the clamp release preventing jaw 321 of the joint pipe coupling member 300, And the piping 10 are prevented from being separated from each other.

In the meantime, it is preferable that the piping angle returning means is additionally provided in the joint pipe for earthquake-proof and expansion / contraction according to the first and second embodiments, and the construction and operation thereof will be described below.

14 to 16, the piping angle restoring means 500 applied to the joint pipe for earthquake-proof and expansion and contraction according to the present invention includes the latching portion 510, the fixing portion 520, and the elastic portion 530 .

The locking part 510 is integrally formed on a part of the inner surface of the jar part 120-1 of the coupling body 100-1 and has a structure in which the locking piece 512 is bent, And an engaging groove 514 is formed on the inner side between the engaging portion and the engaging piece 512 toward the entrance of the jar portion. The latching part 510 may be formed in a ring shape as a whole, but it is preferable that the latching part 510 is formed at about 4 positions at regular intervals.

The fixing part 520 is a part which is fitted to the engaging piece 512 and is in the form of a ring so as to come into close contact with the inner surface of the jar part 120 or 120-1 and is engaged with the engaging piece 512 The insertion piece 522 corresponding to the groove 514 is formed and the insertion groove 524 corresponding to the engagement piece 512 is formed. Therefore, the fixing part 520 is assembled in such a manner that the fixing part 520 is inserted into the engaging piece 512 at the entrance of the jar part 120 (120-1).

The elastic portion 530 is rotatably coupled to the fixing portion 520 by a hinge pin 533 and elastically presses the pipe 10 guided by the jar portions 120 and 120-1. The elastic part 530 is rotatably coupled to the fixing part 520 and is brought into close contact with the inner surface of the fixing part 520 when lifted in the direction of the entrance of the jar part 120 -1), it is installed in close contact with the inside of the jar part 120 (120-1). At this time, the elastic part 530 may be configured to hold the rotated position by coupling the fixing part 520 to the fixing part 520, or a separate spring may be provided at the hinge pin 533 to form the jar part 120 120-1, 120-1. The resilient portion 530 includes a support piece 532 which is in close contact with the inner side of the jar part 120-1 and a contact piece 532 which is spaced apart from the support piece 532 and is in contact with a part of the pipe 10 And a spring piece 536 which connects the supporting piece 532 and the contact piece 534 and provides an elastic force to the contact piece 534. [ Here, it is preferable that four or eight elastic portions 530 are formed at regular intervals.

The elastic part 530 is lifted up as shown by a solid line in FIG. 16 and is brought into close contact with the inner surface of the fixing part 520, so that the elastic part 530 530 are pushed into the pots 120 and 120-1 as indicated by the phantom lines in FIG. 16 so that the fixing portions 520 are fitted to the engaging portions 510 so as to engage with each other. Then, when the elastic part 530 is pushed, the supporting piece 532 of the elastic part 530 is brought into close contact with the inner surface of the jar part 120 (120-1) to support the contact piece 534. In this state, when the pipe 10 is inserted and assembled into the pots 120 and 120-1 as described above, the outer circumferential surface of the pipe 10 is placed in contact with or slightly spaced from the contact piece 534.

In this state, when the external pressure is applied and the angle of the pipe 10 is changed, the contact piece 534 of the portion where the pressure is applied by the force moves inward as indicated by the solid line in FIG. 17, So that the angle of the pipe 10 can be freely changed. Then, when the external force applied to the pipe 10 is removed, the contact piece 534 is returned to the original state by the restoring force of the spring piece 536, and the pipe 10 is pushed, Thereby helping the piping return to its original position.

In the meantime, according to the present invention, powder coating is performed on the surfaces of the joint tube body 100-1, the joint tube fastening member 300 and the clamp 400 in order to realize specific hues, and a transparent surface protective layer .

According to the present invention, the powder coating material used for powder coating comprises 40 to 50% by weight of a bisphenol A type epoxy resin powder, 10 to 12% by weight of a curing agent, 2 to 4% by weight of a pigment, 2.5 to 5.5% -1.5 wt%, styrene monomer 5-10 wt%, and the balance filler.

In this case, it is preferable to use bisphenol A having an equivalent weight of 500-600 g / eq as the epoxy resin powder. This is because the equivalence of the epoxy resin is lowered to 600 g / eq or less to improve the chemical resistance and decrease the melt viscosity, And when it is less than 500 g / eq, the surface of the coating film becomes coarse, so that it should be limited to the above range. The curing agent is preferably dicyandiamine, which is an aliphatic amine. Dicyanamine is excellent in strength and electrical properties, heat resistance and relative stability, and enhances adhesion stability of the coating film. The pigments are used for various colors, such as bismuth vanadate, carbon black, navy blue, cyanine green, iron oxide yellow, and the like. In addition, the maintenance agent is intended to increase the water retention of the coating liquid on the coating surface (before the powder coating liquid is melted and hardened on the surface). In this case, the water retention is the resistance of the coating liquid to the movement of water in the coating liquid It says. For this purpose, the carboxymethyl cellulose salt is used as the maintenance agent in the present invention. In this case, the carboxymethyl cellulose salt is prepared by immersing cellulose, which is a cellulose derivative derived from wood pulp, into caustic soda to make an alkali cellulose, and then reacting it with glacial acetic acid to form a carboxymethyl cellulose salt form. do. In addition, ceramic powders are added to increase high temperature stability and increase hardness. In addition, the styrene monomer is added to increase the crosslinking density of the coating film to increase impact resistance and abrasion resistance. However, if it exceeds 10% by weight, yellowing phenomenon may occur and weatherability may be deteriorated. If it is added in an amount of less than 5% by weight, impact resistance and abrasion resistance effect can not be obtained. The filler is preferably a titanium oxide as a filler for preventing the deterioration of the physical properties of the coating while improving the dimensional stability of the coating.

In addition, in order to increase the adhesion of the coating film and the bonding force between the inorganic materials, polyacrylamide is added in an amount of 4-8 parts by weight based on 100 parts by weight of the powder coating, and the surface tension of the coating film is increased, And 2.5-4.5 parts by weight of glyceryl stearate is added to 100 parts by weight of the above powder coating material. When it is contacted with water, a small amount of glyceryl stearate is added to the surface of the powder coating, 3-6 parts by weight of alkaline zecemic sodium carbonate (Na ₂ CO ₃揃 NaHCO ₃揃 2H ₂ O) may be added to 100 parts by weight of the powder coating material.

Next, the surface protective layer is formed by spray-coating the coating liquid so that the cracks, antimicrobial property, scratch resistance, and transparency are ensured while the hue is expressed as it is.

In order to maintain the transparency, the coating liquid preferably contains 65-75% by weight of polycarbonate resin, 10-15% by weight of citric acid, 5-10% by weight of sodium percarbonate, 0.5-1.0% by weight of epichlorohydrin, 1.5-2.5% by weight of ethylenediaminetetraacetic acid 1.5-2.5 wt.% Of glycerol monostearate, 2-4 wt.% Of glycidyl neodecanoate, 2.5-4.5 wt.% Of transparent alumina, and the balance colloidal silica.

In this case, polycarbonate resin is a general-purpose high-functional resin having excellent impact resistance, tensile strength and dimensional stability. In particular, since it is excellent in transparency, Is used. In addition, citric acid is an antimicrobial agent having a sterilizing power that is 3-4 times stronger than vinegar, and is added to sterilize bacteria and viruses remaining in the fiber. In addition, sodium percarbonate is added to further enhance the sterilizing power and is a 100% oxygen-based disinfectant. And epichlorohydrin is a colorless liquid and added to stabilize the surface protective layer. However, since it is toxic, it should be added in small amount. In addition, ethylenediaminetetraacetic acid is added to prevent rancidity by oxidation. Glycerol mono stearate is usually used as a lubricant, but in the present invention, it is added in order to increase the activity at the interface to increase the flatness of the coating film. If it is added in an excess amount, It should be limited. Glycidyl neodecanoate is a transparent white liquid. In the present invention, it is a main function to suppress color development and maintain transparency, and also performs a subsidiary function to increase lubrication . In addition, transparent alumina is added to increase the surface hardness of the top layer and to enhance scratch resistance. In addition, the colloidal silica is preferably amorphous silica sol having a particle diameter of 5-50 nm, and is capable of not only retaining the self-cleaning ability to decompose the organic material but also preventing and resolving the sticking of residues on the surface, Lt; / RTI > In addition, Triphenyl Phosphate may be added in an amount of 2 to 5 parts by weight based on 100 parts by weight of the top coat liquid in order to prevent surface oxidation of the transparent top coat layer. In order to further increase the impact resistance and crack resistance, Polyethylene resin may be added in an amount of 3 to 6 parts by weight based on 100 parts by weight of the top coat liquid.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Anyone who can afford it will know.

10: Piping 20: Valve
100: coupling tube body 110: straight pipe
120: jar part 130: bottleneck part
140: expansion part 141: engagement flange
200: packing 300: coupling pipe fastening member
310: fastening body part 311: packing pressing part
321: Clamp release bust 322: Extension arm
331: Hook bolt 332: Nut
400: clamp 410: incision
420: fastening bolt fastening part 430:
441: Fastening bolt 442: Fastening nut
500: piping angle returning means 510:
512: engaging piece 514: engaging groove
520: fixing part 522:
524: insertion groove 530: elastic part
532: Support piece 533: Hinge pin
534: contact piece 536: spring piece

Claims (4)

A tub portion formed to extend from the other end of the straight pipe portion in the form of a convex jar and to receive the end portion of the pipe; A joint tube body including a bottleneck portion formed at an end of the jar portion and an expanded tube portion extending outwardly in the longitudinal direction from the bottleneck portion;
A packing disposed on an inner circumferential surface of the expanded portion to seal the outer circumferential surface of the pipe;
A ring-shaped fastening body portion having an inner diameter larger than the outer diameter of the pipe; a packing pressing portion protrudingly formed to press the packing in the longitudinal direction of the fastening body portion; A joint tube fastening member composed of a plurality of elongated arms protruding outwardly and a ring-shaped clamping-away preventing jaw integrally formed to connect ends of the elongate arms, the joint tube fastening member being press-fastened to an end of the joint tube body; And
Wherein at least one cut portion is formed in a part of the circumferential direction and is fixed to the outer circumferential surface of the pipe by tightening the cut portion to narrow the gap, And a clamp, the movement of which is restricted in the longitudinal direction between the clamping part and the clamp releasing bite,
Wherein a hooking bolt engaging portion is formed radially outwardly in a fastening body portion of the joint pipe fastening member, and a hook bolt fastening portion is formed in a fastening body portion of the fastening pipe fastening member, The hook bolt is passed through the bolt insertion hole and exposed to the upper portion of the hook bolt coupling part in a state in which the bolt head of the hook bolt is hooked on the engagement flange of the coupling tube body, The hook flange of the body and the hook bolt engaging portion of the joint pipe fastening member are pressed to be joined to each other,
And a fastening bolt fastening part protruding outwardly through the elongated arm and the elongated arm is formed at an end of the fastening bolt fastening part of the clamp, and bolts fastening holes are formed in the fastening bolt fastening part, And the fastening bolt fastening portions adjacent to each other are fastened to each other through the fastening nuts so that the clamp is fixed to the outer circumferential surface of the pipe,
A plurality of bites are formed on the inner circumferential surface of the clamp so as to be firmly fixed to the outer circumferential surface of the pipe,
The pipe is fixed to the valve through the flange for the valve of the joint pipe body, the end of the pipe is passed through the clamp, the joint pipe fastening member and the packing in order, and the joint of the joint pipe body, And the pipe is fixed by clamping the pipe while being inserted into the pipe,
A pipe angle restoring means is additionally provided inside the jar part of the coupling pipe body,
Wherein the pipe angle restoring means comprises:
A latching part formed integrally with a part of the inner surface of the jar part and formed with a latching groove formed on the inner side toward the entrance of the jar part and an insertion piece corresponding to the latching groove so as to be engaged with the latching piece, The hinge pin is rotatably coupled to the fixing portion by a hinge pin. When the fixing portion is lifted in the direction of the entrance of the jar portion in a state where the fixing portion is engaged with the engagement piece, the hinge pin is brought into close contact with the inner surface of the fixing portion, A contact piece which is disposed in close contact with the inner side of the jar and is brought into close contact with the inner side of the jar, a contact piece which is disposed apart from the support piece and which is in contact with a part of the pipe, And a resilient portion made of a spring piece for providing a resilient force.
delete A bottle neck formed to be symmetrical to both ends of the jar portion and a tube portion extending outwardly in the longitudinal direction from the bottleneck portion, Consisting of a connecting tube body formed symmetrically on both sides with respect to the middle;
A packing disposed on an inner circumferential surface of the expanded portion to seal the outer circumferential surface of the pipe;
A ring-shaped fastening body portion having an inner diameter larger than the outer diameter of the pipe; a packing pressing portion protrudingly formed to press the packing in the longitudinal direction of the fastening body portion; A joint tube fastening member composed of a plurality of elongated arms protruding outwardly and a ring-shaped clamping-away preventing jaw integrally formed to connect ends of the elongate arms, the joint tube fastening member being press-fastened to an end of the joint tube body; And
Wherein at least one cut portion is formed in a part of the circumferential direction and is fixed to the outer circumferential surface of the pipe by tightening the cut portion to narrow the gap, And a clamp, the movement of which is restricted in the longitudinal direction between the clamping part and the clamp releasing bite,
Wherein a hooking bolt engaging portion is formed radially outwardly in a fastening body portion of the joint pipe fastening member, and a hook bolt fastening portion is formed in a fastening body portion of the fastening pipe fastening member, The hook bolt is passed through the bolt insertion hole and exposed to the upper portion of the hook bolt coupling part in a state in which the bolt head of the hook bolt is hooked on the engagement flange of the coupling tube body, The hook flange of the body and the hook bolt engaging portion of the joint pipe fastening member are pressed to be joined to each other,
And a fastening bolt fastening part protruding outwardly through the elongated arm and the elongated arm is formed at an end of the fastening bolt fastening part of the clamp, and bolts fastening holes are formed in the fastening bolt fastening part, And the fastening bolt fastening portions adjacent to each other are fastened to each other through the fastening nuts so that the clamp is fixed to the outer circumferential surface of the pipe,
A plurality of bites are formed on the inner circumferential surface of the clamp so as to be firmly fixed to the outer circumferential surface of the pipe,
The end of the pipe is inserted into the jar portion of the joint pipe body through the clamp, the joint pipe fastening member and the packing in order, with the packing, the joint pipe fastening member and the clamp assembled on both sides of the joint pipe body, The piping is fixed by tightening the clamp,
The piping angle restoring means is additionally provided on both sides of the jar part of the coupling tube body,
Wherein the pipe angle restoring means comprises:
A latching part formed integrally with a part of the inner surface of the jar part and formed with a latching groove formed on the inner side toward the entrance of the jar part and an insertion piece corresponding to the latching groove so as to be engaged with the latching piece, The hinge pin is rotatably coupled to the fixing portion by a hinge pin. When the fixing portion is lifted in the direction of the entrance of the jar portion in a state where the fixing portion is engaged with the engagement piece, the hinge pin is brought into close contact with the inner surface of the fixing portion, A contact piece which is disposed in close contact with the inner side of the jar and is brought into close contact with the inner side of the jar, a contact piece which is disposed apart from the support piece and which is in contact with a part of the pipe, And a resilient portion made of a spring piece for providing a resilient force.
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