KR20200084290A - Improved pipe coupling - Google Patents

Abstract

Disclosed is an improved pipe coupling. According to the present invention, the improved pipe coupling comprises: a pair of coupling parts detachably coupled to a pair of pipes; and fixing rings provided in the pair of coupling parts in the opposite direction of an area where the pair of coupling parts come in contact with each other. The fixing rings include: an inclination part coming in contact with an inclination surface part of the pair of coupling parts; and a plurality of inner protrusions coming in contact with an outer wall of the pipes, wherein the plurality of inner protrusions have a triangular cross sectional shape in which an inclination surface is provided in the outward direction of the pair of coupling parts.

Description

Improved piping coupling {IMPROVED PIPE COUPLING}

The present invention relates to a coupling for piping, and more particularly, to an improved piping coupling capable of coping with external economic stress and external impact stress of the piping through quick and safe piping connection construction.

In general, piping or pipes are used to supply water or supply fluid. Since the pipe has a limited length, in order to supply water or supply fluid, piping connecting the ends and ends of the pipes from the supply source of water or fluid to the consumption source of consumption is required.

Conventional piping connection method is a method of welding and connecting the ends and ends of the pipes to each other, and connecting the flanges and flanges formed at the ends of the pipes to each other and inserting a rubber packing to maintain watertightness between the flanges and the flanges. How to connect using the next bolt and nut, and how to connect using a pipe connection device or pipe connection clamp {aka: groove) that is inserted into the outer diameter of the pipe to connect the end and the end of the pipe to each other have.

In general buildings, power generation facilities, industrial plants, waterworks, power generation facilities, and various equipment piping and air conditioning and air conditioning piping, a welded piping system is used to connect both pipes in a sealed state without using a welding process.

Since the welding-less piping system can connect pipes without performing a welding operation, the operation time and its cost are significantly reduced, and thus it is widely used in various fields of piping processes.

The system used for such a welding-less piping largely includes a gasket positioned in close contact with the pipe surface and a coupling for pressing the gasket located outside the gasket. The coupling consists of two unit members, and the two unit members have the same structure.

A predetermined groove is formed on the outer circumferential surface of the two pipe ends connected to each other, and a gasket is positioned between the two grooves. In this state, the piping process for the two pipes is completed by fastening the two unit members using a fastening means while the two unit members of the coupling are in close contact with the outer surface of the gasket.

Conventional groove-type pipe connection devices have many components, and the structure is complicated, which makes the worker somewhat troublesome in connecting pipes due to a complicated work process. have.

In addition, producers have a problem of low competitiveness among competitors due to the high production cost of the product, and there is a disadvantage in that the contractors have a high cost of construction, so improvement measures are required.

Furthermore, the coupling is installed at the connection part of the pipe, but also has the disadvantage of being damaged by external stress applied to the pipe, as well as the shock resistance, durability, etc., such as damage to the coupling due to earthquake or external force applied to the pipe, is poor. Therefore, improvement measures are required.

In particular, there is a disadvantage in that the coupling pipe is separated by the pressure of the fluid when the fluid is introduced into the interior of the pipe after coupling the coupling to the pipe, so improvement measures are required.

The above-described technical configuration is a background technique for helping the understanding of the present invention, and does not mean a conventional technique well known in the art.

Korean Registered Patent Publication No. 10-1901387 (Cho Yong-won) 2018. 09. 17.

Therefore, the technical problem to be achieved by the present invention is an improved coupling for piping that is capable of quickly and safely connecting pipes, coping with external impact stress, and effectively preventing the pipes from being separated by the pressure of the fluid after joining the pipes. Is to provide

According to an aspect of the present invention, a pair of coupling parts detachably coupled to a pair of pipes, respectively; And a fixing ring provided on the pair of coupling portions opposite to the area where the pair of coupling portions contact, the fixing ring comprising an inclined portion contacting the inclined surface portion of the pair of coupling portions and an outer wall of the pipe. A plurality of inner protrusions in contact with, the plurality of inner protrusions can be provided with an improved piping coupling characterized in that the inclined surface has a triangular cross-sectional shape provided in the outer direction of the pair of coupling parts .

The fixing ring may include: a ring body coupled to the pair of coupling portions such that the inner wall is in contact with the stopper jaws provided on the pair of coupling portions; The plurality of inner protrusions provided on the ring body and projecting toward the center of the ring body; And an inclined portion provided in the ring body opposite to the plurality of inner protrusions.

The inclined portion may be partially provided on an upper surface portion of the ring body, and the fixing ring may further include a flat portion provided on the remaining portion of the upper surface portion of the ring body.

At least one body groove may be provided in the ring body.

The ring body may be provided with an incision region in which one side is incised, and the incision region may be supported by a stopper protrusion provided in the coupling portion.

Each coupling portion of the pair of coupling portions, a first coupling body having a shape corresponding to the radius of the pipe; A second coupler body having a shape corresponding to the remaining radius of the pipe and detachably coupled to the first coupling body; And a plurality of fastening bodies respectively provided on the first coupler body and the second coupler body and having fastening holes, wherein the inclined surface portions are respectively provided outside the inner walls of the first coupling body and the second coupling body. The first protrusion of the pair of packing parts may be inserted into a gap between the first coupling body and the second coupling.

The inclined surface portion may be provided to have a lower inclination toward the outside from the inside of the first coupling body and the second coupling body.

A packing part provided in an area in contact with the pair of coupling parts may further prevent a fluid from leaking between the pair of pipes.

Embodiments of the present invention, the fixed ring includes a plurality of inner projections in contact with the outer wall of the pipe and the inclined portion in contact with the inclined surface portion of the pair of coupling portion, the plurality of inner projections are inclined surface outside the pair of coupling portion By having a triangular cross-sectional shape provided in the direction, when an external force that separates the pipes coupled to each other occurs, a force is applied to the pipes by a plurality of inner protrusions, so that the combined pipes can be effectively prevented from being separated, and the pipe connection is It is fast and safe and can respond to external impact stress.

In addition, a pair of coupling parts are divided to minimize interference between piping members by mutually independent fastening methods, which can effectively cope with earthquakes, vibrations, internal and external shocks, thermal stresses, and stresses including up and down, left and right, warping, tensile, and compressive forces. have.

1 is a cross-sectional view schematically showing an improved piping coupling according to an embodiment of the present invention.
FIG. 2 is a schematic exploded perspective view of FIG. 1.
3 is a view schematically showing the fixing ring shown in FIG. 1.
4 is a view schematically showing that the fixing ring shown in FIG. 3 is provided on the first coupling body and the second coupling body, and one side of the cut portion is supported by the stopper protrusion.
5 is a view schematically showing the force acting on the fixing ring shown in FIG.
6 is a view schematically showing that an external force is applied to the present embodiment in a state in which the fixing ring shown in FIG. 3(b) is mounted.
7 is a view schematically showing the vertical force, warping, tensile and compressive forces acting on the present embodiment.
8 is a use state diagram of the present embodiment.

In order to fully understand the present invention, the operational advantages of the present invention, and the objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the contents described in the accompanying drawings, which illustrate preferred embodiments of the present invention.

Hereinafter, the present invention will be described in detail by explaining preferred embodiments of the present invention with reference to the accompanying drawings. The same reference numerals in each drawing denote the same members.

1 is a cross-sectional view schematically showing an improved piping coupling according to an embodiment of the present invention, FIG. 2 is a schematic exploded perspective view of FIG. 1, and FIG. 3 schematically shows a fixing ring shown in FIG. 1 FIG. 4 is a view schematically showing that the fixing ring shown in FIG. 3 is provided on the first coupling body and the second coupling body, and one cut portion is supported on the stopper protrusion.

In addition, FIG. 5 is a view schematically showing a force acting on the retaining ring shown in FIG. 1, and FIG. 6 shows an external force in this embodiment in a state in which the retaining ring shown in FIG. 3(b) is mounted. It is a diagram schematically showing what is applied, and FIG. 7 is a diagram schematically showing vertical force, warping, tensile and compressive forces acting on the present embodiment, and FIG. 8 is a use state diagram of the present embodiment.

As shown in these drawings, the improved piping coupling 1 according to the present embodiment includes a pair of coupling parts 100 and a pair of couplers detachably coupled to a pair of pipes P, respectively. A packing part 200 provided in an area where the ring part 100 is in contact to prevent fluid from leaking between the pair of pipes P, and a pair of couples opposite to the area where the pair of coupling parts 100 are in contact. It is provided on the ring portion 100 and is provided with a pair of fixing rings 300 that are compressed to the outer diameter of the pipe P when the pair of coupling portions 100 are fastened to the pipe P.

As shown in FIG. 8, the pair of coupling units 100 are coupled to a region in which a pair of pipes P separated from each other are in contact with each other to connect the separated pair of pipes P.

In this embodiment, one coupling part 100 of the pair of coupling parts 100 is coupled to the left pipe P shown in FIG. 8 and the other coupling part 100 is the right pipe P shown in FIG. 8. ). 8, the first coupling body 110 of one coupling part 100 and the second coupling body 120 of the other coupling part 100 are illustrated.

In this embodiment, the coupling unit 100, as shown in Figure 1, the first coupling body 110 having a shape corresponding to the radius of the pipe (P) and, corresponding to the remaining radius of the pipe (P) The second coupling body 120 is detachably coupled to the first coupling body 110 and is provided in the first coupling body 110 and the second coupling body 120, respectively, and has fastening holes ( A plurality of fastening body 130 having a 131, the first coupling body 110 and the second coupling body 120 is provided on the inner wall of each of the packing portion 200 and the fixing ring 300 of The inclined surface portion 150 is provided on the inner walls of the stopper jaw 140 partially contacting the first coupling body 110 and the second coupling body 120, and the inclined portion 330 of the fixing ring 300 is in contact with each other. ) And a stopper protrusion 160 provided on the first coupling body 110 and the second coupling body 120 to support the ring body 310.

In the first coupling body 110 of the coupling portion 100, as shown in FIG. 1, a coupling protrusion 111 is provided, and the coupling protrusion 111 is a second couple of another coupling portion 100 The coupling groove 121 provided in the ring body 120 may be engaged.

In addition, in the present embodiment, as shown in FIG. 1, the first coupling body 110 is provided with a first coupling guide protrusion 112 and a first coupling guide groove 113. In this embodiment, the first coupling guide protrusion 112 is inserted into and coupled to the second coupling guide groove 122 provided in the second coupling body 120, and the second coupling body is coupled to the first coupling guide groove 113. The second coupling guide protrusion 123 of 120 may be inserted and coupled.

As shown in FIG. 2, the fastening body 130 of the coupling unit 100 may be provided with a pair of each of the first coupling body 110 and the second coupling body 120.

In the present embodiment, the first coupling body 110 and the second coupling body 120 through the fastening hole 131 provided in the fastening body 130 may be detachably coupled with bolts and nuts.

The stopper jaw 140 of the coupling portion 100 is provided on the inner walls of the first coupling body 110 and the second coupling body 120, as shown in Figure 1, both side walls of the ring body 310 And, it may be provided as a contact place of the inner wall 311 of the ring body 310.

In this embodiment, both side walls of the ring body 310, as shown in Figure 1, may be fitted to fit between a pair of stopper jaws 140.

The inclined surface portion 150 of the coupling portion 100 is provided on the inner walls of the first coupling body 110 and the second coupling body 120, as shown in FIG. 1, wherein the fixing ring 300 This can be combined.

In this embodiment, the inclined surface portion 150, as shown in Figure 1, the first coupling body 110 and the second coupling body 120 from the inside to the outside may be provided with a lower slope. .

The stopper protrusion 160 of the coupling portion 100 is provided on the second coupling body 120, as shown in FIG. 4, and the stopper protrusion 160 in this embodiment cuts the ring body 310 The region can be jammed.

In this embodiment, the stopper protrusion 160 may also be provided on the first coupling body 110.

The packing part 200 is provided in an area where the pair of coupling parts 100 are in contact with each other, as illustrated in FIG. 1, to prevent fluid from leaking between the pair of pipes P.

In this embodiment, the packing part 200 is, as shown in Figure 1, the packing body 211 formed in a predetermined shape, and in the inner direction of the packing body 211 to be in close contact with the end of the pipe (P) The pair of first protrusions 212 formed to protrude and the pair of first protrusions 212 to be in close contact with the ends of the pipes P with the pressure of the fluid flowing along the pipe P A first pressure groove 213 formed at a predetermined depth between the protrusions 212, a second pressure groove 214 formed at a predetermined depth outside the pair of first protrusions 212, and a second pressure groove The second protrusion 215 is formed to be inclined so as to be in close contact with the outer diameter of the pipe P by the pressure of the fluid introduced into the 214, and the third pressure is formed at a predetermined depth outside the second protrusion 215 The groove 216 and the third protrusion 217 formed to protrude outside the third pressure groove 216 so as to be in close contact with the outer diameter of the pipe P, and the outside of the third protrusion 217 to a predetermined depth. The formed fourth pressure groove 218, the fourth protrusion 219 formed to protrude outside the fourth pressure groove 218 so as to be in close contact with the outer diameter of the pipe P, and according to the deformation of the pipe P The central groove portion 220 formed on the outer surface of the packing body 211 so that the packing body 211 is stretched, and the outer side of the central groove portion 220 is formed so that the packing body 211 is stretched according to the deformation of the pipe P. It includes an outer groove portion 221.

The packing unit 200 of the present embodiment may be applied with the configuration of the packing member 50 disclosed in Korean Registered Patent Publication No. 10-1901387 filed and registered by the applicant.

The fixing ring 300, when tightening the bolts and nuts fastened to the pair of coupling portions 100 when fastening the pair of coupling portions 100 to the pipe (P), will be squeezed to the outer diameter of the pipe (P) Can.

In this embodiment, the fixing ring 300, as shown in Figure 1, a pair of coupling portions 100 are in contact with the region, that is, the first coupling body 110 and the second coupling body 120 is in contact Each of the first coupling body 110 and the second coupling body 120 opposite to the region may be provided. That is, in the present exemplary embodiment, two fixing rings 300 may be provided, one for each coupling unit 100.

In this embodiment, the fixing ring 300, as shown in Figure 3 (a), the ring body 310 and the ring body 310 is provided in a plurality of protruding toward the central portion of the ring body 310 It includes an inner projection 320, a plurality of inner projections 320 and the inclined portion 330 provided in the ring body 310 in the opposite direction.

The ring body 310 of the fixing ring 300 may have a circular shape in which an incision region is provided on one side, as illustrated in FIG. 4.

In this embodiment, the inner wall 311 of the ring body 310 (see FIG. 3(a)), as shown in FIG. 1, is in contact with the stopper jaw 140, and the outer wall 312 is exposed to space. Can.

In addition, in the present embodiment, as shown in FIG. 4, the ring body 310 may be provided with a plurality of body grooves 313.

In the present embodiment, the body groove 313 may be provided at regular intervals, for example, at equal intervals, on the inner wall of the ring body 310, as shown in FIG. 4. As a result, when the fixing ring 300 is retracted in the direction of the outer wall of the pipe P, the fixing ring 300 is uniformly retracted to the outer diameter of the pipe P to prevent uneven compression on the pipe P. There is an advantage.

The plurality of inner protrusions 320 of the fixing ring 300 are provided on the inner wall of the ring body 310, as shown in FIGS. 1 and 5, and a pair of inclined surfaces by an inclination angle θ ₂ The ring portion 100 may have a triangular cross-sectional shape provided in the outer direction of the first coupling body 110 and the second coupling body 120.

In this case, when the bolt and the nut are tightened to couple the first coupling body 110 and the second coupling body 120, the outer diameter of the pipe P while the ring body 310 is retracted as shown in FIG. The compressive force (W+θ ₄ +wcosθ ₄ ) acts on.

This compressive force acts as a force to further tighten the outer diameter of the pipe (P) when high pressure fluid is introduced into the pipe (P), so that the pipe (P) after this embodiment is fastened to the pipe (P) It is possible to effectively prevent deviation from P). As a result, the present embodiment can prevent unintentional departure after the present embodiment is coupled to the pipe P even if no separate groove processing is performed on the outer wall of the pipe P.

The inclined portion 330 of the fixing ring 300 is provided to be inclined (θ ₁ ) in contact with the inner wall of the first coupling body 110 and the second coupling body 120, as shown in FIG. When the pair of coupling parts 100 are fastened to the pipe P, a constant force wcosθ ₄ is applied to the ring body 310 to make the ring body 310 retract in the direction of the pipe P, as well as the ring body 310 serves to hold the pipe (P) so as not to escape.

On the other hand, the fixing ring 300 in this embodiment, as shown in Figure 3 (b), the inclined portion 330 is partially provided on the upper surface of the ring body 310, the ring body 310 of The planar portion 340 provided on the rest of the upper surface portion may be further included. At this time, the inclination angle of the inclined portion 330 was represented by θ ₃ . In this embodiment, the inclined direction of the inclined portion 330 and the inclined direction of the plurality of inner protrusions 320 may be provided in opposite directions to each other, as illustrated in FIG. 3A.

In this case, as shown in FIG. 6, even if an external force F is generated between the pair of pipes P, the ring body 310 is coupled to the first couple to correspond to the inclined portion 330 and the flat portion 340 The area provided in the ring body 110 and the second coupling body 120 may be prevented from being separated.

In addition, in this embodiment, since a pair of couplings are divided and fastened independently to each other, the pair of pipes P can minimize interference of the pipes P. As a result, as shown in FIGS. 6 and 7, the external force applied to the separated pair of pipes P, for example, seismic, vibration, internal and external shocks, thermal stress, warping up and down, left and right, tension and compressive force are all stable. Can respond.

As described above, the present embodiment includes a plurality of inner protrusions in contact with the outer wall of the pipe and an inclined portion in which the retaining ring contacts the inclined surface portion of the pair of coupling portions, and the plurality of inner protrusions have a pair of inclined surfaces. By having a triangular cross-sectional shape provided in the outer direction of the ring portion, when an external force that separates the pipes coupled to each other occurs, a force is applied to the pipes by a plurality of inner projections, so that the combined pipes can be effectively prevented from falling off, The piping connection is fast and safe, and it can respond to external impact stress.

As described above, the present invention is not limited to the described embodiments, and it is apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, such modifications or variations will have to belong to the claims of the present invention.

1: Improved piping coupling
100: coupling unit 110: first coupling body
120: second coupling body 130: fastening body
140: stopper jaw 150: inclined portion
160: stopper protrusion 200: packing
211: packing body 212: first projection
213: first pressure groove 214: second pressure groove
215: second projection 216: third pressure groove
217: 3rd projection 218: 4th pressure groove
219: fourth projection 220: central groove
221: outer groove 300: retaining ring
310: ring body 320: inner projection
330: inclined portion 340: flat portion
P: Pipe

Claims (1)

A pair of coupling parts detachably coupled to the pair of pipes, respectively; And
And a fixing ring provided in the pair of coupling portions opposite to the region in contact with the pair of coupling portions,
The fixing ring includes an inclined portion contacting an inclined surface portion of the pair of coupling portions and a plurality of inner projections contacting an outer wall of the pipe,
The plurality of inner protrusions have a triangular cross-sectional shape in which an inclined surface is provided in the outer direction of the pair of coupling parts
Each coupling portion of the pair of coupling portions has a first coupling body having a shape corresponding to the radius of the pipe, a shape having a shape corresponding to the remaining radius of the pipe and being detachably coupled to the first coupling body Two coupling bodies and a plurality of fastening bodies provided on the first coupling body and the second coupling body and each having a fastening hole, wherein the inclined surface portion includes the first coupling body and the second coupling body Is provided on the outside of the inner wall of each,
The fixing ring is a ring body coupled to the pair of coupling portions so that the inner wall is in contact with the stopper jaws provided in the pair of coupling portions, and the plurality of ring bodies provided in the ring body and projecting toward the center of the ring body The inner protrusion and the inclined portion provided in the ring body in the opposite direction to the plurality of inner protrusions,
The ring body is provided with at least one body groove,
An improved pipe coupling, characterized in that the inner wall of the ring body is in contact with the stopper jaw and the outer wall is exposed to the space.

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