KR101208671B1 - Device for fixing pipe - Google Patents

Abstract

The pipe fixing mechanism according to the present invention is to be coupled to a pipe member having a male thread provided on the pipe connecting portion and the outer peripheral surface of the pipe connecting portion to fix the pipe to the pipe connecting portion. The pipe fixing mechanism according to the present invention is a hollow insert having an insertion portion inserted into an insertion hole inside a pipe connection portion and a pipe coupling portion into which a pipe is inserted, and tightening the pipe by tightening the outer peripheral surface of the pipe coupled to the pipe coupling portion. A fastening ring disposed around the pipe joint for elastic fixing and elastically deformed so as to reduce its inner diameter. The fastening ring is provided with a cutout at one side, and screwed to the pipe joint to fix the insert to the pipe joint. And a fixing cap. The pipe fixing mechanism according to the present invention can fix a pipe having a different specification from the piping configuration to the piping configuration.

Description

Pipe Fixtures {DEVICE FOR FIXING PIPE}

The present invention relates to pipe anchors and, more particularly, to pipe anchors for securing pipes to various piping components.

In general, the pipe is used as a water supply line or oil supply line to the home facilities or industrial facilities of various industrial sites. These pipes consist of a number of pipes connecting the supply points to the supply points of the fluid.

A plurality of pipes constituting the pipe is continuously connected by a pipe connecting mechanism. Between the pipe and the pipe, various valves are installed to control the flow of the fluid. In actual plumbing work, pipes of a certain length are sequentially connected to piping components such as pipe connecting devices or fluid distributors to complete the pipes.

Piping components such as pipe connecting mechanism or fluid distributor is provided with a pipe connecting portion that can be inserted into the end of the pipe, a separate fixing member is coupled to the pipe connecting portion to secure the pipe connected to the piping component. In general, the piping component and the fixing member is made of a screw coupled structure.

Pipes constituting the pipe include metal pipes such as copper pipes and stainless steel pipes, and synthetic resin pipes such as PB pipes, PE pipes, PP pipes and XL pipes. In recent years, synthetic resin pipes which have no elution of harmful substances and are relatively easy to be molded are preferred.

In carrying out the piping work, it is not easy to prepare pipe fittings and pipes other than the pipes such as the straight sockets, elbows and T-joints, and pipes such as fluid distributors. Since various piping components, including pipes, are each provided in off-the-shelf form, there are limitations to having a variety of piping components for pipes of various diameters.

Therefore, if a new pipe is used as needed, there is a need to newly manufacture a new piping configuration corresponding thereto, and there is a problem that existing piping components that do not meet the pipe specification cannot be used.

SUMMARY OF THE INVENTION The present invention has been made in view of this point, and an object thereof is to provide a pipe fixing mechanism capable of fixing pipes of various sizes to existing piping components.

Pipe fixing mechanism according to an embodiment of the present invention for achieving the above object is to be coupled to the pipe structure having a male thread provided on the pipe connecting portion and the outer peripheral surface of the pipe connecting portion for fixing the pipe to the pipe connecting portion, A hollow insert having an insertion portion inserted into an insertion hole inside a connection portion and a pipe coupling portion into which the pipe is inserted, and tightening an outer circumferential surface of the pipe coupled to the pipe coupling portion to fix the pipe to the pipe coupling portion A tightening ring disposed around the pipe coupling portion and elastically deformed so that an inner diameter thereof can be reduced, a tightening ring having a cutout at one side thereof, a female thread for screwing into a through hole through which the pipe can pass, and a male thread of the piping component; Pressing one end of the tightening ring to release the tightening ring Having a pressing surface for deformation is screwed to the pipe connection and simultaneously fixing the insert to the pipe connection comprises a cap fixed to the elastic deformation of the clamping ring.

The pressing surface is inclined, and one end of the tightening ring may be provided with an inclined surface inclined to correspond to the pressing surface.

A support ring may be disposed between the insert portion of the insert and the tightening ring to support the other end of the tightening ring while being supported by the insert end.

The pressing surface is inclined, one end of the tightening ring is provided with an inclined first inclined surface corresponding to the pressing surface, the end of the support ring is provided with an inclined support surface in contact with the other end of the tightening ring, The other end of the tightening ring may be provided with a second inclined surface inclined to correspond to the support surface.

An end portion of the insertion portion may be provided with an extension extending outward from the circumference of the insertion portion to be in contact with the end of the pipe connection portion.

The inner circumferential surface of the tightening ring may be provided with a pressing portion protruding toward the outer circumferential surface of the pipe coupled to the pipe coupling portion.

The outer circumferential surface of the pipe coupling portion may be provided with a groove for increasing friction between the outer circumferential surface of the pipe coupling portion and the inner circumferential surface of the pipe when the tightening ring tightens the pipe coupled to the pipe coupling portion.

A sealing member for sealing between the inner circumferential surface of the pipe connection portion and the outer circumferential surface of the insertion portion may be coupled to the outer circumferential surface of the insertion portion.

The pipe fixing mechanism according to the present invention can fix a pipe having a different size from a pipe connecting mechanism such as a straight socket, an elbow, a T-type joint, or a pipe structure such as a fluid distributor to the pipe structure. Therefore, even if the pipe to be connected and the size of the pipe configuration is different, it is possible to use the existing pipe configuration as it is, without the need to provide a separate pipe configuration, it is convenient, it is possible to reduce the time and cost of the construction of the pipe.

1 illustrates a pipe fixing mechanism and a pipe and pipe connecting mechanism according to an embodiment of the present invention.
Figure 2 is a cross-sectional view showing a state in which the pipe holding mechanism coupled to the pipe connecting mechanism according to an embodiment of the present invention.
Figure 3 shows a state in which the pipe is coupled to the pipe connecting mechanism by a pipe fixing mechanism according to an embodiment of the present invention.
4 shows a pipe fixture according to the invention with a modified tightening ring.
Figure 5 shows a state in which the pipe holding mechanism coupled to the fluid distributor according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, a pipe fixing mechanism according to the present invention will be described in detail.

In describing the present invention, the sizes and shapes of the components shown in the drawings may be exaggerated or simplified for clarity and convenience of explanation.

1 and 2, the pipe fixing mechanism 100 according to an embodiment of the present invention is coupled to the pipe connecting mechanism 20 to fix the pipe 10 to the pipe connecting mechanism 20 , Insert 110, tightening ring 120, support ring 130, and retaining cap 140.

The insert 110 is hollow so that fluid can pass through the inside, and is partially inserted into the insertion hole 22 provided in the connecting portion 21 of the pipe connecting mechanism 20. Insert 110 is inserted into the connecting portion 21 of the pipe connecting mechanism 20, the insertion portion 111, pipe coupling portion 112 protruding to the outside of the connecting portion 21 of the pipe connecting mechanism 20, insertion portion An expansion part 113 provided to extend outwardly around the insertion part 111 at the end of the 111.

When the insertion portion 111 is inserted into the insertion hole 22 of the connecting portion 21, the outer diameter of the insertion portion 111 is connected to the pipe so that there is no gap between the outer peripheral surface of the insertion portion 111 and the inner peripheral surface of the connecting portion 21. It is preferable that the connection portion 21 of the mechanism 20 is made to have a size smaller than or corresponding to the inner diameter. When the insertion portion 111 is inserted into the insertion hole 22 of the connecting portion 21, the expansion portion 113 is in contact with the end of the connecting portion 21. A coupling groove 114 is provided on an outer circumferential surface of the insertion portion 111, and a sealing member 150 for sealing between the insertion portion 111 and the connection portion 21 is coupled to the coupling groove 114.

The pipe coupling part 112 is a part to which the pipe 10 is coupled. A plurality of grooves 115 are provided in a ring shape around the outer circumferential surface of the pipe coupling part 112. The groove 115 serves to increase friction between the outer circumferential surface of the pipe coupling portion 112 and the inner circumferential surface of the pipe 10 when the pipe 10 is coupled to the pipe coupling portion 112. When the pipe 10 is made of a material that is tightened and deformed by the fastening ring 120, the contracted portion of the pipe 10 may be accommodated in the groove 115. That is, when the tightening ring 120 to be described later tightens the pipe 10, a portion deformed by the pressing part 122 of the tightening ring 120 is accommodated in the groove 115 to insert the insert 110 and the pipe 10. Cohesion between) may increase. The groove 115 is a number corresponding to the number of the pressing portions 122 and is provided at a corresponding position of the pressing portion 122.

As shown in FIGS. 1 and 2, the tightening ring 120 tightens the outer circumferential surface of the pipe 10 coupled to the pipe coupling portion 112 to secure the pipe 10 to the pipe coupling portion 112. It is disposed around the pipe coupling portion 112 so as to be spaced apart from the outer circumferential surface of the coupling portion 112. Tightening ring 120 is made of a material capable of elastic deformation, such as metal or plastic. One side of the tightening ring 120 is provided with a cutout 121. Therefore, when the tightening ring 120 is elastically deformed by an external force, the inner diameter of the tightening ring 120 is reduced while the width of the cutout 121 is reduced. Incision 121 is preferably formed to be inclined so as to tighten the entirety of one side of the pipe 10 when the tightening ring 120 is elastically deformed.

The inner circumferential surface of the tightening ring 120 is provided with a pressing portion 122 protruding toward the pipe coupling portion 112 of the insert 110. The pressurization portion 122 increases the tightening force on the pipe 10 and increases the friction between the tightening ring 120 and the pipe 10. In addition, as described above, when the pipe 10 is made of a material that can be elastically deformed, the pressing portion 122 is a pipe (so that the pipe 10 can be contracted and inserted into the groove 115 of the insert 110) 10) is modified.

One end of the tightening ring 120 is provided with a first inclined surface 123, and the other end of the tightening ring 120 is provided with a second inclined surface 124. The first inclined surface 123 is a portion pressed against the pressing surface 143 of the fixing cap 140 to be described later, and the second inclined surface 124 is a portion pressed against the supporting surface 131 of the support ring 130 to be described later. to be. The first inclined surface 123 and the second inclined surface 124 together with the pressing surface 143 and the support surface 131 tighten the action direction of the pressing force of the fixing cap 140 and the reaction force of the support ring 130. 120) to the shrinking direction.

The support ring 130 is disposed between the end of the insert 111 of the insert 110 and the tightening ring 120 to support the other end of the tightening ring 120. One end of the support ring 130 is provided with an inclined support surface 131 to correspond to the second inclined surface 124 of the tightening ring 120, and the other end of the support ring 130 is extended to the end of the insertion portion 111 Supported by the unit 113. When the fixing cap 140 presses the tightening ring 120, the second inclined surface 124 of the tightening ring 120 is pressed against the support surface 131 to slide, and the other end of the tightening ring 120 decreases in its inner diameter. Contraction in the direction of

As shown in FIGS. 1 and 2, the fixing cap 140 is screwed to the pipe connecting portion 21 of the pipe connecting mechanism 20 to fix the insert 110 to the pipe connecting portion 21, and the tightening ring ( 120). A through hole 141 through which the pipe 10 can pass is formed at the center of the fixing cap 140, and an arm corresponding to the male thread 23 of the pipe connecting mechanism 20 is formed at the inner circumferential surface of the fixing cap 140. Thread 142 is provided. In addition, the fixing cap 140 is provided with an inclined pressing surface 143 corresponding to the first inclined surface 123 of the tightening ring 120.

When the fixing cap 140 is screwed to the pipe connecting portion 21 of the pipe connecting mechanism 20, the pressing surface 143 presses the first inclined surface 123 of the tightening ring 120. At this time, as the first inclined surface 123 is pressed against the pressing surface 143 and slides, one end of the tightening ring 120 contracts in a direction in which the inner diameter thereof decreases.

Hereinafter, a method of fixing a pipe to a pipe connecting mechanism by using the pipe fixing mechanism according to an embodiment of the present invention described above with reference to FIG. 3 will be described.

First, the insertion part 111 of the insert 110 is inserted into the pipe connection part 21 of the pipe connection mechanism 20. One end of the pipe 10 passes through the fixing cap 140, the tightening ring 120, and the support ring 130 to be coupled to the pipe coupling part 112 of the insert 110. Next, the fixing cap 140 is screwed to the pipe connection 21.

When the fixing cap 140 is coupled to the pipe connection 21, the pressing surface 143 of the fixing cap 140 presses the first inclined surface 123 of the tightening ring 120, and the The second inclined surface 124 is pressed against the support surface 131 of the support ring 130. At this time, the tightening ring 120 is slid by the first inclined surface 123 to the pressing surface 143 and at the same time the second inclined surface 124 is squeezed and slipped on the support surface 131 in the direction of decreasing the inner diameter thereof. Contraction. And while the pressing portion 122 of the tightening ring 120 is pressed on the outer peripheral surface of the pipe 10, the pipe 10 is fixed to the pipe connecting mechanism (20).

When the pipe 10 is made of a material that is deformed when subjected to an external force, the pressing portion 122 of the tightening ring 120 may deform the pipe 10 by tightening the pipe 10. At this time, the portion of the pipe 10 deformed by the pressing unit 122 is accommodated in the groove 115 of the insert 110 may increase the coupling force between the insert 110 and the pipe 10.

As described above, the pipe fixing mechanism 100 according to the present invention may fix the pipe 10 having a different specification from the pipe connecting mechanism 20 to the pipe connecting mechanism 20. By varying the diameter of the pipe coupling part 112 of the insert 110 to which the pipe 10 is coupled, various diameter pipes 10 may be coupled.

For example, PB pipes and X-L pipes are currently sold in different sizes, so that X-L pipes cannot be connected to PB coupling devices. However, by using the pipe fixing mechanism 100 according to the present invention, it is possible to connect the X-L pipe to the existing PB connecting mechanism without making a separate pipe connecting mechanism for connecting the X-L pipe.

On the other hand, Figure 4 shows a modified example of the tightening ring. The tightening ring 120 ′ shown in FIG. 4 has one pressing portion 122 on its inner circumferential surface, and the pressing portion 122 is disposed between the two grooves 115 of the insert 110. In addition, the structure of the fastening rings 120 and 120 'may be variously changed. For example, the pressing unit 122 may be omitted.

In addition, the structure for reducing the tightening ring 120, 120 'and the tightening ring 120, 120' may also be variously changed. For example, the support ring 130 may be omitted, and the shape of the pressing surface 143, one end and the other end of the tightening ring 120, 120 ', respectively, the fixing cap 140 is screwed to the piping configuration. The tightening rings 120, 120 'can be changed to other structures that can be retracted.

Figure 5 shows an example in which the pipe holding mechanism according to an embodiment of the present invention is applied to the fluid distributor.

As shown in FIG. 5, the pipe fixing device 100 according to one embodiment of the present invention is coupled to the pipe connection 31 of the fluid distributor 30 to fix the pipe 10 to the fluid distributor 30. Can be.

In addition, the pipe fixing mechanism 100 according to the present invention may be coupled to various piping components such as a straight socket and a T-type joint in addition to the elbow-shaped pipe connecting mechanism 20 to couple pipes of various sizes to the piping components. .

The embodiments of the present invention described above and illustrated in the drawings should not be construed as limiting the technical spirit of the present invention, and the protection scope of the present invention is limited only by the matters described in the claims. Those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

100: pipe fixing mechanism 110: insert
111: insertion portion 112: pipe coupling portion
113: expansion portion 114: coupling groove
115: groove 120, 120 ': tightening ring
121: incision 122: pressing portion
123 and 124: first and second inclined surfaces 130: support ring
131: support surface 140: fixed cap
142: female thread 143: pressure surface

Claims (8)

A pipe holding mechanism for fixing a pipe to the pipe connecting portion is coupled to the pipe structure having a male thread provided on the pipe connecting portion and the outer peripheral surface of the pipe connecting portion,
A hollow insert having an insertion portion inserted into an insertion hole inside the pipe connection portion and a pipe coupling portion to which the pipe is inserted and coupled;
Tightening ring provided with a cutout on one side so as to tighten the outer circumferential surface of the pipe coupled to the pipe coupling portion to be fixed around the pipe coupling portion to fix the pipe to the pipe coupling portion and elastically deformed to reduce its inner diameter. ;
A through hole through which the pipe can pass, a female thread for screwing into the male thread of the piping component, a pressing surface for elastically deforming the tightening ring by pressing one end of the tightening ring, and screwing in the pipe connecting portion A fixed cap coupled to secure the insert to the pipe connection and to elastically deform the tightening ring; And
And a sealing member coupled to the outer circumferential surface of the insert to seal between the inner circumferential surface of the pipe connection and the outer circumferential surface of the insert.
The method of claim 1,
The pressing surface is inclined,
One end of the tightening ring is provided with an inclined inclined surface corresponding to the pressing surface is provided with a pipe fixing mechanism.
The method of claim 1,
And a support ring disposed between the insert portion of the insert and the tightening ring for supporting the other end of the tightening ring.
The method of claim 3, wherein
The pressing surface is inclined,
One end of the tightening ring is provided with a first inclined surface inclined to correspond to the pressing surface,
The end of the support ring is provided with an inclined support surface in contact with the other end of the tightening ring,
And a second inclined surface inclined to correspond to the support surface at the other end of the tightening ring.
The method of claim 3, wherein
The end of the insert is provided with a pipe extending mechanism extending outward from the circumference of the insert so as to contact the end of the pipe connection.
The method of claim 1,
The inner circumferential surface of the tightening ring is provided with a pressing portion protruding toward the outer circumferential surface of the pipe coupled to the pipe coupling portion.
7. The method according to claim 1 or 6,
The outer peripheral surface of the pipe coupling portion is provided with a groove for increasing the friction between the outer peripheral surface of the pipe coupling portion and the inner peripheral surface of the pipe when the tightening ring tightens the pipe coupled to the pipe coupling portion .
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