KR101391930B1 - Coupling for spiral pipe - Google Patents

Abstract

The present invention relates to a coupling for connecting a spiral pipe, and more particularly, to a coupling for connecting a pipe having a spiral protrusion formed on its outer surface, a soft sleeve and a hard sleeve support ring are provided inside the housing, And the inner surface of the sleeve support ring is formed so as to be continuous with a helical groove corresponding to a spiral projection of the pipe to improve watertightness by being in close contact with the pipe. In particular, the sleeve support ring prevents the sleeve from being pushed in the axial direction, thereby preventing a portion of the sleeve from being deteriorated due to installation pressure or withstanding pressure, thereby reducing the watertightness of the sleeve.

Description

{COUPLING FOR SPIRAL PIPE}

The present invention relates to a coupling for connecting a spiral pipe, and more particularly, to a coupling for connecting a pipe having a spiral protrusion formed on its outer surface, a soft sleeve and a hard sleeve support ring are provided inside the housing, And the inner surface of the sleeve support ring is formed so as to be continuous with a spiral groove corresponding to the spiral projection of the pipe to improve watertightness by being in close contact with the pipe. In particular, the sleeve support ring prevents the sleeve from being pushed in the axial direction, thereby preventing a portion of the sleeve from being deteriorated due to installation pressure or withstanding pressure, thereby reducing the watertightness of the sleeve.

A pipe coupling is conventionally used as a means for connecting pipes, tubes, etc. (hereinafter collectively referred to as "pipes "). An example of such a pipe coupling is shown in FIGS.

The pipe coupling 1 shown in Figs. 1 and 2 is a utility model registration No. 46992 filed and registered by the applicant of the present invention. The gasket 1 is provided with a leakproof gasket, a packing or a sleeve 3 Hereinafter referred to as "sleeve").

As shown in the figure, the pipe coupling is configured such that one side of the housing 2 is opened, and a tightening rod 4 is inserted into one end of the opened portion and fastened to the bolt 5 inserted through the other end, Reduce the inner diameter. At this time, the inner surface of the sleeve installed inside the housing is brought into close contact with the outer surface of the pipe 6, thereby preventing the fluid from leaking to the portion where the two pipes are connected.

The conventional sleeve (3) is provided at its both end portions in the axial direction so as to protrude inwardly so that the pressure or fluid passing through the contact surface between the sleeve and the pipe before it finally consolidates the tightening vane to further increase the sealing force It prevents leakage.

In recent years, however, the use of bendable pipes has been increasing. The spiral pipe is made of a synthetic resin and is flexible, but has a spiral protrusion formed on its outer side so as to maintain the strength of the pipe pipe. Therefore, it has been difficult to apply a pipe coupling applied only to a conventional pipe to a spiral pipe having a plurality of projections formed on the outer surface thereof.

3, when the spiral pipe 6 is connected using the conventional pipe coupling 1, the sleeve 3 can not contact all the outer surfaces of the spiral pipe, and the spiral projections 7 of the spiral pipe, The space between them is excited. Of course, it is possible to press the sleeve by the strong fastening to fill the excited space, but since the filling part has a relatively weak adhesion force, if a strong pressure is applied to the inside of the tube, a high pressure fluid leaks to the buried part.

In order to solve the above-described problem, the coupling for connecting a spiral pipe of the present invention comprises:

The inner surface of the sleeve is formed with a helical groove corresponding to the helical projection of the helical pipe so that the inner surface of the sleeve contacts both the outer surface of the helical pipe and the helical projection to improve watertightness.

Another object of the present invention is to provide a sleeve support ring made of a light material at an end of a sleeve having a spiral groove formed therein so as to prevent the sleeve from being pushed toward the end of the housing by the internal pressure of the sleeve after coupling.

According to an aspect of the present invention, there is provided a coupling for connecting a spiral pipe,

A coupling for connecting a spiral pipe having a spiral protrusion formed on its outer surface, the coupling comprising: a tubular sleeve having an inner surface formed with a helical groove corresponding to a spiral projection of the spiral pipe; The housing includes a sleeve, both ends of which are formed with a support jaw bent toward the center of the shaft so as to prevent the sleeve from being separated from the sleeve, and a housing having a fastening part for fastening by bolts at both ends thereof, .

In addition, a sleeve support ring of a hard material is provided at the end of the sleeve having the helical groove formed therein, and a spiral groove continuous with the helical groove of the sleeve is formed on the inner side surface of the sleeve support ring.

As described above in detail, in the coupling for connecting the spiral pipe of the present invention,

The inner side of the sleeve forms a helical groove corresponding to the helical projection of the helical pipe so that the inner side of the sleeve contacts both the outer surface of the helical pipe and the helical projection to improve watertightness.

Further, it is possible to provide a device capable of maintaining the airtightness even at a high pressure by preventing the sleeve from being pushed to the end of the housing by the inner pressure of the tube after the coupling by tightening the sleeve support ring of the light material .

1 and 2 are a perspective view and a sectional view showing a conventional coupling;
3 is a partially enlarged cross-sectional view of a conventional pipe with a spiral pipe.
4 and 5 are a perspective view and a cross-sectional view showing a coupling for connecting a spiral pipe according to an embodiment of the present invention.
6 is a cross-sectional view illustrating a sleeve for connecting a spiral pipe according to another embodiment of the present invention.
7 is a cross-sectional view illustrating coupling according to another embodiment of the present invention;
8 is a state diagram showing an operating state of a coupling according to an embodiment of the present invention;
9 is a perspective view showing an example of engagement of a sleeve and a sleeve support ring according to the present invention.
10 is a perspective view showing another example of the sleeve supporting ring according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the appended drawings illustrate only the contents and scope of technology of the present invention, and the technical scope of the present invention is not limited thereto. It will be apparent to those skilled in the art that various changes and modifications can be made within the scope of the technical idea of the present invention based on these examples.

4 and 5, the coupling 10 for connecting a spiral pipe according to the present invention includes a spiral pipe 50 having spiral protrusions 51 formed on its outer surface, And is used to connect the pipe 50.

The coupling 10 is composed of a housing 30 installed to enclose a connecting portion of the pipe and a sleeve 20 interposed between the pipe and the housing.

The housing 30 has a tubular shape, and one side of the housing 30 is elongated in the axial direction, and fastening portions 31 are formed at both ends of the opened portion. A plurality of through holes 321 are formed in the fastening portions in the direction orthogonal to the two fastening rods, and a screw thread is formed in the inner side surface of the one through hole.

In this structure, the bolt 33 is screwed into the threaded through hole through which the threaded hole is formed to tighten the inner diameter of the housing 30, and the inner sleeve 20 is closely contacted with the pipes 50 and 60 .

Both end portions of the housing 30 in the axial direction are formed with support tines 34 bent toward the center of the shaft to prevent the inner sleeve 20 from being axially separated.

The sleeve 20 has a tube shape in which two pipes to be connected are inserted inward through both ends and a housing 30 is located on the outside and is tightly attached to the pipe by the fastening force of the housing to remove a gap between the two pipes .

For example, as shown in FIG. 5, the sleeve 20 connecting the flat pipe 60 and the spiral pipe 50 is formed with annular stopper projections 21 along the inner side in the middle, Thereby limiting the insertion depth of the pipes 50 and 60 to be inserted.

A tightening vane 22 is formed at one end of the sleeve partitioned by the stopper protrusion 21 so as to insert the flat pipe 60 at the inner end thereof and a ring- And a plurality of annular protrusions 23 protruding from the outer circumferential surface of the flat pipe are tightly adhered to the outer circumferential surface of the flat pipe when the housing is fastened.

A helical groove 24 is formed on the inner surface of the sleeve at the other end of the sleeve defined by the stopper protrusion 21 so that the spiral pipe 50 is inserted. The helical groove 24 is formed to correspond to the spiral protrusion 51 formed on the outer surface of the spiral pipe so that the sleeve or the spiral pipe is rotationally coupled with the spiral so that the inner surface of the sleeve and the outer surface of the spiral pipe are in contact with each other. At this time, the sleeve (20) is pressed by the housing (30) to bring the sleeve into close contact with the spiral pipe (50).

The sleeve connecting the flat pipe and the spiral pipe is formed longer than the portion where the spiral groove for joining the spiral pipe is formed is longer than the portion for inserting the flat pipe as the other side so that the adhesion with the spiral pipe can be further improved Can be improved.

The sleeve may be formed with spiral grooves on the inner side of both sides to connect the two spiral pipes as shown in FIG.

Meanwhile, the coupling ring 10 for coupling the spiral pipe may further include a sleeve support ring 40 as shown in FIG. Like the sleeve 20, the sleeve support ring 40 has a helical groove 41 corresponding to the spiral projection of the spiral pipe. The sleeve support ring 40 is made of a light-weight material such as plastic. The sleeve support ring 40 is provided so that the spiral groove is continuously connected to the end of the sleeve 20 in which the helical groove 24 is formed so as to prevent the sleeve from being pushed axially by the inner pressure of the tube after coupling, do.

For example, referring to FIG. 8, when the spiral pipe 50 is connected to the coupling 10 without the sleeve support ring, the spiral projections of the spiral pipe are not broken when the support chin 34 of the housing 30 is fastened The helical pipe spiral projections 51 are formed so as to be in contact with only the upper portion of the bending point of the helical pipe spiral projections 51 so as to be supported.

Therefore, the lower portion of the curved point of the helical projections 51 does not have a separate support in the axial direction, and a pressing force acts only in a direction orthogonal to the axis. Here, when a high pressure is applied to the inside of the pipe, the spiral pipe is pushed outward around the connecting portion of the two pipes by the pressure. Such a pushing is concentrated on the end side of the sleeve 20, (51) is located.

The pressure concentrated on the portion can press the adjacent housing support jaws 34 to break the support jaws and the sleeve 20 is pushed to the outside of the housing by the breakage of the support jaws to lower the sealing force or remove the spiral pipe 50 An accident may occur.

The sleeve supporting ring 40 is provided between the sleeve 20 and the supporting step 34 of the housing so that the pressure acting in the axial direction when the pressure is applied is received by the sleeve supporting ring 40, It is possible to prevent breakage of the support jaw due to concentration of pressure by transmitting it through the entire surface of the support jaw 34. [

The outer diameter of the sleeve support ring 40 may be smaller or slightly smaller than the outer diameter of the sleeve 20 so that the sleeve 20 can be pressed against the sleeve support ring 40 So that a constant width compression can be achieved.

Since the sleeve support ring 40 supports the front surface of the sleeve end or the largest possible area, the sleeve at the lower portion of the curved point of the spiral protrusion protrudes outside the housing, thereby preventing the leakage of the pressure due to the lowering of the adhesion.

9, the sleeve support ring 40 and the sleeve 20 are formed so that the inner spiral grooves 24 and 41 are continuously connected to each other so as to correspond to each other on the end surface of the sleeve support ring and the sleeve. The engaging projections 25 and the engaging grooves 42 can be respectively formed.

The coupling protrusions and the coupling grooves corresponding to the coupling protrusions may be formed in one or more of the sleeve support ring and the sleeve end, so that the two members can be positively engaged with each other easily. As a method for selecting the coupling position of the sleeve and the sleeve support ring, the coupling may be performed by various known methods other than the coupling protrusions and the coupling grooves described above.

10, the sleeve support ring 40 is divided into a semicircular male sleeve support ring 43 and an arm slice support ring 44, and at both ends of the male sleeve support ring, And connection sleeves 441 may be formed at both ends of the arm sleeve support ring so as to correspond to the connection protrusions of the male sleeve support ring and be fastened to each other.

Thus, by separating the sleeve support ring 40, it is possible to provide the convenience of being attached at the end of the spiral pipe, which is a connecting pipe, and then mounted directly at a desired position without turning and setting the position.

In addition, the male sleeve support ring 43 and the female sleeve support ring 44 have spiral grooves formed on the inner surface thereof, so that both end surfaces are different from each other. For example, the end located at the upper part of the figure is located at the center of the protrusion on the inner surface, and the thickness of the center part is thick, and the end located on the lower part is located on both sides.

Therefore, it is preferable that the coupling protrusions 431 and the coupling grooves 441 formed at the ends of the male sleeve support ring 43 and the arm sleeve support ring 44 are formed in thick portions. In other words, in the case of the male sleeve support ring 43, a connecting protrusion 431 is formed at a central portion at one end and a connecting protrusion 431 is formed at a portion deflected to either side of the other end at the other end, It is possible to prevent misjoining when the sleeve support rings are coupled to both sides.

As shown in the drawing, the coupling protrusions 431 are formed with separation grooves 432 so that both sides of the coupling protrusions 431 are separated from each other in the lengthwise direction as shown in the figure, To be combined.

10: Coupling
20: Sleeve
21: stopper projection 22: close-
23: annular projection 24: helical groove
25:
30: Housing
31: fastening part 32: fastening rod
33: bolt 34: support jaw
321: Through the hole
40: Sleeve support ring
41: helical groove 42: engaging groove
43: male sleeve support ring 44: female sleeve support ring
431: connection projection 432: separation groove
441: connection groove
50: Spiral pipe
51: Spiral projection
60: flat pipe

Claims (5)

A tubular sleeve 20 having a helical groove 24 corresponding to the helical projection 51 of the helical pipe 50 on its inner surface; Both ends of the sleeve 20 are supported by a support jaw 34 bent toward the center of the shaft so as to prevent the sleeve from being separated from the sleeve. A coupling 10 for connecting a spiral pipe 50 having a spiral protrusion 51 formed on an outer side thereof, the housing 30 having a fastening part 31 for fastening the fastening part 31,
A sleeve support ring 40 made of a light material is provided at one or both ends of the sleeve 20 on which the helical groove 24 is formed to prevent the sleeve from being pushed toward the end of the housing due to the internal pressure of the housing, Wherein a helical groove (41) continuous with the helical groove (24) of the sleeve is formed on the inner side surface of the sleeve support ring,
The engaging protrusions 25 and the engaging recesses 42 are formed so as to correspond to the ends of the sleeve 20 and the sleeve support ring 40 so that the inner side helical grooves 24 and 41 are continuously arranged And a coupling for connecting the spiral pipe. delete delete delete The method according to claim 1,
The sleeve support ring 40 is divided into a semicircular male sleeve support ring 43 and a female sleeve support ring 44. The male sleeve support ring is formed with connecting projections 431 at both ends thereof, And coupling grooves (441) are formed at both ends of the sleeve supporting ring to correspond to the coupling protrusions of the male sleeve support ring.

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