KR102353971B1 - Groove joint - Google Patents

Abstract

The present invention relates to a groove joint, which comprises: first and second coupling covers (10a, 10b) having locking frames (12b) which are respectively formed to be supported by locking frame support grooves (H1, H2) respectively formed on the outer peripheral surfaces of first and second pipes (P1, P2) arranged in a line with a predetermined clearance (G); a rubber ring (20) installed between the first and second coupling covers (10a, 10b); a fastening member (30) for fastening the first and second coupling covers (10a, 10b); and a clearance holding member (40)which is closely interposed between the side surface of the locking frame (12b) and the wall surface of the locking frame support groove (HI, H2) to maintain the clearance (G). Therefore, functionality and usability of the groove joint can be relatively improved.

Description

Groove Joint {GROOVE JOINT}

The present invention relates to a groove joint, and more particularly, to a groove joint capable of simply and efficiently connecting a plurality of pipes arranged vertically and horizontally.

In general, a plurality of pipes arranged vertically and horizontally in a building or the like are closely connected to each other by a connection joint, and a typical example of the connection joint is a groove joint.

The demand for such grooved joints is increasing due to their excellent functions.

A conventional groove joint is installed between two pipes P1 and P2 arranged in a line, as shown in FIG. 1 . The groove joint includes a pair of coupling covers (1, 2) fastened to each other by a fastening member; It is installed between a pair of coupling covers (1, 2), and includes a rubber ring (3) with a ‘C’ cross-section that is in close contact with the outer peripheral surfaces of two pipes (P1, P2).

In particular, the two pipes (P1, P2) are arranged with a gap (G) of about 2 mm in order to prevent leakage caused by misalignment or bending by an external load or the like in advance.

And the engaging frames (1a, 2a) respectively formed on the pair of coupling covers (1, 2) are caught and supported by the engaging frame support grooves (g) formed on the outer peripheral surfaces of the pipes (P1, P2), and the engaging frames The support groove (g) is formed wider than the width of the engaging frames (1a, 2a) to be universally applicable to the engaging frames (1a, 2a) of various thicknesses.

However, in the groove joint of the above configuration, since the width of the locking frame support groove (g) is formed wider than the width of the locking frames (1a, 2a), when an external load occurs, the pipes (P1, P2) move a certain distance ( flow) and the gap G formed between the pipes P1 and P2 is eliminated.

Therefore, it is difficult to prevent leakage that may occur due to the pipes P1 and P2 coming into contact with each other.

This ultimately results in lowering the functionality and usability of the grooved joint.

The present invention has been devised to solve the above problems, and an object to be solved in the present invention is to provide a groove joint capable of preventing movement of a pipe due to an external load or the like.

The groove joint according to the present invention for solving the above problems is a first and second pipe each having a locking frame that is hooked and supported by a locking frame support groove formed on the outer circumferential surface of each of the first and second pipes arranged in a line with a certain clearance 1·2 coupling cover; a rubber ring installed between the first and second coupling covers; and a fastening member for fastening the first and second coupling covers, the width of the locking frame support groove is formed wider than the width of the locking frame, and between the side surface of the locking frame and the wall surface of the locking frame support groove There is a technical feature to be configured to further include a clearance holding member closely interposed.

The grooved joint according to the present invention conveniently prevents the movement (movement) of pipes that may be caused by external loads, etc. due to the close interposition of the clearance retaining member between the locking frame and the locking frame support groove, thereby reducing the gap formed between the pipes. can be kept stable.

Accordingly, it is possible to prevent the pipes from being misaligned or bent due to contact with each other, thereby preventing water leakage.

1 is a cross-sectional view showing a conventional groove joint coupling state;
2 is a perspective view of a groove joint according to the present invention;
3 is an exploded perspective view of FIG. 2;
Fig. 4 is a cross-sectional view of Fig. 2;
5 is a longitudinal sectional view of FIG. 2;
6 is a partial cross-sectional view showing another embodiment of the clearance retaining member of the groove joint according to the present invention;
7 is a state diagram of the use of the groove joint according to the present invention.

Hereinafter, a groove joint according to the present invention will be described in detail with reference to the accompanying drawings.

2 to 5, the groove joint according to the present invention is a ring type formed on the outer peripheral surface of each of the first pipe (P1) and the second pipe (P2) arranged in a line with a certain clearance (G) It is coupled in a state of being supported by the locking frame support grooves (H1, H2) of the.

These groove joints are first and second coupling covers (10a, 10b) each having a locking frame (12b) that is respectively hooked and supported in the locking frame support grooves (H1, H2) of the first and second pipes (P1, P2). ); a rubber ring 20 installed between the first and second coupling covers 10a and 10b; a fastening member 30 for fastening the first and second coupling covers 10a and 10b; A clearance holding member 40 closely interposed between the engaging frame 12b of the first and second coupling covers 10a and 10b and the engaging frame support grooves HI, H2 of the first and second pipes P1 and P2. is comprised of

On the other hand, the width of the engaging frame support grooves (H1, H2) of the first and second pipes (P1, P2) is formed to be larger than the width of the engaging frame (12b), and the engaging frame support grooves (H1, H2) have various thicknesses. The width is formed relatively wider than the width of the engaging frame (12b) to be universally applied to the engaging frame (12b) of the.

The first and second coupling covers 10a and 10b are connected and installed between the first and second pipes P1 and P2, and the rubber ring 20 is pressed to the outer peripheral surface of the first and second pipes P1 and P2. It serves to provide sufficient pressure to withstand.

The first and second coupling covers 10a and 10b and the first and second pipes P1 and P2 are made of a metal material with excellent physical properties, and in particular, the first and second pipes P1 and P2 are made of a magnetic metal material. is made of

The first coupling cover 10a is installed to surround the outer surface of the rubber ring 20, and has a semicircular body in which a rubber ring balance groove 12a, a locking frame 12b, and a compression protrusion 12c are formed on the inner circumferential surface. part (12); It is provided at both ends of the body portion 12, and consists of a flange portion 14 in which an elliptical bolt hole 14a is formed. And the second coupling cover (10b) is installed to surround the outer surface of the rubber ring (20), a rubber ring balance groove (12a), a locking frame (12b) and a pressing protrusion (12c) are formed on the inner peripheral surface of the semicircular shape. body portion 12; It is provided at both ends of the body portion 12, and consists of a flange portion 14 in which a circular bolt hole 14b is formed.

The rubber ring balance groove 12a of the body 12 is formed by the strong pressure of the fluid flowing into the rubber ring 20 through the clearance G between the first and second pipes P1 and P2. 20) is deformed and inserted. That is, when a strong pressure is generated by the fluid flowing into the rubber ring 20, the portion of the rubber ring 20 corresponding to the rubber ring balance groove 12a is dug into the rubber ring balance groove 12a. As the shape of the rubber ring 20 bends inward, the ends gather in the center to increase the thickness, thereby minimizing deformation or damage to the end of the rubber ring 20 due to the strong pressure of the fluid, thereby enhancing the airtight maintenance efficiency. Of course, it is possible to extend the replacement cycle of the rubber ring (20).

And as the inner space of the rubber ring 20 increases, the flow rate is reduced, so that deformation or damage of the rubber ring 20 can be reduced.

Such a rubber ring balance groove (12a) is preferably continuously formed in the form of a slit along the central inner peripheral surface of each of the first and second coupling covers (10a, 10b), so that the entire rubber ring (20) can be uniformly deformed. do.

The locking frame 12b is formed to protrude at both ends of the body portion 12, is supported by the locking frame support groove H1 of the first pipe P1, and is engaged in contact with the first and second pipes P1 and P2. A friction coating layer (not shown) for preventing slippage may be additionally formed on the contact surface of the rim 12b. In particular, magnetism is formed at the end of the locking frame 12b, and the first and second couplings can be attached to the locking frame support grooves H1 and H2 of the first and second pipes P1 and P2 made of a magnetic material by magnetic force. The first and second pipe ( The flow of P1, P2) can be prevented.

In addition, the compression protrusion 12c is integrally formed to protrude on the inner surface of the body portion 12 , and serves to press and support the outer surface of the rubber ring 20 . Accordingly, it is possible to prevent deformation or flow of the rubber ring 20 due to external shock or external environment, as well as to firmly maintain the installation state of the rubber ring 20 in the first and second pipes P1 and P2. This can enhance the confidentiality effect.

On the other hand, a plurality of pipe support protrusions 12d are formed at regular intervals on the upper and lower inner surfaces of the body 12, and the first and second pipes P1 and P2 through the plurality of pipe support protrusions 12d. By firmly supporting the outer surface of the first and second coupling covers (10a, 10b) can be stably maintained in the coupled state.

And at both ends of the body portion 12, a locking protrusion 12e and a locking protrusion 12f are formed to facilitate the coupling operation, and a rubber ring is formed between the locking protrusion 12e and the locking protrusion 12f. (20) may be provided with a waterproof pad (not shown) for airtight maintenance when damaged.

The flange portion 14 is formed to protrude from the body portion 12 for fastening the fastening member 30 .

The rubber ring 20 is installed in close contact with the outer peripheral surfaces of the first and second pipes P1 and P2, and has a 'C'-shaped cross section.

Due to the shape characteristics of the rubber ring 20 as described above, the pressure inside the first and second pipes P1 and P2 is evenly applied to the inside of the rubber ring 20, so that the higher the pressure, the higher the airtight effect or higher.

And the rubber ring 20 is made of an ethylene propylene rubber (EDPM) material with excellent resistance to water, and on its inner circumferential surface, friction is applied to the first and second pipes (P1, P2) to more firmly and stably maintain the installation state. A coating layer (not shown) may be additionally formed.

The fastening member 30 is composed of a bolt 32 and a nut 34, and the bolt 32 penetrates the bolt holes 14a and 14b of the first and second coupling covers 10a and 10b and the nut 34 ) is connected with And a plurality of fastening wedges 34a are formed along the circumferential direction of the nut 34, and these fastening wedges 34a are a plurality of fixings formed in the area of the flange portion 14 facing the nut 34. It is engaged with a wedge (not shown) to prevent the nut 34 from being arbitrarily loosened.

The clearance holding member 40 supports the side of the engaging frame 12b formed on the body 12 of the first and second coupling covers 10a and 10b and the engaging frame of the first and second pipes P1 and P2. It is closely interposed in the empty space formed between the wall surfaces of the grooves H1 and H2.

The clearance holding member 40 stably maintains the clearance G between the first and second pipes P1 and P1, so that the first and second pipes P1 and P2 are misaligned or bent by an external load, resulting in leakage. can be prevented from becoming

And it is preferable that the clearance retaining member 40 is integrally protruded from the side surface of the locking frame 12b, or is detachably coupled to the side surface of the locking frame 12b so that it can be replaced when it is damaged.

In addition, the clearance holding member 40 may be made of a stretchable elastic material to flexibly cope with the width of the engaging frame support grooves H1 and H2, and in particular, FIG. 6 to further extend the extension length thereof. It may be made of a support 42 coupled to the side of the locking frame 12b and a spring 44 connected to the support 42 as shown in.

The use state of the groove joint described above will be described with reference to FIG. 7 as follows.

The rubber ring 20 installed between the first and second coupling covers 10a and 10b has a constant pressure of the fluid flowing into it through the clearance G between the first and second pipes P1 and P2. When the height is higher than that, the rubber ring 20 is deformed under pressure and digs into the inside of the rubber ring balance groove 12a.

By minimizing the deformation or damage due to the pressure of the fluid by the deformation of the end of the rubber ring 20, the airtight maintenance efficiency can be further strengthened. In addition, as the rubber ring 20 digs into the rubber ring balance groove 12a, the internal space becomes relatively large, thereby reducing the flow rate.

And the clearance holding member 40 is formed between the side surface of the engaging frame 12b and the wall surface of the engaging frame support grooves (HI, H2) in order to prevent movement (flow) of the pipes (P1, P2) due to an external load, etc. It is closely interposed in the empty space.

10a: first coupling cover 10b: second coupling cover
12: body part 12a: rubber ring balance groove
12b: catch frame 14: flange part
14a, 14b: bolt hole 20: rubber ring
30: fastening member 40: clearance holding member
P1: first pipe P2: second pipe
G: play

Claims (6)

In the groove joint coupled in a state of being caught and supported by the locking frame support grooves (H1, H2) formed on the outer peripheral surfaces of each of the first and second pipes (P1, P2) arranged in a line with a certain clearance (G),
first and second coupling covers (10a, 10b) each having a locking frame (12b) supported by the locking frame support grooves (H1, H2); a rubber ring 20 installed between the first and second coupling covers 10a and 10b; a fastening member 30 for fastening the first and second coupling covers 10a and 10b; It is closely interposed between the side surface of the engaging frame (12b) and the wall surface of the engaging frame support grooves (H1, H2), and includes a clearance holding member 40 for maintaining the clearance (G),
The clearance retaining member 40 is detachably coupled to the side surface of the locking frame 12b, and is made of an elastic material to flexibly cope with the width of the locking frame support grooves H1 and H2,
A grooved joint, characterized in that a magnetic material is formed at the end of the locking frame (12b), and the first and second pipes (P1, P2) are made of a magnetic material.
delete The method according to claim 1,
Each of the inner peripheral surfaces of the first and second coupling covers 10a and 10b has the rubber by the pressure of the fluid flowing into the rubber ring 20 through the gap between the first and second pipes P1 and P2. A groove joint, characterized in that a rubber ring balance groove (12a) into which the ring (20) is deformed and inserted is formed.
delete delete delete

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