KR200496917Y1 - Pipe connecting device for improvement of aseismatic structure and enclosed sealing - Google Patents

Abstract

A pipe connecting device connecting a pipe to a target pipe includes an insertion tube inserted into the end of the pipe, an annular protrusion having a larger dimension than the insertion tube, an extension tube extending from the annular protrusion on the opposite side of the insertion tube, and an outer surface of the annular protrusion. An inner socket containing a rubber packing fixed between the insertion tube and the extension tube, an inclined sleeve supporting the outer surface of the pipe corresponding to the insertion tube of the inner socket, and pressurizing the base socket and the inclined sleeve provided from the extension tube of the inner socket. and a press socket, wherein the rubber packing of the inner socket is pressed by the end of the pipe and the inner surface of the base socket to improve the sealing force to the pipe.

Description

Pipe connecting device for improving seismic resistance and sealing property {PIPE CONNECTING DEVICE FOR IMPROVEMENT OF ASEISMATIC STRUCTURE AND ENCLOSED SEALING}

The present invention relates to a pipe connecting device, and relates to a pipe connecting device capable of improving earthquake resistance and airtightness at a pipe end.

Utility Model Registration No. 20-0488505 discloses a PB pipe connection socket device having a reinforcing part in which a nut is inserted into the socket. In the connection socket device, the outer surface of the pipe is pressed at two points by using a first inclined surface portion and a second inclined surface portion with a rubber ring inclined against the inclined plastic connector.

However, the actual sealing force is formed by the rubber ring, and since the rubber ring is simply pressed toward the center of the pipe from the outer surface, it may be insufficient to seal the high-pressure fluid. In addition, since the dimensions of the socket and nut must be changed according to the dimensions of the pipe, the compatibility according to the dimensions of the pipe may be poor, and three or more parts such as a reinforcing core, a rubber ring, and a plastic connector must be combined from the end of the pipe. Because of this, the work can be cumbersome.

In particular, in a piping structure connected by a PB pipe, vibration is transmitted along the piping from time to time, and as the pipe continues to vibrate, coupling between the pipe, rubber ring, and plastic connector may become loose.

The present invention provides a pipe connection device capable of maintaining good durability against vibration transmitted through a socket or pipe.

The present invention provides a pipe connection device capable of directly sealing the end surface of a pipe with a rubber packing.

The present invention provides a pipe connecting device with improved compatibility without the need to separately prepare other parts according to the dimensions of the pipe.

The present invention provides a pipe connection device that forms an improved sealing force only with an inner socket and an inclined sleeve.

According to an exemplary embodiment of the present invention, the pipe connection device for connecting the pipe to the target pipe is an insertion tube inserted into the end of the pipe, an annular projection formed to have a larger dimension than the insertion tube, and an annular shape on the opposite side of the insertion tube. An inner socket including an extension tube extending from the protrusion and a rubber packing that accommodates the outer surface of the annular protrusion and is fixed between the insertion tube and the extension tube, an inclined sleeve supporting the outer surface of the pipe corresponding to the insertion tube of the inner socket, and the inner socket of the inner socket. It includes a base socket provided from the extension tube and a press socket for pressing the inclined sleeve, and the rubber packing of the inner socket is pressed by the end of the pipe and the inner surface of the base socket to improve sealing force with respect to the pipe.

The rubber packing is supported on the inner surface of the base socket to form a coupling between the pipes at two or more points, and at the same time block the cross section of the pipe with an improved sealing force, thereby strengthening the pipe connection and sealing force at the same time.

In addition, the rubber packing and the extension pipe correspond to the dimensions of the base socket, and even if the pipe dimensions are changed, there is no need to change the base socket, and good bonding force can be formed without the need to change other parts.

To this end, the rubber packing may provide a pipe accommodating groove accommodating the end of the pipe, an annular rim accommodating the annular protrusion and exposed to the outside, and an inclined surface protruding from the annular rim toward the extension pipe.

The insertion tube, the annular protrusion, and the extension tube may be provided as an integrally formed internal adapter, the insertion tube has a first fixing groove for fixing a portion of the rubber packing in which the pipe receiving groove is formed, and the extension tube has an inclined surface of the rubber packing. A second fixing groove for fixing the formed portion may be formed.

A locking jaw for supporting the annular rim of the rubber packing may be formed, and a sealing structure between the locking jaw and the annular rim may be further added even after the inclined surface.

The rubber packing of the inner socket can also be pressed by the end of the press socket together with the end of the pipe and the inner surface of the base socket, and is compressed and deformed as a whole while being pressed from three or more sides, and through the compression deformation, the rubber packing moves through the inner surface of the pipe. It can be pressurized, and the outer surface of the pipe can also be sealed.

An extension tube of the nut socket may extend downward and be positioned inside the base socket. When the outer surface of the extension tube is designed to be in close contact with the inner surface of the base socket, the inner socket can provide good earthquake resistance by resisting vibration of the insertion tube as well as the rubber packing.

By using the rubber packing for improving sealing power and connecting pipes, it is possible to provide base sockets and press sockets with plastic injection moldings instead of metal castings. Of course, the base socket and the press socket can also be provided as metal castings, but the manufacturing cost can be remarkably lowered through improved overall sealing power and ease of assembly.

The pipe connection device of the present invention can improve earthquake resistance by using an extension tube extending to the lower portion of the nut socket. For example, the outer surface of the extension tube may be brought into close contact with the inner surface of the base socket so that shaking of the rubber packing or the insertion tube may be restricted.

Unlike conventional pipe connection devices, the pipe connection device of the present invention can directly seal the cross section of the pipe with rubber packing.

The pipe connecting device of the present invention can connect pipes of different dimensions within a certain range without replacing or replacing only the inclined sleeve without the need to separately prepare other parts according to the dimensions of the pipe.

The pipe connection device of the present invention can be coupled in the field by only assembling the inner socket and the inclined sleeve, and can form an improved sealing force compared to the prior art.

The rubber packing of the present invention can be compressed and deformed at the same time by at least two or three parts, rather than being pressed only in one direction, and the compression deformation can be designed to be deformed in a direction favorable to improving the sealing force around the end of the pipe. .

The pipe connection device of the present invention can utilize rubber packing for multiple purposes for improving sealing power and pipe coupling, and through such structural improvement, base socket and press socket are provided as relatively inexpensive plastic injection molding rather than expensive metal casting. It is possible.

1 is a view for explaining a three-dimensional shape of a pipe connecting device according to an embodiment of the present invention.
FIG. 2 is a view for explaining an exploded state of the pipe connecting device of FIG. 1 .
3 is a view for explaining an inner socket of the pipe connection device of FIG. 1;
4 and 5 are views for explaining a coupling relationship in the pipe connecting device of FIG. 1 .
6 is a view for explaining an internal socket of a pipe connection device according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, but the present invention is not limited or limited by the embodiments. For reference, in the present description, the same numbers refer to substantially the same elements, and descriptions may be made by citing contents described in other drawings under these rules, and contents determined to be obvious to those skilled in the art or repeated contents may be omitted.

1 is a view for explaining a three-dimensional shape of a pipe connecting device according to an embodiment of the present invention, FIG. 2 is a view for explaining an exploded state of the pipe connecting device of FIG. 1, and FIG. 3 is a pipe of FIG. 1 It is a view for explaining the inner socket of the connection device, and FIGS. 4 and 5 are views for explaining the coupling relationship in the pipe connection device of FIG. 1 .

Referring to FIGS. 1 to 5 , the pipe connection device 100 according to the present embodiment may connect the pipe 20 to a target pipe part. As described above, the target piping unit (not shown) may be piping equipment to which the pipe 20 can be connected, and may be a pipe itself in addition to equipment fluidly connected to the pipe, and the pipe 20 may be connected to the end of the pipe. equipment can be In addition, the interface to which the target pipe portion and the pipe connecting device 100 are connected may be formed of the same or different material as the pipe 20 to be connected, and may be formed of the same or different dimensions and shapes.

The pipe connection device 100 may include an inner socket 120, an inclined sleeve 150, a base socket 110, and a press socket 160.

As shown in FIG. 3, the inner socket 120 may be provided in a state in which the tubular inner adapter 140 and the rubber packing 130 are pre-coupled, and the inner adapter 140 may be provided as a plastic injection molding. In addition, the rubber packing 130 may also be provided as a molded material made of rubber.

The inner adapter 140 of the inner socket 120 includes an insertion tube 142 inserted into the end of the pipe 20, an annular protrusion 144 having a larger dimension than the insertion tube 142, and an insertion tube 142. An extension tube 146 extending from the annular protrusion 144 may be included on the opposite side, and the insertion tube 142, the annular protrusion 144, and the extension tube 146 may be integrally provided. A first fixing groove 143 may be formed right above the insertion tube 142 around the annular protrusion 144, and a second fixing groove 145 may be formed right below the extension tube 146.

The rubber packing 130 accommodates the annular protrusion 144 and may be fixed at a designated position on the outer surface of the inner adapter 140 . Thus, the upper surface of the rubber packing 130 can support the end of the pipe 20, and the lower part of the rubber packing 130 can be supported on the inclined inner surface of the base socket 110.

Specifically, a pipe receiving groove 132 for accommodating the end of the pipe 20 in the rubber packing 130 may be formed on the upper surface, and exposed to the outside while accommodating the annular projection 144 of the internal adapter 140. An annular rim 134 may be provided, and an inclined surface 136 having a curved or truncated cone shape may be provided as a lower portion of the annular rim 134 .

The pipe receiving groove 132 of the rubber packing 130 may be provided in a circular groove shape corresponding to the end of the pipe 20, and provided to correspond to the inner diameter, outer diameter, thickness, etc. of one or more pipes 20 used. It can be.

In addition, the annular rim 134 may be formed to a size that can be seated on the upper surface of the base socket 110, and the annular rim 134 of the rubber packing 130 is supported on the upper inner surface of the base socket 110. A locking jaw may be formed to do so. Therefore, the base socket 110 and the inner socket 120 can form a concentric arrangement by the rubber packing 130, and the outer surface of the rubber packing 130, specifically the outer surface of the inclined surface 136 and the annular rim 134 ), it is possible to form a sealing surface of at least two points on the bottom surface.

4, the inner surface of the pipe receiving groove 132 in the rubber packing 130 may be provided with substantially the same dimensions as the outer surface of the insertion tube 142, and may make surface contact with the inner surface of the end of the pipe 20. structure can be provided. To this end, the inner surface of the pipe receiving groove 132 of the rubber packing 130 may protrude relatively higher than the outer surface. In addition, the inside of the portion of the rubber packing 130 where the pipe receiving groove 132 is formed may protrude toward the inside to be partially accommodated in the first fixing groove 143 .

At the end of the pipe 20, a press socket 160, an inclined sleeve 150, and an inner socket 120 may be provided in sequence first, and the inner socket 120, the pipe 20, and the inclined sleeve may be provided in the base socket 110. (150) can be closely attached. In addition, the push socket 160 and the base socket 110 may be coupled through screw coupling between the male screw portion 164 of the push socket 160 and the female screw portion of the base socket 110 .

In addition, the extension pipe 46 of the nut socket 120 may extend downward and be located inside the base socket 110, and the outer surface of the extension pipe 146 may be in close contact with the inner surface of the base socket 110. In this case, the inner socket 120 can firmly support the pipe 20 with respect to the base socket 110, and even if the base socket 110 and the inner socket 120 are not integrally formed by casting, the pipe 20 can be stably fixed by resisting vibration.

5, while the press socket 160 is gradually moved and coupled toward the base socket 110, the lower end of the inclined sleeve 150 can press the upper surface of the rubber packing 130 of the inner socket 120 ( A), by the inclined sleeve 150 and the press socket 160, pressing pressure is also formed between the inclined surface 136 of the rubber packing 130 and the base socket 110, so that the inner socket 120 is formed by the rubber packing 130 It is possible to pressurize the outer surface of the extension pipe 146 (B).

According to this embodiment, in addition to the process of pressurizing (A) and (B) above, various complex pressure relationships can be formed. For example, the annular protrusion 144 of the inner adapter 140 presses the inside of the rubber packing 130 accommodated in the second fixing groove 145 (C) so that the rubber packing 130 is attached to the inner adapter 140. It can be fixed and moved together without moving with respect to, which can function to improve the pressure and sealing force between the inclined surface 136 and the base socket 110.

In addition, the annular rim 134 of the rubber packing 130 is supported by the locking jaw of the base socket 110 to form a seal at an additional point other than between the inclined surface 136 and the inclined inner surface of the base socket 110. can (D).

In addition, the relatively soft rubber packing 130 may be compressed as a whole by being pressed from several front surfaces (A to D), which presses the end of the pipe 20 from the inner surface like a balloon ( E) It can be converted to a deformed state by pressing from the outer surface. The deformation of the rubber packing 130 at the end of the pipe 20 may be formed through the deformation of the side, rubber packing 130, and the rubber packing 130 presses the end of the pipe 20 from the inner and outer surfaces. It can be temporarily deformed into a shape that

Since this deformation is made while the press socket 160 and the base socket 110 are coupled, it can serve to further increase the sealing force during the coupling process, and before coupling, the end of the pipe 20 is the pipe receiving groove 132 It can play a role in forming a spare space so that it can be easily entered and settled on the back.

The part protruding inward from the rubber packing 130 to be accommodated in the second fixing groove 145 and the part connected to the annular rim 134 are formed in an L-shape as a whole, and are bent like a bow while being pressed from above to a greater extent can be deformed and compressed.

The size of the rubber packing 130 corresponds to that of the base socket 110, and the inclined sleeve 150 can effectively press the outer surface of the pipe 20 while being pressed by the press socket 160 by a partially formed slit.

According to the present embodiment, by utilizing the rubber packing 130 for improving sealing force and coupling pipes, it is possible to provide the base socket 110 and the press socket 160 as plastic injection moldings instead of metal castings. Of course, the base socket and the press socket can also be provided as metal castings, but if they can be provided as plastic injection moldings through improved overall sealing power and ease of assembly, the manufacturing cost can be significantly reduced.

6 is a view for explaining an internal socket of a pipe connection device according to an embodiment of the present invention.

Referring to FIG. 6 , the inner socket of another embodiment may also be provided in a state in which the tubular inner adapter 240 and the rubber packing 230 are pre-coupled, the inner adapter 240 may be provided as a plastic injection molding, and the rubber packing 230 may be provided. The packing 230 may also be provided as a molded material made of rubber.

The inner adapter 240 may include an insertion tube 242, an annular protrusion 244, an extension tube 246, a first fixing groove 243 and a second fixing groove 245, see the description of the previous embodiment. can do.

However, in this embodiment, an inclined protrusion for a one-way hook function may be formed on the outer surface of the insertion tube 242, which may be more effectively adhered to and fixed to the inner surface of the pipe.

The rubber packing 230 also forms tapered surfaces on both sides of the pipe receiving groove 232 so that the end of the pipe is stably brought into close contact with the pipe receiving groove 232 while the pipe is coupled.

As described above, although it has been described with reference to the preferred embodiments of the present invention, those skilled in the art will variously modify and change the present invention within the scope not departing from the spirit and scope of the present invention described in the claims below. You will understand that it can be done.

100: pipe connection device 110: base socket
120: inner socket 130: rubber packing
140: inner adapter 150: inclined sleeve
160: push socket

Claims (7)

In the pipe connection device for connecting the pipe to the target pipe,
An insertion tube inserted into the end of the pipe, an annular protrusion having a larger dimension than the insertion tube, an extension tube extending from the annular protrusion on the opposite side of the insertion tube, and an outer surface of the annular protrusion, and accommodating the insertion tube and the annular protrusion. An inner socket including a rubber packing fixed between the extension tubes;
an inclined sleeve supporting an outer surface of the pipe corresponding to the insertion pipe of the inner socket;
a base socket provided on the side of the extension tube of the inner socket; and
Includes; a press socket for pressing the inclined sleeve,
In the inner socket, the insertion tube, the annular projection, and the extension tube are integrally formed, and the rubber packing is a molding made of a rubber material and includes an annular groove formed therein, and the annular projection positioned between the insertion tube and the extension tube. It is fixed while accepting the exterior,
The pipe connection device according to claim 1, wherein an annular rim protruding around the annular protrusion in the rubber packing is pressed by an end of the pipe and an inner surface of the base socket to improve sealing force with respect to the pipe.
According to claim 1,
The rubber packing provides a pipe receiving groove for accommodating the end of the pipe and an inclined surface protruding from the annular rim toward the extension tube.
According to claim 2,
A first fixing groove for fixing a portion of the rubber packing in which the pipe receiving groove is formed is formed in the insertion tube, and a second fixing groove for fixing a portion of the rubber packing in which the inclined surface is formed is formed in the extension pipe. ,
The rubber packing is a pipe connection device, characterized in that protrudes toward the inside from a portion fitted into the first fixing groove and the second fixing groove.
According to claim 1,
Pipe connection device, characterized in that the locking jaw for supporting the annular rim of the rubber packing is formed on the inner surface of the base socket.
According to claim 1,
Pipe connection device, characterized in that the outer surface of the extension tube is in close contact with the inner surface of the base socket to improve earthquake resistance.
According to claim 1,
The rubber packing of the inner socket is also pressed by the end of the pressing socket together with the end of the pipe and the inner surface of the base socket.
According to claim 1,
The pipe connection device, characterized in that the base socket and the pressing socket are provided as a plastic injection molding.

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