KR20140105104A - Device for connecting and sealing pipes - Google Patents

Abstract

The present invention relates to a tube connecting and sealing apparatus, A second tube inserted into the first tube; And a fusing mesh band surrounding the outer circumferential surface of the second tube where the first and second tubes overlap each other and fusing the overlapping portions of the first and second tubes by generating resistance heat by an applied electric current, A mesh band having a width and a length; And first and second terminals respectively connected to both ends of the mash band, wherein the first and second terminals each have a connection part connected to the mash band and a grounding part extended to the connection part, And between the connecting portion and the connecting portion of the second terminal, a bent-shaped passage is formed. According to the present invention, not only the double insulated tube but also the plastic tube are connected to each other to increase the watertightness and airtightness of the connecting portion and simplify the structure.

Description

≪ Desc / Clms Page number 1 > DEVICE FOR CONNECTING AND SEALING PIPES &

The present invention relates to a tube connection and sealing apparatus.

Generally, heat generated from cogeneration plants, garbage incinerators, etc. is supplied to large areas such as apartment complexes and commercial buildings through district heating systems.

The piping lines constituting the district heating system are formed by connecting a plurality of double insulation pipes to each other. When connecting two double insulated pipes, there should be no leakage at the connection part.

FIG. 1 shows an example of a device for connecting a conventional double insulated pipe. As shown in FIG. 1, the conventional double insulated pipe connecting apparatus includes a cylindrical heat-shrinkable casing C surrounding two double insulated tubes 10 adjacent to each other, an end of the heat-shrinkable casing C and a double insulated tube 10 And a double-sided heat-sealing tape 40 provided between the heat-shrinkable casing C and the double insulated tube inside the fusion-bonded mash band 30. The heat-shrinkable casing (C) is filled with the filler (50).

The heat-shrinkable casings (C) are shrunk at both ends by heating, so that one end is in close contact with one double insulated pipe (10) and the other end is in close contact with the other double insulated pipe (10).

The fusion welding mesh band 30 is composed of a mash band 31 surrounding the double insulated pipe 10 and first and second terminals 32 and 33 respectively coupled to both ends of the mash band 31. The mesh band 31 is a conductor formed of a mesh having a constant width and a length, and the first and second terminals 32 and 33 are each a square bar shape having a uniform thickness, and are conductors. The first and second terminals 32 and 33 are located parallel to each other and are separated from each other by an interval of about 4 to 5 mm between the first and second terminals 32 and 33 for electrical fusion. When the terminal of the electric fusion machine is connected to the first and second terminals 32 and 33 and then the switch is turned on, current flows through the fusion welding band 30 to generate a resistance heat, The insulated tube is fused.

When heat is applied to the double-sided heat-sealable tape 40, the adhesive provided on both sides of the double-sided heat-sealable tape 40 is melted and has an adhesive force. Therefore, it is adhered to the double insulated tube 10 and the thermally shrinkable casing C to seal between the double insulated tube 10 and the thermally shrinkable casing C. The double-sided heat-seal tape 40 is also called a "MASTIC-TAPE".

However, since the first and second terminals 32 and 33 of the fusion bonding mesh band 30 are separated from each other in parallel to each other for electric fusion, The two-side heat-sealing tape 40 is used in order to prevent leakage of the gas and the fluid due to insufficient sealing due to fusion between the first and second terminals 32 and 33 There are many parts and the structure becomes complicated.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a pipe connecting apparatus which is simple in structure and has improved watertightness and airtightness of a connecting portion when connecting pipes made of plastic as well as a double insulated pipe.

In order to achieve the object of the present invention as described above, A second tube inserted into the first tube; And a fusing mesh band surrounding the outer circumferential surface of the second tube where the first and second tubes overlap each other and fusing the overlapping portions of the first and second tubes by generating resistance heat by an applied electric current, A mesh band having a width and a length; And first and second terminals respectively connected to both ends of the mash band, wherein the first and second terminals each have a connection part connected to the mash band and a grounding part extended to the connection part, And a connection portion between the connection portion and the second terminal is formed as a curved passage.

Wherein the connecting portion of the first terminal is composed of a linear portion having a uniform width and a length and a plurality of protruding portions protruding from one side of the linear portion with an interval therebetween, And the protrusions of the first terminal and the protrusions of the second terminal are alternately arranged to form a bent shape of the protrusions of the first terminal and the protrusions of the second terminal, It is preferable to form a passage.

Wherein the connecting portion of the first terminal is composed of a linear portion having a uniform width and a length and three protruding portions protruding from one side of the rectilinear portion and the connecting portion of the second terminal is a rectilinear portion having a uniform width and length, And four protrusions protruding from one side of the straight portion with a space therebetween. The three protrusions of the first terminal are located between the four protrusions of the second terminal, And the like.

The protrusions of the first and second terminals may have a rectangular shape.

The width of the straight portion of the first terminal is preferably 1/3 to 2/3 of the width of the ground portion.

Wherein the connecting portion of the first terminal and the connecting portion of the second terminal each have a uniform width and have two or more bent portions so as to have a bent path between the connecting portion of the first terminal and the connecting portion of the second terminal . ≪ / RTI >

It is preferable that the intervals of the bent passages are uniform.

Since the inner circumferential surface of the first tube and the outer circumferential surface of the second tube are melted by the resistance heat of the fused mesh band provided between the first tube and the second tube and are fused to each other while surrounding the fused mesh band, The water tightness and airtightness between the first and second terminals of the fused mesh band are improved and the fluid is prevented from flowing into the first and second pipes or from flowing out of the first and second pipes. This prevents the filling material from leaking between the first and second pipes when the filling insulator is filled between the two adjacent second tubes (double insulated tubes) and the first tube connecting the second tubes. In addition, since the sealing force (watertightness and airtightness) between the first tube and the second tube is increased to prevent the fluid from flowing into the first and second tubes or flowing out of the first and second tubes, It is possible to eliminate the attachment of the tape between the first and second tubes, thereby simplifying the structure.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a plan sectional view showing an example of a conventional apparatus for connecting a double insulated tube,
FIG. 2 is a partial cross-sectional plan view of a pipe connecting system having an embodiment of a pipe connecting and sealing apparatus according to the present invention.
3 is a plan view showing a fused mesh band constituting one embodiment of the pipe connecting and sealing apparatus according to the present invention,
FIG. 4 is a plan view showing a second embodiment of the first and second terminal connection portions constituting the tube connection and sealing apparatus of the present invention, FIG.
FIG. 5 is a plan view showing a third embodiment of the first and second terminal connecting portions constituting the tube connecting and sealing apparatus of the present invention,
6 is a plan view showing a fourth embodiment of the first and second terminal connecting portions constituting the tube connecting and sealing apparatus of the present invention,
7 is a plan view showing a fifth embodiment of the first and second terminal connection portions constituting the tube connection and sealing apparatus of the present invention.

Hereinafter, an embodiment of a pipe connecting apparatus according to the present invention will be described with reference to the accompanying drawings.

2 is a partial cross-sectional plan view of a pipe connection system having an embodiment of a pipe connection and sealing apparatus according to the present invention. 3 is a plan view showing a fused mesh band constituting one embodiment of the pipe connecting and sealing apparatus according to the present invention.

Referring to Figs. 2 and 3, one embodiment of the pipe connecting and sealing apparatus according to the present invention will be described. One embodiment of a tube connecting and sealing apparatus according to the present invention comprises a first tube (100); A second tube (200) inserted into the first tube (100); The first and second tubes 100 and 200 surround the outer circumferential surface of the second tube 200 in which the first and second tubes 100 and 200 are overlapped. Wherein the fused mesh band (300) comprises a mesh band (310) having a width and a length; The first and second terminals 320 and 330 are connected to both ends of the mash band 310. The first and second terminals 320 and 330 are connected to each other by a folded- . The second tube 200 is preferably a double insulated tube, and the first tube 100 is preferably a tube that surrounds and connects two double insulated tubes. The materials of the first tube 100 and the second tube 200 are preferably the same.

The mash band 310 of the fused mesh band 300 is a conductor formed in a net shape and has a uniform width.

The first and second terminals 320 and 330 may have a uniform thickness and the first terminal 320 may include a connection portion 321 having one side connected to the mash band 310, And the second terminal 330 also includes a connecting portion 331 having one side connected to the mash band 310 and a grounding portion 332 extending in the longitudinal direction to the connecting portion 331. [ ). The other side surface of the connection portion 321 of the first terminal 320 and the other side surface of the connection portion 331 of the second terminal 330 are spaced apart from each other so as not to be in contact with each other, Thereby forming a passage P. It is preferable that the passages P of the bent shape have uniform intervals. The ground portions 322 and 332 of the first and second terminals 320 and 330 preferably have a uniform width and the ground portions 322 and 332 of the first and second terminals 320 and 330 Are preferably equal to each other.

The first embodiment of the connecting portion 321 of the first and second terminals is as follows.

The connecting portion 321 of the first terminal 320 is composed of a straight portion 321a having a uniform width and a length and a plurality of protruding portions 321b protruding from one side of the straight portion 321a with a gap therebetween . And the mash band 310 is connected to the other side of the straight portion 321a of the first terminal 320. [ The connecting portion 331 of the second terminal 330 is composed of a linear portion 331a having a uniform width and a length and a plurality of protrusions 331b protruding from one side of the linear portion 331a with a gap therebetween . And the mash band 310 is connected to the other side surface of the straight portion 331a of the second terminal 330. The protrusions 321b of the first terminal 320 and the protrusions 331b of the second terminal 330 are mutually interchanged to form a curved path P.

It is preferable that the number of protrusions 321b of the first terminal 320 is three and the number of protrusions 331b of the second terminal 330 is four. The protrusions 321b and 331b of the first and second terminals 320 and 330 are preferably rectangular. The protrusions 321b and 331b of the first and second terminals 320 and 330 may have a triangular or trapezoidal shape. The width of the straight portion 321a of the first terminal 320 is preferably 1/3 to 2/3 of the width of the ground portion 322, more preferably 1/2. The width of the straight portion 331a of the second terminal 330 is preferably 1/3 to 2/3 of the width of the ground portion 332 and more preferably is 1/2.

4 shows a second embodiment of the connecting portion of the first and second terminals. 4, the first and second terminal connection portions 321 and 331 are formed such that a connection portion 321 of the first terminal 320 is connected to a straight line portion having a uniform width and length 321a and two protrusions 321b protruding from one side surface of the rectilinear section 321a. And the mash band 310 is connected to the other side of the straight portion 321a of the first terminal 320. [ The connecting portion 331 of the second terminal 330 includes a linear portion 331a having a uniform width and a length and three protruding portions 331b protruding from one side of the linear portion 331a with a gap therebetween . And the mash band 310 is connected to the other side surface of the straight portion 331a of the second terminal 330. The protrusion 321b of the first terminal 320 and the protrusion 331b of the second terminal 330 are alternately positioned to form a curved path P.

The protrusions 321b and 331b of the first and second terminals 320 and 330 are preferably rectangular. The protrusions 321b and 331b of the first and second terminals 320 and 330 may have a triangular or trapezoidal shape. The width of the straight portion 321a of the first terminal 320 is preferably 1/3 to 2/3 of the width of the ground portion 322, more preferably 1/2. The width of the straight portion 331a of the second terminal 330 is preferably 1/3 to 2/3 of the width of the ground portion 332 and more preferably is 1/2.

5 shows a third embodiment of the connecting portion of the first and second terminals. 5, in the third embodiment of the first and second terminal connection parts 321 and 331, the connection part 321 of the first terminal 320 is connected to a straight line part having a uniform width and length 321a and one protrusion 321b protruding from one side surface of the rectilinear section 321a. And the mash band 310 is connected to the other side of the straight portion 321a of the first terminal 320. [ The connecting portion 331 of the second terminal 330 includes a linear portion 331a having a uniform width and a length and two protruding portions 331b protruding from one side of the linear portion 331a . And the mash band 310 is connected to the other side surface of the straight portion 331a of the second terminal 330. The protrusion 321b of the first terminal 320 and the protrusion 331b of the second terminal 330 are alternately positioned to form a curved path P.

The protrusions 321b and 331b of the first and second terminals 320 and 330 are preferably rectangular. The protrusions 321b and 331b of the first and second terminals 320 and 330 may have a triangular or trapezoidal shape. The width of the straight portion 321a of the first terminal 320 is preferably 1/3 to 2/3 of the width of the ground portion 322, more preferably 1/2. The width of the straight portion 331a of the second terminal 330 is preferably 1/3 to 2/3 of the width of the ground portion 332 and more preferably is 1/2.

In another embodiment of the connecting portion of the first and second terminals, four or more protrusions 321b of the first terminal 320 and five or more protrusions 331b of the second terminal 330 are provided, The number of protrusions 321b of the terminal 320 is smaller than the number of protrusions 331b of the second terminal 330 by one.

6 shows a fourth embodiment of the connecting portion of the first and second terminals. 6, the fourth embodiment of the first and second terminal connection portions 321 and 331 includes a connection portion 321 of the first terminal 320 and a connection portion 331 of the second terminal 330. [ The first terminal 320 and the second terminal 330 may have a uniform width and may have a curved path P between the connecting portion 321 of the first terminal 320 and the connecting portion 331 of the second terminal 330, And has two bent portions at the connection portion 331 of the connection portion 321 and the second terminal 330. The two bent portions are preferably bent at right angles. One side of each of the connection portions 321 and 331 of the first and second terminals 320 and 330 is connected to the mash band 310.

The width of the connection portion 321 of the first terminal 320 is preferably 1/3 to 2/3 of the width of the ground portion 322, and more preferably is 1/2.

The width of the connecting portion 331 of the second terminal 330 is preferably 1/3 to 2/3 of the width of the grounding portion 332 and more preferably is 1/2.

7 shows a fifth embodiment of the connecting portion of the first and second terminals. 7, the fifth embodiment of the first and second terminal connection portions 321 and 331 includes a connection portion 321 of the first terminal 320 and a connection portion 331 of the second terminal 330, The first terminal 320 and the second terminal 330 may have a uniform width and may have a curved path P between the connecting portion 321 of the first terminal 320 and the connecting portion 331 of the second terminal 330, The connection portion 331 of the connection portion 321 and the connection portion 331 of the second terminal 330 have three or more bent portions. Preferably, the three bent portions are each bent at right angles. One side of each of the connection portions 321 and 331 of the first and second terminals 320 and 330 is connected to the mash band 310.

The width of the connection portion 321 of the first terminal 320 is preferably 1/3 to 2/3 of the width of the ground portion 322, and more preferably is 1/2.

The width of the connecting portion 331 of the second terminal 330 is preferably 1/3 to 2/3 of the width of the grounding portion 332 and more preferably is 1/2.

The first and second pipes 100 and 200 are preferably made of a plastic material. More specifically, it is preferable to use a high-density polyethylene material. When the second tube 200 is a double heat insulating tube, the outer tube of the double heat insulating tube is made of a plastic material.

The fused mesh band 300 is preferably made of stainless steel. The fused mesh band 300 may be made of copper or a copper alloy.

Hereinafter, the operation and effect of the pipe connecting and sealing apparatus according to the present invention will be described.

First, the fused mesh band 300 is wrapped around the outer circumferential surface of the end portion of the second tube 200, and the first and second terminals 320 and 330 are positioned in parallel with each other. The second tube 200 with the fused mesh band 300 is inserted into the first tube 100 or the second tube 200 with the fused mesh band 300 wrapped with the first tube 100, . When the second tube 200 is inserted into the first tube 100, the first tube 100 is preferably a heat-shrinkable tube, and the second tube 100, in which the fusion-bonded mash band 300 is wrapped, 200, the first tube 100 is a tube incised in the longitudinal direction, and the incised portion is joined by fusion or the like.

(Not shown) of the electric fusing device are connected to the first and second terminals 320 and 330 of the fusing mesh band 300, the switch of the electric fusing device is turned on to apply current to the fusing mesh band 300, A resistance heat is generated in the fusing mesh band 300 by the current flowing in the fusing mesh band 300 and the inner circumferential face of the first pipe 100 contacting the fusing mesh band 300 by the resistance heat and the inner circumferential face of the second pipe 200 Are fused to each other while surrounding the fused mesh band 300 while being melted. At this time, the molten material of the first tube 100 and the molten material of the second tube 200 are fused to each other through the holes of the mash band, The path P between the first terminal 320 and the second terminal 330 has a bent shape and the path P between the first terminal 320 and the second terminal 330 is bent The shape of the connecting portion of the first and second terminals 320 and 330 is complicated and the heat generating area is increased to increase the resistance of the first and second terminals 32 and 33, (320) and (330).

In this way, not only the molten material is sufficiently filled in the passage P between the first and second terminals 320 and 330 but also the passage P is bent and elongated to increase the fluid resistance, The first and second pipes 100 and 200 are prevented from flowing into the first and second pipes 100 and 200.

The thickness of the first and second terminals 320 and 330 of the fused mesh band 300 is greater than the thickness of the mash band 310 and therefore the distance between the first and second terminals 320 and 330 The thickness of the inner surface of the first tube 100 and the outer surface of the second tube 200 are melted by the fused mesh band 300 and the depth of the mash band 310 Which is about 2 mm in consideration of the thickness. Therefore, the molten material of the first and second pipes 100 and 200 can not sufficiently penetrate into the path P between the first and second terminals, so that the fluid can flow into or out of the passage P. However, the present invention solves this problem as described above.

On the other hand, when the width of the connection portion of the first and second terminals 320 and 330 of the fused mesh band 300 is equal to or slightly smaller than the width of the ground portion, resistance heat due to electrical resistance is generated in the connection portion, When the width of the connection portion of the two terminals 320 and 330 is too small, the resistance heat due to the electrical resistance is excessively generated at the connection portion. When the width of the connection portion of the first and second terminals 320 and 330 is 1/3 to 2/3 of the width of the ground portion, the resistance heat generated at the connection portion of the first and second terminals 320 and 330 The inner circumferential surface of the first tube 100 and the outer circumferential surface of the second tube 200 are melted to fill the path between the connecting portions of the first and second terminals 320 and 330. When the width of the connecting portion is the width of the ground portion In case of 1/2 size, the passage is filled sufficiently.

The inner circumferential surface of the first tube 100 and the outer circumferential surface of the second tube 200 are separated from each other by the resistance heat of the fused mesh band 300 provided between the first tube 100 and the second tube 200. [ And the first and second terminals 320 and 330 of the fused mesh band 300 are excellent in watertightness and airtightness because they are melted and fused to each other while being fused to each other while surrounding the fused mesh band 300, So that fluid can be prevented from flowing into the first and second pipes 100 and 200 or flowing out of the first and second pipes 100 and 200. Therefore, when the filling insulator is filled between the two adjacent second tubes 200 (double insulated tubes) and the first tube 100 connecting the second tubes 200, (100) (200). Also, since the sealing force (watertightness and airtightness) between the first tube 100 and the second tube 200 is increased and the fluid is introduced into the first and second tubes 100 and 200, It is possible to prevent the double-sided heat-sealable tape 40 from being attached between the first and second tubes 100 and 200, thereby simplifying the structure.

100; A first pipe 200; The second pipe
300; Welded mesh band 310; Mash band
320; A first terminal 330; The second terminal
321,331; Connections 322, 332; Grounding portion

Claims (8)

A first tube; A second tube inserted into the first tube; And a fusing mesh band surrounding the outer circumferential surface of the second tube in which the first and second tubes are overlapped and generating resistance heat by an applied current to fuse the overlapping portions of the first and second tubes,
The fused mesh band
A mesh band having a width and a length;
And first and second terminals respectively connected to both ends of the mash band,
Wherein the first and second terminals each include a connecting portion connected to the mesh band and a grounding portion extending to the connecting portion,
And a connection part between the connection part of the first terminal and the connection part of the second terminal forms a curved path. The method according to claim 1,
Wherein the connecting portion of the first terminal comprises a linear portion having a uniform width and a length and a plurality of protrusions protruding from one side of the linear portion with a gap therebetween,
Wherein the connecting portion of the second terminal comprises a linear portion having a uniform width and a length and a plurality of protrusions protruding from one side of the linear portion with an interval therebetween,
Wherein the protrusions of the first terminal and the protrusions of the second terminal are alternately disposed to form a bent path. The method according to claim 1,
Wherein the connecting portion of the first terminal is composed of a linear portion having a uniform width and a length and three protruding portions protruding from one side of the rectilinear portion and the connecting portion of the second terminal is a rectilinear portion having a uniform width and length, And four protrusions protruded from one side surface of the straight portion with a gap therebetween. The three protrusions of the first terminal are located between the four protrusions of the second terminal, Wherein the tube connecting and sealing device is a tubular connecting and sealing device. The method according to claim 1,
Wherein the connecting portion of the first terminal is composed of a straight portion having a uniform width and a length and one protruding portion protruding from one side of the straight portion, and the connecting portion of the second terminal is a straight portion having a uniform width and length, And two protrusions protruding from one side of the rectilinear section with a gap therebetween, wherein one protrusion of the first terminal is positioned between two protrusions of the second terminal, Wherein the tube connecting and sealing device is a tubular connecting and sealing device. The tube connecting and sealing device according to any one of claims 2 to 4, wherein the protrusions of the first and second terminals are rectangular. The tube connecting and sealing device according to any one of claims 2 to 4, wherein the width of the linear portion of the first terminal is 1/3 to 2/3 of the width of the ground portion. The connector according to claim 1, wherein the connecting portion of the first terminal and the connecting portion of the second terminal have a uniform width, and the connecting portion of the first terminal and the connecting portion of the second terminal are bent Wherein the connecting portion of the first terminal and the connecting portion of the second terminal have two or more bent portions. The tube connecting and sealing device according to claim 1, characterized in that the spaces of the bent passages are uniform.

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