KR20020075126A - A method and device of fixing for a heat-shrinkable wraparound - Google Patents

Abstract

PURPOSE: A method and an apparatus for fixing a sealing portion of a heat shrinkable wraparound are provided to fix firmly a couple of front end bars at both ends of a heat shrinkable wraparound by using a contractile force of a fixing bar. CONSTITUTION: A heat shrinkable wraparound(10) is formed with a heat shrinkable plate(11), a plurality of fibers(12), and a couple of front end bars(13). The heat shrinkable plate(11) is formed by a polyolefin material. The heat shrinkable plate(11) is shrunk by heat. The heat shrinkable plate(11) is freely bent by a predetermined pressure. The fibers(12) are arranged to a longitudinal direction of the heat shrinkable plate(11). The fibers(12) has a heatproof characteristic against 200 degrees centigrade. The front end bars(13) are arranged to a longitudinal direction of heat shrinkable plate(11) at both ends of the heat shrinkable plate(11), respectively. The front end bars(13) have the heatproof characteristic against 200 degrees centigrade.

Description

A METHOD AND DEVICE OF FIXING FOR A HEAT-SHRINKABLE WRAPAROUND}

The present invention relates to a fixing method and a fixing means of the heat shrinkable tube sealing unit, and more particularly, to a fixing method and a fixing means of the heat shrinkable tube sealing unit to achieve the sealing to the junction only by the coupling itself coupled to the joint of the heat shrinkable tube.

In general, the heat shrink tube is combined to surround the communication cable and the outer periphery of the power line and the leakage portion of the gas pipe and the joint of the sewage pipe, and the inner contents of the heat shrink tube while applying heat to the heat shrink tube wrapped around the outside of the communication cable. It is common to seal and heat-shrink the tube together.

Here, the heat shrink tube is composed of a polymer compound, such as polyolefin (POLYOLEFINE) having a heat resistance of melting point 350 ℃, heat deformation temperature of 200 ℃ of the charge, cylindrical or hollow inside to accommodate the contents of the communication cable, etc. It is common to form a plate so as to enclose and accommodate the contents.

Conventionally, the heat shrink tube includes a heat shrink tube 10 and a clip 200 for accommodating the contents of the communication cable, as shown in FIG. 2, and the heat shrink tube 10 is made of a polyolefin material. A heat shrink plate 11 whose volume is reduced by external heating, and a tip rod 13 wrapped around the heat shrink plate 11 at both ends of the heat shrink plate 11, and the clip 200 It is formed to form a substantially "C" cross-sectional shape to accommodate and fix the pair of tip rods (13).

In addition, fibers 12 such as glass fibers are arranged in the longitudinal direction of the heat shrinkable plate 11 to prevent shrinkage in the arrangement direction of the fibers 12.

In addition, the tip rod 13 is made of a material such as polyfluoropropylene hardened than the material of the heat shrink plate 11 to support the heat deformation of the heat shrink plate 11 in the longitudinal direction, while forming a cylindrical shape Both ends of the heat shrink plate 11 wrap around the outer circumference of the tip rod 13, and the tip ends of the heat shrink plate 11 contact each other with the tip end of the heat shrink plate 11. To be fixed at

Therefore, the heat shrink plate 11 is wrapped in contact with the outer periphery of the contents, such as the communication cable, while wrapping the contents with the heat shrink plate 11 so that the tip rods 13 formed at both ends thereof are in contact with each other, mutually (13) is fixed using the clip 200, heat is applied to the heat shrink plate 11 fixed with the clip 200 to shrink the heat shrink plate 11 to achieve a seal on the contents.

In this case, when heat is applied to the heat shrink plate 11, the shrinkage and deformation are performed by heat of 200 ° C. or higher according to the polyolefin material characteristic of the heat shrink plate 11, and at this time, the fibers 12 inserted in the longitudinal direction of the heat shrink plate 11 are included. ) Is not deformed by the heating so that the heat shrink plate 11 is contracted in the longitudinal direction due to the support force of the fiber 12, and the heat shrink plate 11 is arranged in the arrangement direction of the fiber 12 While shrinking in a direction perpendicular to the diameter of the heat shrink tube 10 is reduced.

In addition, the clip 200 is formed of a steel material at one side of the tip rod 13 so as to surround the tip of the pair of tip rod 13 and the heat shrink plate 11 surrounding the tip rod 13. The clip 200 fitted to the tip rod 13 is fixed to the tip portion 13 by pinching or extending both ends thereof by using a tool such as a forceps.

In addition, as the clip 200 is made of a steel material, it is used to cut by a predetermined length to achieve the same length as the length of the heat shrink tube 10 to form a predetermined interval throughout the clip 200, the slit penetrated 210 is formed.

Therefore, when the cutting of the clip 200 is required, the clip 200 is bent or pressed by pressing against the slit 210 formed in the clip 200 or cut using a tool in a bent state, and the cutting One clip 200 is inserted in the longitudinal direction of the tip rod 13 while opening or narrowing both ends of the clip 200 with a tool at one side of the tip rod 13.

In addition, the sealing tape 300 on the inner surface of the pair of tip rods 13 so as to prevent immersion into the heat shrink tube 10, such as water flowing through the slit 210 formed on the front of the clip 200. ) To block the inflow of foreign substances such as water flowing through the portion in contact with the pair of tip rods (13).

According to the prior art, in using the clip 200 made of a steel material, as the both ends of the clip 200 is bent or widened using a tool while being fitted to the tip rod 13 of the heat shrink tube 10, There is a problem that the labor of the clip 200 assembly work is increased, as well as the effort of the worker.

In addition, according to the conventional use of the clip 200 made of steel, when the part of the clip 200 is deformed or bent by the external pressure due to inadvertent operator in the workplace, the heat shrink tube 10 It is not possible to be fitted to the tip rods 13 arranged in the longitudinal direction of the bent, as well as the bent clip 200 is fitted to the tip rods 13 while the longitudinal shape of the heat shrinkable tube 10 is deformed. There was a problem.

According to the prior art, as the slit 210 is formed in the clip 200, the thermal contraction through the minute gap formed in the portion where the foreign matter such as moisture penetrated through the slit 210 in contact with the pair of tip rods 13 As the sealing tape 300 is bonded to the inner surface of the tip rod 13 to block foreign substances such as water introduced into the pipe 10 as well as water introduced into the gap between the tip rods 13, Sealing of the gap between the pair of tip rods 13 is required, as well as an additional member such as the sealing tape 300 has been required to increase the cost, as well as increase the labor.

An object of the present invention is to solve the above problems, and to provide a fixing method and fixing means of the heat shrinkable tube sutures to secure a pair of tip rods formed on both ends of the heat shrinkable tube by the contraction force of the fixing rod. Is in.

Another object of the present invention is to provide a fixing method and a fixing means of the heat shrinkable tube suture portion to improve the airtightness by preventing the inflow of foreign matter by covering the separation gap formed between the tip rods of the heat shrinkable tube from the outside. have.

1 is a perspective view of a heat shrink tube and a fixing means according to the present invention.

Figure 2 is a perspective view of the heat shrink tube and the fixing means according to the prior art.

<Description of Symbols for Major Parts of Drawings>

10-Heat Shrinkable Tube 11-Heat Shrinkable Plate

12-Fiber 13-Tip

20-Fixture 21-Fixture

22-fiber

The present invention for achieving the technical problem to be achieved, characterized in that for fixing both ends of the rod formed on both ends of the heat-shrink tube by using a fixing rod made of a material that is contracted by the same heating material. .

Another feature of the present invention is characterized in that both front end rods of the heat-shrink tube are fixed by using a fixing stand whose front surface is sealed.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In addition, while the same reference numerals are denoted in the same parts as in Fig. 2 showing the conventional structure, detailed description thereof will be omitted.

1 shows a heat shrink tube 10 and the fixing means 20 according to the present invention, wherein the heat shrink tube 10 forms a plate shape and a heat shrink plate 11 of polyolefin material whose volume is reduced by heating; It consists of a plurality of fibers 12 and the tip rod 13 inserted in the longitudinal direction of the heat shrink plate (11).

Here, the heat-shrinkable plate 11 is formed to be bent freely by a predetermined pressure while forming a plate shape is applied so that both ends are in contact with each other by applying an external pressure to the both ends.

The fiber 12 is arranged in the longitudinal direction of the heat shrink plate 11, and is inserted into the center of the plurality of points of the heat shrink plate (11).

In addition, the said fiber 12 shall have heat resistance with respect to heat | fever of about 200 degreeC, such as glass fiber.

The tip rod 13 is formed at rods arranged at both ends of the heat shrink plate 11 in the longitudinal direction of the heat shrink plate 11 and joined to both ends of the heat shrink plate 11.

In addition, the tip rod 13 is supposed to have heat resistance to heat of about 200 ° C. similar to that of the fiber 12.

Here, the bonding of the tip rod 13 is further extended from the outer circumferential end of the tip rod 13, with both ends of one end portion of the heat-shrinkable plate 11 wrapped around the outer circumferential surface of the tip rod 13 It is joined to the heat shrink plate 11 of the starting point surrounding the tip rod (13).

At this time, the heat shrink plate 11 of the starting point portion surrounding the tip rod 13 and the heat shrink plate 11 of the end portion wrapped around the tip rod 13 are preferably bonded to each other via an adhesive agent.

The fixing means 20 is formed of a fixing table 21 containing the same fiber 22 as the fiber 12.

Here, the holder 21 is formed of the same polyolefin as the material of the heat shrink plate 11, formed in a rectangular plate shape so as to surround all the front end rods 13 formed on both side ends of the heat shrink plate (11) do.

In addition, the fixing stand 21 is formed to have the same width as the width formed by the two front end rods 13 in close contact with each other, and preferably formed to have the same length as the length of the heat-shrink tube 10.

In addition, the fixing rod 21 extends in the vertical direction from both side ends of the fixing rod 21 so that both ends thereof are in close contact with both side ends of the two front end rods 13 which are in close contact with each other. Both sides of the elongated holder 21 to form a curved convex outward to be in close contact with the outer circumference.

In addition, the tip of the portion extending in the vertical direction from both side ends of the holder 21 is further bent in the center direction of the holder 21 to be in close contact with the junction of the tip rod 13 and the heat shrink plate (11). do.

The fiber 22 is made of the same material as the fiber 12 in the heat-shrinkable plate 11, and is inserted into a plurality of points of the holder 21 while being arranged in the longitudinal direction of the holder 21. .

Next will be described the process of fixing the suture of the heat shrinkable tube using the fixing means of the present invention configured as described above.

The outer periphery of the first communication cable or power lines or the joints such as gas pipes and sewer pipes are wrapped using the heat shrink plate 11.

Here, in the state in which the plate-shaped heat shrink plate 11 is in contact with the outer circumference of the contents such as the communication cable, external pressure is applied to contact both ends of the heat shrink plate 11 at the same point. The cross section is such that the inside has a hollow cylindrical shape.

At this time, the contents of the communication cable or the like is accommodated in the state of being inserted into the interior of the heat-shrinkable plate 11 forming a hollow cylindrical phenomenon.

As the outer circumference of the contents is wrapped with the heat shrink plate 11, and both ends of the heat shrink plate 11 are in contact with each other, a pair of tip rods 13 formed at both ends of the heat shrink plate 11 are mutually connected. In contact with each other, the front end rods 13 which are in contact with each other are fixed using the fixing means 20.

Here, the fixing to the both ends of the tip rod 13 is in contact with one end of the fixing rod 21 of the fixing means 20 to one end of the tip rods 13 on the inner circumferential surface of the fixing rod 21 Pressure is applied to the holder 21 so that the outer circumferential surface of the paddle is in contact with each other.

In addition, by applying a force in the outward direction to both ends of the holder 21, and inserting the both tip rods 13 through the open surface of the extended holder 21, the both ends of the rod 13 Is applied to both ends of the fixing stand 21 in the state accommodated therein so that both ends of the fixing stand 21 are elastically contacted at the point where the two front end rods 13 and the heat shrink plate 11 are in contact with each other. Of course, you can contact.

Therefore, the contents of a communication cable and the like are accommodated in the cylinder formed by the heat-shrinkable plate 11, and are formed at both ends of the heat-shrinkable plate 11 in which the contents are accommodated, and both ends of the rods are in contact with each other. 13) is fixed while the outer periphery is pressed by the holder 21.

At this time, the holder 21 is made of the same material as the heat-shrink plate 11, and both ends are bent in the center direction, according to the shape, the both ends of the both ends of the rod 13 to the center direction The both ends of the rod 13 is fixed while being elastically pressed by the elasticity and shape of the holder 21.

In addition, the heat shrink plate 11 is contracted by applying heat to the heat shrink plate 11 to bring the contents contained in the heat shrink plate 11 into close contact with the heat shrink plate 11.

At this time, the heat shrink plate 11 is perpendicular to the longitudinal direction while preventing the heat shrink plate 11 from being shrunk in the longitudinal direction by the fibers 12 inserted into the heat shrink plate 11 in the longitudinal direction. Contraction only in the direction.

Here, as the heat shrink plate 11 is contracted only in the direction perpendicular to the longitudinal direction, the cylindrical diameter of the heat shrink plate 11 is reduced by heating, the diameter of the heat shrink plate 11 is reduced As a result, the inner circumferential surface of the heat shrink plate 11 and the contents are in close contact with each other.

In addition, by applying heat to the holder 21 at the same time or sequentially heating the heat shrink plate (11) while the holder 21 is contracted to fix the both ends of the rod (13).

When heat is applied to the holder 21, shrinkage occurs in its entire surface due to the material properties of the holder 21, and in this case, the fiber 22 inserted in the longitudinal direction of the holder 21 is fixed to the holder ( While preventing the longitudinal contraction of the 21, the holder 21 is contracted only in the direction perpendicular to the longitudinal direction of the holder 21.

Therefore, the receiving cross-section of the holder 21 is reduced while the fixed holder 21 is fixed in the direction perpendicular to the longitudinal direction while pressing both sides of the both tip rods 13 to the both tip rods 13. More close.

In addition, the holder 21 is bent so that the front end is sealed and its both ends are in close contact with the point where the tip rod 13 and the heat shrink plate 11 is in contact with each other to isolate the both tip rods 13 from the outside. Of course, by applying heat to the holder 21, the holder 21 and the both ends of the rod 13 is in close contact with the gap between the outer periphery of the tip rod 13 and the tip rod 13 is the holder 21 It is isolated from the outside by its entire surface.

In addition, as the holder 21 is contracted by heating, as well as the outer curved surface of each of the tip rods 13, the holder 21 is formed in a recess formed in the contact portion of the pair of cylindrical tip rods 13 While being in close contact with the contraction, the tip rods 13 are isolated from the outside as well as seal the gap formed by the both tip rods 13.

As such, the invention is not limited to the specific preferred embodiments described above, and any person of ordinary skill in the art without departing from the gist of the invention claimed in the claims may have various modifications. Of course, such changes are within the scope of the claims.

As described above, according to the present invention, as the fixing rod having elasticity fixes the tip rods of the heat shrinkable tube, the fixing force is improved.

Another effect of the present invention is that the fixing rod fixed to the tip rod of the heat shrink tube is contracted by heating, and the fixing force to the tip rods is further improved, as well as the holder and the tip rod are in close contact to block the inflow of foreign matter. There is.

Another effect of the present invention, the stator has a high elasticity and low load compared to the steel material has an effect that facilitates the transport, cutting and assembly work for the stator.

Another effect of the present invention is to seal the heat shrink tube by covering the gap between the two front end rods in the state where the front of the stator is sealed.

Claims (5)

In the fixing method of the tip of the heat shrink tube for contacting and fixing the front end rods of the heat shrink plate containing the contents, Fitting a holder to accommodate the mutually intimate side tips; Heating and shrinking the heat shrink plate; And And a step of heating and contracting the holder. The method of claim 1, Apply force to both ends of the stator in the outward direction, and insert the two tip rods through the open surface of the extended stator, and apply to both ends of the stator with the two tip rods received therein. And removing the force so that both ends of the stator are in contact with both ends of the rod and the point where the heat shrink plate is in contact with each other. The method of claim 1, A method of fixing a front end of a heat shrink pipe, characterized in that to simultaneously heat the heat shrink plate and to heat the holder to shrink the heat shrink plate and the holder. In the heat shrink tube consisting of a heat shrink plate made of a material shrinking by heating, Formed on both sides of the heat-shrink plate and formed in a plate shape to accommodate the two front end rods in contact with each other, extends to reach the point where the tip rod and the heat shrink plate contacted at both ends, the fixing rod made of the same material as the heat shrink tube Fixing means of the front end of the heat shrink tube, characterized in that it comprises. The method of claim 4, wherein Fixing means of the heat-shrink tube tip characterized in that the fibers arranged in the longitudinal direction of the holder is inserted into the holder.