JP2011122604A - Pipe body for ground burial, and method for covering pipe end opening in the pipe body - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a pipe body for ground burial, which facilitates connecting operation and burying operation of the pipe body, and a method for covering a pipe end opening in the pipe body. <P>SOLUTION: An opening 3 at a pipe end 2 in the pipe body 1A for ground burial is covered with a thermally shrinkable biodegradable film 10 which is thermally shrunk according to the outer shape of the pipe end 2. A flexible sheet 25 is held between support plates 21A, 21B, and the biodegradable film 10 is disposed on the support plate 21A, and the pipe end 2 of the pipe body 1A is inserted to a through-hole 22A of the support plate 21A from the biodegradable film 10 side and further pressed into a through-hole 26 of the flexible sheet 25 to protrude the opening 3 of the pipe end 2 out of a through-hole 22B of the support plate 21B, and the biodegradable film 10 covering the opening 3 is heated by a heating device 30. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an underground tube body in which an opening at a pipe end is covered with a biodegradable film, and a method for covering the opening with a biodegradable film.

Conventionally, underground pipes manufactured in factories have closed the pipe end openings with laminated kraft paper for packaging (hereinafter referred to as lami craft paper), and in the distribution process up to the construction site It prevents the intrusion of water and water and the adhesion of dirt.
Specifically, the opening is covered with the lami kraft paper, and further the peripheral edge of the lami kraft paper is closed around the tube end with a string, PP band or adhesive tape. Yes. And when connecting the pipe end part of another pipe body to the pipe end part at the construction site, the fixing string and the lami craft paper are removed.

  Patent Document 1 discloses a configuration in which a heat-shrinkable bag body such as polyethylene is covered on the tube end of a metal tube, and cut cuts are provided at intervals in the circumferential direction of the opening end of the heat-shrinkable bag body. ing. Patent Document 2 discloses that a tongue-like cut is provided on the surface of a stretched film bag for easy opening, and a handle piece is attached to the tongue-like cut.

Japanese Patent Publication No. 6-98170 Japanese Utility Model Publication No. 49-34478

However, the above-described conventional configuration requires a fixing string or the like in addition to the lami kraft paper for packaging in order to close the opening, so that the work for closing the opening and the removal work at the construction site become complicated. There's a problem. Moreover, it is impossible to recycle the laminated kraft paper removed at the construction site, and it must be collected and disposed as waste, which is not preferable from the viewpoint of environmental protection.
Furthermore, for the convenience of the collection processing work of the packaging material (lami craft paper and string) as described above, it is necessary to remove the packaging material from the underground buried tube before the buried work. Then, dirt such as earth and sand will adhere to the connection part of the pipe body in the process of burying the pipe body from which the packaging material is removed, and the dirt such as earth and sand bites into the connection part and is connected. Defects may occur, and problems such as water leakage or intrusion water may occur at the connection after construction.

Moreover, the structure of the said patent document 1 also has the problem that a bag-shaped package is unsuitable for recycling and has no choice but to incinerate practically. In addition, it is necessary to prepare a plurality of types of the bag-shaped package in accordance with the outer diameter and shape of the tube end to be packaged, and the packaging work becomes complicated.
Moreover, the structure of the said patent document 2 needs to cut an opening part in a tongue piece shape, or needs to stick an opening handle piece to a tongue piece-like cut, and there exists a problem which requires a complicated and troublesome operation | work.

  Then, an object of this invention is to provide the pipe | tube body for underground burying which can solve the said problem, and the coating | coated method of the pipe end part opening in this pipe | tube body.

  In order to solve the above-mentioned problem, the present invention is an underground pipe body in which an opening at a pipe end is covered with a heat-shrinkable biodegradable film, and is arranged so as to cover the opening at the pipe end. A submerged tube body characterized in that the biodegradable film is attached to the tube end by heating and contracting in accordance with the outer shape of the tube end.

Since the above-mentioned underground pipe is closed at the end of the pipe, dust or the like does not enter the pipe during the distribution process up to the construction site.
In addition, the biodegradable film that was broken to connect the pipes at the construction site is decomposed into carbon dioxide and water in the ground, so it can be embedded in the ground while being attached to the pipe end, The fragments of the biodegradable film can be thrown into the ground as they are. Therefore, the connecting operation and the burying operation of the pipe body are extremely simple, and since there is no waste, it is desirable from the viewpoint of environmental protection.
Further, in the present invention, since the pipe body can be broken into the excavated ground and then the biodegradable film can be broken and the pipe bodies can be connected to each other. The portion can be covered. Therefore, dirt such as earth and sand does not adhere to the connecting portion of the tube during the burying operation, and it is not necessary to clean the tube end before the tube connecting operation, which has been necessary in the past. Connection failure due to dirt such as earth and sand can be prevented.
Further, since the biodegradable film is contracted in accordance with the outer diameter of the tube end portion, it is securely attached to the tube end portion without being affected by the outer diameter or shape of the tube body. There is no need to prepare multiple types according to the outer diameter and shape of the body.

  The present invention includes a configuration in which the tube end portion is a plain end, but the outer periphery of the tube end portion is provided with a large-diameter portion whose outer diameter increases toward the terminal direction of the tube end portion. In this case, the peripheral portion of the biodegradable film disposed so as to cover the large-diameter portion may be contracted according to the outer shape of the large-diameter portion and attached to the large-diameter portion.

  In such a configuration, since the peripheral edge of the biodegradable film abuts on the large diameter portion and is locked to the tube end, the biodegradable film does not fall out of the tube end.

  Also, the biodegradable film portion corresponding to the opening of the tube end portion is provided with a cutting cut for opening, and the biodegradable portion provided with a knob on the opening cutting cut on the outer surface of the biodegradable film It is good also as a structure which stuck the adhesive tape.

In such a configuration, the biodegradable film is not broken because the cutting cut for opening is not torn when the adhesive tape is adhered. On the other hand, when the worker on the construction site picks the knob and peels off the adhesive tape, and puts the finger in the exposed cutting cut for tearing, the biodegradable film is easily broken without using a tool. However, other pipes can be connected.
In addition, since the adhesive tape is also a biodegradable material, the worker can throw it away into the ground and bury it. Therefore, the said structure makes the connection operation | work of the pipe body in a construction site still easier.

Moreover, it is desirable to cover the pipe end opening of the above-described underground pipe body by the following method.
That is, a flexible sheet in which a through hole set to a hole diameter smaller than the outer diameter of the tube end portion is formed, and a through hole set to a hole diameter into which the tube end portion can be inserted is formed. A biodegradable film that is sandwiched between a pair of support plates and that is heat-shrinkable is disposed on the outer surface of one of the support plates so as to cover the through hole, and the pipe end portion of the underground tube is embedded in the biodegradable film. Inserted into the through hole of the one support plate from the side of the conductive film, and further press-fitted into the through hole of the flexible sheet, and the peripheral edge of the biodegradable film is formed at the hole edge of the bent through hole. While pressing against the outer periphery of the tube end, the opening of the tube end is inserted from the through hole of the other support plate so that the opening is covered with the biodegradable film, and the biodegradable film is heated. Then, the biodegradable film is applied to the tube end by contracting to the outer shape of the tube end. Which is a tube end opening process of the cover in the underground pipe body, characterized in that so as to deposit.

  In the above method, the biodegradable film is heated and contracted in a state where the peripheral edge of the biodegradable film is pressed against the outer periphery of the tube end. It can be reliably and quickly applied to the pipe end.

  The above method can be applied to a pipe end having a plain end, but the outer periphery of the pipe end is provided with a large-diameter portion whose outer diameter increases toward the end of the pipe end. When the pipe end is passed through the through hole of the other support plate, the large diameter portion is covered with the peripheral edge of the biodegradable film, and the peripheral edge of the biodegradable film is A method may be used in which the peripheral portion of the biodegradable film is attached to the large-diameter portion by heating and shrinking in accordance with the outer shape of the large-diameter portion.

  In the above method, the peripheral portion of the biodegradable film can be heated and contracted in a state where the peripheral portion of the biodegradable film is pressed against the outer periphery of the tube end.

The underground pipe according to the present invention makes it extremely easy to connect the pipes and embed them in the ground, has the effect of shortening the work time, and does not adversely affect the environment.
Moreover, the coating method of the tube end opening in the underground pipe of the present invention has an effect that the biodegradable film can be reliably and quickly deposited on the tube end opening.

Perspective view of underground pipe body whose opening is covered with biodegradable film The isolation | separation perspective view which isolate | separates and shows a biodegradable adhesive tape and the underground pipe body Disassembled perspective view of film coating device External perspective view of film coating equipment The perspective view which shows the use condition of a film coating apparatus Longitudinal cross section showing film coating device during heating Explanatory drawing showing the connection work of underground pipes The perspective view which shows the underground pipe body of other embodiment The perspective view which shows the underground pipe body of other embodiment

Embodiments of the present invention will be described with reference to the accompanying drawings.
As shown in FIG. 1, the underground buried tube 1A (hereinafter referred to as tube 1A) of this embodiment has a cylindrical shape and is made of a hard polyvinyl chloride material. Further, an opening 3 is formed in the tube end portion 2 of the tube body 1A, and a large diameter portion whose outer diameter increases toward the terminal direction of the tube end portion 2 on the outer periphery of the tube end portion 2. 5 is provided.

The opening 3 of the tubular body 1A is covered with a transparent biodegradable film 10 in order to prevent dust and the like from entering the tubular body 1A during the distribution process up to the construction site.
The biodegradable film 10 is made of a heat-shrinkable biodegradable plastic film. Examples of biodegradable plastic films include chemical synthesis systems, natural product systems, and microbial systems. Among chemical synthesis systems, those derived from renewable resources, such as starch-derived polylactic acid component systems, chitosan-cellulose- There are starch-based materials, and polyethylene terephthalate is one that uses petroleum resources as a raw material. Examples of natural products include cellulose acetate and chitosan. In addition, examples of microbial systems include polyhydroxybutyric acid.
In particular, those containing a polylactic acid-based component as a main component can be easily obtained at low cost as a heat-shrinkable biodegradable film, and are preferable as the biodegradable film of the present invention.
As a biodegradable film containing the polylactic acid-based component as a main component, there is “Teramac TSH Shrinkable Great (registered trademark)”, a biaxially stretched film manufactured by Unitika, which has a specific gravity of 1.27 and a melting point of 165 to 170. The temperature is set to 25 ° C. and the temperature is 25 μm. Another material that can be used is “Ecologe (registered trademark)” made by Mitsubishi Plastics.

  The biodegradable film 10 of the tube body 1A is heated in a state where it is disposed so as to cover the opening 3 of the tube end portion 2, and conforms to the outer shape of the tube end portion 2 including the large diameter portion 5. By contracting, it is attached to the tube end portion 2 including the large diameter portion 5.

  As shown in FIGS. 1 and 2, the biodegradable film portion corresponding to the opening 3 of the tube end portion 2 is provided with a cutting cut 11 for opening. The opening cutting notch 11 is set to a size that allows an operator to insert a finger.

Furthermore, a biodegradable pressure-sensitive adhesive tape 15 is stuck on the opening cutting cut 11 in the biodegradable film 10. The biodegradable pressure-sensitive adhesive tape 15 is provided with a knob portion 15A which is produced by folding back an end portion thereof.
The biodegradable pressure-sensitive adhesive tape 15 is made of “Cellotape (registered trademark)” manufactured by Nichiban Co., Ltd. Can be used.

Next, a method for covering the opening 3 of the tube end 2 with the biodegradable film 10 will be described.
The film coating apparatus 20 shown in FIGS. 3 and 4 includes a flexible sheet 25 and a pair of support plates 21A and 21B that sandwich the flexible sheet 25.

  The flexible sheet 25 is made of, for example, a rubber sheet or a thermoplastic elastomer sheet, and a through hole 26 having a smaller hole diameter than the outer diameter of the tube end 2 of the tube body 1A is formed at the center thereof. ing. Further, a plurality of cuts 26 </ b> A are formed at intervals in the hole edge of the through hole 26.

Further, the support plates 21A and 21B are made of a metal material such as a hard plastic material or an aluminum plate, for example, and have a through hole set at the center thereof with a larger hole diameter than the outer diameter of the tube end 2 of the tube 1A. Holes 22A and 22B are formed.
The flexible sheet 25 and the support plates 21A, 21B are laminated so that the through holes 22A, 22B, 26 are aligned on the same axis, and are fastened with bolts 27 and nuts 28.

  As shown in FIG. 4, the heat-shrinkable biodegradable film described above covers the through hole 22 </ b> A on the front surface (outer surface) of the support plate 21 </ b> A located on the front side of the pair of support plates 21 </ b> A and 21 </ b> B. 10 is arranged.

  Next, as shown in FIG. 5, the tube end 2 of the tube 1A is inserted into the through hole 22A of the support plate 21A from the biodegradable film side. Further, as shown in FIG. 6, the tube end portion 2 is press-fitted into the through hole 26 of the flexible sheet 25, and the support plate 21 </ b> B located on the rear side is bent while bending the hole edge portion of the through hole 26. The opening 3 of the pipe end 2 is extended from the through hole 22B. Then, as shown in FIG. 6, the peripheral edge of the biodegradable film 10 is pressed against the outer periphery of the tube end at the hole edge of the through hole 26 of the flexible sheet 25, and the opening 3 is The state is covered with the biodegradable film 10.

  Then, the biodegradable film 10 covering the opening 3 is heated by using a heating device 30 disposed in the vicinity of the support plate 21B of the film coating apparatus 20, and the pipe end including the large diameter portion 5 is heated. Shrink according to the outer shape of 2. Thus, the biodegradable film 10 is applied to the tube end 2 and the opening 3 of the tube end 2 is covered.

  As shown in FIG. 7, when connecting another tube A to the tube 1 </ b> A, the biodegradable adhesive tape 15 is peeled off, and a finger is put into the exposed cutting cut 11 to open the opening 3. The biodegradable film 10 covering the film is broken. The biodegradable film 10 that has been broken may remain attached around the tube end. In addition, the biodegradable film 10 and the biodegradable adhesive tape 15 peeled off by the worker may be discarded as they are.

  And the pipe | tube end part of the other pipe body A is inserted in this open | released opening 3, a connection operation | work is finished, and this pipe body 1A, A is embed | buried in the ground. In this way, the tube body 1A can be embedded in the ground with the biodegradable film 10 covering the opening 3 of the tube end portion 2 being attached to the tube end portion 2; There is an advantage that the burying work becomes extremely simple and the working time is shortened.

A tube 1B according to another embodiment will be described with reference to FIG.
A large-diameter portion 5 made of a spherical surface is provided on the outer periphery of the tube end 2 in the tube 1B. The biodegradable film 10 is attached to the tube end 2 including the large diameter portion 5, and the biodegradable film 10 is unlikely to fall out of the tube end 2.

The tubular bodies 1A and 1B described so far have a configuration including the large diameter portion 5, but as shown in FIG. 9, the biodegradable film is formed on the pipe end portion 2 of the plain end not including the large diameter portion 5. The tubular body 1C to which 10 is attached is also included in the present invention. Thus, according to the present invention, the biodegradable film 10 can be attached to the pipe end 2 at the plain end.
In addition, the tubular body of the present invention may be a tubular body having any shape as long as it is not only a straight pipe but also a pipe constituent member embedded in the ground.

  The present invention is not limited to the above-described embodiments, and appropriate design changes can be made without departing from the gist of the present invention.

1A-1C Underground tube 2 Tube end 3 Opening 5 Large diameter portion 10 Biodegradable film 11 Uncut cutting cut 15 Biodegradable adhesive tape 15A Knob 21A, 21B Support plates 22A, 22B, 26 Through-hole 25 Flexible sheet

Claims (5)

A tube for underground burial in which the opening at the end of the tube is covered with a heat-decomposable biodegradable film,
The biodegradable film disposed so as to cover the opening of the tube end is heated and contracted in accordance with the outer shape of the tube end to be attached to the tube end. Tube for underground burial. On the outer peripheral surface of the tube end portion, in a configuration in which a large-diameter portion whose outer diameter increases toward the terminal direction of the tube end portion is formed,
2. The underground embedding according to claim 1, wherein a peripheral portion of the biodegradable film disposed so as to cover the large-diameter portion is shrunk in accordance with an outer shape of the large-diameter portion and is attached to the large-diameter portion. Tube.   A biodegradable pressure-sensitive adhesive tape in which an opening cutting notch is provided in the biodegradable film portion corresponding to the opening of the tube end, and a knob is provided on the opening cutting notch on the outer surface of the biodegradable film The underground pipe according to claim 1 or claim 2, wherein A method for covering a tube end opening in a tube for underground embedment according to any one of claims 1 to 3,
A pair of flexible sheets each having a through hole set to a hole diameter into which the tube end portion can be inserted is formed on the flexible sheet formed with a through hole set to a hole diameter smaller than the outer diameter of the tube end portion. While sandwiching between the support plates, arrange a heat-shrinkable biodegradable film on the outer surface of one of the support plates so as to cover the through holes,
Insert the tube end of the underground tube body into the through hole of the one support plate from the biodegradable film side, press fit into the through hole of the flexible sheet, and bend the through hole While pressing the peripheral edge of the biodegradable film to the outer periphery of the pipe end at the hole edge of the hole, the opening of the pipe end is pushed out from the through hole of the other support plate, and the opening is the biodegradable film The biodegradable film is heated and contracted in accordance with the outer shape of the tube end to heat the biodegradable film, thereby attaching the biodegradable film to the tube end. A method for covering an opening of a pipe end in a tube for underground burial. On the outer periphery of the tube end portion, a configuration in which a large-diameter portion whose outer diameter increases toward the terminal direction of the tube end portion is provided,
When the pipe end is passed through the through hole of the other support plate, the large diameter portion is covered with the peripheral edge of the biodegradable film, and the peripheral edge of the biodegradable film is heated. The tube end opening in the underground pipe according to claim 4, wherein the peripheral portion of the biodegradable film is attached to the large diameter portion by contracting in accordance with the outer shape of the large diameter portion. Coating method.