KR100709624B1 - Detecting tape of lay under the ground - Google Patents

Abstract

The present invention transfers 1 to n carbon bands on the film and coded for each band to prevent the inadvertent damage of the underground buried material when excavation work in the underground buried section to determine the location of the buried material by radio test on the ground. In addition to providing a tape, it is possible to know what kind of burial is and how many are buried.

Underground burial, magnesium and carbon bands,

Description

Detecting tape of lay under the ground}

1 is a tape completion state diagram according to the present invention

2 is a cross-sectional view of the tape according to the present invention.

*** Explanation of symbols on main parts of drawing ***

11: film 12: carbon stripe

13 coating layer 14 barcode

The present invention transfers 1 to n carbon bands to a high-density resin film and partially encodes them, and embeds them integrally with underground buried material. In detail, when embedding underground layings such as telephone cables, electrical cables, water pipes, gas pipes, embedding a high-density resin tape that codes the specifications of each laying integrally with the embeddings and detect the tape with a detector on the ground The present invention relates to a tape configured to detect a buried condition and a type of buried material.

Conventional underground deposit detection tape is constructed to embed copper wires in parallel in a low density resin film and to embed tapes coated with coating layers on the surface in the basement to detect the location and direction of underground deposits by sensors on the ground surface. have.

The conventional tapes as described above have a problem that the cost of copper wires to be purchased in parallel is burdened, and since copper wires have a low elongation force than the film's elongation force because the tape cannot protect the copper wires, it can be cut by external pressure. There is a problem, and if there is no current through the copper wire, even if radio wave tuning occurs by a ground detector, there is a problem in that it is not known exactly whether the detected state is due to tape or buried material.

The present invention is to improve the problems of the above-mentioned underground buried detection tape as a transfer of a plurality of carbon lines with a predetermined width along the length of the high-density resin film and to form a bar code at predetermined intervals every predetermined length, thereafter Its purpose is to provide a tape that can detect the specifications of the ground when it is buried like underground underground by coating to prevent damage of carbon line and barcode.

In the film used in the present invention, it is preferable to use a high density resin so as to protect the carbon line.

The carbon line should have a maximum of a plurality of bands and the width of each band so that it can be easily detected on the ground even when the ground changes.

The barcodes transferred to the carbon lines are formed at predetermined intervals so that even if one of the barcodes loses its function due to the change of the ground, the other can detect the specification of the buried material.

The present invention provides a high-density resin film 11, a plurality of carbon lattice 12 transferred to the resin film 11, a bar code 14 formed at equal intervals on the carbon band 12, and the bar code 14 And a coating layer 13 for protecting the carbon strip 12.

1 is a tape completeness according to the present invention.

2 shows a configuration of a tape according to the present invention.

As shown in FIG. 1, the present invention has a predetermined width and is continuously formed and wound so as to be managed by a roll, and carbon is transferred along the length of the film 11 to form a plurality of carbon bands 12.

Bar codes 14 are formed at equal intervals along the carbon band 12.

The coating layer 13 is formed on the film 11 on which the carbon band 12 and the barcode 14 are transferred.

The present invention will be described as in the examples.

The present invention is to grasp the state on the ground without digging underground buried. In the basement of the road, electric wires, telephone lines, water pipes and gas pipes are buried. Excavation is frequently performed due to maintenance, resale, etc., so if you do not pay attention to the excavation, there is a problem that the equipment will be damaged. At the time of excavation, the tape was first found so as to alert the worker, but there is a problem that the safety work is not easy because there is a problem that the tape must be placed at a certain position in view of the size of the equipment used for the work.

In order to improve the above problems, there is a tape that embeds a tape with a copper wire along its length and reflects radio waves by a detector from the ground so that the location of the buried material can be determined. Since fine copper wire is buried, the radio wave reflection of the detector used on the ground is weak, so it can be seen that there is buried material.However, the type and condition of the buried material cannot be known. have.

The present invention is an improvement of the above-described conventional technique.

The tape according to the present invention may use a high density resin film but a low density film.

The tape according to the present invention is a process of transferring the liquid carbon band 12 to the film 11 in the roll state, the process of transferring the barcode 14, the process of forming the coating layer 13 and the winding in the roll state The process consists of

In the present invention, the barcode 14 of the tape formed through the above process can input various information.

When a road is newly built, at least two kinds of buried items are buried at a time, so the information of the bar code can input information about the two buried items.

In other words, when the buried material is buried at a time, only one tape can explain the condition of the buried material.

When using the tape according to the present invention integrally with the buried material, if you work with information that can accurately know the specifications of the buried material by the barcode 14, the work plan can be easier and more secure work.

That is, the bar code 14 can know the depth, etc. from the name, type, and index | index of the buried material.

When the tape according to the present invention is used integrally with the buried material, even if there is a change in the ground, the buried direction and state of the buried material can be accurately known.

The present invention has a large workability effect because the carbon band is transferred to the tape compared to the prior art, and compared to the copper wire has a low cost effect because the carbon is cheap, and when managed in a roll state and the initial state and It can be managed in the same roll state, and barcodes are transferred at equal intervals, so it is possible to know the specifications and information about the contents of the buried material accurately. Cost savings, work efficiency, etc. are effective.

Claims (2)

The process of transferring the liquid carbon band 12 to the film 11 in the roll state, the process of transferring the bar code 14 while the film 11 is released, the carbon band 12 and the bar code 14 layer Underground buried detection tape, characterized in that consisting of a process in which the coating layer 13 is formed to protect the carbon band 12 and the barcode 14 layer. The method of claim 1, wherein the bar codes (14) are arranged at equal intervals by a predetermined distance, and the underground buried detection tape, characterized in that it is configured not to overlap with the carbon strip.

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