KR102225869B1 - Detecting Means for Piping - Google Patents

Abstract

The present invention is to provide a pipe detecting means capable of detecting regardless of the depth of a pipe buried because it is installed in a position adjacent to the ground surface. According to the present invention, provided is a pipe detecting means comprising: a first layer disposed to be spaced apart from a pipe buried in the ground in the direction of the ground; and a second layer of a metal material provided on the first layer.

Description

Detecting Means for Piping

The present invention relates to a pipe detection means, and relates to a pipe detection means that informs the position or direction of various pipes buried in the ground.

In recent years, as industrialization has accelerated, many cables and pipes are buried in the underground. Usually, water pipes, gas pipes, communication cables, and power cables are buried. In addition, various power lines and optical cables installed on the ground are also being buried underground.

In general, when a facility is buried underground, it can be marked separately to prevent damage or safety accidents of the reclamation facility when other construction is performed around the reclamation facility.

Recently, as pipes made of non-metallic materials such as synthetic resins and ceramics are buried, it is difficult to accurately identify the location of the buried facility. To solve this problem, a technology to detect this by attaching a metal material to the upper area of the pipe is applied. Has become.

However, such a structure in which a metal material is attached to the upper part of the pipe is indispensably accompanied by a process of adjusting the metal to be located on the upper part of the pipe at the time of construction, and in addition, when the pipe is buried too deep according to the depth installed in the ground, There is a problem in that there is a limit to detecting it on the ground.

An object of the present invention is to solve such a problem, and more particularly, to provide a pipe detection means capable of detecting regardless of the depth of the pipe buried because it is installed in a position adjacent to the ground surface.

In addition, since the present invention can provide data such as the type or use of the buried pipe, the depth of the buried, the diameter, the material, and the buried schedule, another object of the present invention is to provide a pipe detection means that can easily grasp information of the pipe before work. have.

The present invention for carrying out the above object is a first layer disposed to be spaced apart from the pipe buried in the ground in the direction of the ground surface; And a second layer of metal material provided on the first layer.

The second layer may be attached to the first layer or may be integrally formed with the first layer.

The second layer may have a divided pattern spaced apart from the first layer or at a set interval along the longitudinal direction of the pipe.

The divided pattern may have different set intervals or widths according to at least one of data of the type, use, depth, diameter, material, and burial schedule of the pipe.

The second layer may include an identification pattern arranged to correspond to a set position on the first layer.

The identification pattern may be arranged to correspond to a branch point of the pipe, a joint region in which the pipe and the pipe are connected, or an overlap region where the pipe and other pipes intersect.

The identification pattern may have a different thickness or cross-sectional area of the second layer than other areas other than a branch point of the pipe, a joint region where the pipe and the pipe are connected, or an overlap region where the pipe and other pipes intersect.

The second layer may include a third layer provided at a set interval or a set position on the first layer.

The third layer may use a wireless communication tag including at least one of RFID, NFC, MST, and NFMI.

The wireless communication tag may include data of at least one of the type, purpose, depth, diameter, material, and burial schedule of the pipe.

According to the pipe detection means according to the present invention,

First, it is possible to easily detect the position or direction of a non-metallic pipe through a metal detector,

Second, since the second layer includes a division pattern or an identification pattern, information on the buried pipe can be checked,

Third, it is possible to prevent safety accidents from occurring in the construction process by easily acquiring information on buried piping through the second layer or the third layer.

Fourth, it is possible to easily identify the branching area or the joint area of the buried pipe, so that the effect of easy maintenance can be expected even when leaking is detected.

1 is a perspective view schematically showing a state in which a pipe detection means according to an embodiment of the present invention is buried.
Figure 2 is a side view showing the pipe detection means of the present invention from the side.
3 is an enlarged perspective view showing a partially enlarged pipe detection means shown in FIG. 1.
4 is a reference diagram showing a division pattern of the pipe detection means shown in FIG. 3 for each embodiment.
5 is a reference diagram showing the identification pattern of the pipe detection means shown in FIG. 3 for each embodiment.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings so that those of ordinary skill in the art can easily implement them. It should be noted that, in the accompanying drawings, the same reference number is used as much as possible when indicating the same configuration in other drawings. In addition, in describing the present invention, when it is determined that a detailed description of a related known function or a known configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted. In addition, certain features presented in the drawings are enlarged or reduced or simplified for ease of description, and the drawings and their components are not necessarily drawn to scale. However, those skilled in the art will readily understand these details.

1 is a perspective view schematically showing a state in which a pipe detection means according to an embodiment of the present invention is buried, FIG. 2 is a side view showing the pipe detection means of the present invention from the side, and FIG. 3 is a pipe shown in FIG. It is an enlarged perspective view showing a partially enlarged detection means, FIG. 4 is a reference diagram showing a division pattern of the pipe detection means shown in FIG. 3 for each embodiment, and FIG. 5 is an identification pattern of the pipe detection means shown in FIG. It is a reference diagram shown for each example.

1 to 5, the pipe detection means 100 according to an embodiment of the present invention includes a first layer 110 and a second layer 120.

First, referring to FIG. 1, the buried pipe 10 installed in the ground is buried in the first soil layer 11, and the second soil layer 12 is stacked to have a set height on the top surface of the first soil layer 11. At this time, the first layer 110 is disposed along the buried pipe 10 on the upper surface of the second soil layer 12, and a third soil layer 13 is stacked thereon. A road layer 14 such as concrete or asphalt may be disposed on the third soil layer 13. Of course, the first soil layer 11 to the third soil layer 13 may be omitted or further added depending on the depth or position of the buried pipe 10. For example, pipe protection sand or the like may be applied to the first soil layer 11 to the third soil layer 13.

The first layer 110 is disposed in parallel with the pipe at a position spaced apart from the pipe buried in the ground in the direction of the ground surface. Underground piping is classified into metallic piping and non-metallic piping. Metal piping can accurately determine the location of the buried piping 10 by analyzing the electromagnetic field wavelength. Detection is taking place. Here, non-metallic pipes are mainly PVC pipe (Poly Vinyl Chloride Pipe), PE pipe (Poly Ethyleme pipe), PB pipe (Polybutylene Pipe), CD pipe (corrugated Duct Pipe), concrete pipe, etc., and can be checked through a general metal detector. It is difficult. Therefore, by providing a second layer 120 made of metal material in the first layer 110 (eg, pipe tape, etc.) that is buried at the top of the existing non-metallic buried pipe 10, the non-metallic pipe can be easily used through a conventional metal detector. Track detection may become possible.

As described above, the first layer 110 is made of a pipe tape or the like. Various colors may be applied to the first layer 110 according to the type of the buried pipe 10. For example, a pipe tape for waterworks may be made of blue, a pipe tape for sewage may be made of black brown, blue or yellow, and a pipe tape for rainwater may be made of green, and consist of a standard having a width of approximately 10 to 30 cm.

The location of the first layer 110 is preferably disposed at a depth of about 10 to 50 cm from the ground surface. For example, the location of the first layer 110 can be installed at a point 30 to 40 cm above the top of the pipe (the top of the pipe protector), and after backfilling, it can be installed at the lower part of the subbase. It may be installed at a point, or at a point 10 to 20 cm below the pavement layer in the pavement section, the reinforced concrete in the section lacking toffee, just above the reinforced concrete, and at the point above the gabion when the river is down.

The second layer 120 may be simultaneously injected or extruded during the molding process of the first layer 110 to be integrally formed. In addition, the second layer 120 may be attached to the upper or lower surface of the first layer 110 in an attachment structure, or may be provided by a separate coating process.

The second layer 120 may have a divided pattern having a shape of a line or point of a metal material, or a shape of a mixture of lines and points. The divided pattern may be not only a dotted line in which a line is divided, but also a pattern according to a change in the thickness or area of the line. For example, as shown in FIG. 3, a thin dotted line, a thick dotted line, a large dotted line, a thin solid line, a plurality of parallel lines arranged side by side, a thick solid line, etc., or a combination thereof may be used. The division pattern may provide data such as type, usage, depth, diameter, material, and burial schedule from a metal detector through a combination of line thickness, dotted line spacing, and metal material. The wavelength of the electromagnetic field may vary according to the shape or type of the divided pattern, and the data is standardized so that the user can receive data on the buried pipe 10 from the metal detector. For example, when the second layer 120 is disposed along the buried pipe 10 with a length of 10 cm every 20 cm with a thick solid line (width 4 mm) and the metal detector detects this, the detection interval of the metal, the undetected interval, and the detected wavelength By combining the sizes of, it can be detected as a standardized set pipe (for example, a water supply pipe, etc.).

In addition, the second layer 120 includes an identification pattern arranged to correspond to the set position of the buried pipe 10. Of course, the identification pattern may be separately provided on the first layer 110 separately from the second layer 120.

The identification pattern may be disposed, for example, at a branch point of the buried pipe 10, a joint region in which the pipe and the pipe are connected, an overlap region where the pipe and other pipes cross each other or overlap in the vertical direction. Unlike the division pattern providing attribute data related to the pipe, the identification pattern may be arranged in a joint area where there is a risk of leakage of the pipe or an overlapping area that may be confused with other pipes during construction to provide position data of the pipe. The identification pattern may be distinguished from the electromagnetic field wavelength provided by the divided pattern by partially differentiating the thickness or cross-sectional area of the second layer 120 of the metal material. Of course, the identification pattern and the division pattern may belong to one category as standardization is performed together.

In addition, the second layer 120 includes a third layer 130 provided at a set interval or a set position. Like the second layer 120, the third layer 130 can be detected with a metal detector.

The third layer 130 includes radio frequency identification (RFID), near field communication (NFC), magnetic secure transmission (MST), or near field magnetic induction (NFMI). It can be selectively applied using a wireless communication tag such as, etc., and the type, purpose, and purpose of the pipe through the wireless communication tag, just as the property or location data of the pipe is provided through the division pattern or identification pattern of the second layer 120. Data such as depth, diameter, material, and burial schedule can be provided in the form of tags.

The third layer 130 is preferably intermittently disposed, unlike the second layer 120 is disposed side by side and continuously above the buried pipe 10, and the third layer 130 is disposed in a specific unit area or distance. Accordingly, it may be disposed in a region such as a start or end point of the buried pipe 10 or a point where the pipe and the pipe overlap or are extremely adjacent to each other.

For example, the second layer 120 is arranged continuously or at equal intervals on the first layer 110, and the unit area of the first layer 110, the second layer 120, or the buried pipe 10 (for example, Since the third layer 130 is disposed every 10m), information of the buried pipe 10 can be checked through the second layer 120, and only information of the buried pipe 10 through the third layer 130 In addition, information on the type, distance, and depth of adjacent pipes can be checked. In addition, since the third layer 130 is disposed to correspond to a specific area (eg, a branch point or a joint area of a pipe), the location of a leak can be more easily detected, and accordingly, maintenance work is facilitated.

Although shown and described above by specific embodiments to illustrate the technical idea of the present invention, the present invention is not limited to the same configuration and operation as the specific embodiment as described above, and various modifications do not depart from the scope of the present invention. Can be carried out within. Accordingly, such modifications should also be considered to be within the scope of the present invention, and the scope of the present invention should be determined by the claims to be described later.

100: pipe detection means
110: first layer
120: second layer
121: division pattern
122: identification pattern
130: 3rd layer
10: piping

Claims (10)

A first layer disposed to be spaced apart from the pipe buried in the ground in the direction of the ground, and disposed in a depth range of 10 to 50 cm from the ground;
A second layer of metal material provided on the first layer and detected by a metal detector; And
A third layer provided at a set interval or a set position on the first layer; Including,
The second layer is arranged to correspond to a joint area in which a pipe buried on the first layer and another pipe are connected to each other, or an overlapping area that crosses or overlaps in a vertical direction, and provides position data of the pipes by varying the thickness or cross-sectional area. An identification pattern and a divided pattern spaced at a set interval along the longitudinal direction of the first layer or pipe,
The divided pattern includes at least one data of the type, use, depth, diameter, material, and burial schedule of the pipe, and the set interval or width is formed differently according to the data of the divided pattern,
The third layer is arranged in a specific unit area or at the start or end point of the buried pipe or at a point where the pipes overlap or are extremely adjacent to each other, and at least one of the type, purpose, depth, diameter, material, and burial schedule of the pipe. Pipe detection means having a wireless communication tag containing data. The method according to claim 1,
The second layer,
Pipe detection means attached to the first layer or integrally formed with the first layer. delete delete delete The method according to claim 1,
The identification pattern,
A pipe detection means arranged to correspond to a branch point of the pipe, a joint region in which the pipe and the pipe are connected, or an overlap region where the pipe and other pipes intersect. The method according to claim 1,
The identification pattern,
A pipe detection means in which the thickness or cross-sectional area of the second layer is different from that of a branch point of the pipe, a joint region in which the pipe and the pipe are connected, or an overlapping region where the pipe and other pipes intersect. delete The method according to claim 1,
The wireless communication tag,
Pipe detection means including at least one of RFID, NFC, MST, or NFMI. delete

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