RU2684399C1 - Underground pipeline retainer with location detection device mounted within - Google Patents

Abstract

FIELD: pipelines.SUBSTANCE: present invention relates to an underground pipeline retainer with a location detection device mounted therein, wherein retainer includes housing with mounting hole in its centre, which holds and supports underground pipeline, a gap made in the lower part of the mounting hole, and a certain number of fixing projections protruding above the mounting hole inner surface in a direction parallel to the ground surface; and a location detection device which is placed in a recess provided in the housing upper part, wherein said number of locking projections is configured to be installed in the furrows between the stiffeners provided on the outer surface of the subterranean pipeline, and a number of fixing projections is provided in the form of a multi-stage structure, which allows to adjust the length of said fixing ledges depending on external diameter of stiffening ribs of the fixed pipeline.EFFECT: invention provides higher accuracy of location of underground pipeline.5 cl, 3 dwg

Description

FIELD OF THE INVENTION

The present invention generally relates to a latch of an underground pipeline in which a location detection device is mounted, and in particular, a latch with a device for detecting the location mounted therein, the latch for fixing a buried underground pipe includes an anisotropic ferrite magnet mounted therein, which is used to detect the location of an underground pipeline.

BACKGROUND OF THE INVENTION

In general, the process of laying an underground electric cable (hereinafter referred to as an “underground pipeline”) used at industrial enterprises, in homes and at various objects consists in the following: first digging the ground, laying an underground pipeline in it, then installing it at a specified interval magnetic markers and fill the underground pipeline with earth. Here, a magnetic marker is a magnetic detector that is attached to an underground pipeline and used in magnetic detection technology, in which a magnetic marker is located on the surface using an underground detector.

In this case, the position of the magnetic marker is very important. That is, the magnetic marker must be fixed so that the magnetic field generated by the buried magnetic marker is perpendicular to the surface of the earth, so that when a magnetic marker is detected by an underground detector, the location of the underground pipeline can be accurately detected.

However, since the installation of a magnetic marker in an underground pipeline depends on the mounting, it is difficult to bury the magnetic marker at the right angle to the surface of the earth. Sometimes, while burying the earth, the magnetic marker separates under the pressure of the soil. In this case, a large error occurs when measuring depth.

In addition, the completion of the final instillation takes a long time, since after laying the underground pipeline, the section must remain open until a magnetic marker is installed using a location probe.

In this regard, Korean Patent Application Publication No. 2008-0018569 discloses an “Underground Pipeline Fixation Device”.

SUMMARY OF THE INVENTION

Technical challenge

Thus, the present invention has been made in view of the above-mentioned problems that arise in known methods, and the subject of the present invention is to provide an underground pipeline latch in which a location detection device is mounted, which latch secures the underground buried pipeline and includes an anisotropic ferrite magnet mounted in it, which is used to detect the location of an underground pipeline.

Technical solution

To achieve the aforementioned goal, the present invention provides an underground pipeline retainer with a location detection device mounted therein, the retainer including: a housing with a mounting hole in its center that accommodates and supports the underground pipeline; a gap in the lower part of the mounting hole, as well as a number of locking protrusions protruding above the inner surface of the mounting hole; and a location detection device placed in a recess that is provided in the upper part of the housing.

In addition, the mounting hole may be in the form of an inverted letter U.

In addition, a number of locking protrusions can be inserted into the furrows between the stiffeners provided on the outer surface of the underground pipeline in order to fix the underground pipeline.

In addition, the location detection device can be placed in the recess, while being parallel to the surface of the earth.

In addition, a lid may be provided for the housing to close a recess in its upper part so that the location detection device is located in the receiving space by opening and closing the lid.

In addition, the location detection device may consist of an anisotropic ferrite magnet.

Benefits

An underground pipeline retainer with an integrated location detection device having the configuration described above has the following advantage: since a fixer for securing an underground pipeline buried underground includes an integrated location detection device that is used to detect the location of the underground pipeline reduce costs and shorten installation time, and it is also possible to facilitate maintenance work by combining neniya stacking corrugated pipe and install magnetic markers; usually these tasks are performed separately.

The present invention has another advantage, which is as follows: since the location detection device is mounted in the upper part of the latch housing, while being parallel to the surface of the earth, it is possible to accurately detect the location of the underground pipeline.

The present invention has another advantage, which consists in the following: since an anisotropic ferrite magnet is an integral part of the location detection device, changes in the methods of magnetization, setting the magnet strength and changing the shape of the magnet are simplified in the manufacture, thereby increasing productivity.

Brief Description of the Figures

In FIG. 1, in accordance with the present invention, there is provided a first embodiment of an underground pipeline retainer with an integrated location detection device.

In FIG. 2, in accordance with the present invention, there is provided a second embodiment of an underground pipeline retainer with an integrated location detection device.

In FIG. 3, in accordance with the present invention, there is provided an example of installing an underground pipeline retainer with a location detection device mounted therein.

Detailed disclosure of the present invention

Below, examples of embodiments will be discussed in more detail with reference to the accompanying drawings. Wherever possible, the same position will be used to refer to the same or similar elements or parts in the figures. In the following description of the present invention, detailed descriptions of known functions and the components that are included therein will be omitted when this may obscure the subject matter of the invention.

In accordance with an embodiment of the present invention, an underground pipeline retainer with an integrated location detection device will be described in detail with reference to the accompanying drawings.

In FIG. 1, in accordance with the present invention, there is provided a first embodiment of an underground pipeline retainer with an integrated location detection device.

As can be seen from FIG. 1, an underground pipeline latch 110 with an integrated location detection device in accordance with the present invention generally includes a housing 110 and a location detection device 120. For convenience of presentation, it has been shown and described that an underground pipeline latch with an integrated location detection device is used on a corrugated pipe, but not limited to this; the clamp can be used with different underground pipelines.

In the center of the housing 110, a mounting hole 111 is provided that accommodates and supports the underground pipeline. Preferably, the inner diameter of the mounting hole 111 is greater than or equal to the outer diameter of the underground pipeline.

A lumen 112 is provided at the bottom of the mounting hole 111. Thus, the mounting hole 111 has the shape of an inverted U. Therefore, the housing 110 may be top-down mounted with the gap 112 on the underground pipeline.

In addition, a number of locking protrusions 113 are provided on the inner surface of the mounting hole 111, which protrude in a direction parallel to the ground. More precisely, the inner surface formed by a number of fixing protrusions 113 is a surface that comes into contact with the corrugated pipe in a direction perpendicular to the surface of the earth, and a number of fixing protrusions 113 are provided from opposite sides of the inner surface.

In addition, a number of locking protrusions 113 can be inserted into the grooves between the stiffeners provided on the outer surface of the underground pipeline in order to secure the underground pipeline. Therefore, it is preferable that a number of locking protrusions 113 have a size less than or equal to the size of the grooves between the stiffening ribs of the underground pipeline.

In addition (not shown in the drawings), that a certain number of locking protrusions 113 can be provided in the form of a multi-stage structure that allows you to adjust their length. For example, if the outer diameter of the underground pipeline that will be placed in the mounting hole 111 is too small to come into contact with a certain number of fixing protrusions, the length of a certain number of fixing protrusions can be increased so that they fit into the corresponding grooves between the stiffeners of the underground pipeline, whereby it is possible to fix the underground pipeline, choosing the length in accordance with the size of the outer diameter of the corrugated pipe.

A recess 114 is provided in the upper part of the housing 110 into which the location detection device 120 is placed. The size of the recess 114 is provided sufficient to accommodate the location detection device 120 therein.

The location detection device 120 is mounted in the upper part of the housing 110, while it is parallel to the surface of the earth. The location detection device 120 consists of an anisotropic ferrite magnet. Here, ferrite material is a magnetic ceramic, which includes iron oxide and which is widely used for permanent magnets for general purposes.

In addition, it is preferable that the location detection device 120 be a ferrite magnet with a magnetic induction of 1800 Gausses or higher, which does not interfere with the detection of magnetic field lines even at great depths (2 m or more). In addition, the shape of the anisotropic ferrite magnet is shown as a tetragonal shape, but it may be in the form of a cylinder or disk, and this is not a limitation.

In FIG. 2, in accordance with the present invention, there is provided a second embodiment of an underground pipeline retainer with an integrated location detection device.

As can be seen from FIG. 2, in accordance with the present invention, an underground pipeline retainer housing with a location detection device mounted therein, a location detection device may be mounted in the housing during manufacturing of the housing, or a location detection device may be mounted in the housing after manufacturing of the housing.

More specifically, as shown in FIG. 1, the method by which the location detection device is mounted in the housing during the manufacturing process of the housing is as follows: after first pouring the metal into the mold under pressure to obtain a housing with a recess 114 open at the top, the location detection device 120 is placed in the recess 114, and then the housing can be manufactured as a whole by a second injection of metal into a mold in order to close the upper part of the recess 114.

In addition, as shown in FIG. 2, the method of mounting the location detection device in the housing after manufacturing the housing is as follows: after manufacturing the housing 110 with a separate cover 115 provided to cover the recess 114, the location detection device 120 may be placed in the recess 114 by opening and closing the lid 115.

In FIG. 3, in accordance with the present invention, there is provided an example of installing an underground pipeline retainer with a location detection device mounted therein.

As can be seen from FIG. 3a, in the normal installation process of the retainer 10 of the underground pipeline, sand is poured onto the bottom of the excavation site to flatten the power line into the ground, and then the underground pipeline is laid so that it is parallel to the power line at predetermined intervals.

Then, the latch 10 of the underground pipeline is brought into contact with the underground pipeline in the left and right directions, while the latch 10 of the underground pipeline is installed on the underground pipeline at predetermined intervals.

Then, a magnetic marker 20 without a latch 10 is attached to the upper surface of the corrugated pipe of the underground pipeline.

Then, after attaching the magnetic marker 20, the excavation site is filled up.

Moreover, as can be seen from FIG. 3b, in accordance with the present invention, in the process of installing the latch 100 of the underground pipeline with the positioning device mounted therein, sand is first placed to level the bottom of the excavation site to lay the power line in the ground, and then the underground pipeline is laid so that it was parallel to the power line at predetermined intervals.

Then, the latch 100 of the underground pipeline with the built-in location device is brought into contact with the underground pipeline in the left and right directions, while the latch 100 of the underground pipeline with the built-in location device is mounted on the underground pipeline at predetermined intervals, after which the excavation site fall asleep. Here, to further reduce the cost of installation, it is preferable that, in accordance with the present invention, a conventional underground pipeline latch 10 is used in combination with an underground pipeline latch 100 with an integrated location detection device.

Here, the present invention is configured so that during installation of the latch 100 of the underground pipeline with the location detection device mounted therein, a number of locking protrusions protruding above the inner surface of the mounting hole are inserted into the grooves between the stiffeners provided on the outer surface of the underground pipeline so that to fix the underground pipeline, whereby the movement of the underground pipeline is strictly limited in combination with the fixative 100 rum underground pipeline with integrated therein device detection location.

In addition, since the positioning device is mounted at the top of the latch, there is no need to attach a magnetic marker, which is usually required.

As described above, in accordance with the present invention, an underground pipeline fixer with an integrated location detection device has the following advantage: since the fixer for securing an underground pipeline buried underground includes an integrated location detection device used to detect an underground pipeline location , you can reduce the cost and reduce installation time, and it is also possible to facilitate maintenance work by combining the laying of corrugated pipes and the installation of magnetic markers; usually these tasks are performed separately.

Although the preferred embodiment of the present invention has been described for illustration, it will be apparent to those skilled in the art that various modifications, additions and substitutions are possible without departing from the spirit and scope of the invention as described in the appended claims.

Claims (9)

1. The clamp of the underground pipeline with a built-in device for detecting the location, and the clamp includes: a housing with a mounting hole in its center, which accommodates and supports an underground pipeline; a gap in the lower part of the mounting hole and a number of locking protrusions protruding above the inner surface of the mounting hole; and a location detecting device placed in a recess that is provided in the upper part of the housing, moreover, the specified number of locking protrusions made with the possibility of installation in the furrows between the ribs provided on the outer surface of the underground pipeline, moreover, a certain number of fixing protrusions is provided in the form of a multi-stage structure, which allows adjusting the length of said fixing protrusions depending on the outer diameter of the stiffening ribs of the fixed pipeline. 2. The retainer according to claim 1, wherein the mounting hole is on an inverted U-shape. 3. The latch according to claim 1, in which the location detection device is placed in the recess, while being parallel to the surface of the earth. 4. The latch according to claim 1, wherein a cover is provided on the housing to cover a recess in its upper part so that the location detection device is placed in the recess by opening and closing the lid. 5. The retainer according to claim 1, in which the location detection device consists of an anisotropic ferrite magnet.

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