KR101217847B1 - Insulating pipe for protecting underground transmission line - Google Patents

Abstract

PURPOSE: An insulating tube for protecting ground transmission lines is provided to facilitate combination and separation by interposing a buffer spacer between dual ducts to reduce impacts due to an external pressure. CONSTITUTION: An inner duct(10) includes a ground wire through hole(11). An outer duct(20) surrounds the inner duct. A buffer spacer(60) is formed between the outer duct and the inner duct. The outer duct is fixed by bonding or ultrasonic melting. The buffer spacer is made of rubber or silicon materials.

Description

Insulation pipe for underground transmission line protection {INSULATING PIPE FOR PROTECTING UNDERGROUND TRANSMISSION LINE}

The present invention relates to an insulated tube for protecting an underground power line, and in particular, even if an external pressure is applied to an underground power line buried in the ground, it is not damaged, and it can be easily combined and separated to provide an insulation tube for protecting an underground power line. It is about.

In general, in order to supply electricity to residential or industrial complexes, underground pipes are embedded and wires are wired inside them, which minimizes the exposure of underground transmission lines and prevents damage to underground cables from external interference. In recent years, the above-mentioned transmission lines are generally buried in the ground because they do not affect the surrounding environment.

In the case of the pipe buried in the above-described underground and the underground wire is accommodated therein, after a certain period of time, the outer surface may be corroded by rain or sewage or may be damaged by various external factors. In addition, when the pipeline is damaged in this way, the maintenance work and replacement work are carried out through excavation work to expose the buried pipe to the outside for maintenance and repair.

The above-mentioned excavation work can be quickly and easily taken out of the underground buried pipe by using a conventional fork-lane, the mediation of the fork-rain bucket in the situation that the driver of the fork-lane does not know the exact position of the pipe If you hit the outer surface of the pipe housing the underground wires during the excavation, the pipes may be cracked or damaged by the impact, and seriously damage the underground wires contained in the pipes as well as interrupt the electricity supply. There is a very serious problem coming.

Moreover, since it is installed in such a way as to extend a single pipeline of a certain length, it is difficult to separate the pipeline from the underground wire and to replace it with a new pipeline during maintenance.

The prior art is disclosed in "Insulation Tube for Underground Power Line Protection" in Patent Application No. 10-2011-0013096 (2011.02.15.).

In the prior art, the shock absorbing device is installed on the outer surface of the wire protector, and when an external force is applied, the air is absorbed between the outer surface of the wire protector and the shock absorbing device, thereby preventing the wire protector from being damaged by external force.

However, the configuration according to the prior art is inconvenient problem to continuously inject air, it is difficult to perform the original function of the shock absorber because it leaks even if a portion of the shock absorber is broken.

In addition, since the first connector and the second connector are coupled to a plurality of hook structures, the coupling is advantageous, but there is a problem in that the separation is difficult during maintenance.

In order to solve the above problems, an object of the present invention is to implement a pipeline for protecting the underground wire in a double section for the underground transmission line protection implemented to prevent the damage of the underground wire due to external pressure, impact, etc. To provide an association.

Another object of the present invention is to implement a pipeline for protecting the underground wires in a double, and the underground transmission line protection section is implemented to be spaced apart between the inner pipeline and the outer pipeline and to absorb the impact by the external pressure by interposing a plurality of buffer spacers. To provide an association.

Still another object of the present invention is to apply a plurality of insulated pipes to underground wires, the ground transmission line protection section is implemented to be advantageous to the maintenance by enabling a secure coupling and easy separation by coupling and separating each end in a way to thread the end To provide an association.

In order to solve the above-mentioned object, the present invention is an insulation tube for underground wire protection,

An inner conduit having a circular cross section of a predetermined length having an underground wire through hole through which the underground wire passes;

A pair of outer conduits installed in such a manner as to surround the inner conduits, the cross sections being circular after the joining and the inner conduits disposed in the center;

A plurality of semicircular buffer spacers interposed to be spaced apart from each other at a predetermined interval between the outer conduit and the inner conduit; And

A first fastening body and a second fastening body which are respectively rotatably installed by bearings at both ends of the combined inner and outer pipe lines;

The pair of outer conduits are fixed by bonding or ultrasonic welding, and the buffer spacer is formed by a rubber or silicone material,

The inner conduit,

A spacer seating groove formed on the outer circumferential surface at regular intervals along the periphery; And

It is formed to have a diameter smaller than the diameter of the inner conduit at both ends of the outer peripheral surface includes a bearing receiving jaw for accommodating the bearing,

The outer conduit,

Spacer support grooves respectively formed at corresponding positions to seat and support the buffer spacer on an inner circumferential surface thereof; And

A first and second fastening support grooves formed at both ends of the inner circumferential surface and intermittently interposed to prevent separation after the first and second fastening bodies are installed;

The first fastener is,

A cylindrical body having a knurled portion formed on an outer circumferential surface thereof;

A circular opening formed at one side of the body to receive a portion of the second fastening body;

An inner shaft formed in the opening to have a smaller diameter than the opening and having an underground wire support for receiving an underground wire at its center;

An extension shaft extending from the other side of the body and formed to have a diameter smaller than that of the body; And

A guide rib formed at the end of the extension shaft to have a diameter larger than that of the extension shaft and seated in the first fastening support groove of the outer conduit when assembled;

The second fastener is,

A cylindrical body having a knurled portion formed on an outer circumferential surface thereof;

An opening insertion shaft formed at one side of the body and having an electric wire receiving hole formed therethrough in a center inserted into the opening of the first fastening body;

An extension shaft extending from the other side of the body and formed to have a diameter smaller than that of the body; And

A guide rib formed at the end of the extension shaft to have a diameter larger than that of the extension shaft and seated in the second fastening support groove of the outer conduit when assembled;

The male thread formed in the opening of the first fastening body is coupled to the male thread formed on the outer circumferential surface of the opening insertion shaft of the second fastening body in a screwed manner so that one protective insulating tube and another protective insulating tube are provided. Characterized in that they are interconnected.

Insulation tube for underground transmission line protection according to the present invention can mitigate the impact of the external pressure by interposing the buffer spacer between the double pipe, it is easy to combine and disconnect because it is fixed in a way to insert the insulating pipe, thereby maintaining There is an effect that the repair is advantageous.

1 is a perspective view of an insulated tube for protecting the underground power transmission line according to an embodiment of the present invention;
Figure 2 is an exploded perspective view of the insulating tube for protecting the underground transmission line of Figure 1 according to the present invention;
3 is a cross-sectional view showing a combined state of the insulated tube for protecting the underground power transmission line of FIG. 1 according to the present invention; And
Figure 4 is a sectional view showing the main part of the underground transmission line protection insulated tube of Figure 1 according to the present invention interconnected.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention, and may be changed according to the intentions or customs of the user, the operator, and the like. Therefore, the definition should be based on the contents throughout this specification.

In describing the present invention, the same reference numerals are given to components of other protective insulating tubes having the same configuration and function. For example, the bearing 50, the damping spacer 60, etc. may use the same reference numerals even if they are applied to different insulated tubes. In addition, it should be understood that other codes use the same codes when performing the same functions within a range understood by those skilled in the art.

1 is a perspective view of an insulation tube 1 for underground transmission line protection according to an embodiment of the present invention.

Referring to FIG. 1, the protective insulating tube 1 according to the present invention includes an outer conduit 20 having a predetermined length exposed to the outside, and a first fastening body 30 installed at both ends of the outer conduit 20. It includes two fasteners 40. In addition, each fastener (30, 40) is implemented to enable the self-rotation of the axis X to the rotation axis in the outer conduit (20). In addition, although not shown, the inner conduit 20 is provided with an inner conduit (10 in FIG. 2) at a predetermined distance from the outer conduit 20, and the inner conduit 10 has an underground wire (L in FIG. 3). Can be accommodated to penetrate.

On the other hand, the above-described protective insulated tube 10 is a single unit is connected in such a way that a plurality of such protective insulated tube 1 is extended to each other (shown in Figure 4). Accordingly, the first fastening body 30 of one protective insulating tube 1 and the second fastening body 40 of the other protective insulating tube 1 are configured in such a manner as to closely couple each other. Preferably, in the present invention, since the first fastening body 30 and the second fastening body 40 are fixed in a screwed manner, the first fastening body 30 and the second fastening body 40 can be easily coupled and separated, thereby contributing to improved convenience of maintenance.

Hereinafter, the configuration of the protective insulating tube 1 will be described in detail.

2 is an exploded perspective view of the underground power line protection insulated tube 1 of FIG. 1 according to the present invention, and FIG. 3 is a cross-sectional view showing a combined state of the underground power line protection insulated tube 1 of FIG. 1 according to the present invention. .

Referring to FIGS. 2 and 3, the protective insulating tube 1 includes an inner conduit 10 having a predetermined length including an underground wire through hole 11 and an outer conduit disposed in such a manner as to surround the inner conduit 10. 20), a buffer spacer 60, a plurality of which is disposed so as to have a predetermined distance between the outer conduit 20 and the inner conduit 10, and the outer conduit 20 is coupled to the inner conduit 10 at both ends The first fastening body 30 and the second fastening body 40 are installed to be rotatable. Therefore, as shown in FIG. 4, the first fastening body 30 of one protective insulating tube 1 and the second fastening body 40 of another protective insulating tube 2 are closely coupled. Can be configured in a manner.

The inner conduit 10 has spacer seating grooves 12 formed along the periphery of the outer peripheral surface at regular intervals. The spacer seating groove 12 is formed so that the buffer spacer of the buffer material, such as rubber, silicon can be seated. In addition, both ends of the inner conduit 10 to have a diameter smaller than the diameter of the inner conduit 10 for interposing the bearing 50 so that the first and second fastening bodies 30 and 40 to be described later can rotate by themselves. Bearing receiving jaw 13 is formed. Accordingly, the bearing 50 is preferably installed in a manner interposed between the first and second fastening bodies 30 and 40 and the inner conduit 10.

As shown in the figure, the outer conduit 20 may be installed in a manner that surrounds the inner conduit 10 when the two constitutions are assembled. Therefore, when the outer conduit 20 is coupled to each other, it is possible to combine in a known manner, such as bonding, ultrasonic fusion.

Spacer support grooves 23 are formed in the inner circumferential surface 21 of the outer conduit 20 at regular intervals, and the spacer support grooves 23 are buffer spacers seated in the spacer seating grooves 12 formed in the inner conduit 10. By supporting the outer side of the 60, when the outer conduit 20 is fixed to the inner conduit 10, the flow of the buffer spacer 60 interposed between the outer conduit 20 and the inner conduit 10 can be prevented. have.

Also, at one end of the inner circumferential surface 21 of the outer conduit 20, a first fastening support groove 22 is formed along the periphery, and the second fastening support groove 24 is formed along the periphery at the other end of the inner circumferential surface 21. Is formed. Therefore, the guide ribs 36 and 46 which protrude along the periphery of the extension shafts 35 and 45 respectively formed at the ends of the first fastening body 30 and the second fastening body 40 to be described later are seated. It can be fixed.

The first fastening body 30 has a cylindrical body 31, a circular hollow opening 34 formed at a predetermined depth at one end of the body 31, and a diameter smaller than the opening 34 and having an underground wire in the center. An inner shaft 32 including an underground wire support 33 penetrated to support L is included. A female thread is formed on the inner circumferential surface of the opening 34 described above, and may be fixed in a manner of being screwed with a male thread formed on the outer circumferential surface of the opening insertion shaft 42 of the second fastening body 40 to be described later.

In addition, an extension shaft 35 is formed at the other end of the body 31 to have a diameter smaller than the body 31 at a predetermined length, and at the end of the extension shaft 35, guide ribs have a diameter larger than that of the extension shaft. 36 is formed along the periphery. Accordingly, the guide rib 36 is seated in the first fastening support groove 22 formed in the inner circumferential surface 21 of the outer conduit 20 when the extension shaft 35 is inserted into the outer conduit 20. It can be fixed in such a way that departure can be prevented.

The second fastening body 40 has a cylindrical body 41 and an opening insertion shaft which protrudes from one end of the body 41 to a predetermined length and is inserted into the opening 34 of the first fastening body 30 described above. An extension shaft 45 is formed to have a diameter smaller than the body 41 at a predetermined length at the other end of the body 41, and an end of the extension shaft 45 is larger than the diameter of the extension shaft 45. Guide ribs 46 protrude along the periphery so as to have a diameter. Accordingly, the guide rib 46 is seated in the second fastening support groove 24 formed in the inner circumferential surface 21 of the outer conduit 20 when the extension shaft 45 is inserted into the outer conduit 20. It can be fixed in such a way that departure can be prevented.

On the other hand, the through hole 43 for penetrating the underground wire L is formed in the opening insertion shaft 42 and the body 41, and the opening insertion shaft 42 extends with the through hole 43. A wire receiving opening 44 having a large diameter is formed to protect the underground wire L and to receive the inner shaft 32 of the first support 30.

In addition, the knurled portion is formed in the bodies 31 and 41 of the first fastening body 30 and the second fastening body 40 through a knurling process along the outer circumferential surface thereof, so as to improve rotational operability by the user.

Referring to Figure 3, the mounting relationship of the above-described protective insulated tube will be described.

First, the buffer spacers 60 are respectively installed in the spacer seating grooves 12 formed in the outer circumferential surface of the inner conduit 10 through which the underground wire L passes. In this figure, four places are installed, but more may be installed depending on the length of the inner conduit 10 and the installation interval of the buffer spacer 60. Thereafter, the bearings 50 are installed on the bearing accommodation jaws 13 and 14 formed at both ends of the inner conduit 10, and then the first fastening portion 30 and the second fastening portion 40 are provided at both ends thereof. . At this time, the first fastening portion 30 and the second fastening portion 40 are respectively installed in such a way that the bearing 50 is interposed between the inner conduit 10 to enable self-rotation.

Thereafter, a pair of outer conduits 20 are installed on the upper part in such a manner as to surround the inner conduits 10 described above. At this time, the spacer support groove 23 formed on the inner circumferential surface 21 of the outer conduit 20 is the inner conduit 10 in such a way that the ends of the buffer spacer 60 installed on the outer circumferential surface of the inner conduit 10 are seated, respectively. And may be fixed between the outer conduit 20. At the same time, the first and second fastening support grooves 22 and 24 formed on the inner circumferential surface 21 of the outer conduit 20 respectively guide the guide ribs 36 and 46 of the first and second fastening bodies 30 and 40, respectively. To accommodate, the first and second fasteners 30 and 40 are implemented to allow their own rotation without leaving the outer conduit 20.

Preferably, the first and second fasteners 30 and 40 and the outer conduit 20 may be implemented such that their outer surfaces coincide after they are completely assembled. More preferably, the pair of outer conduits 20 may be assembled by bonding, ultrasonic welding, or the like, but is not limited thereto, and may be combined with a known detachable snap-fit structure.

FIG. 4 is a cross-sectional view illustrating main parts of the underground power line protection insulating tubes of FIG. 1 connected to each other according to the present invention.

Referring to FIG. 4, a structure for connecting another protective insulating tube 2 to one protective insulating tube 1, and a second fastening body 30 of the first protective insulating tube 1 may be connected to the second fastening body 30. The second fastening body 40 of the protective insulating tube 2 is fixed in a manner of screwing. In more detail, the inner shaft 32 formed in the opening 34 of the first fastening body 30 is inserted into the wire receiving port 44 of the opening insertion shaft 42 of the second fastening body 30. The fastener 30 and the second fastener 40 are rotated in mutually opposite directions. Accordingly, the female thread formed on the inner circumferential surface of the opening 34 of the first fastening body 30 and the male thread formed on the outer circumferential surface of the opening insertion shaft 42 of the second fastening body 40 are advanced while being screwed into contact with each other. Is fastened. At this time, the underground wire (L1) of the first protective insulating tube 1 and the underground wire (L2) of the second protective insulating tube (2) is a screw coupling of the first fastening body 30 and the second fastening body (40). It will be in a state of being electrically conductive naturally by the contact by.

Apparently, there are many different ways to modify these embodiments while remaining within the scope of the claims. In other words, there may be many other ways in which the invention may be practiced without departing from the scope of the following claims.

1, 2: Protective insulation tube 10: Internal line
11: underground wire through hole 12: spacer seating groove
13, 14: bearing jaw 20: outer pipe
21: Inner circumference 22: First fastening support groove
23: spacer support groove 24: second fastening support groove
30: First fastener 31: (First fastener) Body
32: inner shaft 33: underground wire support
34: opening 35: (first fastening) extension shaft
36: (first fastener) guidedive 40: second fastener
41: (second fastening body) body 42: opening insertion shaft
43: through hole 44: wire receiving port
45: (second fastening) extension shaft 46: (second fastening) guided
50: bearing 60: buffer spacer

Claims (1)

In the insulated pipe (1) for underground electric wire protection,
An inner conduit 10 having a circular cross section of a predetermined length having an underground wire through hole 11 through which the underground wire L passes;
A pair of outer conduits 20 installed in such a manner as to surround the inner conduits 10 and having a circular cross section after the coupling and having the inner conduits 10 disposed at the center;
A plurality of semicircular buffer spacers 60 interposed to be spaced apart from each other at a predetermined interval between the outer conduit 20 and the inner conduit 10; And
A first fastening body 30 and a second fastening body 40 installed at both ends of the combined inner pipe line 10 and the outer pipe line 20 so as to be rotatable by bearings 50, respectively.
The pair of outer conduits 20 is fixed by bonding or ultrasonic welding, the buffer spacer 60 is formed of a rubber or silicon material,

The inner conduit 10,
A plurality of spacer seating grooves 12 formed on the outer circumferential surface at regular intervals along the periphery; And
Both ends of the outer circumferential surface are formed to have a diameter smaller than the diameter of the inner conduit 10, and includes bearing receiving jaws (13, 14) for accommodating the bearing (50),

The outer conduit 20 is,
A plurality of spacer support grooves 23 formed along the periphery of each of the corresponding positions to seat and support the buffer spacer 60 on the inner circumferential surface 21; And
It is formed on both ends of the inner circumferential surface 21 and includes the first and second fastening support grooves 22 and 24 to clamp down to prevent separation after the first and second fastening bodies 30 and 40 are installed.

The first fastening body 30,
A cylindrical body 31 formed with a knurled portion on the outer circumferential surface to facilitate manipulation;
A circular opening 34 formed at one side of the cylindrical body 31 to receive a portion of the second fastening body 40;
An inner shaft (32) formed in the opening (34) to have a smaller diameter than the opening (34) and having an underground wire support (33) for receiving underground wire (L) in the center;
An extension shaft (35) extending on the other side of the cylindrical body (31) and formed to have a diameter smaller than that of the cylindrical body (31); And
The guide rib 36 is formed to have a diameter larger than the extension shaft 35 at the end of the extension shaft 35 and is seated in the first fastening support groove 22 of the outer conduit 20 during assembly. Including,

The second fastening body 40,
A cylindrical body 41 formed with a knurled portion on the outer circumferential surface to facilitate manipulation;
An opening insertion shaft 42 formed at one side of the cylindrical body 41 and inserted into the opening 34 of the first fastening body 30 and having a wire receiving hole 44 formed therethrough;
An extension shaft 45 extending to the other side of the cylindrical body 41 and formed to have a diameter smaller than that of the cylindrical body 41; And
The guide rib 46 is formed to have a diameter larger than the extension shaft 45 at the end of the extension shaft 45, and is seated in the second fastening support groove 24 of the outer conduit 20. including,

The male thread formed in the opening 34 of the first fastening body 30 is coupled to the male thread formed on the outer circumferential surface of the opening insertion shaft 42 of the second fastening body 40 in a screwed manner so as to protect one thread. Insulated tube 1 and another protective insulated tube 2 are interconnected,
Insulated tube for underground transmission line protection.

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