KR102249365B1 - Cable connection system for distribution line - Google Patents

Abstract

The present invention relates to a cable connection system for a distribution line to provide unified configuration on an angular pole at a point where an installation direction of the distribution cable changes and a full-steel module for switching installation directions to more easily and efficiently carry out changing work of the installation direction of distribution cables, so that the configuration and work for changing the installation direction of the distribution cable in a temporary type of distribution line are simplified and the efficiency is increased. The cable connection system for a distribution line according to the present invention includes a bracket module for switching an installation direction, a first suspension insulator, a second suspension insulator, and a jumper wire, wherein the bracket module for switching an installation direction is installed on an angular pole at a position where the installation direction of the distribution cable is different among the electric poles of the distribution line, and includes an existing direction-receiving bracket, an insulating block, a direction switching bracket, and a coupling unit.

Description

Cable connection system for distribution line

The present invention provides an unified configuration in the angle circumference of the point where the temporary installation direction of a distribution cable is changed, and a complete structure module for changing the temporary installation direction that enables the change of the distribution cable installation direction to proceed more easily and efficiently. The present invention relates to a cable connection system of a distribution line that simplifies the configuration and operation for changing the temporary direction of distribution cables in the distribution line of the distribution line, and increases the efficiency of the distribution line.

In general, distribution lines are electric poles installed at regular intervals on the ground, overhead distribution lines that install distribution cables through wancheol and insulators installed on these poles, and distribution cables are inserted into underground buried pipes buried in the ground. It is divided into buried underground distribution lines.

In addition, while underground distribution lines have the effect of improving the space utilization on the ground without damaging the aesthetics of the city, it is difficult in terms of maintenance and in the case of an abnormality in the distribution line, it is not possible to quickly find and restore the corresponding point. There is this.

In comparison, overhead distribution lines cause problems such as urban aesthetics, interference between distribution cables and street trees, poor contact due to nesting of birds such as magpies, short circuits, and power outages. It has the advantage of being cheap and easy to install.

When explaining the configuration of the overhead distribution line, the overhead distribution line includes electric poles installed at regular intervals, wancheol fixed to the electric pole, distribution cable supported in an insulated state through suspension insulators on the wancheol, and the distribution cable. It includes a jumper wire to connect and a line post insulator for supporting the jumper wire in an insulated state from wancheol.

And, among the poles of overhead distribution lines, the poles installed at the location where the temporary direction of the distribution cables is different are called angle poles. For example, an angle pole is installed at a location where the direction of the distribution cable installation of an overhead distribution line changes to more than 30°.

In addition, as the existing method of changing the temporary direction of distribution cables through angle poles, a plurality of wancheols are installed up and down on the angle poles, and distribution cables arranged up and down by wancheol are interconnected by jumper wires.

However, as wancheol is installed in two or more stages in the angle pole, the installation cost increases due to the increase in the quantity of wancheol, the troublesome work of installing two or more wancheol separately, and the increase in installation time. It was.

Therefore, a technology that can more efficiently change the temporary direction of distribution cables around angle poles in temporary distribution lines was required.

Korean Patent Application Publication No. 10-2020-0052579 (published on May 15, 2020), “Insulation support device for distribution lines” Korean Utility Model No. 20-2014-0003072 (released on May 27, 2014), “Distribution line connection device” Korean Patent Registration No. 10-1109729 (announced on Feb. 24, 2012), “Rack for electric pole wire treatment”

An embodiment of the present invention provides a wan-cheol module for transitioning the temporary direction of a distribution cable, which makes it easier and more efficient to change the direction of the distribution cable through a unified configuration at the angle circumference at the point where the temporary direction of the distribution cable is changed. In addition, it provides a cable connection system for distribution lines that simplifies the configuration and work for changing the temporary direction of distribution cables in a temporary distribution line and increases its efficiency.

The cable connection system of a distribution line according to an embodiment of the present invention is fixed to an angle column 11a at a position in which the temporary direction of the distribution cable 12 is changed among the poles 11 of the distribution line 10, and the lengthwise direction Insulation coupled to the lower part of the first coupling part 111 of the existing directional receiving wancheol 110 in which the first coupling part 111 protrudes in the central part and the existing directional receiving wancheol 110 Block 120 and a second coupling portion 131 coupled to the lower portion of the insulating block 120 is formed in the central portion based on the length direction, and through the second coupling portion 131, the conventional direction receiving wrought iron Combined with (110), the direction switching block 132 on both sides in the horizontal direction based on the second coupling part 131 is rotated around the vertical axis and selectively fixed at any one of predetermined rotation angles A temporary direction change wancheol module 100 including a direction changeable wancheol 130 coupled to this possibility; A first suspension insulator 200 fixed to the existing directional receiving wancheol 110 and to which one end of the distribution cable 12 of the distribution line 10 is connected; A second suspension insulator 300 fixed to the direction conversion block 132 of the direction conversion type wancheol 130 and to which one end of the distribution cable 12 of the distribution line 100 is connected; A distribution cable 12 connected to the first suspension insulator 200 and a jumper wire 400 connecting the distribution cable 12 connected to the second suspension insulator 300 may be included.

According to an embodiment of the present invention, a structure that is unified around the angle of the point where the temporary installation direction of the distribution cable is changed, and through this, a wancheol module for changing the temporary direction of the distribution cable so that the change of the installation direction of the distribution cable can proceed more easily and efficiently is provided. As provided, the construction and operation for changing the temporary direction of distribution cables in the temporary distribution line can be simplified, and the efficiency thereof can be increased.

1 is a side view illustrating a cable connection system of a distribution line according to an embodiment of the present invention
2 is a perspective view illustrating a wancheol module for changing a temporary direction in a cable connection system of a distribution line according to an embodiment of the present invention
3 is a plan cross-sectional view illustrating a fixed portion between a direction change block and a coupling unit in the wancheol module for temporary direction change according to the embodiment of FIG. 2
4 is a block diagram illustrating an electrical configuration of a wancheol module for temporary direction change in a cable connection system of a distribution line according to an embodiment of the present invention

The following detailed descriptions of the present invention are embodiments in which the present invention may be practiced and refer to the accompanying drawings, which are illustrated as examples of the embodiments. These embodiments will be described in detail sufficient for those skilled in the art to practice the present invention. It should be understood that the various embodiments of the present invention are different from each other, but need not be mutually exclusive. For example, specific shapes, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the present invention in relation to one embodiment. In addition, it should be understood that the location or arrangement of individual components in each described embodiment may be changed without departing from the spirit and scope of the present invention.

Accordingly, the detailed description to be described below is not intended to be taken in a limiting sense, and the scope of the present invention is limited only by the appended claims, along with all scopes equivalent to those claimed by the claims, if appropriately described. Like reference numerals in the drawings refer to the same or similar functions over several aspects.

Terms used in the present invention have selected general terms that are currently widely used as possible while taking functions of the present invention into consideration, but this may vary according to the intention or precedent of a technician working in the field, the emergence of new technologies, and the like. In addition, in certain cases, there are terms arbitrarily selected by the applicant, and in this case, the meaning of the terms will be described in detail in the description of the corresponding invention. Therefore, the terms used in the present invention should be defined based on the meaning of the term and the overall contents of the present invention, not a simple name of the term.

In the present invention, when a part "includes" a certain component in the whole, it means that other components may be further included rather than excluding other components unless otherwise stated. In addition, “… Wealth”, 　＂… The term “module” refers to a unit that processes at least one function or operation, which may be implemented as hardware or software, or a combination of hardware and software.

A cable connection system of a distribution line according to an embodiment of the present invention will be described with reference to FIGS. 1 to 4.

1 is a side view illustrating a cable connection system of a distribution line according to an embodiment of the present invention, and FIG. 2 is a diagram illustrating a Wanchul module for temporary direction change in a cable connection system of a distribution line according to an embodiment of the present invention. It is a perspective view, and FIG. 3 is a plan sectional view illustrating a fixed part between a direction change block and a coupling unit in the wancheol module for temporary direction change according to the embodiment of FIG. 2, and FIG. 4 is a diagram of a distribution line according to an embodiment of the present invention. It is a block diagram illustrating the electrical configuration of a wancheol module for temporary direction change in a cable connection system.

As shown, the cable connection system of a distribution line according to an embodiment of the present invention includes a wancheol module 100 for temporary direction change, a first suspension insulator 200, a second suspension insulator 300, and a jumper wire 400. ).

The wancheol module 100 for changing the temporary direction is installed in the angle pole 11a at a position where the temporary direction of the distribution cable 12 is changed among the poles 11 of the distribution line 10, and the wancheol for changing the temporary direction The module 100 is configured to include a conventional direction receiving wancheol 110, an insulating block 120, a direction conversion type wancheol 130 and a coupling unit 140.

The existing directional receiving wancheol 110 is fixed to the angle pole 11a, and the existing directional receiving wancheol 110 is formed such that the first coupling part 111 protrudes in the center portion based on the length direction.

The insulating block 120 is coupled to the lower portion of the first coupling part 111 of the conventional directional receiving wancheol 110, and this insulating block 120 is a conventional directional receiving wancheol 110 and a direction conversion type wancheol described below. (130) It functions to insulate the liver.

In the direction changeable Wancheol 130, a second coupling portion 131 coupled to the lower portion of the insulating block 120 is formed in the central portion based on the length direction, so that the second coupling portion 131 and the insulating block 120 are formed. It is combined with the wancheol 110 for receiving the existing direction. In addition, the direction conversion type wancheol 130 has a direction conversion block 132 on both sides in the horizontal direction based on the second coupling part 131, and the rotation around the vertical axis and selection at any one of predetermined rotation angles It is combined to allow for mechanical fixation.

In addition, as a coupling unit that allows rotation around the vertical axis of the direction change block 132 for the direction change type wancheol 130 and selective fixation at any one of predetermined rotation angles, the coupling unit ( 140) is provided.

And this coupling unit 140 comprises a vertical bar 141, a bolt coupling block 142, a fixing bolt 143, a bolt reverse detection sensor 144, a control unit 145 and a wireless communication module 146 Can be.

The vertical bar 141 is formed in a vertical direction from the upper surface of the direction change block 132, and the insertion hole 130a for inserting the vertical bar 141 penetrates along the vertical direction in the direction change wancheol 130 Is formed. That is, the vertical bar 141 is inserted into the insertion hole 130a of the direction change wancheol 130, at this time, the length of the vertical bar 141 is formed longer than the height of the direction change wancheol 130, and thus vertical The upper portion of the rod 141 passes through the insertion hole 130a and protrudes from the upper surface of the wancheol 130 for direction change. In this way, fixing grooves 141a are formed along the horizontal direction and at intervals of 40° along the circumferential direction at the top of the vertical bar 141 protruding from the upper surface of the wancheol 130 for direction change.

The bolt coupling block 142 is formed on the upper surface of the direction change wancheol 130, and the bolt coupling block 142 has a helical hole 142a penetrating along the horizontal direction and a fixing groove 141a of the vertical rod 141 ) Is formed on the upper surface of the direction change wancheol 130 in an arrangement state that forms a straight line with any one of the fixing grooves 141a. For reference, it should be noted that in the drawings, the spiral hole 142a is shown in the form of an ordinary hole without a thread for convenience of illustration. In addition, the bolt coupling blocks 142 are provided in four so that each bolt coupling block 142 is formed at 90° intervals along the circumferential direction at the same time along the horizontal direction.

The fixing bolts 143 are provided individually to the bolting blocks 142, and these fixing bolts 143 are screwed into the helical holes 142a of the corresponding bolting blocks 142 so that the tip of the fixing bolts 142 is attached to a vertical bar (141). ) Of the fixing grooves (141a) of the bolt coupling block (142) and inserted into the fixing groove (141a) arranged in a straight line with the spiral hole (142a).

The bolt reverse detection sensor 144 is a plurality of configurations that are individually installed to correspond to the four bolt coupling block 142 and the fixing bolt 143 on the upper surface of the direction change wancheol 130. That is, the bolt reverse detection sensor 144 is provided in four, and each bolt reverse detection sensor 144 is a bolt coupling block 142 of any one of the four bolt coupling blocks 142 and the fixing bolt 143 and It corresponds to the fixing bolt 143. If one bolt reverse detection sensor 144 is described as an example, the bolt reverse detection sensor 144 corresponds to the fixing bolt 143 corresponding thereto to be inserted into any one fixing groove 141a of the vertical bar 141. In the state of being screwed into the spiral hole 142a of the bolt coupling block 142, when the spiral hole 142a is retracted due to damage or natural loosening, it detects this and transmits the corresponding signal to the controller 145 to be described later. Functions.

In addition, in the present embodiment, the bolt reverse detection sensor 144 is an example of a configuration of an optical sensor, but the present invention is not limited thereto, and will be described below based on the present embodiment. That is, the bolt reverse detection sensor 144 is the fixing bolt 143 based on the state of being screwed to the bolt coupling block 142 so that the fixing bolt 143 is completely inserted into the fixing groove 141a of the vertical rod 141 It is installed in the direction change wancheol 130 so as to be located behind the rear end of the bolt, and this bolt reverse detection sensor 144 irradiates light in a vertical direction and detects whether the fixing bolt 143 moves backward through the reflected signal. Consists of

The control unit 145 is installed in the wancheol 130 for direction change, and this control unit 145 transmits a signal that detects that there is a reverse phenomenon of the fixed bolt 143 from the bolt reverse detection sensor 144, and the transmitted After generating an inspection request signal including identification information of the corresponding angle pole 11a based on the signal, the generated inspection request signal is transmitted to the remote integrated management server 1000 through the connected wireless communication module 146. .

The first suspension insulator 200 is fixed to the existing directional receiving wancheol 110, and one end of the distribution cable 12 of the distribution line 10 is connected.

The second suspension insulator 300 is fixed to the direction change block 132 of the direction changeable wancheol 130, and one end of the distribution cable 12 of the distribution line 100 is connected.

The jumper wire 400 connects the distribution cable 12 connected to the first suspension insulator 200 and the distribution cable 12 connected to the second suspension insulator 300.

By the above-described configuration, the wancheol module for changing the temporary direction is fixedly installed on the angle pole 11a in the distribution line 10 of the temporary method, and the wancheol module for changing the temporary direction is fixedly installed on the angle pole 11a in this way. The direction change block 132 of (100) is rotated at an appropriate angle so as to match the changed temporary direction of the distribution cable 12 through the corresponding angle column 11a, and then fixed. To further explain, since the direction change block 132 can be fixed at intervals of 40° based on the circumferential direction as well as in the horizontal direction through the coupling unit 140, the rotation and selective fixing of the direction change block 132 Based on the function, the rotation angle of the direction change block 132 is adjusted to match the changed temporary direction of the distribution cable 12, and then the second suspension insulator is attached to the direction change block 132 whose position is adjusted through rotation. (300) is fixed and installed.

And after connecting one end of the distribution cable 12 to which the temporary direction of the distribution line 10 is changed to the second suspension insulator 300, the original direction receiving wancheol 110 of the wancheol module 100 for temporary direction change One end of the distribution cable 12 of the first suspension insulator 200 fixedly installed on and one end of the distribution cable 12 of the second suspension insulator 300 fixedly installed in the direction changeable wancheol 130 through a jumper wire 400 Connect.

As can be seen from the above description, the cable connection system of the distribution line according to the embodiment of the present invention centers on the wancheol module 100 for changing the temporary direction fixedly installed on the angle pole 11a of the distribution line 10 As a result, it is possible to efficiently change the installation direction of the distribution cable 12 of the distribution line 10 through a simpler configuration and work process.

In addition, when the bonding strength of the direction change block 132 to the temporary direction change wancheol module 100 is weakened, that is, the bonding strength of the direction changeable wancheol 130 of the direction change block 132 is weakened. The fact is immediately detected and transmitted to the remote integrated management server 1000 in real time, so that a quick action can be taken through the administrator.

As described above, in the present description, specific matters such as specific components, etc., and limited embodiments and drawings have been described, but this is provided only to help a more general understanding of the present invention, and the present invention is limited to the above embodiments. No, various modifications and variations are possible from these descriptions by those of ordinary skill in the field to which the present invention belongs.

Therefore, the spirit of the present invention is limited to the described embodiments and should not be written, and all things having equivalent or equivalent modifications to the claims as well as the claims to be described later belong to the scope of the inventive concept.

10: distribution line 11: Jeonju
11a: angle note 12: distribution cable
100: Wancheol module for changing the temporary direction 110: Wancheol for receiving the existing direction
111: first coupling portion 120: insulating block
130: direction conversion type wancheol 130a: insertion hole
131: second coupling portion 132: direction change block
140: coupling unit 141: vertical bar
141a: fixing groove 142: bolt coupling block
142a: spiral hole 143: fixing bolt
144: bolt reverse detection sensor 145: control unit
146: wireless communication module 200: first suspension insulator
300: second suspension insulator 400: jumper wire
1000: Integrated management server

Claims (1)

Among the poles 11 of the distribution line 10, it is fixed to the angle pole 11a at a position where the temporary direction of the distribution cable 12 is different, and the first coupling part 111 protrudes in the center part based on the length direction. Wancheol 110 for receiving the existing direction to be formed;
An insulating block 120 coupled to a lower portion of the first coupling part 111 of the wancheol 110 for receiving the conventional direction;
A second coupling portion 131 coupled to the lower portion of the insulating block 120 is formed in the central portion based on the length direction, and is coupled to the conventional receiving wancheol 110 through the second coupling portion 131, and , With respect to the second coupling part 131, the direction conversion blocks 132 are coupled to each side in the horizontal direction to enable selective fixation at any one of rotation around the vertical axis and predetermined rotation angles, The direction conversion type wancheol including the coupling unit 140 in a coupling configuration that allows rotation around the vertical axis of the direction change block 132 and selective fixation at any one of predetermined rotation angles (130);
Wancheol module 100 for switching the hypothetical direction including:
A first suspension insulator 200 fixed to the existing directional receiving wancheol 110 and to which one end of the distribution cable 12 of the distribution line 10 is connected:
A second suspension insulator 300 fixed to the direction conversion block 132 of the direction conversion type Wancheol 130 and to which one end of the distribution cable 12 of the distribution line 10 is connected: And
A distribution cable 12 connected to the first suspension insulator 200 and a jumper wire 400 connecting the distribution cable 12 connected to the second suspension insulator 300,
The coupling unit 140 is formed in a vertical direction from the upper surface of the direction change block 132 and is inserted into an insertion hole 130a formed to penetrate the direction changing wancheol 130 along a vertical direction, The length is formed longer than the height of the direction change wancheol 130 so that the upper part passes through the insertion hole 130a and protrudes from the upper surface of the direction change wancheol 130, A vertical rod 141 having a fixing groove 141a formed at an upper portion protruding from the upper surface at intervals of 40° along the horizontal direction and along the circumferential direction;
A spiral hole (142a) penetrating along the horizontal direction is arranged in a straight line with any one of the fixing grooves (141a) of the vertical bar (141), and the top surface of the direction conversion wancheol (130) is Doedoe formed, the bolt coupling blocks 142 provided in four and formed at 90° intervals along the circumferential direction at the same time along the horizontal direction;
It is provided individually to the bolt coupling blocks 142, and is screwed into the spiral hole 142a of the bolt coupling block 142 among the bolt coupling blocks 142, so that the front end of the vertical rod 141 Fixing bolts 143 inserted into the fixing grooves 141a arranged in a straight line with the helical holes 142a of the bolt coupling block 142 among the fixing grooves 141a;
It is a configuration that is provided in four pieces so as to individually correspond to the bolt coupling blocks 142 and the fixing bolts 143 on the upper surface of the direction change wancheol 130, each of the fixing bolts 143 corresponding to the fixing bolts In the state where 143 is screwed into the spiral hole 142a of the bolt coupling block 142 so that it is inserted into one of the fixing grooves 141a of the vertical bar 141, the damage or nature of the spiral hole 142a Bolts reversing detection sensors 144 that sense the reversal when reversing due to a loosening phenomenon and the like and transmit a corresponding signal to an external reception target;
It is installed in the direction change wancheol 130, and when a signal that detects that there is a reverse phenomenon of the fixing bolt 143 is transmitted from the bolt reverse detection sensor 144, the angle column ( 11a) comprises a control unit for generating an inspection request signal including identification information, etc., and then transmitting the generated inspection request signal to the remote integrated management server 1000 through the connected wireless communication module 146,
The bolt reverse detection sensor 144 is composed of an optical sensor, and the fixing bolt 143 is screwed to the bolt coupling block 142 so that the fixing bolt 143 is completely inserted into the fixing groove 141a of the vertical bar 141. It is installed in the direction change wancheol 130 so as to be located behind the rear end of the fixing bolt 143 as a reference, and detects whether the fixing bolt 143 moves backward through the reflected signal by irradiating light in a vertical direction,
The rotation of the direction change block 132, which can be fixed at intervals of 40° based on the horizontal direction and the circumferential direction through the coupling unit 140, and of the direction change block 132 based on a selective fixing function. The second suspension insulator 300 is fixedly installed in the direction conversion block 132 whose position is adjusted through rotation after adjusting the rotation angle to match the changed temporary direction of the distribution cable 12, and the direction When a phenomenon in which the coupling strength of the conversion block 132 with the direction changeable wancheol 130 is weakened occurs, the fact is immediately detected through the bolt reverse detection sensor 144, and a remote integrated management server 1000 in real time. ), the cable connection system of the distribution line, characterized in that it is transmitted to.

Images