KR101359561B1 - Power transmission and distribution wires underground cable support device jiulong - Google Patents

Abstract

The present invention relates to a power transmission and distribution cable support device for an underground cable duct and more specifically, to a power transmission and distribution cable support device capable of preventing the sagging of a cable and absorbing impacts by being installed one internal side of a duct which protects a power transmission and distribution cable by being buried under the ground. The present invention comprises a support plate (100) composed of a moving groove (110) installed on one side of a duct (300) and having a constant depth at one outer side to the inner side, a fixing shaft (120) formed at the inner side of the moving groove (110) in up, down, and longitudinal direction, and an elastic body (130) inserted into the outer circumference of the fixing shaft (120); and multiple moving parts (200) composed of a support bar (210) which is formed lengthways in one longitudinal direction and in which an insertion groove (211) passing through up and down is formed one side, wherein a lower fitting part (230) which is integrally formed and of which a side cross section is formed in a semicircular shape and an upper fitting part (220) to touch in the same shape of the lower fitting part (230) are formed at one upper side of the support bar (210) and a space part (201) is formed inside, and a fitting member (240) which is connected to both sides of the upper and lower fixing parts (220, 230) in contact with each other, thereby making each moving part (200) move on the moving groove (110) by inserting the insertion groove (211) of the support bar (210) into the fixing shaft. The present invention reliably fixes multiple cables (c) and mitigates vibrations due to the elastic body (130) when impact or vibration occurs.

Description

Power transmission and distribution wires underground cable support device Jiulong}

The present invention relates to a transmission and distribution cable support device for underground power lines, and more particularly, to selectively install a power outlet buried in the ground to support a large number of cables while being able to alleviate shocks such as earthquake, while improving economic efficiency. It relates to a transmission and distribution cable support device for underground power line.

In recent years, as the industrialization accelerates, power consumption is rapidly increasing, and their supply is supplied from the production site to the consumer through distribution cables. These cables are used for various purposes such as urban aesthetics and obstacles in people and vehicles. It is being installed in the ground in consideration of this, and it is buried in the ground spaced a certain distance from the ground. As such, underground power ports, which are pipelines, are used to wire transmission and distribution cables in the ground. The power cord cannot be arbitrarily expanded once constructed, whereas the cables required to pass through the underground power cord will increase. That is, when there is no more space for additional cables by utilizing the inner wall space of the power port, a plurality of cables are stacked by laying the additionally wired cable on the previously wired cable. If the maintenance of the cables arranged in the need to remove all the cables stacked on it, maintenance work is very cumbersome and complicated disadvantages.

Looking at the prior art first,

Registration No. 10-0822869 (Special) As long as the anchor is fixed to both side walls of the rectangular cross-sectional box-shaped power bulb buried in the ground consisting of a vertical fixing portion and a horizontal support portion bent in the transverse direction at the upper end of the fixing portion A pair of support angles; A monorail consisting of a vertical portion and an I-shaped steel formed by upper and lower horizontal portions respectively formed at upper and lower portions of the vertical portion, the monorail having both ends supported on the supporting portion of the supporting angle while being arranged along the transverse direction inside the power tool; A plurality of cables are wired and includes at least two cable wiring means for moving along the monorail, wherein the cable wiring means, the upper roller is provided with two roller mounting portion is mounted on the roller mounting portion, respectively, the vertical of the monorail A pair of supports, each of which is installed at a lower horizontal portion divided into two parts with a center as a center, and has two or more bolt holes formed in multiple stages, a bottom plate having a flat plate shape and at least one seating groove on which the cable is mounted; The separation prevention plate is formed at both ends of the bottom of the bottom in the longitudinal direction, the bottom portion of the bottom protruding and formed of a binding portion provided with two or more bolt grooves are interposed between the pair of supports and bolt holes of the support and The pair of bolts connected to the bolt grooves of the binding unit. The cable is installed in the power port, including a plurality of cable shelves installed in multiple stages between the supports.

Registration No. 10-0904860 (Special) An array of transmission and distribution cables arranged in underground power spheres that are open at both sides and have internal spaces, arranged in a rectangular shape, and arranged transmission and distribution cables. A rectangular flange each including a plurality of coupling holes formed at equal intervals on both sides, the support being installed at equal intervals at both sides of the wall and in the center of the power tool; A bearing rotatably inserted into a coupling hole of the support and having a fastening screw formed at one side thereof; A cable display transfer roller having one end fixed to the support and the bearing accommodated therein; A tray support beam having a bolt hole formed at both sides thereof protruding to one side and coupled between the support and the support; Consists of a rectangular shape, the tray seated on the upper end of the tray support beam.

Registration number 10-0914937 (Special) A cable shelf of a transparent material is formed on both sides is formed with a plurality of cable settling grooves at a constant height, a plurality of wedge grooves at a predetermined height from one side; A support plate coupled to a bottom surface of the cable shelf; A spring provided to have a vertical elastic force on a lower portion of the support plate coupled to the cable shelf; A spring plate to fix the lower end of the spring; A shelf guide formed at a lower portion of the spring plate to be inserted from one side thereof, and allowing the spring to be received to guide the coupling structure of the cable shelf and the support plate to be elevated; And a wedge plate for adjusting the height of the cable shelf by being inserted to reach the wedge groove of the cable shelf through a through hole formed in an upper end portion of the side wall of the shelf guide in which the cable settling groove is formed.

Looking at the prior art described above, it does not perform any other function other than seating and fixing a plurality of cables. In other words, when an external shock such as earthquake occurs, no countermeasures are provided so the economic efficiency is very low due to cable breakage and short circuit.

In other forms of technology, it is installed to be coupled to the upper and lower parts of the power supply so that a plurality of cables can be arranged at regular intervals, but there is no configuration that can be appropriately responded to when an external shock such as an earthquake occurs. none.

In another form of technology, the cable is fitted to both sides to be fixed and coupled to the power sphere, and the height can be adjusted mainly described, but it is difficult to secure a firm fixing force because the cable is fitted.

In sum, the above-described conventional techniques are difficult to secure a solid holding force as a whole, and there is no configuration that can cope with external factors such as earthquake.

Therefore, an object of the present invention is installed in the power outlet buried in the ground to configure the upper and lower fasteners to wrap and secure the cable to prevent the cable from falling or sagging in the lower portion of the power outlet due to external factors The main purpose is to provide the transmission and distribution cable support device for underground power line, which can secure the damage and the firm fixing force, and to reduce the vibration by constructing the elastic body having elastic force when earthquake occurs.

As a technical idea for achieving the above object, in the transmission and distribution cable support device for underground power line, which is installed on one side of the power outlet to protect the transmission and distribution cable embedded in the ground, which can absorb the sag and impact of the cable, Is fixedly installed on one side of the 300, the flow groove 110 is formed in a certain depth inward on the outer side, the fixed shaft 120 is configured in the vertical direction up and down inside the flow groove 110, The support plate 100 is composed of a plurality of elastic body 130 is formed on the outer circumference of the fixed shaft 120 and is formed long in one longitudinal direction, the fitting groove 211 is formed to penetrate up and down on one side The support bar 210 is configured, the lower end portion 230 integrally formed in a semi-circular arc shape on the upper side of the support bar 210 to be in contact with the same shape as the lower tightening portion 230. The upper tightening unit 220 is configured Is formed of a plurality of flow parts 200 formed of a fastening member 240 is formed inside the space portion 201, the contacted upper, lower tightening parts 220, 230, respectively, The fitting groove 211 of the support bar 210 is fitted to the fixed shaft 120, so that each of the flow units 200 flows on the flow groove 110.

According to the present invention, the transmission and distribution cable support apparatus for underground power lines is composed of a structure capable of firmly fixing a plurality of cables buried in the ground to prevent the cable from being damaged or short-circuited due to external factors. It is possible to mitigate the impact due to the elastic body when the earthquake occurs is a useful invention with high economic efficiency.

1 is a perspective view showing a preferred embodiment of the present invention;
2 is an exploded view illustrating a preferred embodiment of the present invention.
Figure 3 is an exploded view, enlarged view showing a preferred flow portion of the present invention
4 is a coupled state diagram showing a coupled state of the preferred flow portion of the present invention
Figure 5 is an operating state diagram illustrating a preferred embodiment of the present invention.
Fig. 6 is a diagram showing the state of use showing the preferred embodiment of the present invention
Fig. 7 is a diagram showing the state of use showing another embodiment of the present invention
Fig. 8 is a diagram showing the state of use showing the preferred embodiment of the present invention

The present invention provides a transmission and distribution cable support device for underground power line power supply can be installed to selectively be installed in the power supply buried in the ground to support a plurality of cables firmly while mitigating the impact, such as earthquake, can increase the economic efficiency.

With reference to the accompanying drawings, a preferred embodiment of the present invention for achieving the above object will be described with reference to FIGS.

First of all, before explaining the present invention, the configuration of the transmission and distribution cable support device for underground power line, which is installed on one side of the power port to protect the transmission and distribution cable embedded in the ground, which can absorb the cable sag and impact, Fixed shaft which is fixedly installed on one side of the power sphere 300, the flow groove 110 is formed in a predetermined depth on the outside one side, and located in the inner side of the flow groove 110 in the vertical direction 120 and the support plate 100 is composed of a plurality of elastic body 130 is formed on the outer circumference of the fixed shaft 120, and is formed long in one longitudinal direction, the fitting groove penetrating up and down on one side ( 211 is formed, the support bar 210 is formed, the lower tightening unit 230 and the lower tightening unit 230 and the side cross-section is formed integrally in the form of a semi-circle on the upper side of the support bar 210 and Tighten upper part to abut same shape 220 is configured, a plurality of the flow portion consisting of a fastening member 240 is formed to form a space portion 201 therein, the upper and lower abutting portion 220, 230 respectively contacted Is configured to 200, the fitting groove 211 of the support bar 210 is configured to fit in the fixed shaft 120 is configured to flow each of the flow portion 200 on the flow groove 110 will be.

The support plate 100 is coupled to the power sphere 300 buried in the ground, as shown in Figures 1 to 2 a plurality of flow grooves 110 are formed on one side formed to be interpolated to a predetermined depth from the outside to the inside do. In the case of the flow groove 110, the support bar 210 of the flow part 200 is fitted so as to be able to play a role of space to flow up and down.

Here, the fixed shaft 120 extending from the support plate 100 is further configured on the flow groove 110, and the elastic body 130 is further included on the outer circumference of the fixed shaft 120. In the case of the fixed shaft 120 is configured as a structure that can be integrally formed or selectively coupled to the support plate 100, in the present invention has been shown to be configured integrally with the support plate 100.

The elastic body 130 is a core structure of the present invention, while surrounding the outer circumference of the fixed shaft 120 is to be configured to flow the flow portion 200 up and down, to mitigate the impact when an external factor or earthquake occurs It is a configuration to make it possible.

The elastic body 130 may be configured as a conventional spring, as shown in Figure 2, it may be configured as urethane rubber, if necessary. In addition, the present invention is not limited to the embodiments of the present invention, such as a configuration having an ordinary elastic force.

The flow part 200 is configured as the support bar 210 is formed long in the longitudinal direction as shown in Figures 2 to 4, but the fitting groove 211 is formed through the upper and lower rolls on one side is fixed shaft 120 Being put on. That is, the support bar 210 is inserted into the fixed shaft 120 to flow up and down.

At least one or more lower tightening portions 230 formed integrally with the support bar 210 are formed at one upper side of the support bar 210, and the lower tightening portions 230 have a semicircular arc side surface. It consists of a space inside. The upper tightening unit 220 is configured to be in contact with each other by the same number according to the number of the lower tightening unit 230 formed in the same shape on the upper portion of the lower tightening unit 230, wherein the upper, lower If formed to contact the pregnant part 220, 230 is to form a space 201 for seating the cable (c).

Due to the formation of the space portion 201, the cable c is seated inside the upper and lower fasteners 220 and 230. In this case, the upper and lower fasteners 220 are fixed in order to fix the cable c without being separated. Fastening member 240 is coupled to both sides of the 230.

Here, the upper and lower fasteners 220 and 230 of the flow part 200 are protruding fasteners 221 and 231 are respectively formed so that both sides protrude, but than the outside of the upper and lower fasteners 220 and 230. Consists of a small diameter, the fastening member 240 is formed with a groove 241 penetrating therein, it is formed larger than the outer diameter of each of the projecting fasteners 221, 231 abut each other.

That is, the fastening member 240 is fitted to the outer circumference of the protruding tightening portions 221 and 231 protruding from both sides of the upper and lower tightening portions 220 and 230.

On the other hand, when the cable (c) is seated in the space 201 of the upper, lower fasteners 220, 230 and wrapped, the upper, lower fasteners 220, 230 are configured to correspond to each other, but not contact 3, the gap t is formed, because the diameter of the space portion 201 is smaller than the outer diameter of the cable c.

For this reason, it is usually configured to form a screw thread on the outer periphery and to form a screw thread on the inner periphery of the coupling member to be coupled when the coupling and separation, but in the present invention as shown in Figures 3 to 4 the cable When the tightening member 240 is inserted because the outer circumferential diameter of (c) is large, the upper and lower tightening parts 220 and 230 may not be pulled out or detached due to the force that is to be opened. It is

By this structure, it is possible to conveniently combine and detach without forming a separate thread at the time of construction, it is possible to fast fix the cable (c).

When the flow part 200 is combined, when the cable c is not seated, a gap t is not formed in the abutting part, but when the cable c is seated, the outer periphery of the cable c is naturally. Since the diameter is larger, the upper and lower tightening parts 220 and 230 correspond to each other, but do not touch the gap t. By this structure, the cable (c) can also secure a firm fixing force without being easily detached from the upper and lower fasteners (220, 230) that the cable (c) is sagging or detached from being damaged at the lower portion of the power outlet It can be prevented.

The flow portion 200 is a groove 211 of the support bar 210 is fitted to the fixed shaft 120 of the support plate 100, as shown in Figure 5 when the external factors or earthquake occurs the flow groove It will be a structure that can mitigate the impact by the elastic body 130 while flowing up and down on the (110).

In the prior art, the structure installed in a conventional power outlet, but is configured to be coupled to the power sphere is configured in a fixed form, but such a conventional configuration because there is no configuration that can respond when a phenomenon such as earthquake-resistant There was a problem of damage or short circuit. However, in the present invention, the economic efficiency is very high due to the structure that can completely solve the conventional problems.

As shown in Figures 5 to 8, the present invention can be installed in a plurality of inside the power sphere, as well as to configure the transmission and distribution cable support device of the present invention to one side or both sides of the power sphere, respectively, a larger amount of cable (c) Can be fixed but fixed, such as convenience and economics and will have a fixed force.

According to the present invention, the transmission and distribution cable support device for underground power line is composed of a structure capable of firmly fixing a plurality of cables (c) buried in the ground, and due to external factors, the cable (c) falls to the lower portion of the power port and is damaged. It can be prevented or short-circuited, it is a useful invention that can reduce the impact due to the elastic body 130 when earthquake-resistant occurs, high economic efficiency.

100: support plate 110: flow groove 120: fixed shaft 130: elastic body
200: flow part 201: space part
210: support bar 211: fitting groove
220: upper tightening part 221: protruding tightening part
230: lower tightening part 231: protruding tightening part
240: fastening member
t: gap c: cable

Claims (3)

In the transmission and distribution cable support device for underground power line, which is installed on the inner side of the power port to protect the transmission and distribution cable embedded in the ground, and can absorb the cable sag and impact,
Fixed shaft which is fixedly installed on one side of the power sphere 300, the flow groove 110 is formed in a predetermined depth on the outside one side, and located in the inner side of the flow groove 110 in the vertical direction (120) and the support plate 100 is composed of a plurality of elastic body 130 that is fitted to the outer periphery of the fixed shaft 120;
It is formed long in one longitudinal direction, the support bar 210 is formed in which the fitting groove 211 is formed to penetrate up and down on one side, the side cross-section on the upper one side of the support bar 210 in a semi-circular arc shape The upper tightening unit 220 is configured to be in contact with the lower tightening unit 230 and the lower tightening unit 230 is formed in the same form, the space portion 201 formed therein, the contact image, A plurality of flow parts 200 including fastening members 240 coupled to both sides of the lower fastening parts 220 and 230, respectively; Lt; / RTI >
Underground wire power, characterized in that the fitting groove 211 of the support bar 210 is configured to fit in the fixed shaft 120 so that each of the flow portion 200 flows on the flow groove 110. Old transmission and distribution cable support device.

The method of claim 1,
The upper and lower tightening parts 220 and 230 of the flow part 200 are protruding tightening parts 221 and 231 so that both sides protrude, respectively, but have a smaller diameter than the outside of the upper and lower fastening parts 220 and 230. Consisting of,
The fastening member 240 is formed with a groove 241 penetrating therein, the transmission and distribution cable support for underground power line, characterized in that formed larger than the outer diameter of each of the projecting fasteners 221, 231 abut each other Device.
The method of claim 1,
The elastic body 130 is a transmission and distribution cable support device for underground power line, characterized in that consisting of a spring or urethane rubber having an elastic force.

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