KR102606522B1 - Cradle for preventing cable derailment of transmission line and its installation method - Google Patents

Abstract

The present invention relates to a stand for preventing cable derailment of a transmission line and a method of installing the same. More specifically, a stand for preventing derailment provided on a transmission tower to support and secure the cable in a transmission line to prevent derailment of the cable. As an installation method, a transmission tower safety mat installation step of fixing one end of the safety mat to the lower part of the transmission tower by screwing and placing the bottom surface in contact with the ground, and indicating the position to install a derailment prevention stand on the transmission tower. An installation position marking step, a transmission tower derailment prevention stand installation step of installing a derailment prevention stand that supports and fixes the cable at the installation location marked on the transmission tower, and an external force is applied to the derailment prevention stand installed on the transmission tower. It consists of a step of confirming the proper installation of a derailment prevention stand to check whether it moves or breaks away from the transmission tower, and a derailment prevention stand cable connection step of connecting and fixing the cable to the derailment prevention stand installed on the transmission tower, and derailment prevention stand cable connection step. The prevention stand installation stage further includes a continuous confirmation work guidance stage to identify the work situation on site using continuous confirmation work guidance means and to transmit a danger signal in the event of an emergency, thereby stably supporting and fixing the transmission line. This has the effect of improving the reliability of power supply by preventing it from being derailed or moved from the tower due to external forces or by improving the convenience and safety of maintenance.

Description

Cradle for preventing cable derailment of transmission line and its installation method {Cradle for preventing cable derailment of transmission line and its installation method}

The present invention relates to a stand for preventing cable derailment of a power transmission line and a method of installing the same in the field of power transmission technology. More specifically, it stably supports and fixes the power transmission line to prevent it from being derailed or moved from the tower by wind or external forces. This relates to a stand for preventing cable derailment of a transmission line and a method of installing the same, which improves the convenience and safety of maintenance and increases the reliability of power supply.

In general, the shape of the steel tower used as a support for transmission lines varies depending on the transmission power, voltage, and topography of the line, and some are as high as 60m.

The steel tower of a transmission line usually supports two three-phase lines, or six wires, with insulators.

The distance between steel towers is 20 to 30 m, and the minimum height of the wires installed on the towers from the ground is determined by electrical equipment technology. For example, in the case of a 150,000 V line, it is 6 m.

Usually, when a track crosses a wide river or a deep valley, the span is long and the tension of the wire increases, so a particularly strong structure is needed.

Even for power transmission lines, there are small-scale ones, or pontoons that are built on a single foundation as support for distribution or telephone lines.

These transmission line pylons connect multiple transmission lines to each other, and due to the nature of these transmission lines being installed at high altitudes, they are installed under conditions where vibration or amplitude is likely to occur as they are greatly affected by climate such as wind, snow, and rain.

Therefore, after a certain period of time, a sagging phenomenon occurs in the transmission lines, which causes the transmission lines to shake violently up and down when a strong wind blows, causing friction between them, as well as causing major safety accidents such as short circuits or power outages.

In addition, the power transmission line is derailed from the tower due to external force or wind, causing a safety accident or the inconvenient problem of frequent maintenance.

The above-described invention refers to the background art of the technical field to which the present invention pertains, and does not mean prior art.

Registered Patent No. 10-0904199

The present invention was devised to solve the above-described conventional problems. The present invention stably supports and fixes the transmission line to prevent it from being derailed or moved from the tower due to wind or external force, thereby providing convenience in maintenance. The purpose is to provide a stand for preventing cable derailment in transmission lines and an installation method to increase the reliability of power supply by improving performance and safety.

The present invention is a method of installing a derailment prevention stand provided on a transmission tower to support and secure the cable, which is a transmission line, to prevent derailment of the cable, which is fixed by screwing one end of a safety mat to the lower part of the transmission tower. A transmission tower safety mat installation step of placing the bottom of the transmission tower in contact with the ground, an installation position marking step of indicating a position to install a derailment prevention stand on the transmission tower, and supporting the cable at the installation position marked on the transmission tower. In addition, a derailment prevention stand installation step for installing a derailment prevention stand installed on a transmission tower, and an external force is applied to the derailment prevention stand installed on the transmission tower to check whether it moves or deviates from the transmission tower. A confirmation step for proper installation of the derailment prevention stand. It consists of a derailment prevention stand cable connection step of connecting and fixing the cable to the derailment prevention stand installed on the transmission tower, and in the transmission tower derailment prevention stand installation step, the work situation on site is identified by a continuous confirmation work guide means. , It is characterized by further including a continuous confirmation work guidance step to transmit a danger signal in the event of an emergency.

The present invention is a derailment prevention stand provided on a transmission tower to support and fix the cable that is a transmission line to prevent derailment, including a fixing bracket connected to and fixed to the suspension arm of the transmission tower, and the fixing bracket installed on the transmission tower. A guide shaft whose upper end is connected and fixed to a bracket, a support frame unit connected to and fixed to a lower end of the guide shaft connected to the fixing bracket, and a support frame unit connected to the guide shaft are fitted and fixed to the inside of the support frame unit, It consists of a fixing frame member into which a cable is inserted, and the fixing bracket is further provided with an expandable side support means to support the fixation frame member into which the cable is inserted, and the expandable side support means is connected to the fixing bracket installed on the transmission tower. It consists of an expansion shaft whose ends are connected and fixed to both sides of the support shaft, an upper end of which is connected to and fixed to the other end of the expansion shaft fixed to both sides of the fixing bracket, and a support shaft whose side portions are arranged in contact with both sides of the support frame unit. , Characterized in that the side portions of the support shaft support both sides of the support frame unit to which the fixing frame member into which the cable is inserted is fastened.

The present inventor's stand for preventing cable derailment of a transmission line and its installation method stably supports and fixes the transmission line to prevent it from being derailed or moved from the tower due to wind or external force, thereby improving the convenience and safety of maintenance. This has the effect of increasing the reliability of power supply.

Figure 1 is an installation state diagram showing a stand for preventing cable derailment of a transmission line according to the present invention.
Figure 2 is a diagram showing a stand for preventing cable derailment of a transmission line according to the present invention.
Figure 3 is a side view showing a stand for preventing cable derailment of a transmission line according to the present invention.
Figure 4 is an installation state diagram showing a stand for preventing cable derailment of a transmission line according to the present invention.
Figure 5 is a diagram showing a state in which a cable is installed on a stand for preventing cable derailment of a transmission line according to the present invention.
Figure 6 is a diagram showing an elastic buffer support means of a stand for preventing cable derailment of a transmission line according to the present invention.
Figure 7 is a diagram showing a continuous confirmation operation guidance means for a stand for preventing cable derailment of a transmission line according to the present invention.
Figure 8 is a diagram showing another embodiment of the continuous confirmation operation guidance means of a stand for preventing cable derailment of a transmission line according to the present invention.
Figure 9 is a conceptual diagram showing a continuous confirmation operation guidance means of a stand for preventing cable derailment of a transmission line according to the present invention.

Since the description of the present invention is only an example for structural or functional explanation, the scope of the present invention should not be construed as limited by the examples described in the text. In other words, since the embodiments can be modified in various ways and can have various forms, the scope of rights of the present invention should be understood to include equivalents that can realize the technical idea.

Meanwhile, the meaning of the terms described in the present invention should be understood as follows.

Terms such as “first” and “second” are used to distinguish one component from another component, and the scope of rights should not be limited by these terms. For example, a first component may be named a second component, and similarly, the second component may also be named a first component.

When a component is said to be “connected” to another component, it should be understood that it may be directly connected to the other component, but that other components may also exist in between. On the other hand, when a component is referred to as being “directly connected” to another component, it should be understood that there are no other components in between. Meanwhile, other expressions that describe the relationship between components, such as "between" and "immediately between" or "neighboring" and "directly neighboring" should be interpreted similarly.

Singular expressions should be understood to include plural expressions unless the context clearly indicates otherwise, and terms such as “comprise” or “have” refer to implemented features, numbers, steps, operations, components, parts, or them. It is intended to specify the existence of a combination, and should be understood as not excluding in advance the possibility of the presence or addition of one or more other features, numbers, steps, operations, components, parts, or combinations thereof.

For each step, identification codes (e.g., a, b, c, etc.) are used for convenience of explanation. The identification codes do not explain the order of each step, and each step clearly follows a specific order in context. Unless specified, events may occur differently from the specified order. That is, each step may occur in the same order as specified, may be performed substantially simultaneously, or may be performed in the opposite order.

All terms used herein, unless otherwise defined, have the same meaning as commonly understood by a person of ordinary skill in the field to which the present invention pertains. Terms defined in commonly used dictionaries should be interpreted as consistent with the meaning they have in the context of the related technology, and cannot be interpreted as having an ideal or excessively formal meaning unless clearly defined in the present invention.

Figure 1 is an installation state diagram showing a stand for preventing cable derailment of a transmission line according to the present invention. Figure 2 is a diagram showing a stand for preventing cable derailment of a transmission line according to the present invention. Figure 3 is a side view showing a stand for preventing cable derailment of a transmission line according to the present invention. Figure 4 is an installation state diagram showing a stand for preventing cable derailment of a transmission line according to the present invention. Figure 5 is a diagram showing a state in which a cable is installed on a stand for preventing cable derailment of a transmission line according to the present invention. Figure 6 is a diagram showing an elastic buffer support means of a stand for preventing cable derailment of a transmission line according to the present invention. Figure 7 is a diagram showing a continuous confirmation operation guidance means for a stand for preventing cable derailment of a transmission line according to the present invention. Figure 8 is a diagram showing another embodiment of the continuous confirmation operation guidance means of a stand for preventing cable derailment of a transmission line according to the present invention. Figure 9 is a conceptual diagram showing a continuous confirmation operation guidance means of a stand for preventing cable derailment of a transmission line according to the present invention.

As shown in the drawing, the present inventor's stand for preventing cable derailment of a transmission line and its installation method 10 (hereinafter referred to as a stand for preventing derailment for convenience of explanation) is provided on the transmission tower 100 to support the cable, which is a transmission line. In addition, it is a derailment prevention stand (10) that is fixed and made of insulator to prevent derailment. This derailment prevention stand (10) includes a fixing bracket (20), a guide shaft (30), a support frame unit (40), and a fixing frame. It consists of member 50. Hereinafter, since it is obvious that the derailment prevention stand is made of an insulator or insulating material, redundant explanation will be omitted.

The fixing bracket 20 is screwed and fixed to the suspension rock formed on the transmission tower 100.

The fixing bracket 20 is connected to and fixed to the lower part of the suspension rock of the transmission tower 100, and is made of metal or synthetic resin.

The guide shaft 30 is fixed by screwing its upper end to the fixing bracket 20 installed on the transmission tower 100.

The guide shaft 30 is formed in a square or circular rod shape and is made of metal or synthetic resin.

The support frame unit 40 is screwed and fixed to the lower end of the guide shaft 30 connected to the fixing bracket 20.

The support frame unit 40 is formed in a square frame structure and is made of metal or synthetic resin.

The fixing frame member 50 is fitted and fixed inside the support frame unit 40 connected to the guide shaft 30, and the cable 200 is inserted through it.

The fixing frame member 50 is formed as a circular frame structure and is made of metal or synthetic resin.

The fixing frame member 50 is inserted into the support frame unit 40 and then screwed into place.

The fixing frame member 50 supports the cable 200 to prevent it from being moved by wind or external force, thereby preventing the cable 200 from being derailed.

In addition, the fixing frame member 50 is inserted into the support frame unit 40, so that when the fixation frame unit is damaged, the support frame unit 40 supports the cable 200 so that the cable 200 moves again. This prevents damage and buffers external shocks.

Here, a ring bearing is press-fitted into the support frame unit 40 and the fixing frame member 50 is inserted into the ring bearing to rotate, so that the cable 200 and the fixing frame member 50 are moved or rotated by an external force. ) are preferably rotated together to reduce friction between the cable and the fixing frame member 50.

The fixing bracket 20 is further provided with an extended side support means 60 to support the support frame unit 40 into which the cable 200 is inserted.

The extended side support means 60 includes an extension shaft 61, one end of which is screwed and fixed to both sides of the fixing bracket 20 connected to the transmission tower 100, and an extension shaft 61 fixed to both sides of the fixing bracket 20. It consists of a support shaft 70 whose upper end is screwed and fixed to the other end of the fixed expansion shaft 61, and whose lower ends are disposed in contact with both sides of the support frame unit 40, so that the lower end of the support shaft 70 By supporting both sides of the fixing frame member 50 to which the support frame unit 40 into which the cable 200 is inserted is fastened, the cable 200 and the support frame unit 40 are moved by external force or wind. This prevents the cable 200 from being derailed again and improves the supporting and fixing force of the cable 200 to prevent the cable 200 from being derailed.

Here, an elastic pad made of an elastic synthetic resin material is further attached and fixed to the inner surface of the support shaft 70 to cushion the shock from being transmitted to the support frame unit 40 by the elasticity of the elastic pad, It is desirable to prevent friction.

Here, the fixing frame member 50 is further provided with a pressure-type elastic support fixing means 80 to press and secure the inserted cable 200 by elasticity and support it.

The pressure-type elastic support fixing means 80 includes an operating groove 81 formed on the inner surface of the fixing frame member 50, and an elastic pressing coil spring whose one end is inserted into the operating groove 81 and fixed by screwing. (82), a pressure panel (83) whose one side is screwed and fixed to the other end of the elastic pressure coil spring (82), and a synthetic resin material with elasticity that is attached and fixed to the other side of the pressure panel (83). It consists of an elastic pressure support panel 84 and an inlet groove 85 formed on the front side of the elastic pressure support panel 84 so that a part of the cable 200 is inserted, and the elastic pressure coil spring 82 and It is preferable to press and support the cable 200 by the elasticity of the elastic pressure support panel 84 to prevent it from being moved by external force and to cushion the transmission of external force or vibration.

The installation method of the holder 10 for preventing cable derailment of the transmission line configured as described above is made of an elastic synthetic resin material or tube structure at the lower part of the transmission tower 100 to prevent tools or workers falling from the transmission tower 100. A safety mat installation step (S1) for the transmission tower 100 in which one end of the safety mat is screwed and fixed to support it and the bottom is placed in contact with the ground, and a derailment prevention stand 10 is installed on the transmission tower 100. An installation position marking step (S2) in which the position is marked using a pen or paint, and a derailment prevention stand 10 is installed to support and secure the cable 200 at the installation position marked on the transmission tower 100. The transmission tower 100 goes through the derailment prevention stand 10 installation step (S3).

Thereafter, an external force is applied to the derailment prevention holder 10 installed on the transmission tower 100 to check whether the derailment prevention holder 10 moves or deviates from the transmission tower 100, a proper installation confirmation step (S4); A series of processes are completed by going through the cable connection step (S5) of the derailment prevention stand (10) in which the cable (200) is connected and fixed to the derailment prevention stand (10) installed on the transmission tower (100).

In the installation step (S3) of the stand (10) for preventing derailment of the transmission tower (100), the work situation at the site is identified by the continuous confirmation work guidance means (90), and a continuous confirmation work guidance step ( S3-1) is further included.

The continuous confirmation operation guide means 90 includes a connection fixing module unit 91 that is screwed and fixed to the transmission tower 100, and a lower end connected to the upper surface of the connection fixing module unit 91. A pair of guide shafts 92, a first panel transfer module 931, a second panel transfer module 932, and a first panel transfer module 931 and a second panel transfer module 932 that are inserted through the guide shaft 92 and are guided along the guide shaft 92. A transfer module unit 93 consisting of three panel transfer modules 933 and a lower end are screwed and fixed to the upper surface of the connection fixing module unit 91, and the lifting shaft is attached to the bottom of the first panel transfer module 931. A first lifting guide unit 941 is screwed and fixed to the upper surface of the first panel transfer module 931, and the lower part is screwed and fixed to the upper surface of the first panel transfer module 931, and the lifting shaft is fixed to the bottom of the second panel transfer module 932. A second lifting guide unit 942 is screwed and fixed, and a lower end is screwed and fixed to the upper surface of the second lifting guide unit 942, and the lifting shaft is fixed to the bottom of the third panel transfer module 933. A lifting guide unit 94 consisting of a third lifting guide unit 943 that is screwed and fixed to the bottom of the first panel transfer module 931 and screwed and fixed to the bottom of the first panel transfer module 931, and a first rotation module unit ( The first rotation guide units 951 (951-1) are screwed together, the second panel transfer module (932) is screwed and fixed to the bottom, and the second rotation module unit (952-1) is screwed to the rotation axis. The third rotation guide unit (952) and the third panel transfer module (933) are screwed and fixed to the bottom and the third rotation module unit (953-1) is screwed to the rotation axis. 953), first situation photography units 961 screwed and fixed to the bottom of the first rotation module unit 951-1, and the second rotation module unit (953). Second situation photography units 962 that are screwed and fixed to the bottom of the third rotation module unit (953-1), and a third situation photography unit (963) that is screwed and fixed to the bottom of the third rotation module unit (953-1). It is screwed and fixed to the situation photographing unit 96 and the connection fixing module unit 91, and is electrically connected to and controlled by the lifting guide unit 94 and the rotation guide unit 95. A control unit 97 that receives shooting information of the first situation photography unit 961, the second situation photography unit 962, and the third situation photography unit 963, and a screw on the third panel transfer module 933. A transmitting and receiving unit that is fastened and fixed and transmits the shooting information of the first situation photography unit 961, the second situation photography unit 962, and the third situation photography unit 963 transmitted from the control unit 97. It consists of (98) and a status information speaker (99) that is screwed and fixed to the third panel transfer module (933) and receives a signal from the control unit (97) to guide a voice or generate an alarm.

The connection fixing module unit 91 is made of a panel structure made of metal and is placed on the ground.

The first panel transfer module 931, the second panel transfer module 932, and the third panel transfer module 933 are formed of metal or synthetic resin panels and are inserted into the guide shaft 92. A transfer hole is formed.

The first lifting guide unit 941, the second lifting guiding unit 942, and the third lifting guiding unit 943 are cylinders, and the first rotating guiding unit 951 and the second rotating guiding unit ( 952) and the third rotation guide unit 953 are motors, and the first situation photography units 961, the second situation photography units 962, and the third situation photography unit 963 are cameras.

Additionally, the first rotation module unit 951-1, the second rotation module unit 952-1, and the third rotation module unit 953-1 are formed in a circular or square panel structure.

The first situation photography units 961, the second situation photography units 962, and the third situation photography units 963 include the first lifting and lowering guidance unit 941 and the second lifting and lowering guidance unit 942. ) and the driving of the third lifting guide unit 943, the height can be changed, and it is possible to take pictures of field conditions or risk factors on the ground or ground.

The control unit 97 receives the signal received from the transmitter and receiver 98 through the administrator terminal and controls the status guide speaker 99 to transmit a voice or generate an alarm.

In other words, after recognizing the dangerous situation of the phenomenon through the shooting information, it is possible to prevent safety accidents in the field by transmitting a dangerous signal through the status information speaker 99.

In addition, the control unit 97 receives the signal received from the transmitting and receiving unit 98 through the administrator terminal and controls the operation of the lifting guide unit 94 and the rotation guiding unit 95, The positions of the situation photography units 961, the second situation photography units 962, and the third situation photography unit 963 can be changed.

Although the present invention has been described in detail so far, it is clear that the embodiments mentioned in the process are only illustrative and not limiting, and that the present invention is limited to the technical idea or field of the present invention provided by the following patent claims. Changes in components to the extent that they can be handled equally, within the scope of the above, will fall within the scope of the present invention.

10: Holder to prevent derailment 20: Fixing bracket
30: Guide shaft 40: Support frame unit
50: Fixing frame member 60: Expandable side support means
61: expansion shaft 70: support shaft
80: Pressurized elastic support fixing means 81: Operating groove
82: elastic pressurizing coil spring 83: pressurizing panel
84: Elastic pressure support panel 85: Inlet groove
90: Continuous confirmation work guidance means 91: Connection fixing module unit
92: Guide shaft 93: Transfer module part
931: 1st panel transfer module 932: 2nd panel transfer module
933: Third panel transfer module 94: Elevating guide unit
941: 1st lifting guide unit 942: 2nd lifting guide unit
943: Third lifting guide unit 95: Rotation guide unit
951: 1st rotation guide unit 951-1: 1st rotation module unit
952: 2nd rotation guide unit 952-1: 2nd rotation module unit
953: Third rotation guide unit 953-1: Third rotation module unit
96: situation photography unit 961: first situation photography unit
962: Second situation photography unit 963: Third situation photography unit
97: Control unit 98: Transmitting and receiving unit
99: Status information speaker 100: Transmission tower
200: cable

Claims (2)

delete It is a derailment prevention stand provided on a transmission tower to support and secure the cable that is a transmission line and is made of insulator to prevent derailment,
A fixing bracket connected to and fixed to the suspension arm of the transmission tower,
A guide shaft whose upper end is connected and fixed to the fixing bracket installed on the transmission tower,
A support frame unit connected to and fixed to the lower end of the guide shaft connected to the fixing bracket,
It is fixed to the inside of the support frame unit connected to the guide shaft and consists of a fixed frame member into which the cable is inserted,
The fixing bracket is further provided with an extended side support means to support the fixing frame member into which the cable is inserted,
The extended side support means,
An expansion shaft whose ends are connected and fixed to both sides of the fixing bracket connected to the transmission tower,
It consists of a support shaft whose upper end is connected and fixed to the other end of an expansion shaft fixed to both sides of the fixing bracket, and whose side portions are disposed in contact with both sides of the support frame unit,
The side portions of the support shaft support both sides of the support frame unit to which the fixing frame member into which the cable is inserted is fastened,
The fixing frame member is further provided with pressure-type elastic support fixing means to press and secure the inserted cable by elasticity and support it,
The pressurized elastic support fixing means,
An operating groove formed on the inner surface of the fixing frame member,
An elastic pressurizing coil spring, one end of which is inserted into the operating groove and fixed by screwing,
A pressurizing panel whose one side is screwed and fixed to the other end of the elastic pressurizing coil spring;
an elastic pressure support panel made of an elastic synthetic resin material that is attached and fixed to the other surface of the pressure panel;
Consisting of a lead-in groove formed on the front part of the elastic pressure support panel to allow a part of the cable to be led in,
A transmission line that presses and supports the cable by the elasticity of the elastic pressure coil spring and the elastic pressure support panel, preventing movement by external force and buffering the transmission of external force or vibration. A stand to prevent cable derailment in the furnace.