CN215120054U - Ice melting device for power line - Google Patents

Ice melting device for power line Download PDF

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CN215120054U
CN215120054U CN202121101975.5U CN202121101975U CN215120054U CN 215120054 U CN215120054 U CN 215120054U CN 202121101975 U CN202121101975 U CN 202121101975U CN 215120054 U CN215120054 U CN 215120054U
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ice melting
ice
melting
transformer
lead
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赵明亮
唐金
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Abstract

An electrified ice melting wire (ground wire) is erected on a tower, and is in a stranded structure of a plurality of small wires by utilizing an overhead wire, one or more strands of insulated auxiliary wires and the plurality of strands of small wires are stranded to form the electrified ice melting wire, so that the insulated auxiliary wires and a main wire are mutually insulated; the ice melting transformer is connected with the main line in a T mode and serves as a power supply of the ice melting transformer, the ice melting transformer adopts an autotransformer or a multi-winding transformer, and a multi-tap is adopted to obtain a required ice melting voltage; providing a proper potential difference between the main conducting wire and the insulating auxiliary conducting wire of each phase through the ice melting transformer to enable the main conducting wire and the insulating auxiliary conducting wire to form a circulating current to generate temperature rise so as to melt ice; the ice melting switch controls the opening and closing; and the monitoring control system monitors the ambient temperature, the humidity and the icing thickness of the circuit, switches on and off the ice melting switch according to the ambient temperature, the humidity and the icing thickness, and transmits data to the remote ice melting background.

Description

Ice melting device for power line
Technical Field
The utility model belongs to the technical field of the ice-melt of power line, specifically relate to an ice-melt device of power line.
Background
Most of power lines are erected at high mountains, the conducting wires and the ground wires are located at high altitudes and are influenced by cold weather, the conducting wires and the ground wires are extremely easy to freeze, the weight of the conducting wires and the ground wires is increased rapidly along with the increase of the icing thickness after the conducting wires and the ground wires are frozen, so that the weight of the conducting wires and the ground wires is increased, the load of a tower is increased rapidly, when the icing thickness reaches a certain thickness and exceeds the bearing capacity of the conducting wires, the ground wires or the tower (the maximum thickness can reach 10 times of the normal thickness), the occurrence of wire breakage or pole falling accidents can be caused, and power supply is interrupted. The ice-coated power line can cause damage to the power line in different degrees every year, particularly, large-area line breakage, pole falling and large-area long-time power failure accidents occur in Hunan, Guizhou, Guangxi and the like in 2008, the direct economic loss in China reaches over hundreds of billions, the large-area power failure in a long time is caused, and the development requirements are completely not met.
A brief analysis of the existing main measures for solving the ice coating of the line is shown in table 1.
TABLE 1
Figure BDA0003078415830000011
Figure BDA0003078415830000021
Through simple analysis of the above modes, the characteristics of economy and uninterrupted power supply in the prior art are considered, so that the method is difficult to popularize and apply in a large range, and the ice melting on the ground wire cannot be performed.
Disclosure of Invention
The technical solution problem of the utility model is that: the power line ice melting device system can melt ice without power outage and overhead ground wires, reduces power outage time, avoids inconvenience brought to users due to ice melting power outage in severe weather, is low in energy consumption, can automatically melt ice and automatically stop melting ice, achieves intelligent ice melting, reduces a large amount of human resources, and effectively avoids great safety risks of severe weather manual operation.
The technical solution of the utility model is that: this kind of power line ice-melting device, it includes: the system comprises an electrified ice melting wire, an ice melting transformer, an ice melting switch and a monitoring control system;
the live ice-melting lead frame is arranged on a pole tower, and is in a stranded structure of a plurality of strands of small leads by utilizing an overhead lead, and one or more strands of insulating auxiliary leads and the plurality of strands of small leads are stranded to form the live ice-melting lead, so that the insulating auxiliary leads and the main lead are mutually insulated;
the ice melting transformer is connected with the main line in a T mode and used as a power supply of the ice melting transformer, the ice melting transformer adopts an autotransformer or a multi-winding transformer, and a plurality of taps are adopted to obtain required ice melting voltage, wherein the autotransformer regulates the voltage of each tap through a tap changer and is connected with the insulating auxiliary lead of each phase of lead, and a proper potential difference is formed between each phase of main lead and the insulating auxiliary lead so that the main lead and the insulating auxiliary lead form a circulation to generate temperature rise to melt ice;
the ice melting switch controls the opening and closing;
and the monitoring control system monitors the ambient temperature, the humidity and the icing thickness of the circuit, switches on and off the ice melting switch according to the ambient temperature, the humidity and the icing thickness, and transmits data to the remote ice melting background.
The utility model utilizes the power supply of the line as the ice melting power supply to melt ice without power outage, reduces the power failure time, and can not melt ice and power off under severe weather conditions to bring inconvenience to users; the utility model has low energy consumption for heating and melting ice through the insulating auxiliary lead, and the ice melting is carried out once per kilometer of the line by about 30 degrees; the utility model analyzes the icing condition of the line through temperature, humidity, icing thickness and big data, and can remotely master the on-site weather and icing condition at the background; the utility model can automatically melt ice and automatically stop melting ice by starting and stopping the ice melting switch through the temperature, humidity and ice coating monitoring control device, thereby realizing intelligent ice melting; the utility model discloses realize the intellectuality, need not manual operation, reduced a large amount of manpower resources, simultaneously effectual great safety risk who avoids bad weather manual operation.
Drawings
Fig. 1 is a schematic structural diagram of the ice melting device for power lines of the present invention.
Fig. 2 is a schematic structural diagram of a specific embodiment of the ice melting apparatus for power line of the present invention.
Detailed Description
As shown in fig. 1, the power line de-icing apparatus includes: the system comprises a live ice melting wire, an ice melting transformer (abbreviated as ice melting transformer in the figure), an ice melting switch and a monitoring control system;
the live ice-melting lead frame is arranged on a pole tower, and is in a stranded structure by utilizing an overhead conductor (including a ground wire), and one or more strands of insulating auxiliary conductors and a plurality of strands of small conductors are stranded to form the live ice-melting lead, so that the insulating auxiliary conductors and the main conductor are mutually insulated;
the ice melting transformer is connected with the main line in a T mode and used as a power supply of the ice melting transformer, the ice melting transformer adopts an autotransformer or a multi-winding transformer, and a plurality of taps are adopted to obtain required ice melting voltage, wherein the autotransformer regulates the voltage of each tap through a tap changer and is connected with the insulating auxiliary lead of each phase of lead, and a proper potential difference is formed between each phase of main lead and the insulating auxiliary lead so that the main lead and the insulating auxiliary lead form a circulation to generate temperature rise to melt ice;
the ice melting switch controls the opening and closing;
and the monitoring control system monitors the ambient temperature, the humidity and the icing thickness of the circuit, switches on and off the ice melting switch according to the ambient temperature, the humidity and the icing thickness, and transmits data to the remote ice melting background.
The utility model utilizes the power supply of the line as the ice melting power supply to melt ice without power outage, reduces the power failure time, and can not melt ice and power off under severe weather conditions to bring inconvenience to users; the utility model has low energy consumption for heating and melting ice through the insulating auxiliary lead, and the ice melting is carried out once per kilometer of the line by about 30 degrees; the utility model analyzes the icing condition of the line through temperature, humidity, icing thickness and big data, and can remotely master the on-site weather and icing condition at the background; the utility model can automatically melt ice and automatically stop melting ice by starting and stopping the ice melting switch through the temperature, humidity and ice coating monitoring control device, thereby realizing intelligent ice melting; the utility model discloses realize the intellectuality, need not manual operation, reduced a large amount of manpower resources, simultaneously effectual great safety risk who avoids bad weather manual operation.
Preferably, the ice melting transformer adopts multiple taps to obtain the required ice melting voltage.
Preferably, the ice-melting conducting wire is formed by twisting a main conducting wire and an insulating auxiliary conducting wire, and the sectional area of the main conducting wire is the same as the nominal sectional area; the insulation auxiliary conducting wire is a multi-increase part and forms insulation with the main conducting wire.
Preferably, the high-voltage winding of the ice-melting transformer is an auto-coupling ice-melting power supply, and the main power supply and the ice-melting power supply form an ice-melting potential difference to melt ice in an electrified manner.
Preferably, the tap changer is a single-phase tap changer, each phase has a multi-gear tap changer, and the tap changers are adjusted respectively to obtain the required potential difference of each phase.
Preferably, the monitoring control device is connected with the temperature, humidity and ice coating sensor and can control the on-off of the ice melting switch according to a set value.
Preferably, the remote ice melting background and the monitoring control device mutually transmit data, and the remote ice melting background remotely monitors and controls the ice melting system.
Preferably, the short-circuit connection extends towards two sides of the ice melting transformer respectively and connects the insulating auxiliary lead with the main lead.
The present invention will be described in more detail below.
When a line is erected, the live ice melting lead 1 (composed of a main lead 2 and an insulating auxiliary lead 3) is adopted for replacing the conventional lead erection, and the main lead 2 and the insulating auxiliary lead 3 are electrically connected at the tail end of the ice melting lead 1 (a connection point 17); installing an ice melting transformer 10 at the head end of the ice melting line; the main power end of the ice melting transformer 10 is electrically connected with the main power end of the ice melting transformer 2 through a connecting wire 7, an ice melting power switch 5 and a connecting wire 20 (a connecting point 18); the ice melting end of the ice melting transformer 10 is electrically connected with the insulating auxiliary lead 3 through the connecting lead 8, the ice melting switch 6 and the connecting lead 9 (connecting point 19); installing a monitoring control device 13, connecting a temperature, humidity and ice coating sensor 15 with the monitoring control device 13 through a data line 12, connecting the monitoring control device 13 with an ice melting power switch 5 and an ice melting switch 6 through a control cable 22, and connecting the monitoring control device 13 with a low-voltage power supply of an ice melting transformer 10 through a power line 21; setting the temperature, the humidity and the ice coating thickness of the monitoring control device 13 to control the division and combination of the ice melting power switch 5 and the ice melting switch 6; obtaining proper ice melting voltage by adjusting the gear of an ice melting transformer voltage-regulating tap switch 11; the system can accurately and automatically melt ice and stop melting ice according to a set value by debugging the monitoring control device 13, the ice melting power switch 5, the ice melting switch 6 and the remote monitoring background 14, the remote monitoring background 14 can correctly display the actual temperature, the humidity, the ice coating thickness, the states of the ice melting power switch 5 and the ice melting switch 6, the ice melting voltage and the ice melting current on site, modify the set value at the background and manually control the division and combination of the ice melting power switch 5 and the ice melting switch 6.
The ground wire adopts the same principle: the live ice-melting ground wire is erected on a tower, and is in a stranded structure by utilizing an overhead ground wire, one or more insulating auxiliary wires and a plurality of steel wires are stranded to form the live ice-melting ground wire, so that the insulating auxiliary wires and the main ground wire are mutually insulated; the ice melting transformer is connected with an operating line and used as a power supply of the ice melting transformer, the ice melting transformer adopts a multi-winding transformer, an ice melting secondary winding adopts a plurality of taps to obtain required ice melting voltage, the secondary winding of the ice melting transformer regulates the voltage of each tap through a tap switch, and is connected with an insulating auxiliary lead of a ground wire to ensure that a proper potential difference exists between a main ground wire and the insulating auxiliary lead; the ice melting switch controls the opening and closing; and the monitoring control system monitors the ambient temperature, the humidity and the icing thickness of the circuit, switches on and off the ice melting switch according to the ambient temperature, the humidity and the icing thickness, and transmits data to the remote ice melting background.
The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention in any form, and all the technical matters of the present invention are to make any simple modification, equivalent change and modification to the above embodiments, and still belong to the protection scope of the present invention.

Claims (8)

1. An electric power line ice melting device, characterized in that: it includes: the system comprises an electrified ice melting wire, an ice melting transformer, an ice melting switch and a monitoring control system;
the live ice-melting lead frame is arranged on a pole tower, and is in a stranded structure of a plurality of strands of small leads by utilizing an overhead lead, and one or more strands of insulating auxiliary leads and the plurality of strands of small leads are stranded to form the live ice-melting lead, so that the insulating auxiliary leads and the main lead are mutually insulated;
the ice melting transformer is connected with the main line in a T mode and used as a power supply of the ice melting transformer, the ice melting transformer adopts an autotransformer or a multi-winding transformer, and a plurality of taps are adopted to obtain required ice melting voltage, wherein the autotransformer regulates the voltage of each tap through a tap changer and is connected with the insulating auxiliary lead of each phase of lead, and a proper potential difference is formed between each phase of main lead and the insulating auxiliary lead so that the main lead and the insulating auxiliary lead form a circulation to generate temperature rise to melt ice;
the ice melting switch controls the opening and closing;
and the monitoring control system monitors the ambient temperature, the humidity and the icing thickness of the circuit, switches on and off the ice melting switch according to the ambient temperature, the humidity and the icing thickness, and transmits data to the remote ice melting background.
2. The power line ice melting apparatus of claim 1, wherein: the ice melting transformer adopts multiple taps to obtain the required ice melting voltage.
3. The power line ice melting apparatus of claim 2, wherein: the ice melting conducting wire is formed by twisting a main conducting wire and an insulating auxiliary conducting wire, and the sectional area of the main conducting wire is the same as the nominal sectional area; the insulation auxiliary conducting wire is a multi-increase part and forms insulation with the main conducting wire.
4. A power line de-icing apparatus according to claim 3, characterized in that: the high-voltage winding of the ice-melting transformer is an auto-coupling ice-melting power supply, and the main power supply forms ice-melting potential difference to melt ice in an electrified manner.
5. The power line ice melting apparatus of claim 4, wherein: the tap changer is a single-phase tap changer, each phase is provided with a multi-gear tap changer, and each phase obtains the required potential difference by adjusting the tap changers respectively.
6. The power line ice melting apparatus of claim 5, wherein: and the temperature, humidity and ice coating sensors are connected with the monitoring control device.
7. The power line ice melting apparatus of claim 6, wherein: the remote ice melting background and the monitoring control device mutually transmit data, and the remote ice melting background remotely monitors and controls the ice melting system.
8. The power line ice melting apparatus of claim 7, wherein: the short circuit connection extends towards two sides of the ice melting transformer respectively and connects the insulation auxiliary lead with the main lead.
CN202121101975.5U 2021-05-21 2021-05-21 Ice melting device for power line Active CN215120054U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202121101975.5U CN215120054U (en) 2021-05-21 2021-05-21 Ice melting device for power line

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Application Number Priority Date Filing Date Title
CN202121101975.5U CN215120054U (en) 2021-05-21 2021-05-21 Ice melting device for power line

Publications (1)

Publication Number Publication Date
CN215120054U true CN215120054U (en) 2021-12-10

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