A de-icing device for insulators in a substation

By combining a motor-driven ice-breaking ball with multiple de-icing heads, the problem of cumbersome operation of existing insulator de-icing devices is solved, achieving efficient and accurate insulator de-icing.

CN224502870UActive Publication Date: 2026-07-14YICHUAN SEIKO ENERGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YICHUAN SEIKO ENERGY CO LTD
Filing Date
2025-01-24
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing insulator de-icing devices are cumbersome to operate, causing hand fatigue for operators and making it difficult to strike accurately, thus increasing the difficulty of de-icing.

Method used

A de-icing device for insulators used in substations was designed. It uses a motor-driven connecting rope to drive an ice-breaking ball to repeatedly strike the insulators, and is equipped with multiple de-icing heads to improve the accuracy and efficiency of the striking.

Benefits of technology

By using a motor-driven ice-breaking ball to strike the insulators, the manual labor intensity of operators is reduced, the speed and accuracy of de-icing are improved, and the operation process is simplified.

✦ Generated by Eureka AI based on patent content.

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Abstract

A substation operation insulator deicing device, including installation pole, installation pole's top is equipped with mounting plate, mounting plate's top is equipped with deicing device, the deicing device includes the motor that is located mounting plate's top setting, the output shaft of motor is vertically upward and is equipped with rotating rod on the output shaft of motor, is equipped with the adjusting ring that can move up and down on rotating rod, adjusting ring is equipped with at least one connecting rope, the end of connecting rope is equipped with the ice-breaking ball that removes ice from insulator in the rotating process of rotating rod driven by motor, the bottom of installation pole is equipped with the handle that is gripped for operating personnel, the control switch for controlling motor is equipped with in handle place, the utility model discloses simple and reasonable structure, effectively save the deicing time of operating personnel, reduces the working strength of operating personnel.
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Description

Technical Field

[0001] This utility model relates to the field of insulator de-icing, specifically a de-icing device for insulators used in substation operation. Background Technology

[0002] During winter, power supply maintenance requires de-icing insulators. Existing insulator de-icing rods have a triangular head. The rods are used to strike the frozen insulators to break the ice. However, operators need to hold the rods by hand, which can cause hand fatigue and make it difficult to accurately strike the insulators, thus increasing the difficulty of the de-icing work. Utility Model Content

[0003] The present invention aims to provide a de-icing device for insulators used in substations to help operators perform de-icing work on insulators.

[0004] To solve the above technical problems, the specific solution adopted by this utility model is as follows:

[0005] A de-icing device for insulators used in substation operation includes a mounting rod, a mounting plate at the top of the mounting rod, and a de-icing device at the top of the mounting plate. The de-icing device includes a motor located at the top of the mounting plate, with the motor's output shaft pointing vertically upward and a rotating rod on the output shaft. The rotating rod has an adjusting ring that can move up and down, and the adjusting ring has at least one connecting rope. The end of the connecting rope has an ice-breaking ball that de-ices the insulator during the rotation of the rotating rod driven by the motor. The bottom of the mounting rod has a handle for the operator to grip, and a control switch for controlling the motor is located at the handle.

[0006] The mounting rod and the mounting plate are connected by a spring. The bottom of the mounting plate is symmetrically provided with a rotating frame. The mounting rod is provided with a rotating shaft, and the rotating frame is provided with a rotating hole for the rotating shaft to pass through.

[0007] The ice-breaking ball is equipped with an ice-breaking head for removing ice, and the end of the ice-breaking head has a triangular structure.

[0008] The side of the adjusting ring is provided with a fixing hole that extends through it, and an adjusting bolt for fixing the position of the adjusting ring is installed in the fixing hole.

[0009] The mounting plate has a mounting bracket on its side. The mounting bracket has a C-shaped structure. The top of the mounting bracket is located above the rotating rod. The upper end of the mounting bracket is provided with a first de-icing head for de-icing.

[0010] The mounting bracket is equipped with a second de-icing head with its tip pointing downwards, which is used to break up ice blocks on the top of the insulator.

[0011] Due to the adoption of the above technical solution, this utility model has the following beneficial effects:

[0012] By installing a mounting plate on the mounting rod and a motor on the mounting plate, the motor drives the connecting rope to repeatedly strike the insulator with an ice-breaking ball, thereby improving the accuracy of striking the insulator. The operator only needs to hold the mounting rod to complete the de-icing work. Furthermore, the first and second de-icing heads on the mounting frame can help the operator to tap the ice blocks to break them, making it easier for the ice-breaking ball to strike. This utility model has a simple and reasonable structure, effectively saving the operator's de-icing time and reducing the operator's workload. Attached Figure Description

[0013] Figure 1 This is a schematic diagram of the structure of this utility model;

[0014] Figure 2 This is an enlarged schematic diagram of point A of the present invention;

[0015] Figure 3 This is a schematic diagram of the adjusting ring structure of this utility model;

[0016] Figure 4 This is a schematic diagram of the ice-breaking ball structure of this utility model;

[0017] Reference numerals: 1. Mounting rod; 2. Stop bar; 3. Control switch; 4. Rotating shaft; 5. Rotating frame; 6. Spring; 7. Mounting plate; 8. Mounting bracket; 10. First de-icing head; 11. Second de-icing head; 12. Motor; 13. Rotating rod; 14. Adjusting ring; 15. Connecting rope; 16. Ice-breaking ball; 17. Ice-breaking head; 18. Adjusting bolt. Detailed Implementation

[0018] like Figures 1-4 As shown, a de-icing device for insulators used in substation operation includes a mounting rod 1, a mounting plate 7 at the top of the mounting rod 1, and a de-icing device at the top of the mounting plate 7. The de-icing device includes a motor 12 located at the top of the mounting plate 7. The output shaft of the motor 12 is vertically upward, and a rotating rod 13 is mounted on the output shaft of the motor 12. An adjusting ring 14 that can move up and down is mounted on the rotating rod 13. The adjusting ring 14 is provided with at least one connecting rope 15. The end of the connecting rope 15 is provided with an ice-breaking ball 16 that de-ices the insulator during the rotation of the rotating rod 13 driven by the motor 12. The bottom of the mounting rod 1 is provided with a handle for the operator to grip. The handle is provided with a control switch 3 for controlling the motor 12. By turning on the motor 12, the connecting rope 15 is driven to rotate. During the rapid rotation of the connecting rope 15, the ice-breaking ball 16 quickly de-ices the insulator, saving the operator the traditional method of knocking the insulator for de-icing.

[0019] The mounting rod 1 and the mounting plate 7 are connected by a spring 6. The bottom of the mounting plate 7 is symmetrically provided with a rotating frame 5. The mounting rod 1 is provided with a rotating shaft 4. The rotating frame 5 is provided with a rotating hole for the rotating shaft 4 to pass through. By setting the spring 6, the mounting plate 7 can be moved repeatedly, thereby repeatedly striking the insulator during the ice breaking process. In conjunction with the first de-icing head 10, it can achieve a better de-icing effect.

[0020] The ice-breaking ball 16 is equipped with an ice-breaking head 17 for removing ice. The end of the ice-breaking head 17 has a triangular structure, and the triangular ice-breaking head 17 can effectively break thicker ice blocks.

[0021] The side of the adjusting ring 14 is provided with a fixing hole that extends through it. An adjusting bolt 18 for fixing the position of the adjusting ring 14 is installed in the fixing hole. The ice-breaking position of the ice-breaking ball 16 is adjusted by moving the adjusting ring 14, and the adjusting ring 14 is fixed by adjusting the adjusting bolt 18.

[0022] The mounting plate 7 has a mounting bracket 8 on its side. The mounting bracket 8 has a C-shaped structure. The top of the mounting bracket 8 is located above the rotating rod 13. The upper end of the mounting bracket 8 is provided with a first de-icing head 10 for de-icing. The first de-icing head 10 can be used to break ice or to press against the insulator to save the operator's strength, thereby breaking ice through the ice-breaking ball 16.

[0023] The mounting bracket 8 is provided with a second de-icing head 11 with its tip pointing downwards. The second de-icing head 11 is used to break the ice on the top of the insulator. Since it is not convenient to knock the top of the insulator horizontally, the second de-icing head 11 is set to de-ice the top of the insulator.

[0024] The method of using this utility model is briefly described as follows:

[0025] During de-icing, the operator uses the handheld mounting rod 1 to remove ice, and uses the second de-icing head 11 to strike the insulator to remove ice. By pressing the second de-icing head 11 against the insulator, the operator saves effort. Then, by pressing the control switch 3, the operator starts the motor 12. During operation, the motor 12 drives the adjusting ring 14 to rotate, which in turn drives the connecting rope 15 to rotate. The connecting rope 15 drives the ice-breaking ball 16 to repeatedly strike the insulator, thereby knocking off the ice. This greatly saves the operator's de-icing speed. In addition, the spring 6 at the bottom of the mounting plate 7 can make the mounting plate 7 move repeatedly, so that the second de-icing head 11 can repeatedly strike the insulator, thereby improving the de-icing effect.

Claims

1. A de-icing device for insulators used in substation operation, characterized in that: The device includes a mounting rod (1), a mounting plate (7) on the top of the mounting rod (1), and a de-icing device on the top of the mounting plate (7). The de-icing device includes a motor (12) located on the top of the mounting plate (7). The output shaft of the motor (12) is vertically upward and a rotating rod (13) is provided on the output shaft of the motor (12). An adjusting ring (14) that can move up and down is provided on the rotating rod (13). The adjusting ring (14) is provided with at least one connecting rope (15). The end of the connecting rope (15) is provided with an ice-breaking ball (16) that de-ices the insulator during the rotation of the rotating rod (13) driven by the motor (12). The bottom of the mounting rod (1) is provided with a handle for the operator to grip. A control switch (3) for controlling the motor (12) is provided at the handle.

2. The de-icing device for insulators used in substation operation according to claim 1, characterized in that: The mounting rod (1) is connected to the mounting plate (7) by a spring (6). The bottom of the mounting plate (7) is symmetrically provided with a rotating frame (5). The mounting rod (1) is provided with a rotating shaft (4). The rotating frame (5) is provided with a rotating hole for the rotating shaft (4) to pass through.

3. The de-icing device for insulators used in substation operation according to claim 1, characterized in that: The ice-breaking ball (16) is provided with an ice-breaking head (17) for de-icing, and the end of the ice-breaking head (17) has a triangular structure.

4. The de-icing device for insulators used in substation operation according to claim 1, characterized in that: The side of the adjusting ring (14) is provided with a fixing hole that extends through it, and an adjusting bolt (18) for fixing the position of the adjusting ring (14) is installed in the fixing hole.

5. The de-icing device for insulators used in substation operation according to claim 1, characterized in that: The mounting plate (7) has a mounting bracket (8) on its side. The mounting bracket (8) has a C-shaped structure. The top of the mounting bracket (8) is located above the rotating rod (13). The upper end of the mounting bracket (8) is provided with a first de-icing head (10) for de-icing.

6. The de-icing device for insulators used in substation operation according to claim 5, characterized in that: The mounting bracket (8) is provided with a second de-icing head (11) with its tip pointing downwards at the top. The second de-icing head (11) is used to break the ice on the top of the insulator.