Grounding wire positioning management device capable of preventing closing
By designing a grounding wire positioning and management device, which uses an infrared transmitter and controller to monitor the status of the grounding wire and prevent closing operations, the problem of low efficiency in traditional grounding wire management is solved. This enables safe and rapid positioning and management of the grounding wire, ensuring the safe operation of the power system.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANDONG ANXIN POWER OPERATION & MAINTENANCE CO LTD
- Filing Date
- 2025-05-15
- Publication Date
- 2026-06-09
AI Technical Summary
Traditional grounding wire management relies on manual recording and on-site inspection, which is inefficient, prone to omissions and errors, and can lead to the loss or damage of grounding wires. It is also difficult to locate them quickly, affecting maintenance work and the safe operation of equipment.
Design a grounding wire positioning and management device comprising an insulating base, a supporting base plate, a protective cover, an infrared transmitter, a controller, communication signal components, and a GPS receiver. The infrared transmitter monitors the status of the grounding wire, the controller sends a prohibition signal to prevent closing the circuit, and the GPS receiver locates the position of the grounding wire, ensuring the safe use and rapid positioning of the grounding wire.
It enables real-time monitoring of the grounding wire status and automatic prevention of closing operations, preventing electrical accidents, improving management efficiency, and ensuring the safe and stable operation of the power system.
Smart Images

Figure CN224342926U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of power system safety management technology, specifically a grounding wire positioning management device that can prevent the circuit breaker from closing. Background Technology
[0002] In the daily operation and maintenance of power systems, grounding wires are critical equipment for ensuring the safety of workers. When inspecting or maintaining electrical equipment, it is necessary to correctly connect the grounding wire to the equipment to conduct any induced current or residual charge into the earth, thus preventing electric shock accidents.
[0003] However, there are many problems with the current management of grounding wires. On the one hand, after maintenance work is completed, the grounding wire may not be removed in time due to negligence of the staff. If the circuit is closed at this time, it will cause a serious electrical accident, which will not only damage electrical equipment, but also easily lead to personal injury and power outages, posing a great threat to the safe and stable operation of the power system.
[0004] Traditional grounding wire management mainly relies on manual recording and on-site inspection. This method is inefficient, prone to omissions and errors, and cannot meet the high safety management requirements of modern power systems. Furthermore, due to practical management issues, grounding wires are prone to being lost or damaged by external forces. Traditional management methods make it difficult to quickly locate lost grounding wires, affecting subsequent maintenance work arrangements and the safe operation of equipment. Utility Model Content
[0005] The purpose of this utility model is to provide a grounding wire positioning and management device that can prevent the circuit breaker from closing, so as to solve the problem mentioned in the background art that the traditional grounding wire management method mainly relies on manual recording and on-site inspection. This method is inefficient and prone to omissions and errors. Due to actual management problems, grounding wires are prone to being lost or damaged by external forces. The traditional management method is difficult to quickly locate lost grounding wires, which affects the subsequent maintenance work and the safe operation of equipment.
[0006] To achieve the above objectives, this utility model provides the following technical solution: a grounding wire positioning management device that can prevent the circuit breaker from closing, including an insulating base, which is configured as a sheet structure, a supporting base plate is installed at the bottom end of the insulating base, and a protective cover is installed at the top end of the insulating base. The insulating base, the supporting base plate and the protective cover constitute an outer shell structure that wraps the grounding wire and the positioning device.
[0007] The insulating base is provided with a strip slide rail on its side wall, and a displacement slider is slidably connected inside the slide rail of the insulating base. The insulating base and the supporting base plate have a circular opening structure inside, and an insulating isolation block is installed at the upper end of the insulating base. The insulating isolation block is set as an I-shaped structure.
[0008] The insulating base has two circular openings inside, and an insulating ring is installed at the upper end of the circular opening. Infrared transmitters are symmetrically arranged at the upper end of the insulating rings. The infrared transmitters are connected to a signal transmitter via electrical signals, and the signal transmitters are connected to a controller. The controller is installed inside the insulating block and is connected to communication signal components, a battery, a positioning tracker, and a GPS receiver via electrical signals.
[0009] By adopting the above technical solution, it is easy to provide a corresponding protective structure for the grounding wire, so as to avoid the loss or damage of the grounding wire.
[0010] Preferably, the upper end of the support base plate is provided with a rod structure that penetrates the insulating base, and the bottom end of the insulating base is provided with a groove that engages with the support base plate, and the upper end of the insulating base is provided with a groove that engages with the protective cover.
[0011] By adopting the above technical solution, the device can be easily adjusted and installed to accommodate different heights, with the support base plate and the insulating base working together.
[0012] Preferably, the upper end of the insulating block has a strip-shaped hole, and a controller is installed inside the strip-shaped hole of the insulating block, and an insulating cover is placed on the upper end of the controller.
[0013] By adopting the above technical solution, a strip hole is opened in the insulating block to facilitate the installation and processing of the controller.
[0014] Preferably, a communication signal component is provided above the controller, and the communication signal component is placed on the upper end of the protective cover. A circular opening is provided inside the protective cover, and the controller is connected to a signal transmitter and an infrared transmitter.
[0015] By adopting the above technical solution, communication signal components are configured to facilitate information communication and subsequent maintenance.
[0016] Preferably, a second protective cover is placed inside the circular opening of the first protective cover, and the second protective cover is aligned with the circular opening of the insulating base.
[0017] By adopting the above technical solution, the circular opening at the upper end of the protective cover is aligned with the circular opening of the insulating base.
[0018] Preferably, a battery and a positioning tracker are installed on the upper surface of the protective cover, and the battery is connected to the positioning tracker and the GPS receiver, and the GPS receiver is installed on one side wall of the protective cover.
[0019] Using the above technical solution, a battery located at the upper end of the protective cover provides an installation structure for the positioning tracker and GPS receiver.
[0020] Preferably, the GPS receiver is electrically connected to the communication signal components, the battery, and the positioning tracker, and the communication signal components receiver controller, the positioning tracker, and the GPS receiver are signal connected.
[0021] By adopting the above technical solution, the device position can be accurately located through the cooperation between electronic components, which facilitates the determination of the device position in the later stage.
[0022] Compared with the prior art, the beneficial effects of this utility model are: the grounding wire positioning management device that can prevent the circuit breaker from closing:
[0023] 1. The device as a whole can monitor the status of the grounding wire in real time by setting an infrared transmitter on the upper end of the insulation ring. Once the grounding wire is detected to be connected, the signal is transmitted to the controller through the signal transmitter. The controller then sends a prohibition signal for closing the circuit breaker through the communication signal components to prevent the closing operation and avoid electrical accidents caused by negligence in closing the circuit breaker with the grounding wire connected, thus ensuring the safe operation of the power system.
[0024] 2. The device consists of an outer shell structure made up of an insulating base, a supporting base plate, and a protective cover, as well as internal components such as insulating isolation blocks and insulating rings. It can effectively isolate electrical equipment from the outside world, prevent leakage and electric shock accidents, and ensure the safety of personnel and equipment. The interlocking connection between the components enhances the sealing and stability of the device, making it adaptable to various working environments. The strip slide rails and displacement sliders on the side wall of the insulating base facilitate the installation and adjustment of the device in different positions. The layout of the components of the device is reasonable, and the internal wiring connections are clear, which facilitates maintenance and repair, and reduces the difficulty of use and maintenance costs.
[0025] 3. The device is also equipped with a GPS receiver and a positioning tracker, which can obtain the precise location information of the device and the grounding wire in real time. The location data is transmitted to relevant equipment through communication signal components, which facilitates quick location by the staff when the grounding wire is lost or its location needs to be found. This reduces the impact of equipment loss on maintenance work and improves management efficiency. The device's battery provides stable power to the various electronic components, ensuring the continuous normal operation of the infrared transmitter, signal transmitter, controller, communication signal components, positioning tracker, and GPS receiver, thus ensuring the stability and reliability of the device's functions. Attached Figure Description
[0026] Figure 1 This is a schematic diagram of the overall external three-dimensional structure of this utility model;
[0027] Figure 2 This is a schematic diagram of the overall disassembled three-dimensional structure of this utility model;
[0028] Figure 3 This is a schematic diagram of the overall internal side section of the present invention.
[0029] Figure 4 This is a schematic diagram of the overall internal three-dimensional structure of this utility model;
[0030] Figure 5 This is a three-dimensional structural diagram of the insulated base and supporting base plate of this utility model.
[0031] Figure 6 This is a three-dimensional structural diagram showing the disassembled communication signal components and protective cover of this utility model.
[0032] In the diagram: 1. Insulating base; 2. Support base plate; 3. Displacement slider; 4. Insulating isolation block; 5. Insulating cover; 6. Controller; 7. Signal transmitter; 8. Infrared transmitter; 9. Insulating ring; 10. Protective cover one; 11. Communication signal components; 12. Battery; 13. Positioning tracker; 14. GPS receiver; 15. Protective cover two. Detailed Implementation
[0033] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0034] Please see Figures 1-6 This utility model provides a technical solution: a grounding wire positioning management device that can prevent the circuit breaker from closing, including an insulating base 1, a supporting base plate 2, a displacement slider 3, an insulating isolation block 4, an insulating cover 5, a controller 6, a signal transmitter 7, an infrared transmitter 8, an insulating ring 9, a protective cover one 10, communication signal components 11, a storage battery 12, a positioning tracker 13, a GPS receiver 14, and a protective cover two 15;
[0035] Among them, the insulating base 1 is configured as a sheet structure, the bottom end of the insulating base 1 is equipped with a supporting base plate 2, and the top end of the insulating base 1 is equipped with a protective cover 10. The insulating base 1, the supporting base plate 2 and the protective cover 10 constitute the outer shell structure for wrapping the grounding wire and the positioning equipment.
[0036] The insulating base 1 has a strip-shaped slide rail on its side wall, and a displacement slider 3 is slidably connected in the slide rail of the insulating base 1. The insulating base 1 and the supporting base plate 2 have a circular opening structure inside. An insulating isolation block 4 is installed on the upper end of the insulating base 1, and the insulating isolation block 4 is set as an I-shaped structure. The supporting base plate 2 has a rod structure that penetrates the insulating base 1 on its upper end. The bottom end of the insulating base 1 has a groove that engages with the supporting base plate 2. The upper end of the insulating base 1 has a groove that engages with the protective cover 10. The upper end of the insulating isolation block 4 has a strip-shaped hole, and a controller 6 is installed in the strip-shaped hole of the insulating isolation block 4. An insulating cover 5 is placed on the upper end of the controller 6. A communication signal component 11 is set above the controller 6. The communication signal component 11 is placed on the upper end of the protective cover 10. A circular opening is opened in the protective cover 10. The controller 6 is connected to the signal transmitter 7 and the infrared transmitter 8.
[0037] Referring to the attached diagrams in the instruction manual Figures 1-6 As shown, in use, the insulating base 1, the supporting base plate 2, and the displacement slider 3 are stacked and installed. In use, the position of the displacement slider 3 on the strip rail on the side wall of the insulating base 1 is adjusted. As the bolts pass through, it connects to the ground, thereby restricting the insulating base 1. During installation, the rod structure at the upper end of the supporting base plate 2 is aligned with the groove at the bottom end of the insulating base 1 and they are snapped together to complete the bottom assembly. The height between the insulating base 1 and the supporting base plate 2 is adjusted according to the height of the grounding wire. At this time, the circular opening structure inside the insulating base 1 and the supporting base plate 2 are aligned to place the grounding wire.
[0038] Before use, install the controller 6 into the strip-shaped hole at the top of the insulating block 4. By placing the insulating cover 5 on the top of the controller 6, the controller 6 is insulated and protected. Then, install the insulating block 4 containing the controller 6 onto the top of the insulating base 1. The insulating rings 9 with two circular openings inside the insulating base 1 assist in limiting the grounding wire. The infrared transmitters 8 symmetrically installed on the top of the insulating rings 9 are used to detect the position of the grounding wire. When in use, the infrared transmitters 8 send signals to the signal transmitters 7 for monitoring the position of the grounding wire.
[0039] The insulating base 1 has two circular openings inside, and an insulating ring 9 is installed at the upper end of each circular opening. Infrared transmitters 8 are symmetrically arranged at the upper end of the insulating rings 9. The infrared transmitters 8 are connected to a signal transmitter 7 via electrical signals, and the signal transmitter 7 is connected to a controller 6. The controller 6 is installed inside the insulating block 4, and is connected to communication signal components 11, a battery 12, a positioning tracker 13, and a GPS receiver 14 via electrical signals. A second protective cover 15 is placed inside the circular opening of the first protective cover 10. The protective cover 15 is aligned with the circular opening of the insulating base 1. The upper surface of the protective cover 10 is equipped with a battery 12 and a positioning tracker 13. The battery 12 is connected to the positioning tracker 13 and the GPS receiver 14. The GPS receiver 14 is installed on the side wall of the protective cover 10. The GPS receiver 14 is electrically connected to the communication signal component 11, the battery 12 and the positioning tracker 13. The communication signal component 11 receives signals from the controller 6, the positioning tracker 13 and the GPS receiver 14.
[0040] Referring to the attached diagrams in the instruction manual Figures 1-6 As shown, a GPS receiver 14 is installed on the side wall of the protective cover 10, and a battery 12 and a positioning tracker 13 are installed on the upper surface of the protective cover 10, completing the electrical signal connection with other components. Simultaneously, a communication signal component 11 is placed on the upper part of the protective cover 10, ensuring normal signal connection with the controller 6, the positioning tracker 13, and the GPS receiver 14. During the use of the grounding wire, the GPS receiver 14 receives satellite signals in real time to obtain the device's location information, and the positioning tracker 13 also assists in monitoring the device's dynamic position. This location information is transmitted to the controller 6 via electrical signals and then sent out by the communication signal component 11. Operators can view the real-time position of the grounding wire through the receiving device. After the components on the protective cover 10 are installed, the protective cover 10 is aligned with the groove on the upper end of the insulating base 1 and engaged. Figures 2-4 As shown, the second protective cover 15 is then placed inside the circular opening of the first protective cover 10, and aligned with the circular opening of the insulating base 1, so that the grounding wire can be inserted. When the infrared transmitter 8 detects that the grounding wire is connected, the controller 6 will send a prohibition signal to the relevant closing control equipment through the communication signal component 11 to prevent the closing operation and prevent the situation of closing with the grounding wire.
[0041] Working principle: When using this grounding wire positioning management device that can prevent closing, slide the displacement slider 3 into the slide rail on the side wall of the insulating base 1 for easy subsequent position adjustment. Insert the rod structure of the supporting base plate 2 into the groove at the bottom of the insulating base 1 to complete the bottom connection. Align the internal circular opening to place the grounding wire. Then, place the controller 6 into the slotted hole of the insulating isolation block 4. Install the insulating ring 9 on the upper end of the circular opening of the insulating base 1, and symmetrically install the infrared transmitter 8 on its upper end. Connect the signal transmitter 7 to the infrared transmitter 8 and the controller 6. Install the GPS receiver 14 on the side wall of the protective cover 10, and install the battery 12 and positioning tracker 13 on the upper surface, and complete the electrical signal connection. At the same time, place the communication signal component 11 to ensure that it is connected to the relevant components. During maintenance, the grounding wire is passed through the circular opening of the insulating base 1 and the supporting base plate 2. The infrared transmitter 8 detects the grounding wire status and transmits it to the controller 6 via the signal transmitter 7. If the grounding wire connection is detected, the controller 6 sends a prohibition signal through the communication signal component 11 to prevent closing. During use, the GPS receiver 14 and the positioning tracker 13 obtain location information, which is sent by the controller 6 through the communication signal component 11 for the staff to check. The protective cover 10 is snapped onto the insulating base 1, and then the protective cover 2 15 is inserted into the circular opening of the protective cover 10, aligning with the circular opening of the insulating base 1. After maintenance, the grounding wire is removed. The infrared transmitter 8 detects the change, and the controller 6 no longer sends the prohibition signal, allowing closing, thus increasing the overall practicality.
[0042] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A grounding wire positioning management device capable of preventing circuit breaker closing, comprising: An insulating base (1) is configured as a sheet structure. A supporting base plate (2) is installed at the bottom of the insulating base (1), and a protective cover (10) is installed at the top of the insulating base (1). The insulating base (1), the supporting base plate (2), and the protective cover (10) constitute the outer shell structure for wrapping the grounding wire and the positioning device. The features are as follows: the side wall of the insulating base (1) is provided with a strip slide rail, and a displacement slider (3) is slidably connected in the slide rail of the insulating base (1); the insulating base (1) and the supporting base plate (2) are provided with a circular opening structure; and an insulating isolation block (4) is installed on the upper end of the insulating base (1); and the insulating isolation block (4) is set as an I-shaped structure. The insulating base (1) has two circular openings inside, and an insulating ring (9) is installed on the upper end of the circular opening of the insulating base (1). An infrared transmitter (8) is symmetrically arranged on the upper end of the insulating ring (9). The infrared transmitter (8) is connected to the signal transmitter (7) via an electrical signal. The signal transmitter (7) is connected to the controller (6). The controller (6) is installed inside the insulating isolation block (4). The controller (6) is connected to the communication signal component (11), the battery (12), the positioning tracker (13), and the GPS receiver (14) via an electrical signal.
2. The grounding wire positioning and management device capable of preventing closing the circuit breaker according to claim 1, characterized in that: The upper end of the support base plate (2) is provided with a rod structure that penetrates the insulating base (1), and the bottom end of the insulating base (1) is provided with a groove that engages with the support base plate (2), and the upper end of the insulating base (1) is provided with a groove that engages with the protective cover (10).
3. A grounding wire positioning and management device capable of preventing closing the circuit breaker according to claim 1, characterized in that: The insulating block (4) has a strip-shaped hole at its upper end, and a controller (6) is installed inside the strip-shaped hole of the insulating block (4), and an insulating cover (5) is placed on the upper end of the controller (6).
4. A grounding wire positioning management device capable of preventing closing of the circuit breaker according to claim 1, characterized in that: A communication signal component (11) is provided above the controller (6), and the communication signal component (11) is placed on the upper end of the protective cover (10). A circular opening is provided inside the protective cover (10). The controller (6) is connected to the signal transmitter (7) and the infrared transmitter (8).
5. A grounding wire positioning and management device capable of preventing closing the circuit breaker according to claim 1, characterized in that: The protective cover one (10) has a protective cover two (15) placed inside its circular opening, and the protective cover two (15) is aligned with the circular opening of the insulating base (1).
6. A grounding wire positioning and management device capable of preventing closing the circuit breaker according to claim 1, characterized in that: A battery (12) and a location tracker (13) are installed on the upper surface of the protective cover (10), and the battery (12) is connected to the location tracker (13) and the GPS receiver (14), and the GPS receiver (14) is installed on the side wall of the protective cover (10).
7. A grounding wire positioning and management device capable of preventing closing the circuit breaker according to claim 1, characterized in that: The GPS receiver (14) is electrically connected to the communication signal component (11), the battery (12) and the positioning tracker (13), and the communication signal component (11) is connected to the controller (6), the positioning tracker (13) and the GPS receiver (14).