An aerial connector

Abstract

This invention provides a high-altitude wiring clamp, relating to the field of wiring clamp technology, comprising: a clamping unit, a rotary drive unit, a storage auxiliary unit, and an alarm unit; the rotary drive unit is mounted on the clamping unit; the storage auxiliary unit is mounted on both the clamping unit and the rotary drive unit; the alarm unit is mounted on the storage auxiliary unit and is used to emit an alarm sound when the clamping unit and the rotary drive unit are in use; this invention connects the clamping unit and the rotary drive unit after use, freeing the operator's hands from holding both units, thus facilitating the operator's adjustment of the wiring position; it solves the problem that the operator needs to hold the wiring clamp continuously with one hand, preventing them from handling the wiring position with both hands and affecting the wiring effect.

Description

Technical Field

[0001] This invention belongs to the field of wiring pliers technology, and more specifically, relates to a high-altitude wiring pliers. Background Technology

[0002] High-altitude wiring pliers are a special tool designed for the maintenance of power system substations. The jaws are designed to overcome oxide film, ensuring good contact. The short-term current carrying capacity can reach over 200A, and it has strong overload capacity.

[0003] The high-altitude wiring pliers currently in use still have the following problems: 1. Workers need to hold the wiring pliers with one hand continuously, which makes it impossible for workers to handle the wiring position with both hands, affecting the wiring effect; 2. There is no automatic prompt for workers to carefully connect the wires during wiring, which affects the wiring quality. Summary of the Invention

[0004] This disclosure relates to a high-altitude wiring clamp, which includes a clamping unit, a rotary drive unit, a storage auxiliary unit, and an alarm indicator unit. The clamping unit and rotary drive unit connect after use, allowing the operator to adjust the wiring position without needing to hold them. When the clamping unit and rotary drive unit are in use, the inner sides of storage auxiliary frame a and storage auxiliary frame b are in contact. At this time, the alarm indicator activates, prompting the operator to tighten the clamp carefully, ensuring wiring quality. This solves the problems of operators being unable to handle wiring positions with both hands and the lack of automatic prompts for careful wiring.

[0005] This invention provides a high-altitude wiring clamp, comprising: a wiring clamping unit, a rotary drive unit, a storage auxiliary unit, and an alarm indicator unit; the rotary drive unit is mounted on the wiring clamping unit and is used to drive the wiring clamping unit to move; the storage auxiliary unit is mounted on the wiring clamping unit and the rotary drive unit and is used to assist in storing the wiring clamping unit and the rotary drive unit after use; the alarm indicator unit is mounted on the storage auxiliary unit and is used to emit an alarm sound when the wiring clamping unit and the rotary drive unit are in use.

[0006] In at least some embodiments, the crimping connector unit includes: a crimping connector frame, a crimping connector block a, and a triangular mounting block; the crimping connector block a is fixedly mounted on the crimping connector frame; and the triangular mounting block is fixedly mounted on the crimping connector frame.

[0007] In at least some embodiments, the crimping connector unit further includes: a T-shaped guide frame, a rectangular mounting base, and a crimping connector block b; the T-shaped guide frame is slidably mounted on the triangular mounting block; the rectangular mounting base is fixedly mounted on the left side of the T-shaped guide frame, and the bottom of the rectangular mounting base is in contact with the crimping connector frame; the crimping connector block b is fixedly mounted on the rectangular mounting base.

[0008] In at least some embodiments, the clamping wiring unit further includes: a circular blocking plate a and a return spring a; the circular blocking plate a is fixedly mounted on the T-shaped guide frame; the return spring a is sleeved on the T-shaped guide frame, and the return spring a is located between the triangular mounting block and the circular blocking plate a.

[0009] In at least some embodiments, the rotary drive unit includes: a rotary positioning seat and a circular mounting shaft; there are two rotary positioning seats, and the two rotary positioning seats are fixedly mounted on the clamping wire frame, and each of the two rotary positioning seats has an arc-shaped limiting hole; the circular mounting shaft is rotatably mounted on the two rotary positioning seats.

[0010] In at least some embodiments, the rotary drive unit further includes: a rotary drive handle and a circular limiting rod; the rotary drive handle is fixedly mounted on the outside of the circular mounting shaft, and the left end of the rotary drive handle contacts the T-shaped guide frame; the circular limiting rod is fixedly mounted on the rotary drive handle, and the circular limiting rod is inserted into two arc-shaped limiting holes.

[0011] In at least some embodiments, the storage auxiliary unit includes: an auxiliary storage plate a, an auxiliary storage plate b, an L-shaped storage hook a, and an L-shaped storage hook b; the auxiliary storage plate a is fixedly mounted on the clamping wire frame; the auxiliary storage plate b is fixedly mounted on the rotary drive handle; the L-shaped storage hook a is slidably mounted on the auxiliary storage plate a; and the L-shaped storage hook b is slidably mounted on the auxiliary storage plate b.

[0012] In at least some embodiments, the storage auxiliary unit further includes: a storage auxiliary frame a, a storage auxiliary frame b, an anti-loosening threaded pin, and a polygonal rod; the storage auxiliary frame a is fixedly installed on an L-shaped storage hook a; the storage auxiliary frame b is fixedly installed on an L-shaped storage hook b; the anti-loosening threaded pin is threadedly connected to the storage auxiliary frame b; the polygonal rod is fixedly installed on the storage auxiliary frame a, and the polygonal rod is also slidably connected to the storage auxiliary frame b.

[0013] In at least some embodiments, the storage auxiliary unit further includes: a circular blocking plate b, a return spring b, and a connecting steel wire rope; the circular blocking plate b is fixedly installed on the outer end of the polygonal rod; the return spring b is sleeved on the polygonal rod and is located between the storage auxiliary frame b and the circular blocking plate b; one end of the connecting steel wire rope is fixedly installed on the clamping wire frame, and the other end of the connecting steel wire rope is fixedly installed on the L-shaped storage hook a.

[0014] In at least some embodiments, the alarm notification unit includes: a lithium battery, an alarm indicator, and a control switch; the lithium battery is fixedly mounted on a storage auxiliary frame a; the alarm indicator is fixedly mounted on the storage auxiliary frame a; the control switch is mounted on the storage auxiliary frame a, and the control switch is electrically connected to the lithium battery and the alarm indicator; when the control switch is in a pressed state, the alarm indicator emits an alarm sound.

[0015] Compared with the prior art, the present invention has the following beneficial effects: 1. In this invention, the T-shaped guide frame is slidably mounted on the triangular mounting block, and the rectangular mounting seat is fixedly mounted on the left side of the T-shaped guide frame. The clamping terminal block b is fixedly mounted on the rectangular mounting seat, enabling the T-shaped guide frame to drive the rectangular mounting seat and the clamping terminal block b to slide. Furthermore, the rotary drive handle is fixedly mounted on the outside of the circular mounting shaft, and the left end of the rotary drive handle is in contact with the T-shaped guide frame. When the operator presses the clamping terminal frame and the rotary drive handle with their hand, the rotary drive handle drives the T-shaped guide frame to move, thereby achieving the clamping of the terminal. Furthermore, since the circular blocking plate a is fixedly installed on the T-shaped guide frame, and the return spring a is sleeved on the T-shaped guide frame, and the return spring a is located between the triangular mounting block and the circular blocking plate a, when the operator's hand is separated from the clamping wire frame and the rotary drive handle, the T-shaped guide frame automatically resets under the action of the return spring a; and since the two rotary positioning seats are respectively provided with arc-shaped limiting holes, and the circular limiting rod is fixedly installed on the rotary drive handle, and the circular limiting rod is inserted into the two arc-shaped limiting holes, it plays a limiting role in the rotation range of the rotary drive handle.

[0016] 2. In this invention, since L-shaped storage hook a is slidably installed on auxiliary storage plate a and L-shaped storage hook b is slidably installed on auxiliary storage plate b, when wiring, L-shaped storage hook a and L-shaped storage hook b are separated from their corresponding auxiliary storage plates a and b, and then storage auxiliary frame a and storage auxiliary frame b are pulled outward. After that, storage auxiliary frame b is fitted onto the hanging ring at the chest position of the work clothes. Since the anti-loosening threaded nail is threadedly connected to the storage auxiliary frame b, it plays a limiting role on the hanging ring on the work clothes, preventing the storage auxiliary frame b from falling off the hanging ring on the work clothes and ensuring the connection effect. Furthermore, because one end of the connecting wire rope is fixedly installed on the clamping frame and the other end is fixedly installed on the L-shaped storage hook a, it connects the clamping unit and the rotary drive unit after use, eliminating the need for workers to hold the clamping unit and the rotary drive unit with their hands, thus facilitating the adjustment of the wiring position. Also, because the return spring b is located between the storage auxiliary frame b and the circular stop plate b, and the control switch is installed on the storage auxiliary frame a and electrically connected to the lithium battery and alarm indicator, when the clamping unit and the rotary drive unit are not in use, the inner sides of the storage auxiliary frame a and the storage auxiliary frame b are separated, and the alarm indicator does not work. When the clamping unit and the rotary drive unit are in use, the inner sides of the storage auxiliary frame a and the storage auxiliary frame b are in contact, and the alarm indicator works, prompting workers to tighten the wires carefully, ensuring wiring quality. Attached Figure Description

[0017] To more clearly illustrate the technical solutions of the embodiments of the present invention, the accompanying drawings of the embodiments will be briefly described below.

[0018] The accompanying drawings described below are only related to some embodiments of the invention and are not intended to limit the invention.

[0019] In the attached diagram: Figure 1 A three-dimensional structural schematic diagram of the present invention is shown; Figure 2 The present invention is shown. Figure 1 A schematic diagram of the bottom view structure; Figure 3 A schematic diagram of the structure of the clamping wire unit of the present invention is shown; Figure 4 A schematic diagram of the rotary drive unit of the present invention is shown; Figure 5 The present invention is shown. Figure 1 A schematic diagram of the structure from the main viewpoint; Figure 6 The present invention is shown. Figure 5 A magnified schematic diagram of a portion of region A in the middle; Figure 7 The present invention is shown. Figure 1 A schematic diagram of the structure from the right side perspective; Figure 8 A schematic diagram of the storage auxiliary unit of the present invention is shown; Figure 9 The present invention is shown. Figure 8 A magnified schematic diagram of a portion of region B in the middle; Figure 10 The present invention is shown. Figure 1A magnified schematic diagram of the structure of region C in the middle.

[0020] List of reference numerals in the attached diagram: 100. Crimping terminal unit; 101. Crimping terminal bracket; 102. Crimping terminal block a; 103. Triangular mounting block; 104. T-shaped guide frame; 105. Rectangular mounting base; 106. Crimping terminal block b; 107. Circular blocking plate a; 108. Return spring a; 200. Rotary drive unit; 201. Rotary positioning seat; 2011. Arc-shaped limiting hole; 202. Circular mounting shaft; 203. Rotary drive handle; 204. Circular limiting rod; 300. Storage auxiliary unit; 301. Auxiliary storage board a; 302. Auxiliary storage board b; 303. L-shaped storage hook a; 304. L-shaped storage hook b; 305. Storage auxiliary frame a; 306. Storage auxiliary frame b; 307. Anti-loosening threaded nail; 308. Polygonal rod; 309. Circular blocking plate b; 310. Return spring b; 311. Connecting steel wire rope; 400. Alarm notification unit; 401. Lithium battery; 402. Alarm indicator; 403. Control switch. Detailed Implementation

[0021] To make the objectives, solutions, and advantages of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Unless otherwise stated, the terms used herein have their ordinary meanings in the art. The same reference numerals in the drawings represent the same parts.

[0022] Example: Please refer to Figures 1 to 10 As shown: This invention provides a high-altitude wiring clamp, comprising: a wiring clamping unit 100, a rotary drive unit 200, a storage auxiliary unit 300, and an alarm indicator unit 400; the rotary drive unit 200 is mounted on the wiring clamping unit 100 and is used to drive the wiring clamping unit 100 to move; the storage auxiliary unit 300 is mounted on the wiring clamping unit 100 and the rotary drive unit 200 and is used to assist in storing the wiring clamping unit 100 and the rotary drive unit 200 after use; the alarm indicator unit 400 is mounted on the storage auxiliary unit 300 and is used to emit an alarm sound when the wiring clamping unit 100 and the rotary drive unit 200 are in use.

[0023] In this embodiment of the disclosure, such as Figure 3 , Figure 4 and Figure 6As shown, the crimping connector unit 100 includes: a crimping connector frame 101, a crimping connector block a102, and a triangular mounting block 103; the crimping connector block a102 is fixedly mounted on the crimping connector frame 101; the triangular mounting block 103 is fixedly mounted on the crimping connector frame 101; the crimping connector unit 100 also includes: a T-shaped guide frame 104, a rectangular mounting base 105, and a crimping connector block b106; the T-shaped guide frame 104 is slidably mounted on the triangular mounting block 103; the rectangular mounting base 105 is fixedly mounted on the left side of the T-shaped guide frame 104, and the bottom of the rectangular mounting base 105 is in contact with the crimping connector frame 101; The clamping connector block b106 is fixedly mounted on the rectangular mounting base 105; the clamping connector unit 100 also includes: a circular blocking plate a107 and a return spring a108; the circular blocking plate a107 is fixedly mounted on the T-shaped guide frame 104; the return spring a108 is sleeved on the T-shaped guide frame 104, and the return spring a108 is located between the triangular mounting block 103 and the circular blocking plate a107; the rotary drive unit 200 includes: a rotary positioning seat 201 and a circular mounting shaft 202; there are two rotary positioning seats 201, and the two rotary positioning seats 201 are fixedly mounted on the clamping connector frame 101. Furthermore, each of the two rotating positioning seats 201 has an arc-shaped limiting hole 2011; the circular mounting shaft 202 is rotatably mounted on the two rotating positioning seats 201; the rotating drive unit 200 also includes: a rotating drive handle 203 and a circular limiting rod 204; the rotating drive handle 203 is fixedly mounted on the outside of the circular mounting shaft 202, and the left end of the rotating drive handle 203 contacts the T-shaped guide frame 104; the circular limiting rod 204 is fixedly mounted on the rotating drive handle 203, and the circular limiting rod 204 is inserted into the two arc-shaped limiting holes 2011; the specific function is: because the T-shaped guide frame 104 is slidably mounted on the triangular The rectangular mounting base 105 is fixedly mounted on the left side of the T-shaped guide frame 104, and the clamping terminal block b106 is fixedly mounted on the rectangular mounting base 105, so that the T-shaped guide frame 104 can drive the rectangular mounting base 105 and the clamping terminal block b106 to slide. Since the rotary drive handle 203 is fixedly mounted on the outside of the circular mounting shaft 202, and the left end of the rotary drive handle 203 is in contact with the T-shaped guide frame 104, when the operator presses the clamping terminal frame 101 and the rotary drive handle 203 with his / her hand, the rotary drive handle 203 drives the T-shaped guide frame 104 to move, thereby achieving the clamping of the terminal. Furthermore, since the circular blocking plate a107 is fixedly installed on the T-shaped guide frame 104, and the return spring a108 is sleeved on the T-shaped guide frame 104, and the return spring a108 is located between the triangular mounting block 103 and the circular blocking plate a107, when the operator's hand is separated from the clamping wire frame 101 and the rotary drive handle 203, the T-shaped guide frame 104 automatically resets under the action of the return spring a108; and since the two rotary positioning seats 201 are respectively provided with arc-shaped limiting holes 2011, and the circular limiting rod 204 is fixedly installed on the rotary drive handle 203, and the circular limiting rod 204 is inserted into the two arc-shaped limiting holes 2011, it plays a limiting role in the rotation range of the rotary drive handle 203.

[0024] In this embodiment of the disclosure, such as Figure 5 , Figures 7 to 10As shown, the storage auxiliary unit 300 includes: an auxiliary storage plate a301, an auxiliary storage plate b302, an L-shaped storage hook a303, and an L-shaped storage hook b304; the auxiliary storage plate a301 is fixedly mounted on the clamping wire bracket 101; the auxiliary storage plate b302 is fixedly mounted on the rotating drive handle 203; the L-shaped storage hook a303 is slidably mounted on the auxiliary storage plate a301; the L-shaped storage hook b304 is slidably mounted on the auxiliary storage plate b302; the storage auxiliary unit 300 also includes: a storage auxiliary frame a305, a storage auxiliary frame b306, an anti-loosening threaded nail 307, and a polygonal rod 308; the storage auxiliary frame a305 is fixedly mounted on the L-shaped storage hook a303. 303; storage auxiliary frame b306 is fixedly installed on L-shaped storage hook b304; anti-loosening threaded nail 307 is threadedly connected to storage auxiliary frame b306; polygonal rod 308 is fixedly installed on storage auxiliary frame a305, and polygonal rod 308 is also slidably connected to storage auxiliary frame b306; storage auxiliary unit 300 also includes: circular baffle plate b309, return spring b310 and connecting steel wire rope 311; circular baffle plate b309 is fixedly installed on the outer end of polygonal rod 308; return spring b310 is sleeved on polygonal rod 308, and return spring b310 is located between storage auxiliary frame b306 and circular baffle plate b309; connecting steel wire One end of the rope 311 is fixedly installed on the clamping bracket 101, and the other end of the connecting wire rope 311 is fixedly installed on the L-shaped storage hook a303; the alarm unit 400 includes: a lithium battery 401, an alarm indicator 402, and a control switch 403; the lithium battery 401 is fixedly installed on the storage auxiliary frame a305; the alarm indicator 402 is fixedly installed on the storage auxiliary frame a305; the control switch 403 is installed on the storage auxiliary frame a305, and the control switch 403 is electrically connected to the lithium battery 401 and the alarm indicator 402; when the control switch 403 is in the pressed state, the alarm indicator 402 emits an alarm sound; the specific function is: because the L-shaped hook... Hook a303 is slidably mounted on auxiliary storage plate a301, and L-shaped storage hook b304 is slidably mounted on auxiliary storage plate b302. When wiring, separate L-shaped storage hooks a303 and b304 from their corresponding auxiliary storage plates a301 and b302, then pull storage auxiliary frames a305 and b306 outwards. After that, place storage auxiliary frame b306 on the hanging ring at the chest position of the work clothes. Since the anti-loosening screw 307 is threadedly connected to storage auxiliary frame b306, it plays a limiting role in the hanging ring on the work clothes, preventing storage auxiliary frame b306 from falling off the hanging ring on the work clothes and ensuring the connection effect. Furthermore, since one end of the connecting wire rope 311 is fixedly installed on the clamping wire bracket 101, and the other end of the connecting wire rope 311 is fixedly installed on the L-shaped storage hook a303, it serves to connect the used clamping wire unit 100 and the rotary drive unit 200, allowing the operator to adjust the wiring position without holding the clamping wire unit 100 and the rotary drive unit 200 with both hands; also, since the return spring b310 is located between the storage auxiliary frame b306 and the circular stop plate b309, and the control switch 403 is installed on the storage auxiliary frame a305... The control switch 403 is electrically connected to the lithium battery 401 and the alarm indicator 402. When the tightening unit 100 and the rotary drive unit 200 are not in use, the inner sides of the storage auxiliary frame a305 and the storage auxiliary frame b306 are separated, and the alarm indicator 402 does not work. When the tightening unit 100 and the rotary drive unit 200 are in use, the inner sides of the storage auxiliary frame a305 and the storage auxiliary frame b306 are in contact, and the alarm indicator 402 works, prompting the staff to tighten the wires carefully, thus ensuring the quality of the wiring.

[0025] The specific usage and function of this embodiment are as follows: In use, the L-shaped storage hooks a303 and b304 are separated from the corresponding auxiliary storage plates a301 and b302. Then, the storage auxiliary frames a305 and b306 are pulled outwards. The storage auxiliary frame b306 is then fitted onto the hanging ring at the chest position of the work uniform. The anti-detachment screw 307 is then tightened with a wrench, which limits the hanging ring on the work uniform, preventing the storage auxiliary frame b306 from falling off and ensuring a secure connection. The connecting wire rope 311 connects the used clamping unit 100 and the rotary drive unit 200, allowing the worker to adjust the wiring position without holding the clamping unit 100 and rotary drive unit 200. When the clamping unit 100 and rotary drive unit 200 are not in use, the storage auxiliary frame a305... When the inner side of storage auxiliary frame b305 is separated from the inner side of storage auxiliary frame b306, the alarm indicator 402 is not working. When the wire clamping unit 100 and the rotary drive unit 200 are in use, the inner side of storage auxiliary frame a305 is in contact with the inner side of storage auxiliary frame b306. At this time, the alarm indicator 402 is working, which can remind the staff to tighten the wires carefully and ensure the quality of the wiring. When the staff presses the wire clamping frame 101 and the rotary drive handle 203 with their hands, the rotary drive handle 203 drives the T-shaped guide frame 104 to move, thereby tightening the wires. When the staff's hands are separated from the wire clamping frame 101 and the rotary drive handle 203, the T-shaped guide frame 104 automatically resets under the action of the return spring a108. The setting of two arc-shaped limiting holes 2011 and two circular limiting rods 204 limits the rotation range of the rotary drive handle 203.

[0026] The following points should be noted in this article: 1. The accompanying drawings of the embodiments disclosed herein only relate to the structures involved in the embodiments disclosed herein; other structures can be referred to in general design.

[0027] 2. Where there is no conflict, the embodiments of this disclosure and the features in the embodiments can be combined with each other to obtain new embodiments.

[0028] The above are merely specific embodiments of this disclosure, but the scope of protection of this disclosure is not limited thereto. Any variations or substitutions that can be easily conceived by those skilled in the art within the scope of the technology disclosed in this disclosure should be included within the scope of protection of this disclosure. Therefore, the scope of protection of this disclosure should be determined by the scope of the claims.

Claims

1. A high-altitude wiring clamp, comprising: The device comprises a clamping wire unit (100), a rotary drive unit (200), a storage auxiliary unit (300), and an alarm indicator unit (400); characterized in that the rotary drive unit (200) is mounted on the clamping wire unit (100) and is used to drive the clamping wire unit (100) to move; the storage auxiliary unit (300) is mounted on the clamping wire unit (100) and the rotary drive unit (200) and is used to assist in storing the clamping wire unit (100) and the rotary drive unit (200) after use; and the alarm indicator unit (400) is mounted on the storage auxiliary unit (300) and is used to emit an alarm sound when the clamping wire unit (100) and the rotary drive unit (200) are in use.

2. The high-altitude wiring clamp according to claim 1, characterized in that, The crimping wiring unit (100) includes: a crimping wiring frame (101), a crimping wiring block a (102), and a triangular mounting block (103); the crimping wiring block a (102) is fixedly mounted on the crimping wiring frame (101); the triangular mounting block (103) is fixedly mounted on the crimping wiring frame (101).

3. A high-altitude wiring clamp according to claim 2, characterized in that, The crimping connector unit (100) further includes: a T-shaped guide frame (104), a rectangular mounting base (105), and a crimping connector block b (106); the T-shaped guide frame (104) is slidably mounted on the triangular mounting block (103); the rectangular mounting base (105) is fixedly mounted on the left side of the T-shaped guide frame (104), and the bottom of the rectangular mounting base (105) is in contact with the crimping connector frame (101); the crimping connector block b (106) is fixedly mounted on the rectangular mounting base (105).

4. A high-altitude wiring clamp according to claim 3, characterized in that, The clamping wiring unit (100) further includes: a circular blocking plate a (107) and a return spring a (108); the circular blocking plate a (107) is fixedly installed on the T-shaped guide frame (104); the return spring a (108) is sleeved on the T-shaped guide frame (104), and the return spring a (108) is located between the triangular mounting block (103) and the circular blocking plate a (107).

5. A high-altitude wiring clamp according to claim 3, characterized in that, The rotary drive unit (200) includes: a rotary positioning seat (201) and a circular mounting shaft (202); there are two rotary positioning seats (201), and the two rotary positioning seats (201) are fixedly mounted on the clamping wire frame (101), and the two rotary positioning seats (201) are respectively provided with arc-shaped limiting holes (2011); the circular mounting shaft (202) is rotatably mounted on the two rotary positioning seats (201).

6. A high-altitude wiring clamp according to claim 5, characterized in that, The rotary drive unit (200) further includes a rotary drive handle (203) and a circular limiting rod (204); the rotary drive handle (203) is fixedly installed on the outside of the circular mounting shaft (202), and the left end of the rotary drive handle (203) contacts the T-shaped guide frame (104); the circular limiting rod (204) is fixedly installed on the rotary drive handle (203), and the circular limiting rod (204) is inserted into two arc-shaped limiting holes (2011).

7. A high-altitude wiring clamp according to claim 6, characterized in that, The storage auxiliary unit (300) includes: auxiliary storage plate a (301), auxiliary storage plate b (302), L-shaped storage hook a (303) and L-shaped storage hook b (304); the auxiliary storage plate a (301) is fixedly installed on the clamping wire frame (101); the auxiliary storage plate b (302) is fixedly installed on the rotating drive handle (203); the L-shaped storage hook a (303) is slidably installed on the auxiliary storage plate a (301); the L-shaped storage hook b (304) is slidably installed on the auxiliary storage plate b (302).

8. A high-altitude wiring clamp according to claim 7, characterized in that, The storage auxiliary unit (300) further includes: storage auxiliary frame a (305), storage auxiliary frame b (306), anti-loosening threaded nail (307), and polygonal rod (308); the storage auxiliary frame a (305) is fixedly installed on the L-shaped storage hook a (303); the storage auxiliary frame b (306) is fixedly installed on the L-shaped storage hook b (304); the anti-loosening threaded nail (307) is threadedly connected to the storage auxiliary frame b (306); the polygonal rod (308) is fixedly installed on the storage auxiliary frame a (305), and the polygonal rod (308) is also slidably connected to the storage auxiliary frame b (306).

9. A high-altitude wiring clamp according to claim 8, characterized in that, The storage auxiliary unit (300) further includes: a circular baffle plate (309), a return spring (310), and a connecting wire rope (311); the circular baffle plate (309) is fixedly installed on the outer end of the polygonal rod (308); the return spring (310) is sleeved on the polygonal rod (308), and the return spring (310) is located between the storage auxiliary frame (306) and the circular baffle plate (309); one end of the connecting wire rope (311) is fixedly installed on the clamping wire frame (101), and the other end of the connecting wire rope (311) is fixedly installed on the L-shaped storage hook (303).

10. A high-altitude wiring clamp according to claim 8, characterized in that, The alarm notification unit (400) includes: a lithium battery (401), an alarm notification device (402), and a control switch (403); the lithium battery (401) is fixedly installed on the storage auxiliary frame a (305); the alarm notification device (402) is fixedly installed on the storage auxiliary frame a (305); the control switch (403) is installed on the storage auxiliary frame a (305), and the control switch (403) is electrically connected to the lithium battery (401) and the alarm notification device (402); when the control switch (403) is in the pressed state, the alarm notification device (402) emits an alarm sound.

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