CN218923720U - Electric power safety pole climbing device - Google Patents

Abstract

The utility model discloses an electric power safety pole climbing device, and relates to the technical field of electric power engineering. The utility model comprises a bent rod, a first bearing component and a second bearing component, wherein five first bearing components are arranged at the arc-shaped part of one end of the bent rod in a penetrating way, and one second bearing component is arranged at the arc-shaped part of the other end of the bent rod in a penetrating way; the first bearing assembly comprises a first bearing rod and a first fastener; the first bearing rod movably passes through the first through hole on the bent rod and is locked by the first fastening piece, and the first bearing rod is provided with a first slotted hole for the first fastening piece to pass through. According to the pole climbing device, the plurality of adjustable first bearing assemblies are arranged, so that the pole climbing device can be suitable for round poles and square poles, the first bearing assemblies are telescopic and adjustable in direction, the pole climbing device can be suitable for poles with different thickness, and the problem that the existing pole climbing device is difficult to be suitable for poles with different specifications.

Description

An electric safety pole climbing device

technical field

The utility model belongs to the technical field of electric power engineering, in particular to an electric safety pole climbing device.

Background technique

Electric power engineering refers to projects related to the production, transmission and distribution of electric energy. In a broad sense, it also includes projects that use electricity as power and energy in various fields. During electric power construction, pole climbers are used to facilitate staff Electricity construction. However, the existing pole climbers still have the following disadvantages in actual use: the existing pole climbers have poor adjustability, are difficult to adapt to the use of utility poles of different specifications, and can only be applied to circular utility poles. It is easy to separate between the climbing device and the electric pole, and the safety is also insufficient. Therefore, the existing pole climbers cannot meet the needs in actual use, so an improved technology is urgently needed on the market to solve the above problems.

Utility model content

The purpose of this utility model is to provide a kind of electrical safety pole climber, by setting a plurality of adjustable first load-bearing components, the pole climber can adapt to the use of round utility poles and square utility poles, and the first bearing The force component is scalable and adjustable in direction, so that it can be adapted to the use of electric poles of different thicknesses, and solves the problem that the existing pole climbing device is difficult to adapt to the use of electric poles of different specifications.

In order to solve the problems of the technologies described above, the utility model is achieved through the following technical solutions:

The utility model relates to an electric safety rod climbing device, which comprises a curved rod, a first load-bearing component and a second load-bearing component. Five first load-bearing components are arranged through the arc-shaped part of one end of the curved rod. A second load-bearing component is provided through the arc portion of the other end.

The first load-bearing assembly includes a first load-bearing rod and a first fastener; the first load-bearing rod moves through the first through hole on the bent rod, and the two are locked by the first fastener, and the second A bearing rod is provided with a first slot through which the first fastener passes.

The second load-bearing component includes a second load-bearing rod and a second fastener; the second load-bearing rod moves through the second through hole on the bent rod, and the two are locked by the second fastener, and the second load-bearing rod The second bearing rod is provided with a second slot hole through which the second fastener passes.

Further, the width of the first through hole is set to be three times the width of the first bearing rod. In order to facilitate the adjustment of the orientation of the first bearing rod.

Further, the first load-bearing component also includes a first U-shaped frame and a first cylinder; the first U-shaped frame is fixed on the inner end of the first load-bearing rod, and the first U-shaped frame is rotatably provided with a first cylinder , the fixed sleeve on the first cylinder is provided with a first rubber sleeve.

Further, the width of the second through hole is equivalent to the width of the second bearing rod.

Further, the second load-bearing assembly also includes a second U-shaped frame, a second column, a pedal and a buckle; the second U-shaped frame is fixed on the inner end of the second load-bearing rod, and the second U-shaped frame is rotated inside There is a second cylinder, and the second cylinder is provided with a second rubber sleeve on the fixed sleeve; the pedal is fixed on the outer end of the second bearing rod, and the buckle is arranged on the pedal.

Further, when the pole climber is applied on a circular utility pole, the five first load-bearing components are adjusted to be evenly distributed along the circumference of the circular utility pole, and abut against the cylindrical surface of the circular utility pole.

Further, when the pole climber is applied on a square utility pole, adjust the two second load-bearing components on the left side to the two sides of the left corner of the square utility pole, and adjust the two second load-bearing components on the right side to the square On both sides of the right corner of the utility pole, adjust the second load-bearing component in the middle to abut against the back of the square utility pole.

The utility model has the following beneficial effects:

1. The utility model is equipped with a plurality of adjustable first load-bearing components, so that the pole climber can adapt to the use of round utility poles and square utility poles, so the universality is better, and through a plurality of first bearing components Force components wrap around utility poles. It makes it difficult to separate the pole climbing device from the utility pole, and the safety is greatly improved. When the pole climbing device is applied on a circular utility pole, the five first load-bearing components are adjusted to the circumference of the circular utility pole Just distribute it evenly. When the pole climber is applied on a square utility pole, adjust the two second load-bearing components on the left to the two sides of the left corner of the square utility pole, and adjust the two second load-bearing components on the right side to the left corner of the square utility pole. Adjust to both sides of the right corner of the square utility pole, and adjust the second load-bearing component in the middle to abut against the back of the square utility pole.

2. The utility model makes the first load-bearing rod stretchable and adjustable in direction by setting the first through hole, the first load-bearing rod, the first fastener and the first slot hole, so that the first load-bearing component can Adapting to the use requirements of circular utility poles with different thicknesses, the first load-bearing component can adapt to the use requirements of square utility poles with different thicknesses and shapes.

3. The utility model adjusts the length of the second load-bearing rod by setting the second through hole, the second load-bearing rod, the second fastener and the second slot hole, so that it can adapt to the use of the first load-bearing component, and The design of the two second cylinders of the second load-bearing component enables them to fit well with both the plane and the cylinder.

Description of drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the following will briefly introduce the accompanying drawings required for the description of the embodiments. Obviously, the accompanying drawings in the following description are only some embodiments of the present invention. For those skilled in the art, other drawings can also be obtained based on these drawings without creative effort.

Figure 1 is a three-dimensional schematic diagram of the overall structure;

Fig. 2 is a structural schematic diagram of the bent rod and the first load-bearing component;

Fig. 3 is a schematic structural diagram of the second load-bearing component;

Fig. 4 is a schematic diagram of use on a circular utility pole;

Fig. 5 is a schematic diagram of use on a square utility pole.

In the accompanying drawings, the list of parts represented by each label is as follows:

1. Bending rod; 2. The first load-bearing component; 3. The second load-bearing component; 4. Round utility pole; 5. Square utility pole; 11. First through hole; 12. Second through hole; 21. The first bearing bar; 22, the first fastener; 23, the first slot; 24, the first U-shaped frame; 25, the first cylinder; 26, the first rubber sleeve; 31, the second bearing bar ; 32, the second fastener; 33, the second slot; 34, the second U-shaped frame; 35, the second column; 36, the second rubber sleeve; 37, the pedal; 38, the buckle.

Detailed ways

The following will clearly and completely describe the technical solutions in the embodiments of the present invention with reference to the drawings in the embodiments of the present invention.

Please refer to Fig. 1, the utility model is an electric safety pole climber, which includes a curved rod 1, a first load-bearing component 2 and a second load-bearing component 3, and the curved part of one end of the curved rod 1 is provided with a There are five first load-bearing components 2 , and one second load-bearing component 3 is provided through the arc at the other end of the curved rod 1 .

Wherein as shown in Figure 2, the first bearing assembly 2 includes a first bearing rod 21 and a first fastener 22; the first bearing rod 21 moves through the first through hole 11 on the bending rod 1, and passes through The first fastener 22 locks the two, and the first bearing rod 21 is provided with a first slot 23 for the first fastener 22 to pass through, and the width of the first through hole 11 is set to the first bearing. Three times of the width of the force bar 21; the first force-bearing assembly 2 also includes the first U-shaped frame 24 and the first cylinder 25; the first U-shaped frame 24 is fixed on the inner end of the first force-bearing bar 21, and the first U-shaped frame 24 A first cylinder 25 is rotatably arranged inside the jig 24 , and a first rubber sleeve 26 is fixedly sleeved on the first cylinder 25 .

When adjusting the length and position of the first load-bearing component 2, take off the first fastener 22. At this moment, the first load-bearing rod 21 can move inward or outward freely. Firmware 22 is put on, and now the first load-bearing rod 21 can rotate freely in the first through hole 11, after the desired orientation, then tighten the first fastener 22 and get final product, the first load-bearing rod 21 can It can be stretched and adjusted in direction, so that the first load-bearing component 2 can adapt to the use requirements of circular utility poles 4 of different thicknesses, so that the first load-bearing component 2 can adapt to the use requirements of square utility poles 5 of different thicknesses and shapes.

2 to 3, the second bearing assembly 3 includes a second bearing rod 31 and a second fastener 32; the second bearing rod 31 moves through the second through hole 12 on the bending rod 1, And the two are locked by the second fastener 32, and the second bearing rod 31 is provided with a second slot 33 for the second fastener 32 to pass through, and the width of the second through hole 12 is the same as that of the second The width of bearing bar 31 is quite; The second bearing assembly 3 also comprises second U-shaped frame 34, second cylinder 35, pedal 37 and buckle belt 38; The second U-shaped frame 34 is fixed on the second bearing bar 31 The inner end of the second U-shaped frame 34 is rotated to be provided with a second cylinder 35, and the second cylinder 35 is fixedly sleeved with a second rubber sleeve 36; the pedal 37 is fixed on the outer end of the second bearing rod 31, A buckle 38 is provided on the pedal 37 .

When the length of the second load-bearing component 3 is adjusted, the second fastener 32 is removed. At this time, the second load-bearing rod 31 can move freely inward or outward along the second through hole 12. After reaching the desired position, Just tighten the second fastener 32, the length of the second load-bearing rod 31 is adjustable so that it can adapt to the use of the first load-bearing assembly 2, and the two second cylinders 35 of the second load-bearing assembly 3 Designed to fit well with both flat and cylindrical surfaces.

Wherein as shown in Figure 4, when the pole climber is applied on the circular utility pole 4, the five first load-bearing components 2 are adjusted to be evenly distributed along the circumference of the circular utility pole 4, and are aligned with the circular utility pole 4 cylinder abutment.

Wherein as shown in Fig. 5, when the pole climber is applied on the square utility pole 5, the two second load-bearing components 3 on the left side are adjusted to both sides of the left corner of the square utility pole 5, and the two second load-bearing assemblies 3 on the right side are The second load-bearing component 3 is adjusted to both sides of the right corner of the square utility pole 5 , and the second load-bearing component 3 in the middle is adjusted to abut against the back of the square utility pole 5 .

The above are only preferred embodiments of the present utility model, and do not limit the present utility model. Any modification to the technical solutions recorded in the foregoing embodiments, equivalent replacement of some of the technical features, any modification, equivalent replacement, and improvement , all belong to the protection scope of the present utility model.

Claims (7)

1. The utility model provides an electric power safety pole climbing ware, includes bent rod (1), first force bearing subassembly (2) and second force bearing subassembly (3), its characterized in that:

five first bearing components (2) are arranged at the arc-shaped part at one end of the bent rod (1) in a penetrating manner, and one second bearing component (3) is arranged at the arc-shaped part at the other end of the bent rod (1) in a penetrating manner;

the first bearing assembly (2) comprises a first bearing rod (21) and a first fastener (22);

the first bearing rod (21) movably passes through the first through hole (11) on the bent rod (1) and is locked by the first fastening piece (22), and a first slotted hole (23) for the first fastening piece (22) to pass through is formed in the first bearing rod (21);

the second bearing assembly (3) comprises a second bearing rod (31) and a second fastener (32);

the second bearing rod (31) movably penetrates through the second through hole (12) in the bent rod (1) and is locked by the second fastening piece (32), and a second slotted hole (33) for the second fastening piece (32) to penetrate through is formed in the second bearing rod (31).

2. An electric safety pole climber according to claim 1, characterized in that the width of the first through hole (11) is set to three times the width of the first force-bearing pole (21).

3. An electric safety pole climber according to claim 1, characterized in that the first force bearing assembly (2) further comprises a first U-shaped frame (24) and a first column (25);

the first U-shaped frame (24) is fixed at the inner end of the first force-bearing rod (21), the first column (25) is rotationally arranged on the first U-shaped frame (24), and a first rubber sleeve (26) is fixedly sleeved on the first column (25).

4. An electric safety pole climber according to claim 1, characterized in that the width of the second through hole (12) corresponds to the width of the second force-bearing rod (31).

5. An electric safety pole climber according to claim 1, characterized in that the second force bearing assembly (3) further comprises a second U-shaped frame (34), a second post (35), a pedal (37) and a buckle strap (38);

the second U-shaped frame (34) is fixed at the inner end of the second bearing rod (31), the second column (35) is rotationally arranged on the second U-shaped frame (34), and a second rubber sleeve (36) is fixedly sleeved on the second column (35);

the pedal (37) is fixed at the outer end of the second bearing rod (31), and the buckle belt (38) is arranged on the pedal (37).

6. An electric safety pole climber according to claim 1, characterized in that when applied to a round pole (4), the five first force-bearing assemblies (2) are adjusted to be evenly distributed along the circumference of the round pole (4) and to abut against the cylindrical surface of the round pole (4).

7. The electric safety pole climbing device according to claim 1, wherein when the pole climbing device is applied to a square telegraph pole (5), the left two second bearing assemblies (3) are adjusted to two sides of a left corner of the square telegraph pole (5), the right two second bearing assemblies (3) are adjusted to two sides of a right corner of the square telegraph pole (5), and the middle second bearing assembly (3) is adjusted to be abutted with the back surface of the square telegraph pole (5).

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