CN115233964B - Climbing device - Google Patents

Abstract

The invention belongs to the technical field of power distribution cabinet construction and discloses a climbing device. The climbing device is used for climbing between two adjacent telegraph poles and comprises a first climbing assembly, a second climbing assembly and an adjusting assembly, wherein the first climbing assembly and the second climbing assembly can slide upwards along the outer wall of the telegraph pole; the first adjusting piece can enable the first climbing assembly to be tensioned or loosened, so that the first climbing assembly can be fixed or unfixed on the outer wall of the telegraph pole; the second adjusting piece can enable the second climbing assembly to be tensioned or loosened, so that the second climbing assembly can be fixed or unfixed on the outer wall of the telegraph pole; the first climbing assembly and the second climbing assembly are connected through the adjusting assembly, and the adjusting assembly can drive the first climbing assembly and the second climbing assembly to alternately climb upwards along the telegraph pole. According to the invention, a worker can climb between two adjacently arranged telegraph poles, so that the worker can conveniently install and overhaul the high-low voltage power distribution cabinet.

Description

Climbing device

Technical Field

The invention relates to the technical field of power distribution cabinet construction, in particular to a climbing device.

Background

The high-low voltage power distribution cabinet is power distribution equipment used for distributing, controlling and metering electric energy and connecting cables in the power supply system.

The power supply office and the power substation are provided with high-voltage switch cabinets, and then the high-voltage switch cabinets are led out to the low-voltage switch cabinets through the low-voltage side of the transformer, and the low-voltage switch cabinets are led to distribution boards, control boxes or switch boxes for power consumption. The high-low voltage electrical equipment is a power distribution device which integrates protection devices such as switches, circuit breakers, fuses, buttons, indicator lamps, meters, wires and the like into a whole to meet the design function requirements.

When the high-low voltage power distribution cabinet is installed outdoors, the high-low voltage power distribution cabinet is generally lifted, when the high-low voltage power distribution cabinet is lifted, workers can hardly climb on a telegraph pole to install the high-low voltage power distribution cabinet, and climbing of the workers is inconvenient; in addition, the high-low voltage power distribution cabinet is generally located between two telegraph poles, if the ladder climbing is affected by the ground flatness, climbing between the two telegraph poles is difficult to achieve, and climbing tools are inconvenient to carry, even if the climbing tools are utilized, climbing is only carried out on a single telegraph pole, and climbing is inconvenient between the telegraph poles.

Disclosure of Invention

The invention aims to provide a climbing device, which can enable a worker to climb between two adjacent telegraph poles, and is convenient for the worker to install and overhaul a high-low voltage power distribution cabinet.

To achieve the purpose, the invention adopts the following technical scheme:

climbing device for climbing between two adjacent utility poles, comprising:

the first climbing assembly and the second climbing assembly are arranged below the first climbing assembly, the first climbing assembly and the second climbing assembly are arranged on the peripheries of two adjacent telegraph poles in a surrounding mode, and the first climbing assembly and the second climbing assembly can slide upwards along the outer walls of the telegraph poles;

the first climbing assembly comprises a first adjusting piece, and the first adjusting piece can enable the first climbing assembly to be kept in a tensioning state or a loosening state so that the first climbing assembly can be fixed or unfixed on the outer wall of the telegraph pole;

the second climbing assembly comprises a second adjusting piece, and the second adjusting piece can enable the second climbing assembly to be kept in a tensioning state or a loosening state so that the second climbing assembly can be fixed or unfixed on the outer wall of the telegraph pole;

the first climbing assembly and the second climbing assembly are connected through the adjusting assembly, and the adjusting assembly can drive the first climbing assembly and the second climbing assembly to alternately climb upwards along the telegraph pole.

As a preferred scheme of climbing device, first subassembly that climbs includes first snap ring, the second subassembly that climbs includes the second snap ring, first snap ring with the second snap ring is the ring, first snap ring with the second snap ring all encircles and locates two the outer wall of wire pole.

As a preferred scheme of climbing device, the inner periphery of first snap ring is equipped with two first connecting blocks relatively, the inner periphery of second snap ring is equipped with two second connecting blocks relatively, the mounting groove has been seted up on first connecting block and the second connecting block, the mounting groove shape with the outer wall phase-match of wire pole, the wire pole can be located in the mounting groove.

As a preferred solution of the climbing device, the first adjusting member comprises two oppositely arranged first telescopic rods, and the second adjusting member comprises two oppositely arranged second telescopic rods; the first telescopic rod and the second telescopic rod are perpendicular to the planes where the axes of the two electric poles are located; one end of the first telescopic rod is hinged to the first clamping ring, one end of the second telescopic rod is hinged to the second clamping ring, and the other end of the first telescopic rod and the other end of the second telescopic rod are connected with the adjusting assembly; when the first telescopic rod is contracted or extended, the first clamping ring and the telegraph pole can be kept loose or tensioned; when the second telescopic rod is contracted or extended, the second clamping ring and the telegraph pole are kept loose or tensioned.

As a preferable scheme of the climbing device, the other end of the first telescopic rod is connected with the adjusting assembly through a first driving piece, and the first driving piece can drive the first telescopic rod to stretch and retract; the second telescopic rod is connected with the adjusting assembly through a second driving piece, and the second driving piece can drive the second telescopic rod to stretch out and draw back.

As a preferred scheme of the climbing device, the adjusting assembly comprises a third driving piece and a first connecting plate connected with the third driving piece, the first connecting plate is connected with the first driving piece, and the third driving piece can drive the first connecting plate to move upwards so as to enable the first clamping ring to move upwards.

As a preferred scheme of the climbing device, the adjusting assembly comprises a fourth driving piece and a second connecting plate, wherein the fourth driving piece is connected to the lower portion of the third driving piece, the second connecting plate is connected with the fourth driving piece, and the fourth driving piece can drive the second connecting plate to move upwards so as to enable the second clamping ring to move upwards.

As a preferred embodiment of the climbing device, a first piston rod is arranged between the third driving element and the first connecting plate; and a second piston rod is arranged between the fourth driving piece and the second connecting plate.

As a preferred mode of the climbing device, the materials of the first clamping ring and the second clamping ring are spring steel.

As a preferred scheme of climbing device, be equipped with first adjusting screw on the first snap ring, be equipped with second adjusting screw on the second snap ring, first snap ring with be equipped with a plurality of spiro union holes on the second snap ring, first adjusting screw with second adjusting screw can respectively with a plurality of first snap ring with the spiro union hole spiro union of second snap ring is used for the adjustment first snap ring with the diameter of second snap ring.

The beneficial effects are that:

in the invention, the climbing device is used for climbing between two adjacent telegraph poles, and the first climbing assembly and the second climbing assembly slide upwards along the outer wall of the telegraph pole; the first adjusting piece can enable the first climbing assembly to be tensioned or loosened, so that the first climbing assembly can be fixed or released from being fixed on the outer wall of the telegraph pole, the second adjusting piece can enable the second climbing assembly to be tensioned or loosened, so that the second climbing assembly can be fixed or released from being fixed on the outer wall of the telegraph pole, and the climbing device can be fixed and released between the two telegraph poles through the first adjusting piece and the second adjusting piece; the adjusting assembly can drive the first climbing assembly and the second climbing assembly to climb upwards along the telegraph poles, the first climbing assembly and the second climbing assembly climb upwards, the first climbing assembly and the second climbing assembly can be fixed or unfixed between the two telegraph poles by combining the first adjusting piece and the second adjusting piece, and the first climbing assembly and the second climbing assembly can move upwards alternately between the two telegraph poles. Specifically, the first climbing assembly is driven to move upwards through the adjusting assembly, and when the first climbing assembly moves to a certain height, the first climbing assembly is fixed on the outer wall of the telegraph pole through the first adjusting piece; then the adjusting assembly drives the second climbing assembly below to move upwards, and when the second climbing assembly moves to a certain height, the second adjusting assembly enables the second climbing assembly to be fixed on the outer wall of the telegraph pole; at the moment, the first climbing assembly is released from the outer wall of the telegraph pole by the first adjusting piece, and continuously moves upwards, so that the climbing device alternately moves upwards between the two telegraph poles by continuously repeating the above processes.

Drawings

FIG. 1 is a top view of a climbing device according to one embodiment of the present invention;

FIG. 2 is a front view of an adjustment assembly according to a first embodiment of the present invention;

fig. 3 is a front view of a climbing device according to an embodiment of the invention coupled to a pole.

In the figure:

10. a pole;

100. a first climbing assembly; 110. a first adjustment member; 111. a first telescopic rod; 112. a first driving member; 113. a first hinge; 120. a first snap ring; 121. a first connection block; 122. a first adjusting screw;

200. a second climbing assembly; 210. a second adjusting member; 211. a second telescopic rod; 212. a second driving member; 213. a second hinge; 220. a second snap ring; 221. a second connection block; 222. a second adjusting screw;

300. an adjustment assembly; 310. a third driving member; 320. a first connection plate; 321. a positioning ring; 322. a first collar; 330. a fourth driving member; 340. a second connecting plate; 341. a second collar; 350. a first piston rod; 360. a second piston rod;

400. a wire;

500. and (3) a switch.

Detailed Description

The invention is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting thereof. It should be further noted that, for convenience of description, only some, but not all of the structures related to the present invention are shown in the drawings.

In the description of the present invention, unless explicitly stated and limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

In the present invention, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "right", etc. orientation or positional relationship are based on the orientation or positional relationship shown in the drawings, and are merely for convenience of description and simplicity of operation, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the invention. Furthermore, the terms "first," "second," and the like, are used merely for distinguishing between descriptions and not for distinguishing between them.

Example 1

Referring to fig. 1-3, the present embodiment relates to a climbing device (hereinafter referred to as "device") for climbing between two adjacent poles 10, the device including a first climbing module 100, a second climbing module 200 disposed below the first climbing module 100, and an adjustment module 300, the first climbing module 100 and the second climbing module 200 being disposed around the outer circumferences of the two adjacent poles 10, the first climbing module 100 and the second climbing module 200 being capable of sliding upward along the outer walls of the poles 10; the first climbing assembly 100 includes a first adjustment member 110, the first adjustment member 110 being capable of tensioning or releasing the first climbing assembly 100 to enable the first climbing assembly 100 to be secured or unsecured to an outer wall of the pole 10; the second climbing assembly 200 includes a second adjustment member 210, the second adjustment member 210 being capable of tensioning or releasing the second climbing assembly 200 to enable the second climbing assembly 200 to be secured or unsecured to the outer wall of the pole 10; the first climbing assembly 100 and the second climbing assembly 200 are connected by an adjustment assembly 300, and the adjustment assembly 300 is capable of driving the first climbing assembly 100 and the second climbing assembly 200 to alternately climb up the pole 10. In this embodiment, the adjustment assembly 300 can drive the first climbing assembly 100 and the second climbing assembly 200 to climb up along the telegraph pole 10, and the first climbing assembly 100 and the second climbing assembly 200 can be fixed or unfixed between the two telegraph poles 10 by combining the first adjusting piece 110 and the second adjusting piece 210 to enable the first climbing assembly 100 and the second climbing assembly 200 to alternately move up between the two telegraph poles 10.

Specifically, the first climbing assembly 100 is driven to move upwards by the adjusting assembly 300, and when the first climbing assembly 100 moves to a certain height, the first climbing assembly 100 is fixed on the outer wall of the telegraph pole 10 by the first adjusting piece 110; then, the adjusting assembly 300 drives the second climbing assembly 200 below to move upwards, and when the second climbing assembly 200 moves to a certain height, the second adjusting assembly 210 enables the second climbing assembly 200 to be fixed on the outer wall of the telegraph pole 10; at this time, the first climbing assembly 100 is released from the outer wall of the utility pole 10 by the first adjusting member 110, and the first climbing assembly 100 continues to move upward, so that the device alternately moves upward between the two utility poles 10 by continuously repeating the above-described process.

Referring to fig. 1, in the embodiment, the first climbing assembly 100 includes a first clamping ring 120, the second climbing assembly 200 includes a second clamping ring 220, the first clamping ring 120 and the second clamping ring 220 are both circular rings, and the first clamping ring 120 and the second clamping ring 220 are both circular rings arranged on the outer walls of the two telegraph poles 10. Specifically, the first snap ring 120 and the second snap ring 220 are ring-shaped members, the first snap ring 120 is disposed above the second snap ring 220, and at the same time, the first snap ring 120 and the second snap ring 220 are both disposed around the outer walls of the two utility poles 10. Of course, those skilled in the art will appreciate that the first snap ring 120 and the second snap ring 220 may be approximately circular or oval, as long as they are capable of being looped around the outer walls of the two poles 10.

Optionally, two first connection blocks 121 are relatively disposed on the inner periphery of the first clamping ring 120, two second connection blocks 221 are relatively disposed on the inner periphery of the second clamping ring 220, and mounting grooves are formed in the first connection blocks 121 and the second connection blocks 221, the shape of the mounting grooves is matched with that of the outer wall of the telegraph pole 10, and the telegraph pole 10 can be disposed in the mounting grooves. By adopting the first connecting block 121 and the second connecting block 221 and machining the mounting grooves which are matched with the outer wall of the telegraph pole 10 on the first connecting block 121 and the second connecting block 221, the first clamping ring 120 and the second clamping ring 220 can be prevented from directly contacting the outer wall of the telegraph pole 10, and the abrasion of the first clamping ring 120 and the second clamping ring 220 is reduced.

Preferably, the first connection block 121 and the first snap ring 120 are detachably connected, and the second connection block 221 and the second snap ring 220 are detachably connected. Since the first connection block 121 and the second connection block 221 are affected by dynamic friction when the device moves upward, belonging to a loss member, the detachable connection can facilitate the inspection and replacement of the first connection block 121 and the second connection block 221. Illustratively, the first connection block 121 and the first snap ring 120 and the second connection block 221 and the second snap ring 220 are both in the form of screw-connection.

Further, the first adjusting member 110 includes two oppositely disposed first telescopic rods 111, and the second adjusting member 210 includes two oppositely disposed second telescopic rods 211; the first telescopic rod 111 and the second telescopic rod 211 are perpendicular to the plane in which the axes of the two poles 10 lie; one end of the first telescopic rod 111 is hinged to the first clamping ring 120, one end of the second telescopic rod 211 is hinged to the second clamping ring 220, and the other end of the first telescopic rod 111 and the other end of the second telescopic rod 211 are connected with the adjusting assembly 300; when the first telescopic rod 111 is contracted or extended, the first clamping ring 120 and the telegraph pole 10 can be kept loose or tensioned; the second snap ring 220 remains loose or tight from the pole 10 as the second telescoping pole 211 contracts or expands. Specifically, when the first clasp 120 moves upward, the first telescopic rod 111 contracts, so that the first clasp 120 and the wire pole 10 can keep a loose state, at this time, the adjusting device 300 can drive the first climbing assembly 100 to move upward, when the first climbing assembly 100 moves upward to a certain height, the first telescopic rod 111 stretches, so that the first clasp 120 and the wire pole 10 can keep a tensioned state, the first climbing assembly 100 is fixed relative to the wire pole 10, at this time, the second telescopic rod 211 contracts, so that the second clasp 220 and the wire pole 10 can keep a loose state, the adjusting assembly 300 drives the second climbing assembly 200 to move upward, when the second climbing assembly 200 moves to a certain height, the second telescopic rod 211 stretches, so that the second clasp 220 and the wire pole 10 can keep a tensioned state, so that the second climbing assembly 200 is fixed relative to the wire pole 10, at this time, the first telescopic rod 111 contracts, so that the first clasp 121 and the wire pole 10 can keep a loose state, so that the first climbing assembly 100 is fixed relative to the wire pole 10, the adjusting assembly 300 continues to drive the first climbing assembly 100 to move upward, and the first climbing assembly 200 is alternately moved upward, as to realize the first assembly 200 and the second climbing assembly 200 alternately moves upward.

Alternatively, one end of the first telescopic link 111 is hinged to the inner wall of the first snap ring 120 through the first hinge 113; one end of the second telescopic link 211 is hinged with the second snap ring 220 by a second hinge 213. In particular, the articulation may take the form of an existing spherical articulation or an articulation axis articulation.

Further, the other end of the first telescopic rod 111 is connected with the adjusting assembly 300 through a first driving piece 112, and the first driving piece 112 can drive the first telescopic rod 111 to stretch and retract; the second telescopic rod 211 is connected to the adjusting assembly 300 through a second driving member 212, and the second driving member 212 can drive the second telescopic rod 211 to extend and retract.

Alternatively, the first and second driving members 112 and 212 may be driving cylinders, driving hydraulic cylinders, or linear motors.

Further, in the present embodiment, the adjusting assembly 300 includes a third driving member 310 and a first connecting plate 320 connected to the third driving member 310, the first connecting plate 320 is connected to the first driving member 112, and the third driving member 310 can drive the first connecting plate 320 to move upwards so as to move the first snap ring 120 upwards. The adjustment assembly 300 includes a fourth driving member 330 coupled to the lower portion of the third driving member 310 and a second connecting plate 340 coupled to the fourth driving member 330, the second connecting plate 340 being coupled to the second driving member 212, the fourth driving member 330 being capable of driving the second connecting plate 340 to move upward to move the second snap ring 220 upward. The first connection plate 320 is directly driven by the third driving member 310, so that the first snap ring 120 moves upward, and when the first snap ring 120 moves to a certain height, the first snap ring 120 stops moving, and at this time, the fourth driving member 330 drives the second snap ring 220 to move upward. The third driving piece 310 and the fourth driving piece 330 are alternately driven, so that the first clamping ring 120 and the second clamping ring 220 are alternately moved upwards.

Alternatively, the third driving member 310 and the fourth driving member 330 may be driving cylinders, driving hydraulic cylinders, or linear motors.

Optionally, the first collar 322 is sleeved on the outer periphery of the first connecting plate 320, the first collar 322 is connected with the first driving member 112, the second collar 341 is sleeved on the outer periphery of the second connecting plate 340, the second collar 341 is connected with the second driving member 212, and the first driving member 112 and the second driving member 212 can have wider fixing positions through the first collar 322 and the second collar 341, so that connection reliability is enhanced.

Optionally, a positioning ring 321 is further sleeved on the first connecting plate 320, a side wall of the positioning ring 321 is connected with a wire 400, the other end of the wire 400 is connected with a switch 500, and the switch 500 is in signal connection with the first driving piece 112, the second driving piece 212, the third driving piece 310 and the fourth driving piece 330 through the wire 400, so as to control the start-stop and the action direction of each driving piece.

Optionally, a first piston rod 350 is provided between the third driving member 310 and the first connecting plate 320; a second piston rod 360 is provided between the fourth driver 330 and the second connecting plate 340. The driving distance of the first connection plate 320 and the second connection plate 340 can be adjusted through the first piston rod 350 and the second piston rod 360, and it can be understood by those skilled in the art that the acting length can be flexibly adjusted through the first piston rod 350 and the second piston rod 360, so that the distance of the first connection plate 320 and the second connection plate 340 moving upwards once can be conveniently adjusted.

Preferably, the materials of the first snap ring 120 and the second snap ring 220 are spring steel, and since the device is operated, the first snap ring 120 and the second snap ring 220 are alternately tensioned or relaxed, that is, the first snap ring 120 and the second snap ring 220 are repeatedly elastically deformed, and the first snap ring 120 and the second snap ring 220 have sufficient elasticity by manufacturing the first snap ring 120 and the second snap ring 220 by adopting the spring steel, so that the working performance of the first snap ring 120 and the second snap ring 220 is ensured.

The first clamping ring 120 is provided with a first adjusting screw 122, the second clamping ring 220 is provided with a second adjusting screw 222, the first clamping ring 120 and the second clamping ring 220 are provided with a plurality of screw holes, and the first adjusting screw 122 and the second adjusting screw 222 can be respectively in screw connection with the screw holes of the first clamping ring 120 and the second clamping ring 220 so as to adjust the diameters of the first clamping ring 120 and the second clamping ring 220. When the distance between the two telegraph poles 10 changes, the device can be conveniently matched with the outer wall of the telegraph pole 10 by adjusting the matching of the first adjusting screw 122 and the second adjusting screw 222 with the screw connection hole, so that the adaptability of the device is improved.

The working principle of the device is as follows: when the high-low voltage power distribution cabinet is installed, the high-low voltage power distribution cabinet needs to be installed between two telegraph poles 10, when a worker climbs, the position of the first adjusting screw 122, the position of the second adjusting screw 222 and the position of the threaded hole are firstly determined, after the position adjustment is finished, the first clamping ring 120 and the second clamping ring 220 are sleeved on the outer walls of the two telegraph poles 10, the second driving piece 212 is started and controlled through the switch 500, the second telescopic rod 211 is stretched, the second connecting block 221 is clamped on the outer wall of the telegraph pole 10, at the moment, the operator steps on the second clamping ring 220, the third driving piece 310 is started, the first clamping ring 120 is driven to ascend, the first driving piece 112 is started and enables the first telescopic rod 111 to stretch, the first clamping ring 120 is clamped on the outer wall of the telegraph pole 10, at the moment, the operator steps on the first clamping ring 120, the second driving piece 212 is controlled, the second telescopic rod 211 is shortened, the tensioning state of the second clamping ring 220 is relieved, the second clamping ring 220 is driven to ascend through the fourth driving piece 330, and the climbing cycle is completed.

The device is convenient for operators to step on the device to synchronously rise, and climbing is more labor-saving and convenient, so that the operators can climb between telegraph poles.

Example two

The content of this embodiment is basically the same as that of the first embodiment, except that the first snap ring 120 and the second snap ring 220 are of a multi-segment split structure, i.e., the first snap ring 120 and the second snap ring 220 are split into multiple segments. Before construction operation, the multi-section structures of the split type first clamping ring 120 and the second clamping ring 220 are connected, and after the operation is finished, the first clamping ring 120 and the second clamping ring 220 are disassembled into the multi-section structures, so that the device is convenient to store and transport.

It is to be understood that the above examples of the present invention are provided for clarity of illustration only and are not limiting of the embodiments of the present invention. Various obvious changes, rearrangements and substitutions can be made by those skilled in the art without departing from the scope of the invention. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the invention are desired to be protected by the following claims.

Claims (9)

1. Climbing device for climbing between two adjacent poles (10), characterized in that it comprises:

the first climbing assembly (100) and the second climbing assembly (200) are arranged below the first climbing assembly (100), the first climbing assembly (100) and the second climbing assembly (200) are arranged around the periphery of two adjacent telegraph poles (10), and the first climbing assembly (100) and the second climbing assembly (200) can slide upwards along the outer walls of the telegraph poles (10);

the first climbing assembly (100) comprises a first adjusting piece (110), and the first adjusting piece (110) can enable the first climbing assembly (100) to be kept in a tensioning state or a loosening state so as to enable the first climbing assembly (100) to be fixed or unfixed on the outer wall of the telegraph pole (10);

the second climbing assembly (200) comprises a second adjusting piece (210), and the second adjusting piece (210) can enable the second climbing assembly (200) to be kept in a tensioning state or a loosening state so as to enable the second climbing assembly (200) to be fixed or unfixed on the outer wall of the telegraph pole (10);

the first climbing assembly (100) and the second climbing assembly (200) are connected through the adjusting assembly (300), and the adjusting assembly (300) can drive the first climbing assembly (100) and the second climbing assembly (200) to alternately climb upwards along the telegraph pole (10);

the first climbing assembly (100) comprises a first clamping ring (120), the second climbing assembly (200) comprises a second clamping ring (220), the first clamping ring (120) and the second clamping ring (220) are circular rings, and the first clamping ring (120) and the second clamping ring (220) are both arranged on the outer walls of the two telegraph poles (10) in a surrounding mode.

2. Climbing device according to claim 1, characterized in that the inner periphery of the first clamping ring (120) is relatively provided with two first connecting blocks (121), the inner periphery of the second clamping ring (220) is relatively provided with two second connecting blocks (221), the first connecting blocks (121) and the second connecting blocks (221) are provided with mounting grooves, the shape of the mounting grooves is matched with that of the outer wall of the telegraph pole (10), and the telegraph pole (10) can be arranged in the mounting grooves.

3. Climbing device according to claim 2, characterized in that the first adjustment member (110) comprises two oppositely arranged first telescopic rods (111) and the second adjustment member (210) comprises two oppositely arranged second telescopic rods (211); the first telescopic rod (111) and the second telescopic rod (211) are perpendicular to the planes of the axes of the two electric poles (10); one end of the first telescopic rod (111) is hinged to the first clamping ring (120), one end of the second telescopic rod (211) is hinged to the second clamping ring (220), and the other end of the first telescopic rod (111) and the other end of the second telescopic rod (211) are connected with the adjusting assembly (300); when the first telescopic rod (111) is contracted or extended, the first clamping ring (120) and the telegraph pole (10) can be kept loose or tensioned; when the second telescopic rod (211) is contracted or extended, the second clamping ring (220) and the telegraph pole (10) are kept loose or tensioned.

4. A climbing device according to claim 3, wherein the other end of the first telescopic rod (111) is connected to the adjustment assembly (300) by a first driving member (112), the first driving member (112) being capable of driving the first telescopic rod (111) to expand and contract; the second telescopic rod (211) is connected with the adjusting assembly (300) through a second driving piece (212), and the second driving piece (212) can drive the second telescopic rod (211) to stretch and retract.

5. The climbing device according to claim 4, wherein the adjustment assembly (300) comprises a third drive member (310) and a first connection plate (320) connected to the third drive member (310), the first connection plate (320) being connected to the first drive member (112), the third drive member (310) being capable of driving the first connection plate (320) to move upwardly to move the first snap ring (120) upwardly.

6. The climbing device according to claim 5, wherein the adjustment assembly (300) comprises a fourth drive member (330) connected below the third drive member (310) and a second connection plate (340) connected to the fourth drive member (330), the second connection plate (340) being connected to the second drive member (212), the fourth drive member (330) being capable of driving the second connection plate (340) to move upwardly to move the second snap ring (220) upwardly.

7. Climbing device according to claim 6, characterized in that a first piston rod (350) is arranged between the third drive (310) and the first connection plate (320); a second piston rod (360) is arranged between the fourth driving piece (330) and the second connecting plate (340).

8. The climbing device according to claim 1, characterized in that the material of the first snap ring (120) and the second snap ring (220) is spring steel.

9. The climbing device according to any one of claims 1 to 8, wherein a first adjusting screw (122) is provided on the first clamping ring (120), a second adjusting screw (222) is provided on the second clamping ring (220), a plurality of screw holes are provided on the first clamping ring (120) and the second clamping ring (220), and the first adjusting screw (122) and the second adjusting screw (222) can be respectively screw-connected with the screw holes of the first clamping ring (120) and the second clamping ring (220) to adjust diameters of the first clamping ring (120) and the second clamping ring (220).