CN217854422U - Anti-slip climber for pole climbing operation - Google Patents

Abstract

The utility model discloses a step on pole operation and take off climbers with antiskid aims at providing one kind and can effectively avoid stepping on the pole operation personnel's foot and take place to skid between the running-board, and lead to stepping on pole operation personnel's foot and drop from the climbers, and the influence steps on pole operation and takes off climbers with antiskid of pole operation of the safe problem of operation of pole operation personnel. It includes running-board and anti-skidding takes off the device, the anti-skidding takes off the device and includes: the upper surface of the elastic rubber plate is provided with a plurality of limit holes which are uniformly distributed, the elastic rubber plate is fixed on the lower surface of the pedal plate, and the pedal plate is provided with a plurality of floating rod guide holes which are in one-to-one correspondence with the limit holes; the upper end of the floating rod penetrates through the corresponding floating rod guide hole and is positioned above the pedal plate.

Description

Anti-slip climber for pole climbing operation

Technical Field

The utility model relates to a climbers of pole operation usefulness, concretely relates to climb pole operation with antiskid climbers of taking off.

Background

The climber is an arc iron tool for sleeving the climbing wire pole on the shoe. The climbers have the advantages of light weight, high strength, good toughness, portability, flexibility, convenient carrying and the like, and the climbers have the characteristics of high speed, simple pole climbing method and the like when being used for climbing the electric pole. The climbers utilize the lever action, and the other side is tightly buckled on the telegraph pole by the weight of the human body to generate larger friction force, so that people can easily climb; when the foot is lifted, the button is automatically loosened because the gravity borne by the foot is reduced.

At present, in order to avoid the situation that feet fall off from the climbers in the pole climbing operation process, holes or bulges are usually arranged on the pedal plate to improve the friction force between the pedal plate and the sole. Although the prior pedal with the holes or the bulges can improve the friction force between the pedal and the sole to a certain extent, the pedal is favorable for preventing feet from falling off from the climbers; however, in cold weather conditions, especially in rainy and snowy weather conditions, when a worker climbs the pole for a long time on the pole, the surface of the pedal is easy to freeze, and at the moment, slipping between the foot of the worker climbs the pole and the pedal is easy to occur, so that the foot of the worker climbs the pole falls off from the climber, and the operation safety of the worker climbs the pole is affected.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a can effectively avoid stepping on the pole operation personnel the foot and take place to skid between the running-board, and lead to stepping on the pole operation personnel the foot and drop from the climbers, influence the pole operation of stepping on of the problem of pole operation personnel's operation safety and take off the climbers with the antiskid.

The technical scheme of the utility model is that:

the utility model provides a step on pole operation with antiskid climbers that takes off, includes running-board and antiskid device that takes off, antiskid device includes:

the upper surface of the elastic rubber plate is provided with a plurality of limit holes which are uniformly distributed, the elastic rubber plate is fixed on the lower surface of the pedal plate, the pedal plate is provided with a plurality of floating rod guide holes which are in one-to-one correspondence with the limit holes, and the floating rod guide holes penetrate through the upper surface and the lower surface of the pedal plate;

the upper ends of the floating rods penetrate through the corresponding floating rod guide holes and are positioned above the pedals, and the upper surfaces of the pedals of the floating rods are vertical to each other.

In the antiskid foot release for climbing pole operation, the pedal plate is distributed with a plurality of floating poles which are uniformly distributed, and the lower ends of the floating poles are provided with the limiting holes for fixing the elastic rubber plate, so that when a shoe of a person who climbs the pole steps on the pedal plate, the upper ends of part of the floating poles are guided to Kong Xiayi along the floating poles to the floating pole guide holes, so that the shoe of the person who climbs the pole steps on the upper surface of the pedal plate, and part of the floating poles are clamped into the grooves of the patterns of the shoe sole (the shoe sole generally has concave-convex patterns), when the shoe is lifted, the floating poles move upwards under the action of the elastic rubber plate, so that part of the floating poles are kept clamped into the grooves of the patterns of the shoe sole; therefore, even in rainy and snowy weather under cold weather conditions, the problem that the operation safety of the pole climbing operator is influenced due to the fact that the feet of the pole climbing operator drop from the climbers due to slipping between the feet of the pole climbing operator and the pedals can be effectively avoided.

More importantly, when the shoes of the operator for climbing the pole step on the pedal, the floating pole will be guided Kong Xiayi along the floating pole, when the shoes of the operator for climbing the pole are lifted up and the sole is separated from the pedal, the floating pole moves upwards under the action of the elastic rubber plate, namely the floating pole in the pole climbing process will move up and down continuously; so, even when the operation in the sleet weather under cold weather condition, also can step on reciprocating of the floating lever of pole in-process, come timely destruction running-board upper surface and form the ice sheet to avoid running-board upper surface to appear thicker ice, thereby further effectively avoid because of the running-board surface freezes, and appear stepping on the pole operation personnel's foot and the running-board between take place to skid, lead to stepping on the pole operation personnel's foot from the problem that the climbers drops.

Preferably, an inner cavity of the plate is arranged in the elastic rubber plate, and each limiting hole is located above the inner cavity of the plate. Therefore, the elasticity below the elastic rubber plate at the lower end of the floating rod can be improved, so that the floating rod can move up and down at the elastic rubber plate; and the cavity in the plate can also play a role in heat insulation, so that the elasticity of the elastic rubber plate at the lower end of the floating rod is ensured under the cold weather condition, and the floating rod can move up and down under the elastic action of the elastic rubber plate.

Preferably, the inner top surface of the inner cavity of the plate is also provided with annular grooves corresponding to the limiting holes one to one, and the lower ends of the limiting holes are positioned in the corresponding annular grooves. Therefore, the elasticity of the lower part of the elastic rubber plate at the lower end of the floating rod can be further improved, so that the floating rod can move up and down at the elastic rubber plate.

Preferably, the upper end surface of the floating rod is a guide inclined surface, and one side of the guide inclined surface, which is close to the rear end of the pedal, inclines downwards. Therefore, on one hand, the upper end of the floating rod is clamped into the grooves of the patterns of the sole, so that the slipping between the feet of a worker climbing the rod and the pedal plate is avoided; on the other hand, in the process that the shoe extends into the pedal buckle belt of the pedal, if the shoe sole contacts with the guide inclined plane at the upper end of the floating rod, the floating rod is favorable to move downwards, so that the shoe extends into the pedal buckle belt of the pedal.

Preferably, the guide slope has an inclination angle of 20 to 40 degrees.

Preferably, the floating rod comprises a floating bottom rod and an upper clamping rod arranged at the upper end of the floating bottom rod, the outer diameter of the upper clamping rod is smaller than that of the floating bottom rod, and the floating bottom rod extends into the floating rod guide hole. Therefore, on one hand, the floating stability and the strength of the floating rod can be improved by matching the floating bottom rod with the larger outer diameter with the guide hole of the floating rod, and the upper clamping rod with the smaller outer diameter can be clamped into the groove of the pattern of the sole, so that the foot of a worker climbing the rod is prevented from slipping with the pedal; on the other hand, the floating bottom rod with larger outer diameter is matched with the floating rod guide hole to improve the aperture of the floating rod guide hole, so that the ice layer on the upper surface of the pedal plate can be damaged when the pedal plate works in rainy and snowy weather under the condition of cold climate.

Preferably, the upper end of the floating bottom rod is located above the upper surface of the footboard, and the distance between the upper end of the floating bottom rod and the upper surface of the footboard is less than or equal to 1 mm. Thus, it is advantageous to break the ice layer on the upper surface of the footboard by the floating bottom bar.

Preferably, the distance between the top end of the floating rod and the upper surface of the pedal is 3-6 mm.

Preferably, the knee protection device further comprises a knee connecting belt, one end of the knee connecting belt is connected with the pedal, and the other end of the knee connecting belt is provided with a knee buckle belt. Therefore, the knee buckle belt can be fixed at the knee accessory of the climbing rod operator, and the foot buckle is connected to the climbing rod operator through the knee connecting belt so as to avoid the falling of the foot buckle.

Preferably, the upper surface of the elastic rubber plate is adhered to the lower surface of the footboard.

The utility model has the advantages that: can effectively avoid taking place to skid between the foot of the operating personnel of climbing the pole and the running-board, and lead to climbing the foot of the operating personnel of pole and drop from the climbers, influence the problem of climbing the operation safety of operating personnel of pole.

Drawings

Fig. 1 is a schematic view of a partial structure of the anti-slip climber for climbing pole.

Fig. 2 isbase:Sub>A schematic cross-sectional view taken along linebase:Sub>A-base:Sub>A in fig. 1.

Fig. 3 is a schematic structural view of the floating rod of the anti-slip climber for climbing operations of the present invention.

In the figure:

a foot board 1;

an anti-slip device 2;

2.0 parts of an elastic rubber plate;

the floating rod 2.1, the floating bottom rod 2.11, the upper clamping rod 2.12 and the guide inclined plane 2.13;

an intra-plate cavity 2.3;

an annular groove 2.4;

and 2.5 of a limiting hole.

Detailed Description

The first embodiment is as follows: as shown in fig. 1 and 2, an anti-slip climber for climbing pole includes a pedal 1 and an anti-slip device 2. The anti-slip device 2 comprises an elastic rubber plate 2.0 and a floating rod 2.1. The upper surface of the elastic rubber plate is provided with a plurality of limit holes 2.5 which are uniformly distributed. The elastic rubber plate is fixed on the lower surface of the pedal plate, and particularly, the upper surface of the elastic rubber plate is tightly attached to the lower surface of the pedal plate. In this embodiment, the upper surface of the elastic rubber sheet is adhered to the lower surface of the pedal. The pedal plate is provided with a plurality of floating rod guide holes 2.2 which are in one-to-one correspondence with the limiting holes. The floating rod guide hole penetrates through the upper surface and the lower surface of the pedal plate. The floating rods correspond to the limiting holes one by one. The lower end of the floating rod is fixed in the corresponding limit hole, and the upper end of the floating rod penetrates through the corresponding floating rod guide hole and is positioned above the pedal. In this embodiment, the upper surface of the floating rod pedal is perpendicular.

In the antiskid foot fastener for pole climbing operation in the embodiment, the pedal plate is provided with a plurality of floating rods which are uniformly distributed, and the lower ends of the floating rods are provided with the limiting holes for fixing the elastic rubber plate, so that when a shoe of a pole climbing operator treads on the pedal plate, the upper ends of part of the floating rods are guided Kong Xiayi to the floating rod guide holes along the floating rods, so that the shoe of the pole climbing operator treads on the upper surface of the pedal plate, and the part of the floating rods are clamped in the grooves of the sole patterns (the sole generally has concave-convex patterns), when the shoe is lifted, the floating rods move upwards under the action of the elastic rubber plate, so that the part of the floating rods are kept clamped in the grooves of the sole patterns; therefore, even in rainy and snowy weather under cold weather conditions, the problem that the feet of the pole climbing operators fall off from the climbers to influence the operation safety of the pole climbing operators due to the fact that the feet of the pole climbing operators slip with the pedals can be effectively avoided.

More importantly, when the shoes of the operator for climbing the pole step on the pedal, the floating pole will be guided Kong Xiayi along the floating pole, when the shoes of the operator for climbing the pole are lifted up and the sole is separated from the pedal, the floating pole moves upwards under the action of the elastic rubber plate, namely the floating pole in the pole climbing process will move up and down continuously; so, even when the operation in the sleet weather under cold weather condition, also can step on reciprocating of the floating lever of pole in-process, come timely destruction running-board upper surface and form the ice sheet to avoid running-board upper surface to appear thicker ice, thereby further effectively avoid because of the running-board surface freezes, and appear stepping on the pole operation personnel's foot and the running-board between take place to skid, lead to stepping on the pole operation personnel's foot from the problem that the climbers drops.

In this embodiment, the floating rods are uniformly arranged and distributed. The floating rods are arranged in 6-10 rows from the front end of the pedal plate to the rear end of the pedal plate, and specifically, the floating rods are arranged in 7 rows from the front end of the pedal plate to the rear end of the pedal plate. Each row of floating rods comprises 8-12 floating rods.

Further, as shown in fig. 2, an inner cavity 2.3 is arranged in the elastic rubber plate, and each limiting hole is located above the inner cavity. Therefore, the elasticity below the elastic rubber plate at the lower end of the floating rod can be improved, so that the floating rod can move up and down at the elastic rubber plate; and the cavity in the board can also play thermal-insulated effect, under cold weather condition, guarantees the elasticity of the elasticity rubber slab department at the lower extreme place of floating lever, makes the floating lever can reciprocate under the elastic action of elasticity rubber slab.

Further, as shown in fig. 2, annular grooves 2.4 corresponding to the limiting holes one to one are also formed in the inner top surface of the inner cavity of the plate. The lower end of the limiting hole is positioned in the corresponding annular groove. Therefore, the elasticity of the lower part of the elastic rubber plate at the lower end of the floating rod can be further improved, so that the floating rod can move up and down at the elastic rubber plate.

Further, as shown in fig. 2, the floating rod 2.1 includes a floating bottom rod 2.11 and an upper catching rod 2.12 disposed at an upper end of the floating bottom rod. The floating bottom rod extends into the guide hole of the floating rod. The outer diameter of the upper clamping rod is smaller than that of the floating bottom rod. Therefore, on one hand, the floating stability and the strength of the floating rod can be improved by matching the floating bottom rod with larger outer diameter with the guide hole of the floating rod, and the upper clamping rod with smaller outer diameter can be clamped into the groove of the sole pattern, so that the feet of the staff for climbing the rod can be prevented from slipping with the pedal; on the other hand, the floating bottom rod with larger outer diameter is matched with the floating rod guide hole to improve the aperture of the floating rod guide hole, so that the ice layer on the upper surface of the pedal plate can be damaged when the pedal plate works in rainy and snowy weather under the condition of cold climate.

The upper end of the floating bottom rod is positioned above the upper surface of the pedal plate, and the distance between the upper end of the floating bottom rod and the upper surface of the pedal plate is less than or equal to 1 mm. Thus, it is advantageous to break the ice layer on the upper surface of the footboard by the floating bottom bar.

Further, as shown in fig. 2 and 3, the upper end surface of the floating rod is a guide inclined surface 2.13, specifically, the upper end surface of the upper clamping rod of the floating rod is a guide inclined surface 2.13. One side of the guide inclined plane, which is close to the rear end of the pedal, inclines downwards. The inclined angle of the guide inclined plane is 20-40 degrees, and in the embodiment, the inclined angle of the guide inclined plane is 30 degrees. Therefore, on one hand, the upper end of the floating rod is clamped into the grooves of the patterns of the sole, so that the slipping between the feet of a worker climbing the rod and the pedal plate is avoided; on the other hand, in the process that the shoe extends into the pedal buckle belt of the pedal, if the shoe sole contacts with the guide inclined plane at the upper end of the floating rod, the floating rod is favorable to move downwards, so that the shoe extends into the pedal buckle belt of the pedal.

The distance between the top end of the floating rod and the upper surface of the pedal is 3-6 mm.

Further, the anti-slip climber for pole climbing work further includes a knee connection belt (not shown in the figure). One end of the knee connecting belt is connected with the pedal, and the other end of the knee connecting belt is provided with a knee buckle belt. Therefore, the knee buckle belt can be fixed at the knee accessory of the climbing rod operator, and the foot buckle is connected to the climbing rod operator through the knee connecting belt so as to avoid the falling of the foot buckle.

The above, only be the utility model discloses a preferred embodiment, it is not right the utility model discloses do any restriction, all according to the utility model discloses the technical entity all still belongs to any simple modification, change and equivalent transformation of doing above embodiment the utility model discloses technical scheme's protection scope.

Claims (10)

1. The utility model provides a step on pole operation and take off climbers with antiskid, includes the running-board, characterized by still includes the antiskid and takes off the device, the antiskid takes off the device and includes:

the upper surface of the elastic rubber plate is provided with a plurality of limit holes which are uniformly distributed, the elastic rubber plate is fixed on the lower surface of the pedal plate, the pedal plate is provided with a plurality of floating rod guide holes which are in one-to-one correspondence with the limit holes, and the floating rod guide holes penetrate through the upper surface and the lower surface of the pedal plate;

the upper ends of the floating rods penetrate through the corresponding floating rod guide holes and are positioned above the pedals, and the upper surfaces of the pedals of the floating rods are vertical to each other.

2. The anti-slip climber for pole climbing according to claim 1, wherein an inner cavity is formed in the elastic rubber plate, and each limiting hole is located above the inner cavity.

3. The anti-slip climber for climbing pole operation according to claim 2, wherein the inner top surface of the inner cavity of the plate is further provided with annular grooves corresponding to the limiting holes one by one, and the lower ends of the limiting holes are located in the corresponding annular grooves.

4. The anti-slip climber for climbing pole according to claim 1, 2 or 3, wherein the upper end surface of the floating rod is a guide slope, and the side of the guide slope, which is close to the rear end of the pedal, is inclined downward.

5. The anti-slip climber for pole climbing according to claim 4, wherein the inclination angle of the guide slope is 20 to 40 degrees.

6. The anti-slip climber for climbing pole operation according to claim 1, 2 or 3, wherein the floating rod comprises a floating bottom rod and an upper clamping rod arranged at the upper end of the floating bottom rod, the outer diameter of the upper clamping rod is smaller than that of the floating bottom rod, and the floating bottom rod extends into the guide hole of the floating rod.

7. The anti-slip climber for pole climbing according to claim 6, wherein the upper end of the floating bottom rod is located above the upper surface of the footboard, and the distance between the upper end of the floating bottom rod and the upper surface of the footboard is not more than 1 mm.

8. An anti-slip climber for climbing pole according to claim 1, 2 or 3, wherein the distance between the top end of the floating rod and the upper surface of the pedal is 3-6 mm.

9. The anti-slip climber for pole climbing according to claim 1, 2 or 3, further comprising a knee connecting strap, one end of which is connected to the foot pedal, and the other end of which is provided with a knee buckle strap.

10. The anti-slip climber for pole climbing according to claim 1, 2 or 3, wherein an upper surface of the elastic rubber plate is adhered to a lower surface of the pedal.

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