CN115095269B

CN115095269B - Novel insulating operation platform

Info

Publication number: CN115095269B
Application number: CN202210738812.0A
Authority: CN
Inventors: 周文鹤; 高元将; 陈焕财; 潘孝龙; 谢盛顿; 邢益弟; 苏志刚; 潘图; 黄明思; 王国驹
Original assignee: Hainan Power Grid Co ltd Hainan Power Transmission And Substation Maintenance Branch
Current assignee: Haikou Substation Operation And Inspection Branch Of Hainan Power Grid Co ltd
Priority date: 2022-06-28
Filing date: 2022-06-28
Publication date: 2023-11-07
Anticipated expiration: 2042-06-28
Also published as: CN115095269A

Abstract

The application discloses a novel insulating operation platform, which is characterized in that a main clamping device and a secondary clamping device are arranged on an aerial ladder, so that the lifted aerial ladder can be clamped on a telegraph pole through the main clamping device and the secondary clamping device, and an insulating bucket can be conveniently and stably rotated and lifted at the top of the aerial ladder; the secondary lifting of the insulating bucket is realized by arranging a lifting electric push rod on the ladder frame at the top of the aerial ladder, and the insulating bucket is rotated and adjusted to a horizontal angle on the ladder frame at the top of the aerial ladder by means of a rotating mechanism; simultaneously, through with insulating bucket hinge in the sleeve pipe upper end to make the staff can keep insulating operation with the aerial ladder, in addition, when realizing the aerial ladder slope through setting up correction electric putter in the crossbeam both sides, insulating bucket is in the horizontality all the time, so that the staff relies on one-level electric putter to come vertical the righting of aerial ladder after getting into insulating bucket, and it remains the level all the time at aerial ladder rotation righting in-process, with guarantee staff's high altitude construction safety, the working space is little, and the suitability is strong.

Description

Novel insulating operation platform

Technical Field

The application relates to the technical field of power grid operation platforms, in particular to a novel insulating operation platform.

Background

The traditional distribution network live working mode mainly comprises an insulating arm vehicle and an insulating scaffold (working platform) which is built, wherein the insulating arm vehicle has two structures: 1. the telescopic arm type consists of 1 section or 2 sections of metal arms and 1 section of insulating arms. The telescopic insulating arm vehicle has the main advantages that as the insulating performance is directly related to the length of the insulating arm, when the telescopic insulating arm vehicle works, the working arm is required to extend completely to obtain enough insulating length to meet the insulating grade requirement. Meanwhile, as the telescopic arm is a straight arm, the operation range is limited, and the telescopic arm cannot be suitable for places with complex working conditions. 2. The folding arm type consists of an upper insulating arm and a lower metal arm (provided with a chassis insulating system). The type is limited by the boom structure, if the working height is required to be high, the length of the whole vehicle is longer, the requirements on the running space and the working space are higher, and the device is not suitable for being used in narrow streets. The insulating scaffold is complicated in operation, high in safety risk and high in labor intensity.

Disclosure of Invention

The application provides a novel insulating operation platform, and aims to solve the problem of low applicability of the power grid operation platform.

In order to achieve the above purpose, the application provides a novel insulating operation platform, which comprises multiple stages of lifting scaling ladders, wherein the bottom of each scaling ladder is hinged with a bracket and a main clamping device, and each stage of scaling ladders is hinged with a sub-clamping device; the support is hinged with a primary electric push rod, and the output end of the primary electric push rod is hinged with the scaling ladder; the upper end of the scaling ladder is provided with a lifting electric push rod, the output end of the lifting electric push rod is fixedly connected with a pedestal, a support column is vertically and fixedly arranged on the pedestal, a sleeve is rotationally arranged on the support column, the upper end of the sleeve is hinged with an insulating bucket, the lower end of the sleeve is fixedly provided with a rotating mechanism, the rotating mechanism is hinged with a correcting electric push rod, and the output end of the correcting electric push rod is hinged with two sides of the insulating bucket; the pedestal is fixedly provided with a rotary gear, and the rotary mechanism is in meshed transmission with the rotary gear.

Further, the main clamping device and the auxiliary clamping device comprise U-shaped beams, two-stage electric pushing rods and mechanical claws, the U-shaped beams are hinged to the scaling ladder, the two-stage electric pushing rods are fixedly connected to the U-shaped beams, and the mechanical claws are arranged at the output ends of the two-stage electric pushing rods.

Further, the auxiliary clamping device further comprises a three-stage electric push rod, one end of the three-stage electric push rod is hinged to the scaling ladder, and the other end of the three-stage electric push rod is hinged to the U-shaped beam.

Further, the mechanical claw comprises a first clamping claw, a second clamping claw, a linkage gear and a first motor, a support plate is fixed at the output end of the secondary electric push rod, the first clamping claw and the second clamping claw are rotationally arranged at two ends of the support plate, and the first clamping claw and the second clamping claw are in transmission connection through the linkage gear so that the first clamping claw and the second clamping claw are synchronously and reversely rotationally arranged on the support plate; the output end of the secondary electric push rod is further provided with a mounting plate, the first motor is arranged on the mounting plate, and the output end of the first motor is connected with the rotating shaft of the first clamping claw through a coupler.

Further, the rotary mechanism comprises a cross beam and a second motor, the cross beam is fixedly arranged on the sleeve, the second motor is arranged on the cross beam, and the output end of the second motor is in meshed transmission with the rotary gear through a gear, so that the insulating bucket can be rotatably arranged on the pedestal.

Further, limit rods are vertically arranged on two sides of the pedestal, and the limit rods are in sliding connection with the scaling ladder.

Further, a through groove is formed in the insulating bucket, and the through groove is located above the hinge joint of the insulating bucket and the sleeve.

Further, the insulating hopper is made of epoxy resin glass.

Compared with the prior art, the method has the following beneficial effects:

the application discloses a novel insulating operation platform, which is characterized in that a main clamping device and a secondary clamping device are arranged on an aerial ladder, so that the lifted aerial ladder can be clamped on a telegraph pole through the main clamping device and the secondary clamping device, and an insulating bucket can be conveniently and stably rotated and lifted at the top of the aerial ladder; the secondary lifting of the insulating bucket is realized by arranging a lifting electric push rod on the ladder frame at the top of the aerial ladder, and the insulating bucket is rotated and adjusted to a horizontal angle on the ladder frame at the top of the aerial ladder by means of a rotating mechanism; meanwhile, when the aerial ladder is inclined by hinging the insulating bucket to the upper end of the sleeve and arranging correction electric push rods on two sides of the cross beam, the insulating bucket is always in a horizontal state, so that a worker can vertically align the aerial ladder by means of the first-level electric push rods after entering the insulating bucket, the aerial ladder is always kept horizontal in the process of rotating and aligning the aerial ladder, the aerial work safety of the worker is guaranteed, the aerial ladder lifting device is convenient to carry, the space use area is small, the applicability is high, and automatic orderly lifting of the multi-section insulating aerial ladder under a complex topography environment is guaranteed.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required for the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only preferred embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a novel insulating work platform of the present application;

FIG. 2 is an enlarged schematic view of part A of a novel insulation work platform according to the present application;

FIG. 3 is an enlarged schematic view of part B of a novel insulating work platform according to the present application;

FIG. 4 is an isometric view of a novel insulating work platform of the present application;

FIG. 5 is an enlarged schematic view of part C of a novel insulating work platform according to the present application;

FIG. 6 is an enlarged schematic view of a portion D of a novel insulating work platform according to the present application;

fig. 7 is a schematic view of a gripper of a novel insulation work platform according to the present application.

Reference numerals: 1-scaling ladder; 2-a bracket; 3-a main clamping device; 4-sub-clamping means; 5-first-level electric push rod; 6-lifting the electric push rod; 7-a pedestal; 8-supporting columns; 9-a sleeve; 10-an insulating bucket; 11-correcting the electric push rod; 12-rotating a gear; 13-through grooves; 21-U-beams; 22-a secondary electric push rod; 23-three-level electric push rod; 24-mechanical claws; 31-a first clamping jaw; 32-a second clamping jaw; 33-linkage gear; 34-a first motor; 35-supporting plates; 36-mounting plate; 41-a cross beam; 42-a second motor; 43-limit rod.

Detailed Description

For a better understanding of the present application, its construction, and the functional features and advantages attained by the same, reference should be made to the accompanying drawings in which:

example 1:

as shown in fig. 1 to 7, the application provides a novel insulating operation platform, which comprises a multi-stage lifting aerial ladder 1, wherein the aerial ladder 1 is made of insulating materials. The bottom of the scaling ladder 1 is hinged with a bracket 2 and a main clamping device 3, and each level of scaling ladder 1 is hinged with a sub-clamping device 4; the support 2 is hinged with a first-stage electric push rod 5, and the output end of the first-stage electric push rod 5 is hinged with the scaling ladder 1; the upper end that is located scaling ladder 1 is equipped with promotes electric putter 6, promotes electric putter 6's output fixedly connected with pedestal 7, and vertical fixed pillar 8 that is equipped with on the pedestal 7, and the rotation is equipped with sleeve pipe 9 on the pillar 8, and further, sleeve pipe 9's both ends pass through the bearing and rotate to be connected on pillar 8. The upper end of the sleeve 9 is hinged with an insulating bucket 10, the lower end of the sleeve 9 is fixed with a rotating mechanism, the rotating mechanism is hinged with a correction electric push rod 11, and the output end of the correction electric push rod 11 is hinged with two sides of the insulating bucket 10; the pedestal 7 is fixedly provided with a rotary gear 12, and the rotary mechanism is meshed with the rotary gear 12 for transmission, so that the insulating bucket 10 can be rotatably arranged on the pedestal 7. Specifically, the first-stage electric putter 5 drives scaling ladder 1 slope to just to send the staff to vertical height from ground slope rotation scaling ladder 1, at this moment, after the main clamping device 3 of scaling ladder 1 first-stage ladder frame bottom and sub-clamping device 4 on upper portion press from both sides tight wire pole, under the effect of electric capstan, promote the ladder frame layering of different levels, two sections below the promotion second festival are effectively fixed under the effect of motor, when the second festival promotes to suitable position, after the electric capstan automatic insurance, stop work. The sub-clamping device 4 on the second section automatically grabs the electric pole and stabilizes. The automatic safety actions of the first section and the second section are locked, the safety actions of the second section and the third section are automatically opened, the electric winch is started, the third section is lifted to a proper position and fixed, and the operation steps are the same as those of lifting the second section. The third section and the second section of ladder frame are provided with a plurality of safety rings for selection, and a proper safety ring is selected for fixation in a man-machine interaction mode according to the actual situation of the site; the ladder frame of the aerial ladder 1 is at least three sections.

Specifically, the main clamping device 3 and the auxiliary clamping device 4 comprise a U-shaped beam 21, a secondary electric push rod 22 and a mechanical claw 24, wherein the U-shaped beam 21 is hinged to the scaling ladder 1, the secondary electric push rod 22 is fixedly connected to the U-shaped beam 21, and the mechanical claw 24 is arranged at the output end of the secondary electric push rod 22. The auxiliary clamping device 4 further comprises a three-stage electric push rod 23, one end of the three-stage electric push rod 23 is hinged to the scaling ladder 1, and the other end of the three-stage electric push rod 23 is hinged to the U-shaped beam 21. The mechanical claw 24 comprises a first clamping claw 31, a second clamping claw 32, a linkage gear 33 and a first motor 34, a support plate 35 is fixed at the output end of the secondary electric push rod 22, the first clamping claw 31 and the second clamping claw 32 are rotationally arranged at two ends of the support plate 35, and the first clamping claw 31 and the second clamping claw 32 are in transmission connection through the linkage gear 33 so that the first clamping claw 31 and the second clamping claw 32 are synchronously and reversely rotationally arranged on the support plate 35; the output end of the secondary electric push rod 22 is also provided with a mounting plate 36, the first motor 34 is arranged on the mounting plate 36, the output end of the first motor 34 is connected with the rotating shaft of the first clamping claw 31 through a coupler so as to drive the first clamping claw 31 to rotate through the first motor 34, and the second clamping claw 32 is driven to reversely rotate by means of the mutually meshed linkage gear 33 in the rotating process of the first clamping claw 31, so that the punching and closing control of the mechanical claw 24 is realized.

Specifically, the rotating mechanism comprises a cross beam 41 and a second motor 42, the cross beam 41 is fixedly arranged on the sleeve 9, the second motor 42 is arranged on the cross beam 41, and the output end of the second motor 42 is meshed and transmitted with the rotating gear 12 through a gear, so that the insulating bucket 10 can be rotatably arranged on the pedestal 7. The insulating bucket 10 is made of epoxy resin glass fiber reinforced plastic, and has good insulativity so as to meet the operation requirement.

Working principle: by arranging the main clamping device 3 and the auxiliary clamping device 4 on the aerial ladder 1, the lifted aerial ladder 1 can be clamped on a telegraph pole through the main clamping device 3 and the auxiliary clamping device 4, so that the insulating bucket 10 can stably rotate and lift on the top of the aerial ladder 1; the secondary lifting of the insulating bucket 10 is realized by arranging the lifting electric push rod 6 on the top ladder frame of the aerial ladder 1, and the insulating bucket 10 is rotated and adjusted to a horizontal angle on the top ladder frame of the aerial ladder 1 by means of a rotating mechanism; meanwhile, when the scaling ladder 1 is inclined by hinging the insulating bucket 10 at the upper end of the sleeve 9 and arranging the correction electric push rods 11 on two sides of the cross beam 41, the insulating bucket 10 is always in a horizontal state, so that a worker can vertically align the scaling ladder 1 by means of the first-stage electric push rods 5 after entering the insulating bucket 10, and the scaling ladder 1 is always kept horizontal in the rotating alignment process.

Example 2:

as shown in fig. 2, in the embodiment 1, the two sides of the pedestal 7 are vertically provided with the limiting rods 43, and the limiting rods 43 are slidably connected with the scaling ladder 1, so that the stability of the lifted insulating bucket 10 can be ensured by arranging the limiting rods 43. The insulating bucket 10 is provided with a through groove 13, and the through groove 13 is positioned at the hinge joint of the insulating bucket 10 and the sleeve 9, so that the insulating bucket 10 can rotate on the sleeve 9 without interference under the pushing of the correction electric push rod 11 in the inclined lifting process or the working process of the aerial ladder 1; the motor used in the application is a driving motor with a self-locking function.

The operation platform further comprises a measurement and control system, the measurement and control system comprises a ground base station arranged on the ground, a controller, a force sensor, an inclination angle sensor and a limit sensor which are arranged on the scaling ladder 1, the controller on the scaling ladder 1 is communicated with the ground base station through an Ethernet, the ground base station sends a network instruction to control the movement of the insulation operation platform, and the states of the movement joints of the mechanical claws 24 and the sensors of the insulation operation platform are fed back to the ground base station. The energy supply layering of the insulating operation platform is realized by a lithium battery, and power supplies of different layering can be monitored respectively; the ground base station is portable, and operators can also control the work of the motor, the electric push rod and other drivers on the aerial ladder 1 in the insulating bucket 10.

The above is only a preferred embodiment of the present application, and is not intended to limit the present application in any way. Many possible variations and modifications of the disclosed technology can be made by anyone skilled in the art, or equivalent embodiments with equivalent variations can be made, without departing from the scope of the disclosed technology. Therefore, any modification, equivalent variation and modification of the above embodiments according to the technology of the present application fall within the protection scope of the present application.

Claims

1. The novel insulating operation platform comprises multiple stages of lifting scaling ladders (1), and is characterized in that a bracket (2) and a main clamping device (3) are hinged to the bottom of each scaling ladder (1), and a sub-clamping device (4) is hinged to each scaling ladder (1); a primary electric push rod (5) is hinged to the support (2), and the output end of the primary electric push rod (5) is hinged to the aerial ladder (1); the aerial ladder is characterized in that a lifting electric push rod (6) is arranged at the upper end of the aerial ladder (1), a pedestal (7) is fixedly connected to the output end of the lifting electric push rod (6), a support column (8) is vertically and fixedly arranged on the pedestal (7), a sleeve (9) is rotationally arranged on the support column (8), an insulating bucket (10) is hinged to the upper end of the sleeve (9), a rotating mechanism is fixed at the lower end of the sleeve (9), a correction electric push rod (11) is hinged to the rotating mechanism, and the output end of the correction electric push rod (11) is hinged to two sides of the insulating bucket (10); a rotating gear (12) is fixedly arranged on the pedestal (7), and the rotating mechanism is meshed with the rotating gear (12) for transmission;

the first-stage electric push rod (5) drives the scaling ladder (1) to incline and straighten, so that workers can incline and rotate the scaling ladder (1) from the ground to the vertical height, and at the moment, after the main clamping device (3) at the bottom of the first-stage ladder frame of the scaling ladder (1) and the auxiliary clamping device (4) at the upper part clamp a telegraph pole, ladder frames at different levels are lifted in layers under the action of an electric winch;

when the second section is lifted to a proper position, the electric winch stops working after being automatically protected; the auxiliary clamping device (4) on the second section automatically grabs the electric pole and stabilizes the electric pole; the automatic safety actions of the first section and the second section are locked, the safety actions of the second section and the third section are automatically opened, the electric winch is started to lift the third section to a proper position and fix the third section, and the operation steps are the same as those of lifting the second section.

2. The novel insulating operation platform according to claim 1, wherein the main clamping device (3) and the auxiliary clamping device (4) comprise a U-shaped beam (21), a secondary electric push rod (22) and a mechanical claw (24), the U-shaped beam (21) is hinged to the aerial ladder (1), the secondary electric push rod (22) is fixedly connected to the U-shaped beam (21), and the mechanical claw (24) is arranged at the output end of the secondary electric push rod (22).

3. The novel insulating operation platform according to claim 2, wherein the sub-clamping device (4) further comprises a three-stage electric push rod (23), one end of the three-stage electric push rod (23) is hinged to the aerial ladder (1), and the other end of the three-stage electric push rod (23) is hinged to the U-shaped beam (21).

4. The novel insulating operation platform according to claim 2, wherein the mechanical claw (24) comprises a first clamping claw (31), a second clamping claw (32), a linkage gear (33) and a first motor (34), a support plate (35) is fixed at the output end of the secondary electric push rod (22), the first clamping claw (31) and the second clamping claw (32) are rotationally arranged at two ends of the support plate (35), and the first clamping claw (31) and the second clamping claw (32) are in transmission connection through the linkage gear (33) so that the first clamping claw (31) and the second clamping claw (32) are synchronously and reversely rotationally arranged on the support plate (35); the output end of the secondary electric push rod (22) is further provided with a mounting plate (36), the first motor (34) is arranged on the mounting plate (36), and the output end of the first motor (34) is connected with the rotating shaft of the first clamping claw (31) through a coupler.

5. The novel insulating operation platform according to claim 1, wherein the rotating mechanism comprises a cross beam (41) and a second motor (42), the cross beam (41) is fixedly arranged on the sleeve (9), the second motor (42) is arranged on the cross beam (41), and an output end of the second motor (42) is in meshed transmission with the rotating gear (12) through a gear, so that the insulating bucket (10) can be rotatably arranged on the pedestal (7).

6. The novel insulating operation platform according to claim 5, wherein limit rods (43) are vertically arranged on two sides of the pedestal (7), and the limit rods (43) are in sliding connection with the aerial ladder (1).

7. The novel insulating operation platform according to claim 4, wherein the insulating bucket (10) is provided with a through groove (13), and the through groove (13) is positioned above the hinge joint of the insulating bucket (10) and the sleeve (9).

8. The novel insulating work platform according to claim 1, characterized in that the material of the insulating bucket (10) is epoxy glass.