CN108063391B

CN108063391B - High-altitude operation platform

Info

Publication number: CN108063391B
Application number: CN201711242253.XA
Authority: CN
Inventors: 杜华槐; 黄勇; 卢冠军; 卢秋锦; 刘立新; 殷莉; 李滨; 王庆元; 马益青; 王毅冰; 王添军; 左红艳; 库都来提·吐尔地; 吴晓晖; 潘超
Original assignee: State Grid Xinjiang Electric Power Company Turpan Power Supply Co; State Grid Corp of China SGCC
Current assignee: State Grid Xinjiang Electric Power Company Turpan Power Supply Co; State Grid Corp of China SGCC
Priority date: 2017-11-30
Filing date: 2017-11-30
Publication date: 2023-12-22
Anticipated expiration: 2037-11-30
Also published as: CN108063391A

Abstract

The application relates to a high-altitude operation platform, which comprises a main platform, wherein three sides except the rear side of the main platform are respectively inserted with a telescopic front platform and a telescopic side platform, a rear guard board is erected on the rear side of the main platform, and a connecting frame used for being connected with a crane head is arranged on the rear guard board; the outer ends of the two side platforms are vertically provided with side guard plates, the front end of the front platform is vertically provided with a front guard plate, and the front guard plate is connected with the side guard plates through corner guard plates; the rear end of the side guard plate is provided with a rear telescopic rod which is spliced with the rear guard plate, the front end of the side guard plate is provided with a side telescopic rod which is spliced with one side edge of the corner guard plate, and the other side edge of the corner guard plate is provided with a front telescopic rod which is spliced with the front guard plate; the two sides of the front platform or the front side of the side platform are provided with turnover platforms which can be turned over. The utility model provides a whole extension, the withdrawal simple operation can provide bigger operation space in the high altitude, and overall stability and security are all higher, are fit for the high altitude construction and use.

Description

High-altitude operation platform

Technical Field

The application relates to an aerial platform capable of expanding a working area.

Background

In the electric power construction, overhaul and maintenance, especially in the high-altitude operation process, an overhead operation platform is often required to be built, and the high-altitude operation platform in the prior art is mostly supposed to be directly connected with an iron tower and an electric pole, so that the operation height and the use area of the operation platform are limited, operators are required to move back and forth in the process of installing large-scale equipment such as a transformer, and if the fixed operation platform is used, the operation platform is inconvenient.

Disclosure of Invention

The purpose of this application is to propose a mountable at the hoist aircraft nose to realize highly changing nimble, and scalable operating area's high altitude operation platform.

The application is realized in such a way that: the high-altitude operation platform comprises a main platform, wherein the three sides except the rear side of the main platform are respectively inserted with a telescopic front platform and a telescopic side platform, the rear side of the main platform is vertically provided with a rear guard board, and the rear guard board is provided with a connecting frame for connecting with a crane head; the outer ends of the two side platforms are vertically provided with side guard plates, the front end of the front platform is vertically provided with a front guard plate, and the front guard plate is connected with the side guard plates through corner guard plates; the rear end of the side guard plate is provided with a rear telescopic rod which is spliced with the rear guard plate, the front end of the side guard plate is provided with a side telescopic rod which is spliced with one side edge of the corner guard plate, and the other side edge of the corner guard plate is provided with a front telescopic rod which is spliced with the front guard plate; the two sides of the front platform or the front side of the side platform are provided with turnover platforms which can be turned over.

The left and right sides of the front guard board are provided with a plurality of jacks which are parallel up and down and are distributed along the left and right directions.

The rear end of the side guard plate is provided with a plurality of rear telescopic rods which are vertically parallel and distributed along the left-right direction, each rear telescopic rod is in one-to-one corresponding connection with a plurality of jacks formed in two sides of the rear guard plate, and the front end face of the side guard plate is provided with a plurality of jacks which are vertically parallel and distributed along the front-back direction.

The corner guard plate is angle iron-shaped, a plurality of side telescopic rods which are parallel up and down and are distributed along the front-back direction are arranged on the right-angle side end face of the corner guard plate, and each side telescopic rod is in one-to-one corresponding insertion connection with an insertion hole positioned on the front end face of the side guard plate; a plurality of front telescopic rods which are parallel up and down and are distributed along the left-right direction are arranged on the end face of the other right-angle side of the corner guard plate, and each front telescopic rod is spliced with a jack formed in the left or right side face of the front guard plate in a one-to-one correspondence manner.

Pin holes are formed in the two sides of the front guard plate and the front part of the side guard plate, connecting pieces are arranged on the two right-angle edges of the corner guard plate, and through holes corresponding to the pin holes are formed in the connecting pieces.

The front part and two sides of the main platform are provided with supporting rods with hooks, the supporting rods comprise front supporting rods arranged at the front part of the main platform, and side supporting rods arranged at two sides of the main platform; the upper end of the front stay bar is connected with the upper end of the front guard board through a front hook, and the length of the front stay bar is longer than the extending length of the front platform; the upper end of the side stay bar is connected with the upper end of the side guard plate in a hanging way through a side hook, and the length of the side stay bar is longer than the extending length of the side platform.

By implementing the technical scheme, the front platform and the side platform arranged at the side of the main platform can expand the main platform, so that the high-altitude operation range is enlarged, and the loopholes generated by the extension of the front platform and the side platform are made up by the overturning platform; and the overall stability is enhanced through each supporting rod; the utility model provides a whole extension, the withdrawal simple operation can provide bigger operation space in the high altitude, and overall stability and security are all higher, are fit for the high altitude construction and use.

Drawings

The specific structure of the present application is given by the following figures and examples:

FIG. 1 is a schematic top view of the present application;

fig. 2 is a schematic structural view of the telescopic joint of the guardrail of the present application.

Legend: 1. rear telescopic rod, 2 side platform, 3 connecting frame, 4 rear guard board, 5 main platform, 6 front pothook, 7 front supporting rod, 8 front platform, 9 front guard board, 9-1 jack, 10 front telescopic rod, 11 corner guard board, 12 turnover platform, 13 lap board, 14 side telescopic rod, 15 side pothook, 16 side supporting rod, 17 side guard board, 18 connecting sheet, 19 through hole, 20 bearing pothook, 21 pin hole.

Description of the embodiments

The present application is not limited by the following examples, and specific embodiments may be determined according to technical solutions and practical situations of the present application.

As shown in fig. 1 to 2, the high-altitude operation platform comprises a main platform 5, wherein the three sides except the rear side of the main platform 5 are respectively inserted with a telescopic front platform 8 and a telescopic side platform 2, a rear guard board 4 is erected on the rear side of the main platform 4, and a connecting frame 3 for connecting with a crane head is arranged on the rear guard board 4; a side guard plate 17 is erected at the outer ends of the two side platforms 2, a front guard plate 9 is erected at the front end of the front platform 8, and the front guard plate 9 is connected with the side guard plate 17 through a corner guard plate 11; the rear end of the side guard plate 17 is provided with a rear telescopic rod 1 which is spliced with the rear guard plate 4, the front end of the side guard plate 17 is provided with a side telescopic rod 14 which is spliced with one side edge of the corner guard plate 11, and the other side edge of the corner guard plate 11 is provided with a front telescopic rod 10 which is spliced with the front guard plate 9; on both sides of the front platform 8 or on the front side of the side platform 2, a reversible tilting platform 12 is provided.

Further, a plurality of jacks which are parallel up and down and are distributed along the left and right direction are arranged on the left and right side surfaces of the front guard plate 9.

Further, a plurality of back telescopic rods 1 which are parallel up and down and distributed along the left-right direction are arranged at the rear end of the side guard 17, each back telescopic rod 1 is in one-to-one corresponding connection with a plurality of jacks formed at two sides of the back guard 4, and a plurality of jacks which are parallel up and down and distributed along the front-back direction are arranged on the front end face of the side guard 17.

Further, the corner guard plate 11 is angle iron-shaped, a plurality of side telescopic rods 14 which are parallel up and down and are distributed along the front-back direction are arranged on the right-angle side end surface of the corner guard plate, and each side telescopic rod 14 is in one-to-one corresponding connection with a jack positioned on the front end surface of the side guard plate 17; a plurality of front telescopic rods 10 which are parallel up and down and distributed along the left-right direction are arranged on the other right-angle side surface of the corner guard plate 11, and each front telescopic rod 10 is in one-to-one corresponding connection with a jack arranged on the left or right side surface of the front guard plate 9.

As shown in fig. 2, pin holes 21 are formed on both sides of the front guard plate 9 and the front of the side guard plate 17, connecting pieces 18 are provided on both right-angle sides of the corner guard plate 11, and through holes 19 corresponding to the pin holes 21 are formed in the connecting pieces 18. When the corner guard plates 11 are not separated from the front guard plates 9 and the side guard plates 17, the bolts can be inserted into the pin holes 21 through the through holes 19, so that the front guard plates 9 and the corner guard plates 11 are fixedly connected with the side guard plates 17 and the corner guard plates 11, and accidental separation is prevented.

The inner ends of the front telescopic rods 10, the side telescopic rods 14 and the rear telescopic rods 1 inserted into the jacks are provided with clamping blocks, so that the telescopic rods are prevented from being separated from the jacks due to excessive stretching.

As shown in fig. 1, in order to prevent the front platform 8 and the side platform 2 from being accidentally retracted after being extended, the front part and the two sides of the main platform 5 are provided with supporting rods with hooks, the supporting rods comprise a front supporting rod 7 arranged at the front part of the main platform 5, and side supporting rods 16 arranged at the two sides of the main platform 5; the upper end of the front stay bar 7 is connected with the upper end of the front guard plate 9 in a hanging way through the front hook 6, and the length of the front stay bar 7 is longer than the extending length of the front platform 8; the upper ends of the side stay bars 16 are connected with the upper ends of the side guard plates 17 in a hanging mode through side hooks 15, and the length of the side stay bars 16 is longer than the extending length of the side platform 2.

As shown in fig. 1, in order to fill the gap formed by the front platform 8 and the side platform 2 extending out, the overturning platform 12 is arranged at two sides of the front platform 8 or at the front side of the side platform 2 through hinges, chains with bearing hooks 20 are arranged at two sides of the front platform 8, and the bearing hooks 20 can be directly connected with the front telescopic rod 10 and the side telescopic rod 14 in a hanging manner; to further strengthen the load-bearing of the tilting platform 12, a bridging plate 13 is provided on the side of the tilting platform 12 adjacent to the front platform 8 or the side platform 2, the bridging plate 13 being connected, i.e. articulated, to the tilting platform 12.

When the crane telescopic arm machine head is used, the whole crane telescopic arm machine head is fixedly connected with the crane telescopic arm machine head through the connecting frame 3, and the operation height is adjusted through the crane. When the front platform 8 or the side platform 2 is positioned at the working position, the front platform 8 or the side platform 2 can be selected to extend according to the requirement, and after the front platform 8 or the side platform 2 extends, the front stay bar 7 or the side stay bar 16 needs to be hung in place so as to prevent the front platform 8 or the side platform 2 from suddenly retracting; if only the front platform 8 or the side platform 2 is extended, the turning platform 12 does not need to be opened, and after the front platform 8 and the side platform 2 are simultaneously extended, the turning platform 12 must be opened to prevent high-altitude falling.

The technical characteristics form the optimal embodiment of the application, have stronger adaptability and optimal implementation effect, and can increase or decrease unnecessary technical characteristics according to actual needs so as to meet the needs of different situations.

Claims

1. An aerial operation platform, characterized in that: the telescopic front platform and the telescopic side platform are respectively inserted into the three sides except the rear side of the main platform, a rear guard board is erected on the rear side of the main platform, and a connecting frame used for being connected with a crane head is arranged on the rear guard board; the outer ends of the two side platforms are vertically provided with side guard plates, the front end of the front platform is vertically provided with a front guard plate, and the front guard plate is connected with the side guard plates through corner guard plates; the rear end of the side guard plate is provided with a rear telescopic rod which is spliced with the rear guard plate, the front end of the side guard plate is provided with a side telescopic rod which is spliced with one side edge of the corner guard plate, and the other side edge of the corner guard plate is provided with a front telescopic rod which is spliced with the front guard plate; the two sides of the front platform or the front side of the side platform are provided with turnover platforms which can be turned over;

the front part and two sides of the main platform are provided with supporting rods with hooks, the supporting rods comprise front supporting rods arranged at the front part of the main platform, and side supporting rods arranged at two sides of the main platform; the upper end of the front stay bar is connected with the upper end of the front guard board through a front hook, and the length of the front stay bar is longer than the extending length of the front platform; the upper end of the side stay bar is connected with the upper end of the side guard plate in a hanging way through a side hook, and the length of the side stay bar is longer than the extending length of the side platform;

and a lapping plate is arranged on the edge of the overturning platform adjacent to the front platform or the side platform, and is movably connected with the overturning platform.

2. The aerial operation platform of claim 1, wherein: the left and right sides of the front guard board are provided with a plurality of jacks which are parallel up and down and are distributed along the left and right directions.

3. The aerial platform of claim 1 or 2, wherein: the rear end of the side guard plate is provided with a plurality of rear telescopic rods which are vertically parallel and distributed along the left-right direction, each rear telescopic rod is in one-to-one corresponding connection with a plurality of jacks formed in two sides of the rear guard plate, and the front end face of the side guard plate is provided with a plurality of jacks which are vertically parallel and distributed along the front-back direction.

4. A high altitude operation platform according to claim 3, wherein: the corner guard plate is angle iron-shaped, a plurality of side telescopic rods which are parallel up and down and are distributed along the front-back direction are arranged on the right-angle side end face of the corner guard plate, and each side telescopic rod is in one-to-one corresponding insertion connection with an insertion hole positioned on the front end face of the side guard plate; a plurality of front telescopic rods which are parallel up and down and are distributed along the left-right direction are arranged on the end face of the other right-angle side of the corner guard plate, and each front telescopic rod is spliced with a jack formed in the left or right side face of the front guard plate in a one-to-one correspondence manner.

5. The aerial platform of claim 4, wherein: pin holes are formed in the two sides of the front guard plate and the front part of the side guard plate, connecting pieces are arranged on the two right-angle edges of the corner guard plate, and through holes corresponding to the pin holes are formed in the connecting pieces.

6. The aerial operation platform of claim 1, wherein: the overturning platform is arranged on two sides of the front platform or the front side of the side platform through hinges, chains with bearing hooks are arranged on two sides of the front platform, and the bearing hooks are connected with the front telescopic rod and the side telescopic rods in a hanging mode.