KR101668177B1 - Electric Powered Multistage Work Platform - Google Patents

Abstract

The present invention relates to a method for assembling a plurality of work cages in a multistage manner as required for efficient operation in order to simultaneously work concurrently with a plurality of workers in a work type using a vertically long member during outer wall related work of a high- The present invention relates to a method of connecting a plurality of work cages stacked in a single frame to one another to be interlocked with each other. The present invention relates to a hypothetical double work bench for electric elevated work,

Description

{Electric Powered Multistage Work Platform}

This is a technology related to a hypothetical double-layer workbench for high-altitude works used for exterior wall finishing work of high-rise buildings.

The method of the construction work which relies on the building sphere for the exterior wall finishing of the existing high-rise building is roughly divided into

1. Installation of traditional scaffolding scaffolding using steel pipe

2. Gondola method using work cage hanging on wire

3. There is a work platform system which is attached to both masts and moved by electric motor.

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Among them, the present invention relates to the field of an electric work platform.

In particular, the present invention is aimed at optimizing the green remodeling work for the purpose of improving the insulation performance of an aged apartment, and more particularly, for example, In order to improve the insulation of the apartment inhabited by the residents, it is essential that special conditions are required for all construction work to be carried out while residents living in the apartment are living.
Although it is safest to move all the residential units and work on the construction, many households have to move all at once, as well as many relocation costs, such as the cost of moving a new house to temporarily live, and sudden There is a problem that it is difficult for the insulation improvement business itself to progress efficiently, such as a sudden increase in short-term charter demand.
Therefore, the residents should be safe, noise and troublesome to minimize the inconvenience of living.
The present invention is a technique for solving such a problem.

The method shown in Fig. 1 is a general scaffolding method using a steel pipe pipe. It is the most traditional way of working among the various ways. However, this method is done manually on incomplete scaffolding structures that are all wobbly when assembling the hypothetical scaffold. Therefore, the risk of safety accidents due to various factors is very high and labor intensity is high, so it is possible to work only by experienced skilled workers. Because of the risk of the work that should be endured, the per capita value of related unexcused workers is very high compared to other occupations.

In addition, this dismantling work is especially difficult to apply as a hypothetical non - resident for the renovation of apartments inhabited by residents because of the high risk of safety accidents caused by falling objects.

In addition, in the case of the outer insulation plaster finishing method, since the length of the material to be treated is long and the direction in which the material is installed is on the vertical line, the work efficiency can be improved only when several workers simultaneously work together.
This is a very essential element in the external insulation of apartment buildings.

For this reason, as shown in FIG. 1, for the current external insulation work, a method of wrapping the entire building from the ground to the top of the building is used mainly by using a steel pipe pipe as a scaffold. However, in the case of an apartment with a high number of floors, the scaffolding work environment is very dangerous, and because of the heavy weight of the scaffold itself, the steel pipe pipe reaches a limit that can be afforded, The permissible weight of the material must also be strictly controlled.

In addition, in the case of a gondola type work table suspended from a wire shown in Fig. 2, there is a disadvantage that it is shaken much. Especially, it is difficult to write due to the reaction force like drilling work, the fine posture such as the plastering work or the stone construction, and the unstable work to handle heavy materials.

The electric-driven work platform shown in Fig. 3 has been introduced into the country long ago as a foreign product, but it is hard to find now. The rent is very expensive and it is difficult to dismantle the installation.
In addition, this method is less effective for a workhorse in which a worker must deal with a long member by simultaneous work on a vertical line and a worker is a first step.
In particular, it is useless for a large number of workers to simultaneously work on the vertical line, because the fiberglass mesh net should be long and plastered, as in the case of the outer insulation plaster finishing method.

The present invention addresses these problems.

In the present invention, as a means for solving such a problem, an electric machine is used as a power source for up-and-down movement, which must be used from time to time for entering and exiting the workpiece during work and for quantifying the material.
This electric machine device is used by quoting the mechanical device of the electric lift car for material transport shown in Fig. 4 as it is.
This electric lift car, which has already proved its stability, which has already been used in all construction sites, is designed to lift the mast (2) by itself by using the up and down movement function of the lift car itself, It is used by quoting as it is.

However, unlike the prior art, the work cages 1 are assembled into a multi-layered cage (A), thereby obtaining an advantage that a plurality of workers can work simultaneously and concurrently on a vertical line.

In addition, since the positions where the masts are installed vary according to the shape of the building, it is possible to cope flexibly with a structure in which the lengths of the working cages 1 are inserted into each other so as to be adjustable in accordance with the lengths thereof .

The present invention seeks to enhance the safety and efficiency of exterior wall finishing work.

In particular, as a means to reduce the budget of the head of household who is paying the construction cost for the renovation of an old detached house, the resident should proceed safely and quietly without moving during the construction period. Hybrid construction becomes an essential element technology.

1 is a schematic view of a conventional steel pipe pipe scaffold
2 shows a conventional electric work plate photograph
Fig. 3 is a schematic view of a lift truck
Fig. 4 is a perspective view showing the whole of a hypothetical double-layer working table for electric elevating work installed in a high-
5 is an enlarged perspective view of the multi-layered cage A according to the present invention.
6 is a perspective view of the electric lifting motor of the hypothetical double-
7 is an enlarged perspective view of the working cage 1. Fig.

Specific details for implementing the present invention are as follows.

In the present invention, the driving method of the footrest lift truck is mostly used for the up-and-down driving method of the footrests of the present invention as shown in FIG.

The mast of the lift car shown in FIG. 3 is connected in a connected fashion, and the mountable height of the mast is infinite if there is a building to be relied upon, and the mast is assembled and operated in units of one row.

However, according to the present invention, as shown in Fig. 4, the mast 2 is positioned at both ends of the working cage 1, so that the balance of the operation scaffold is more firmly maintained.
In addition, it is possible to reduce cost and time by reducing the number of masts 2 to be installed. As shown in Fig. 2, which is the most similar to the present invention, the rails are not located on both sides of the work foot width, Layered cage (A) that operates mutually individually on one mast (2) for the continuous installation of the mast (2) is a continuous simple beam that shares and simultaneously supports the mast (2).
Thus, the spacing of the mast 2 is determined by how robust the multi-layered cage A is structurally.
For this reason, the required number of mast (2) is reduced only if the structural strength of the double layer cage (A) is maximized so that the amount of deflection by self weight is minimized.
To this end, each work cage (1) has a safety guardrail structure (9) for preventing falling from being installed on both sides of the work footrest, and a box structure with a lightweight but sturdy truss structure The factory is manufactured and brought into the field.
The work cages 1 used for the entire construction are formed by a vertical binding member 4 so as to be a multi-layer cage A in which multi-layered work cages 1 are combined with each other, ).

In this way, the work cage 1 can be constructed in a multi-stage structure and used as a multi-layer cage A so that the workers can simultaneously work on the vertical lines of the upper and lower work cages 1 simultaneously.

Also, the work cages (1) are equipped with a radio antenna structure so that the length can be easily adjusted to the length of the building wall having different lengths.
For this purpose, each cage footplate is composed of two or three side scaffolds and inserted into each other. At this time, the female side scaffolding which receives the insertion is a little larger, and the male side scaffolding to be inserted is a little small and inserted into the female side scaffold, The length of which shall be fixed.
After the length of the working cage 1 is adjusted to fix the length with the bolts, the working cages 1, which are repeatedly adjusted to the same length, are stacked and stacked at a plurality of stages corresponding to the vertical length required for the main work .
The vertically coupling members 4 for synthesizing and bundling the respective working cages 1 as a single member in a pair of front and rear at the both vertical edges of the assembled double-layered cage A and one pair at the middle portion are independent of each other using bolts The manufactured work cages 1 are bundled together to form a single multi-layered cage A.
In order to prevent the middle portion of the assembled multi-layer cage A from being sagged downward, a wire 4 is inserted between the lowermost end of the vertical binding member 4 provided in the middle of the multi- And the upper ends of the respective vertical binding members 4 installed at the upper ends of the vertical binding members 4, respectively.
This is because the center of the lowermost scaffold is connected to the uppermost edges of the mast 2 by the wire 7 for preventing sagging of the work cage 1 so that the weight of all the double-layer cages A can be stably transferred to the mast 2. [ So that the structure can be supported.

First, referring to FIG. 1, the mast 2 is installed vertically at a position spaced apart by a predetermined distance at which the building wall can be finished, ) Is firmly fixed to the building sphere by using a mast bracket (3) that fixes it to the wall.
The mast (2) must have a structure sufficient for compressive force in the form of a truss which can receive all the loads by itself like a mast of a tower crane. The fixing interval of the mast bracket 3 fixed to the building sphere is increased in proportion to the structural rigidity that the mast 2 structure can receive.
As the fixed interval increases, the number of fixing points decreases, which reduces the number of points where the finishing operation is impossible, thereby increasing the overall working efficiency.
If the rigidity of the double-layer cage A and the mast 2 is secured, the number of the mast brackets 3 attached to the outer wall of the building can be minimized, and work can be performed as efficiently as possible.

The mast 2 is installed at the same interval as the length of the multi-layer cage A in the direction of the linear axis which is the same as the longitudinal direction of the multi-layer cage A, and the multi-layer cage A is attached to the guide rails of both masts 2 Respectively.
Then, the driving unit is completed by combining the raising frame 5 attached to the mast 2 and the lifting motor 6 attached to the working cage 1.
The lifting motor 6 is used in the same number of the same number so as to be secured to the load to be handled.
A multi-stage working cage (A) for multi-stage working wherein a multi-layered, single-member composite multi-layer cage (A) is provided and a work cage (1) Is completed.

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The present invention relates to a method for improving the insulation performance of an old housing which is being promoted for energy reduction in each country in the world, And a method for installing an external scaffolding is presented.

The present invention is a technology optimized for finishing the exterior heat insulation of a high-rise apartment.

A: Double layer cage
1: Working cage
2: mast
3: Mast bracket
4: vertical binding member
Five:
6: lifting motor
7: Wire
8: Scaffolding structure
9: Safety railings

Claims (2)

1. A work station for electric high-altitude work installed for finishing an outer wall of a high-rise building,
Work cages (1) used as scaffolds for the above work are factory-produced by a single member having a truss structure in the form of a box on both the scaffolding structure (8) and the safety guardrail structure (9) A cage (1) is assembled in a multi-layered multi-stage and a plurality of the assembled work cages (1) are constituted by a vertical binding member (4) And is vertically moved by a lifting motor (6) along a mast (2) provided in the same linear axis direction in accordance with the length of the double layer cage (A).
The method according to claim 1,
The multi-layered cage (A) is assembled with a plurality of work cages (1) whose length is adjusted by an antenna type; In addition, while the two-layered cages A, which are adjacent to each other and are continuously installed, share one mast 2 installed between adjacent both ends, and the repeatedly installed double-layered cages A are independently moved up and down, Working hypothetical workbench.

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