CN219118811U - Partition wall all-round material transport support - Google Patents

Abstract

A partition wall omnibearing material transporting bracket belongs to the technical field of frame secondary structure construction. Comprises a base, a column, a lower slide roller, an operation cross rod, a handle, a lifting rope, an upper pulley, a tray, a connecting rod, an upper slide roller, a lower pulley and a cantilever rod. The combined use, put the support of transporting in secondary structure wall body inboard, then operating handle rotates, goes up the roll and rolls down the omnidirectional rotation of roll, make the cantilever lever stretch out the secondary structure wall body outside, later release the lifting rope to ground, utilize the lifting rope to tie up the material on ground and fix, then pull the lifting rope, make the material promote, until the material surpasses secondary structure wall body height, later tie up the lifting rope on the handle, rotate the handle, make the cantilever lever rotate to secondary structure wall body inboard, then release the lifting rope, make the material unload subaerial, and the construction is used. The automatic assembling device has the advantages of being simple in assembly and convenient to operate, reducing manual use, reducing potential safety hazards of operators and reducing construction cost.

Description

Partition wall all-round material transport support

Technical Field

The utility model belongs to the technical field of construction of a secondary structure of a frame, and particularly provides an omnibearing material transporting bracket for a partition wall.

Background

When the secondary structure of the frame is constructed, the materials outside the secondary structure wall are generally dumped by adopting a manual conveying mode, and the defects of the mode are that a large amount of manual conveying is required when the materials are more, so that the labor cost is increased; secondly, the material is easy to collide in the process of manually carrying the material, so that certain potential safety hazards are caused.

Disclosure of Invention

The utility model aims to provide a partition wall omnibearing material transporting bracket, which solves the problems of high labor cost, potential safety hazard caused by easy collision in the process of manually transporting materials, and the like.

The utility model puts the reverse support on the inner side of the secondary structure wall, then the operating handle rotates, the upper slide roller and the lower slide roller rotate in all directions, the cantilever rod extends out of the secondary structure wall, then the hanging rope is released to the ground, the material on the ground is tied and fixed by the hanging rope, then the hanging rope is pulled to lift the material until the material exceeds the height of the secondary structure wall, then the hanging rope is tied on the handle, the handle is rotated, the cantilever rod rotates to the inner side of the secondary structure wall, then the hanging rope is released, the material is unloaded to the ground, and the construction and use are performed.

The utility model comprises a base 1, an upright post 2, a lower slide roller 3, an operation cross rod 4, a handle 5, a lifting rope 6, an upper pulley 7, a tray 8, a connecting rod 9, an upper slide roller 10, a lower pulley 11 and an overhanging pole 12, wherein the upright post 2 and the base 1 are vertically welded in a combined mode; the upper sliding roller 10, the lower sliding roller 3 and the upright post 2 form a rolling system, the upper sliding roller 10 is arranged at the top end of the upright post 2, and the distance between the upper sliding roller 10 and the lower sliding roller 3 is 500mm; the cantilever rod 12 is vertically welded with the side wall of the lower slide roller 3 in the horizontal direction; the horizontal direction of the operation cross rod 4 is vertically welded with the side wall of the lower slide roller 3, and the operation cross rod 4 and the cantilever rod 12 are on a horizontal straight line; the handle 5 is vertically welded with the end part of the operation cross rod 4; the lower pulley 11 is welded and fixed on the end part of the cantilever rod 12; the upper ends of the four connecting rods 9 are vertically welded with the tray 8, and the lower ends are welded with the side wall of the upper slide roller 3; the upper pulley 7 is welded and fixed on the tray 8; one end of the lifting rope 6 is tied and fixed on the handle 5, and the other end is freely hung down through the upper pulley 7 and the lower pulley 11 (see fig. 1 and 2).

When the lifting device is used, the reverse support is placed on the inner side of the secondary structure wall 13, then the operating handle 5 rotates, the upper sliding roller 10 and the lower sliding roller 3 rotate in all directions, the cantilever rod 12 extends out of the secondary structure wall 13, then the lifting rope 6 is released to the ground, the material 14 on the ground is tied and fixed by the lifting rope 6, then the lifting rope 6 is pulled, the material 14 is lifted until the material 14 exceeds the height of the secondary structure wall 13, then the lifting rope 6 is tied on the handle 5, the handle 5 is rotated, the cantilever rod 12 rotates to the inner side of the secondary structure wall 13, then the lifting rope 6 is released, the material 14 is unloaded to the ground, and the lifting device is used for construction (figures 3 and 4).

The utility model has the advantages of simple assembly, convenient operation, reduced manual use, reduced potential safety hazard of operators, reduced construction cost and good economic benefit for companies.

Drawings

Fig. 1 is a front view of a shipping rack.

Fig. 2 is a side view of a shipping rack.

Fig. 3 is a front view of the use of the shipping rack.

Fig. 4 is a side view of a shipping rack in use.

In the figure, a base 1, an upright post 2, a lower slide roller 3, an operation cross rod 4, a handle 5, a lifting rope 6, an upper pulley 7, a tray 8, a connecting rod 9, an upper slide roller 10, a lower pulley 11, an overhanging pole 12, a secondary structure wall body 13 and a material 14.

Detailed Description

Fig. 1-4 illustrate an embodiment of the present utility model. The utility model is further described below with reference to the accompanying drawings.

The utility model relates to a transport bracket which comprises a base 1, an upright post 2, a lower sliding roller 3, an operation cross rod 4, a handle 5, a lifting rope 6, an upper pulley 7, a tray 8, a connecting rod 9, an upper sliding roller 10, a lower pulley 11 and an overhanging pole 12, wherein the upright post 2 and the base 1 are vertically welded in a combined mode; the upper sliding roller 10, the lower sliding roller 3 and the upright post 2 form a rolling system, the upper sliding roller 10 is arranged at the top end of the upright post 2, and the distance between the upper sliding roller 10 and the lower sliding roller 3 is 500mm; the cantilever rod 12 is vertically welded with the side wall of the lower slide roller 3 in the horizontal direction; the horizontal direction of the operation cross rod 4 is vertically welded with the side wall of the lower slide roller 3, and the operation cross rod 4 and the cantilever rod 12 are on a horizontal straight line; the handle 5 is vertically welded with the end part of the operation cross rod 4; the lower pulley 11 is welded and fixed on the end part of the cantilever rod 12; the upper ends of the four connecting rods 9 are vertically welded with the tray 8, and the lower ends are welded with the side wall of the upper slide roller 3; the upper pulley 7 is welded and fixed on the tray 8; one end of the lifting rope 6 is tied and fixed on the handle 5, and the other end is hung freely through the upper pulley 7 and the lower pulley 11.

The base 1 is formed by processing a 30mm thick steel plate, and the size is 1000mm to 1000mm (length: width); the upright post 2 is formed by processing a circular tube with the diameter of 150mm, and the length of 2500mm; the outer diameter of the lower slide roller 3 is 240mm, and the inner diameter is 150mm; the operation cross rod 4 is formed by processing a circular tube with the diameter of 60mm, and the length of 800mm; the handle 5 is formed by processing a circular tube with the diameter of 30mm and the length of 300mm; the lifting rope 6 is formed by processing a steel wire rope with the diameter of 10mm, and the length of 8000mm; the diameter of the upper pulley 7 is 300mm; the tray 8 is processed from a 14mm thick steel plate with dimensions (length. Times. Width) of 300mm; the connecting rod 9 is processed by round steel with the diameter of 14mm and the length of 220mm; the outer diameter of the upper slide roller 10 is 240mm, and the inner diameter is 150mm; the diameter of the lower pulley 11 is 200mm; the cantilever 12 is formed by processing square tubes with a cross-sectional dimension (length: width) of 120mm and a length of 1500mm.

When the lifting device is used, the reverse support is placed on the inner side of the secondary structure wall 13, then the operating handle 5 rotates, the upper sliding roller 10 and the lower sliding roller 3 rotate in all directions, the cantilever rod 12 extends out of the secondary structure wall 13, then the lifting rope 6 is released to the ground, the material 14 on the ground is tied and fixed by the lifting rope 6, then the lifting rope 6 is pulled, the material 14 is lifted until the material 14 exceeds the height of the secondary structure wall 13, then the lifting rope 6 is tied on the handle 5, the handle 5 is rotated, the cantilever rod 12 rotates to the inner side of the secondary structure wall 13, then the lifting rope 6 is released, the material 14 is unloaded to the ground, and the lifting device is used for construction.

When constructing office building secondary structure, to the material transportation outside the secondary structure wall have adopted a partition wall omnidirectional material transportation support, have reduced artificial use, have also reduced the potential safety hazard of operating personnel simultaneously, the effect is better. The transport bracket is used in combination, and the upright post and the base are welded vertically; the upper sliding roller, the lower sliding roller and the upright post form a rolling system, the upper sliding roller is arranged at the top end of the upright post, and the distance between the upper sliding roller and the lower sliding roller is 500mm; the cantilever rod is vertically welded with the side wall of the lower sliding roller in the horizontal direction; the operation cross rod is vertically welded with the side wall of the lower slide roller in the horizontal direction, and the operation cross rod and the cantilever are arranged on a horizontal straight line; the handle is vertically welded with the end part of the operation cross rod; the lower pulley is welded and fixed on the end part of the cantilever rod; the upper ends of the four connecting rods are vertically welded with the tray, and the lower ends of the four connecting rods are welded with the side wall of the upper slide roller; the upper pulley is welded and fixed on the tray; one end of the lifting rope is tied and fixed on the handle, and the other end of the lifting rope is hung down freely through the upper pulley and the lower pulley. When the lifting device is used, the reverse support is placed on the inner side of the secondary structure wall body, then the operating handle rotates, the upper sliding roller and the lower sliding roller rotate in all directions, the cantilever rod stretches out of the secondary structure wall body, then the lifting rope is released to the ground, the material on the ground is tied and fixed by the lifting rope, then the lifting rope is pulled, the material is lifted until the material exceeds the height of the secondary structure wall body, then the lifting rope is tied on the handle, the handle is rotated, the cantilever rod rotates to the inner side of the secondary structure wall body, then the lifting rope is released, the material is unloaded to the ground, and the lifting device is used for construction. The transporting support is simple in assembly and convenient to operate, manual use is reduced, potential safety hazards of operators are reduced, and construction cost is reduced.

Claims (3)

1. The all-dimensional material transfer support for the partition wall is characterized by comprising a base (1), an upright post (2), a lower sliding roller (3), an operation cross rod (4), a handle (5), a lifting rope (6), an upper pulley (7), a tray (8), a connecting rod (9), an upper sliding roller (10), a lower pulley (11) and a cantilever rod (12); the upright post (2) is vertically welded with the base (1); the upper slide roller (10) is arranged at the top end of the upright post (2), and the cantilever rod (12) is vertically welded with the side wall of the lower slide roller (3) in the horizontal direction; the horizontal direction of the operation cross rod (4) is vertically welded with the side wall of the lower slide roller (3), and the operation cross rod (4) and the cantilever rod (12) are arranged on a horizontal straight line; the handle (5) is vertically welded with the end part of the operation cross rod (4); the lower pulley (11) is welded and fixed on the end part of the cantilever rod (12); the upper ends of the four connecting rods (9) are vertically welded with the tray (8), and the lower ends are welded with the side wall of the upper slide roller 3; the upper pulley (7) is welded and fixed on the tray (8); one end of the lifting rope (6) is tied and fixed on the handle (5), and the other end of the lifting rope is hung down freely through the upper pulley (7) and the lower pulley (11).

2. The partition omnidirectional material transporting bracket according to claim 1, wherein the upper sliding roller (10), the lower sliding roller (3) and the upright post (2) form a rolling system, and the distance between the upper sliding roller (10) and the lower sliding roller (3) is 500mm.

3. The partition omnidirectional material transporting bracket according to claim 1, wherein the base (1) is formed by processing 30mm thick steel plate, and the size is 1000mm long by 1000mm wide; the upright post (2) is formed by processing a circular tube with the diameter of 150mm, and the length of 2500mm; the outer diameter of the lower slide roller (3) is 240mm, and the inner diameter is 150mm; the operation cross rod (4) is formed by processing a circular tube with the diameter of 60mm, and the length of 800mm; the handle (5) is formed by processing a circular tube with the diameter of 30mm and the length of 300mm; the lifting rope (6) is formed by processing a steel wire rope with the diameter of 10mm, and the length of 8000mm; the diameter of the upper pulley (7) is 300mm; the tray (8) is formed by processing a 14mm thick steel plate, and the size is 300mm long by 300mm wide; the connecting rod (9) is formed by processing round steel with the diameter of 14mm and the length of 220mm; the outer diameter of the upper slide roller (10) is 240mm, and the inner diameter is 150mm; the diameter of the lower pulley (11) is 200mm; the cantilever rod (12) is formed by processing square tubes with the cross section dimension of 120mm in length and 120mm in width, and the length of the cantilever rod is 1500mm.

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