CN215711296U - High-altitude operation hanger - Google Patents

Abstract

The utility model provides a high-altitude operation hanger, which comprises: the two movable bottom beams are arranged in parallel at intervals along the X direction or the Y direction and are respectively provided with a roller and a brake; the two gantry vertical frames are respectively and correspondingly vertically arranged on the movable bottom beam, any one gantry vertical frame is respectively provided with two vertical columns arranged in the Z direction and a top beam arranged in the Y direction, and a hoisting space is arranged between the two vertical columns and below the top beam; the transverse sliding rail is erected at the tops of the two gantry vertical frames along the X direction, is fixedly connected below the two top beams and extends out of the front end of one gantry vertical frame; the monorail crane is arranged on the transverse sliding rail in a sliding manner; and the counterweight device is positioned at the rear end of the other gantry stand and is connected with the monorail crane. The assembly and disassembly hanging bracket can be directly erected at a proper position on the top of a building for use, can adopt a small-size design, and is not limited by the building height and the ground construction environment.

Description

High-altitude operation hanger

[ technical field ] A method for producing a semiconductor device

The utility model relates to the field of assembly and disassembly of steel structures, in particular to a high-altitude operation hanging bracket.

[ background of the utility model ]

High-rise buildings refer to residential buildings with building heights greater than 27m and non-single-storey plants, warehouses and other civil buildings with building heights greater than 24 m. Because the tops of many high-rise buildings have the design of steel structure modeling, when installing or dismantling, various steel products need to be hoisted at high altitude, and at the present stage, a crane is mostly used for installing or dismantling, so that the operation is difficult when the building height is too large or the ground construction environment is not friendly, but the hoisting height of the crane is limited and large ground space is needed for operation.

[ Utility model ] content

The utility model aims to solve the technical problem of providing an aerial work hanging bracket which is directly erected at a proper position on the top of a building for use and is not limited by the building height and the ground construction environment.

The utility model is realized by the following steps: an aerial work pylon comprising:

the two movable bottom beams are arranged in parallel at intervals and are respectively provided with a roller and a brake;

the two gantry vertical frames are respectively and correspondingly vertically arranged on the movable bottom beam, any one gantry vertical frame is respectively provided with two vertical columns arranged in the Z direction and a top beam arranged in the Y direction, and a hoisting space is arranged between the two vertical columns and below the top beam;

the transverse sliding rail is erected at the tops of the two gantry vertical frames along the X direction, is fixedly connected below the two top beams and extends out of the front end of one gantry vertical frame;

the monorail crane is arranged on the transverse sliding rail in a sliding manner;

and the counterweight device is positioned at the rear end of the other gantry stand and is connected with the monorail crane.

Furthermore, the assembling and disassembling hanging bracket of the high-altitude steel structure further comprises a hoisting device, wherein the hoisting device is connected with the monorail crane and can penetrate through the hoisting space under the driving of the monorail crane. The hoisting device is a chain block or an electric block.

Furthermore, the assembling and disassembling hanging bracket of the high-altitude steel structure further comprises a reinforcing inclined rod, one end of the reinforcing inclined rod is connected with the movable bottom beam, and the other end of the reinforcing inclined rod is connected with the upper section of the gantry stand.

Furthermore, the assembling and disassembling hanging bracket of the high-altitude steel structure further comprises slide rail travel stop blocks which are arranged at two end parts of the transverse slide rail.

Furthermore, the counterweight device comprises an adjustable counterweight sandbag, a rope and a steering pulley, wherein the rope is erected on the steering pulley, one end of the rope is connected with the adjustable counterweight sandbag, and the other end of the rope is connected with the monorail crane.

The utility model has the advantages that: the assembling and disassembling hanging bracket of the high-altitude steel structure is directly erected at a proper position on the top of a building for use, so that the small-size design can be adopted, various steel products of the steel structure can be hung, materials can be saved, and the assembling and disassembling hanging bracket of the high-altitude steel structure is not limited by the building height and the ground construction environment.

[ description of the drawings ]

The utility model will be further described with reference to the following examples with reference to the accompanying drawings.

Fig. 1 is a front view structure schematic diagram of the aerial work hanging bracket of the utility model.

FIG. 2 is a side view of the aerial work pylon of the present invention.

Fig. 3 is a schematic structural diagram of the aerial work crane in a hoisting state.

[ detailed description ] embodiments

The embodiment of the utility model provides the overhead working hanging bracket which is directly erected at a proper position on the top of a building for use and is not limited by the building height and the ground construction environment.

In order to solve the above problems, the technical solution in the embodiments of the present invention has the following general idea: design a miniature gallows of installing and removing, directly erect and use in the suitable position in building top, as long as can suspend in midair the various steel of steel construction and realize the removal can, realize the transfer of various steel at the building top, consequently install and remove the gallows and can adopt small-size design, save material greatly, and convenient operation can not receive building height and ground construction environment's restriction.

For better understanding of the above technical solutions, the following detailed descriptions will be provided in conjunction with the drawings and the detailed description of the embodiments.

Referring to fig. 1 to 3, an aerial work spreader 100 according to an embodiment of the present invention includes:

the two movable bottom beams 1 are arranged in parallel at intervals and are respectively provided with a roller 11 and a brake 12;

the two gantry vertical frames 2 are respectively and correspondingly vertically arranged on the movable bottom beam 1, any one of the gantry vertical frames 2 is respectively provided with two Z-direction vertical columns 21 and a Y-direction top beam 22, and a hoisting space A is arranged between the two vertical columns 21 and below the top beam 22;

the transverse slide rail 3 is erected at the tops of the two gantry vertical frames 2 along the X direction, is fixedly connected below the two top beams 22 and extends out of the front end of one gantry vertical frame 2 to form an overhanging structure;

the monorail crane 4 is arranged on the transverse sliding rail 3 in a sliding manner, and a plurality of monorail cranes can be arranged, so that one object can have a plurality of suspension points to avoid shaking, or a plurality of objects can be suspended at the same time to improve the efficiency;

and the counterweight device 5 is positioned at the rear end of the other gantry stand 2 and is connected with the monorail crane 4. Further, counterweight device 5 includes adjustable counter weight sand bag 51, rope 52 and diverting pulley 53, rope 52 erects diverting pulley 53 (can replace with chain block), and one end is connected adjustable counter weight sand bag 51, and the other end is connected single track hangs 4.

As a more preferred or specific implementation manner of this embodiment, the apparatus further includes:

and the hoisting device 6 is connected to the monorail crane 4 and can penetrate through the hoisting space A under the driving of the monorail crane 4. The hoisting device 6 can be a chain block or an electric block.

And one end of the reinforced diagonal rod 7 is connected with the movable bottom beam 1, and the other end of the reinforced diagonal rod is connected with the upper section of the gantry vertical frame 2. The diagonal stiffening rods 7 may be arranged in the XZ direction (as shown in fig. 1), but may of course also be arranged in the YZ direction.

And the slide rail travel stop blocks 8 are arranged at two end parts of the transverse slide rail 3 and are used for plugging the transverse slide rail 3 and preventing the monorail crane 4 from sliding out of the transverse slide rail 3.

The working principle is as follows: the main body is a movable frame type support mainly composed of two movable bottom beams 1 and two gantry stands 2, a transverse slide rail 3 forms a cantilever type structure at the front end of the main body, the rear end of the main body is an adjustable counterweight, so that a chain block of a monorail crane can move back and forth on the transverse slide rail 3, and the hoisting operation of the object 200 is realized by hoisting the hoisting device 6 up and down, the hoisting space A is positioned between the two upright posts 21 and below the top beam 22, thereby the hoisted object 200 is positioned on the central axis of the main body, thereby being beneficial to the integral stable operation, the weight of the adjustable counterweight sandbag 51 can be adjusted by pre-estimating the weight of the hoisted object 200 when transporting steel members, and hoist adjustable counter weight sand bag 51 at rope 52, during the short distance transportation, direct artifical pulling rope 52 can be with moving object 200, during the long distance transportation, still can realize the transportation of object through artifical removal gallows is whole.

The operation process of the whole device is as follows: for example, when a steel member at the top of a high-rise building is to be dismantled, the monorail crane is moved to the position above a target object through the forward and backward movement of the monorail crane, the target object is lifted by the chain block, and then the monorail crane is moved to a storage position through the section steel track to be separated.

In addition, in order to facilitate the moving of the hanging bracket, all parts of the main body can be connected into a screw joint, so that all parts of the main body can be firstly transported to a high-altitude platform through an elevator or other lifting devices and the like, and then can be used after being assembled. After the device is used up, all parts can be disassembled and then transported to the ground through an elevator or other lifting devices and the like.

Although specific embodiments of the utility model have been described above, it will be understood by those skilled in the art that the specific embodiments described are illustrative only and are not limiting upon the scope of the utility model, and that equivalent modifications and variations can be made by those skilled in the art without departing from the spirit of the utility model, which is to be limited only by the appended claims.

Claims (6)

1. The utility model provides a high altitude construction gallows which characterized in that: the method comprises the following steps:

the two movable bottom beams are arranged in parallel at intervals along the X direction or the Y direction and are respectively provided with a roller and a brake;

the two gantry vertical frames are respectively and correspondingly vertically arranged on the movable bottom beam, any one gantry vertical frame is respectively provided with two vertical columns arranged in the Z direction and a top beam arranged in the Y direction, and a hoisting space is arranged between the two vertical columns and below the top beam;

the transverse sliding rail is erected at the tops of the two gantry vertical frames along the X direction, is fixedly connected below the two top beams and extends out of the front end of one gantry vertical frame;

the monorail crane is arranged on the transverse sliding rail in a sliding manner;

and the counterweight device is positioned at the rear end of the other gantry stand and is connected with the monorail crane.

2. An aerial work pylon as defined in claim 1 wherein: the hoisting device is connected with the monorail crane and can penetrate through the hoisting space under the driving of the monorail crane.

3. An aerial work pylon as defined in claim 2 wherein: the hoisting device is a chain block or an electric block.

4. An aerial work pylon as defined in claim 1 wherein: the gantry vertical frame is characterized by further comprising a reinforcing inclined rod, one end of the reinforcing inclined rod is connected with the movable bottom beam, and the other end of the reinforcing inclined rod is connected with the upper section of the gantry vertical frame.

5. An aerial work pylon as defined in claim 1 wherein: the sliding rail device also comprises sliding rail travel stop blocks which are arranged at two end parts of the transverse sliding rail.

6. An aerial work pylon as defined in claim 1 wherein: the counterweight device comprises an adjustable counterweight sandbag, a rope and a steering pulley, the rope is erected on the steering pulley, one end of the rope is connected with the adjustable counterweight sandbag, and the other end of the rope is connected with the monorail crane.

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