CN219194160U - A general-purpose hoisting distribution beam device for large special-shaped components - Google Patents

Abstract

The utility model provides a universal hoisting distribution beam device for large-scale special-shaped components, which comprises an upper horizontal hoisting main beam. The lower ends of the primary distribution beams are provided with several lower longitudinal secondary distribution beams, and each of the lower longitudinal secondary distribution beams includes several load-bearing plates, and the load-bearing plates are provided with several horizontally arranged rigging lug holes. The utility model is suitable for hoisting various large conventional or special-shaped components, has high versatility, and can effectively improve work efficiency.

Description

A general-purpose hoisting and distribution beam device for large special-shaped components

technical field

The utility model relates to the technical field of hoisting of large-scale special-shaped components, in particular to a general-purpose hoisting distribution beam device for large-scale special-shaped components.

Background technique

During the construction of steel structure buildings, the overall hoisting of large-scale special-shaped components is often involved. Due to the poor integrity of such components, large dimensions, and the center of gravity of the components, structural damage due to deformation or stress concentration is likely to occur during the hoisting process, affecting Overall structural quality, and poor security.

Contents of the invention

Aiming at the above prior art, the utility model proposes a universal hoisting distribution beam device for large special-shaped components.

The utility model provides a general-purpose hoisting distribution beam device for large-scale special-shaped components, which includes an upper horizontal hoisting main beam. The lower ends of the secondary distribution beams are provided with several lower longitudinal secondary distribution beams, and each of the lower longitudinal secondary distribution beams includes several load-bearing plates, and the load-bearing plates are provided with several horizontally arranged rigging lug holes.

Preferably, the main girder horizontally hoisted on the upper floor includes a main girder round tube, both ends of the main girder round tube are fixed with main girder end sealing plates, and the outer ends of the two main girder end sealing plates are provided with main The connecting lug plate is provided with an upper lug hole and a lower lug hole on the main connecting lug plate.

Preferably, the middle horizontal secondary distribution beam includes a middle box-type load-bearing base, the upper end of the middle-level box-type load-bearing base is provided with a middle-level connecting lug plate, and the lower end of the middle-level box-type load-bearing base is provided with several middle-level load-bearing cranes. ear plate.

Preferably, the lower longitudinal secondary distribution beam includes a lower box-type bearing seat, the upper end of the lower box-type bearing seat is provided with a lower connection lug plate, and the lower end of the lower box-type bearing seat is provided with two Load board.

Preferably, the middle connecting lug plate is connected to the lower lifting lug hole through a first middle pin.

Preferably, the lower connection lug plate is connected to the middle load-bearing lug plate through a second middle pin.

Preferably, the main connection lug plate, the middle connection lug plate, the middle load-bearing lug plate and the lower connection lug plate are all provided with lifting lug reinforcement ring plates.

Preferably, the lower connecting lug plate is provided with a triangular lug stiffening plate.

Preferably, a straight plate-shaped lifting lug stiffener is provided on the bearing plate.

Compared with the prior art, the beneficial effects of the utility model are:

1. The utility model can be prefabricated into various sizes by setting the upper horizontal hoisting main beam, the middle horizontal secondary distribution beam, and the lower vertical secondary distribution beam. The pin connection and assembly are convenient and fast, and the overall hoisting of heavy objects can be realized; it is suitable for hoisting of various large conventional or special-shaped components, has high versatility, and can effectively improve work efficiency.

2. The utility model can avoid the structural damage of deformation or stress concentration of large-scale special-shaped components caused by factors such as uneven force on each sling, skewed pull, and component tilt during the hoisting process, which affects the overall structural quality. Through the prefabricated hoisting distribution beam device, adjust and adjust the position of the lower vertical secondary distribution beam according to the position of the lifting lug of the component to match, and select different specifications and sizes of spreaders to assemble and use in combination, realizing the light weight, assembly and versatility of the spreader, etc. Principles to ensure that the components are reasonably stressed during the hoisting process, and ensure the stability and safety of the hoisting process.

Description of drawings

Fig. 1 is the front view of the utility model embodiment.

Fig. 2 is a side view of the utility model embodiment.

Fig. 3 is a schematic structural view of the main girder horizontally hoisted on the upper layer in the embodiment of the present invention.

Fig. 4 is a schematic structural diagram of the middle horizontal secondary distribution beam in the embodiment of the present invention.

Fig. 5 is a schematic structural view of the lower vertical secondary distribution beam in the embodiment of the present invention.

In the figure: 100, the main girder is horizontally hoisted on the upper layer; 101, the main girder round pipe; 102, the end sealing plate of the main girder; 103, the main connection lug plate; 104, the upper lifting ear hole; Level distribution beam; 201, middle box bearing seat; 202, middle connecting lug plate; 203, middle bearing lifting lug; 300, lower longitudinal secondary distribution beam; 301, lower box bearing seat; 302, lower connecting hanger Ear plate; 303, bearing plate; 304, rigging lug hole; 305, triangular lug stiffener; 306, straight lug stiffener; 400, steel wire rope; 500, main beam pin; 600, first middle pin ; 700, the second middle layer pin; 800, the rigging; 900, the lifting lug strengthening ring plate.

Detailed ways

In order to make the technical means, creative features, goals and effects achieved by the utility model easy to understand, the utility model will be further elaborated below in conjunction with specific illustrations.

Example

A general-purpose hoisting distribution beam device for large-scale special-shaped components, as shown in Figures 1 and 2, includes an upper horizontal hoisting main beam 100, and the two ends of the upper horizontal hoisting main beam 100 are provided with a middle horizontal secondary distribution beam 200, two Two lower vertical secondary distribution beams 300 are arranged at the lower ends of the middle horizontal secondary distribution beams 200 , and the lower vertical secondary distribution beams 300 and the middle horizontal secondary distribution beams 200 are perpendicular to each other.

As shown in Figure 3, the main girder 100 horizontally hoisted on the upper floor includes a main girder round tube 101, the two ends of the main girder round tube 101 are welded with a main girder end sealing plate 102, and the outer ends of the two main girder end sealing plates 102 are all welded There is a main connection lug plate 103, and an upper lug hole 104 and a lower lug hole 105 are opened on the main connection lug plate 103.

As shown in Figure 4, the middle horizontal secondary distribution beam 200 includes a C-shaped middle box bearing seat 201, the upper end of the middle box bearing seat 201 is welded with a middle connection lug plate 202, and the lower end of the middle box bearing seat 201 is welded There are ten middle-level load-bearing lug plates 203, and four triangle-shaped lug stiffeners are welded on the middle-level connecting lug plate 202 and the middle-level load-bearing lug plate 203.

As shown in Figure 5, the lower vertical secondary distribution beam 300 includes a lower box bearing seat 301, the upper end of the lower box bearing seat 301 is welded with a lower connecting lug plate 302, and the lower end of the lower box bearing seat 301 is welded with two Bearing plate 303, each bearing plate 303 is provided with five rigging lug holes 304 arranged horizontally, four triangular lug stiffeners 305 are welded on the lower connecting lug plate 302, and both sides of the load bearing plate 303 are welded There are straight plate-shaped lug stiffeners 306 to strengthen the overall strength of the lower vertical secondary distribution beam 300 .

Among them, the upper lug hole 104 is connected to the steel wire rope 400 through the main beam pin shaft 500, the middle connecting lug plate 202 is connected to the lower lifting lug hole 105 through the first middle pin shaft 600, and the lower connecting lug plate 302 is connected to the middle bearing lug plate. 203 is connected through the second middle pin shaft 700, and the rigging lug hole 304 is connected with the rigging 800 through the rigging pin shaft. And the main connecting lug plate 103, the middle layer connecting lug plate 202, the middle layer load-bearing lug plate 203 and the lower layer connecting lug plate 302 are all provided with a lug reinforcing ring plate 900 to strengthen the overall strength.

In this embodiment, the horizontal connection of special-shaped components is realized through the horizontal hoisting main beam 100 of the upper layer, and the longitudinal connection of special-shaped components is realized through the longitudinal secondary distribution beam 300 of the lower layer; The secondary distribution beams 200 are connected into a unified whole, and the load-bearing plate 303 on the longitudinal secondary distribution beam 300 of the lower floor can realize the free connection of the lifting lugs of the hanging objects, which can ensure the hoisting of the hanging objects in a horizontal state. In addition, the main beam 100 for horizontal hoisting on the upper layer, the secondary distribution beam 200 in the middle layer, and the secondary distribution beam 300 in the lower layer can be prefabricated into various sizes. The assembly is convenient and fast, which can realize the overall hoisting of heavy objects, and also improves the versatility of the device.

The above are only embodiments of the present utility model, and are not intended to limit the scope of patents of the present utility model. All equivalent structures made using the description of the utility model and the contents of the accompanying drawings are directly or indirectly used in other related technical fields, all in the same way Within the scope of patent protection of the utility model.

Claims (9)

1. The utility model provides a general hoist and mount distribution beam device of large-scale dysmorphism component, its characterized in that includes upper horizontal hoist and mount girder, the both ends of upper horizontal hoist and mount girder all are equipped with middle level horizontal secondary distribution beam, two the lower extreme of middle level horizontal secondary distribution beam all is equipped with a plurality of lower floor's vertical secondary distribution beam, every the vertical secondary distribution beam of lower floor all includes a plurality of bearing plates, be equipped with the rigging lifting lug hole of several horizontal arrangement on the bearing plate.

2. The device for hoisting and distributing the beam for the large-scale special-shaped member according to claim 1, wherein the upper layer transverse hoisting girder comprises a girder circular tube, two ends of the girder circular tube are respectively fixed with a girder end sealing plate, the outer ends of the two girder end sealing plates are respectively provided with a main connecting lifting lug plate, and the main connecting lifting lug plates are provided with an upper lifting lug hole and a lower lifting lug hole.

3. The large-scale special-shaped member universal hoisting and distributing beam device as claimed in claim 2, wherein the middle-layer transverse secondary distributing beam comprises a middle-layer box type bearing seat, a middle-layer connecting lifting lug plate is arranged at the upper end of the middle-layer box type bearing seat, and a plurality of middle-layer bearing lifting lug plates are arranged at the lower end of the middle-layer box type bearing seat.

4. A large-scale profiled element general hoisting distribution beam device as defined in claim 3, wherein the lower layer longitudinal secondary distribution beam comprises a lower layer box type bearing seat, the upper end of the lower layer box type bearing seat is provided with a lower layer connecting lifting lug plate, and the lower end of the lower layer box type bearing seat is provided with two bearing plates.

5. A large profile component universal hoisting distribution beam apparatus as described in claim 4 wherein said middle layer connection shackle plate is connected to said lower shackle hole by a first middle layer pin.

6. The universal lifting distribution beam device for large-scale special-shaped members according to claim 5, wherein the lower layer connecting lifting lug plate is connected with the middle layer bearing lifting lug plate through a second middle layer pin shaft.

7. The universal lifting and distributing beam device for large-scale special-shaped members according to claim 6, wherein the lifting lug reinforcing ring plates are arranged on the main connecting lifting lug plate, the middle bearing lifting lug plate and the lower connecting lifting lug plate.

8. A large-scale profiled element universal hoisting distribution beam apparatus as claimed in any one of claims 4-7, characterized in that the lower layer connecting lug plate is provided with a triangular lug stiffening plate.

9. A large-scale profiled element universal hoisting distribution beam apparatus as claimed in any one of claims 1-7, characterized in that the bearing plate is provided with a straight plate-shaped lifting lug stiffening plate.

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