CN219194160U - General type hoist and mount distribution beam device of large-scale dysmorphism component - Google Patents

Abstract

The utility model provides a general hoisting distribution beam device for large-scale special-shaped components, which comprises an upper layer transverse hoisting main beam, wherein middle layer transverse secondary distribution beams are arranged at two ends of the upper layer transverse hoisting main beam, a plurality of lower layer longitudinal secondary distribution beams are arranged at the lower ends of the two middle layer transverse secondary distribution beams, each lower layer longitudinal secondary distribution beam comprises a plurality of bearing plates, and a plurality of horizontally arranged rigging hoisting lug holes are arranged on the bearing plates. The utility model is suitable for hoisting various large-scale conventional or special-shaped components, has higher universality and can effectively improve the working efficiency.

Description

General type hoist and mount distribution beam device of large-scale dysmorphism component

Technical Field

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

Background

In the steel structure building construction process, the integral hoisting of large-scale special-shaped components is often involved, and because the components are poor in integrity, large in outline dimension and not centered in the gravity center of the components, the structural damage of deformation or stress concentration is easy to generate in the hoisting process, the integral structural quality is influenced, and the safety is poor.

Disclosure of Invention

Aiming at the prior art, the utility model provides a general hoisting distribution beam device for large-scale special-shaped components.

The utility model provides a general hoisting distribution beam device for large-scale special-shaped components, which comprises an upper layer transverse hoisting girder, wherein middle layer transverse secondary distribution beams are arranged at two ends of the upper layer transverse hoisting girder, a plurality of lower layer longitudinal secondary distribution beams are arranged at the lower ends of the two middle layer transverse secondary distribution beams, each lower layer longitudinal secondary distribution beam comprises a plurality of bearing plates, and a plurality of horizontally arranged rigging hoisting lug holes are arranged on the bearing plates.

Preferably, the upper layer transverse hoisting girder comprises a girder circular pipe, girder end sealing plates are fixed at two ends of the girder circular pipe, the outer ends of the girder end sealing plates are provided with main connecting lifting lug plates, and the main connecting lifting lug plates are provided with upper lifting lug holes and lower lifting lug holes.

Preferably, the middle-layer transverse secondary distribution 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.

Preferably, 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.

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

Preferably, the lower layer connecting lifting lug plate is connected with the middle layer bearing lifting lug plate through a second middle layer pin shaft.

Preferably, the main lug board, middle level connection lug board, middle level bearing lug board and lower floor connection lug board are all equipped with the lug and strengthen the annular plate.

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

Preferably, the bearing plate is provided with a straight plate-shaped lifting lug stiffening plate.

Compared with the prior art, the utility model has the beneficial effects that:

1. the upper layer transverse hoisting main beam, the middle layer transverse secondary distribution beam and the lower layer longitudinal secondary distribution beam are arranged, so that the upper layer transverse hoisting main beam, the middle layer transverse secondary distribution beam and the lower layer longitudinal secondary distribution beam can be manufactured into various sizes in advance, and the upper layer transverse hoisting main beam, the middle layer transverse secondary distribution beam and the lower layer longitudinal secondary distribution beam can be flexibly combined to be used according to the arrangement of hoisting points of a hoisting object when the hoisting object is hoisted, and are connected and assembled through the pin shaft, so that the whole hoisting of the hoisting object can be realized; the hoisting device is suitable for hoisting various large-scale conventional or special-shaped components, has higher universality and can effectively improve the working efficiency.

2. The utility model can avoid structural damage of deformation or stress concentration of the components caused by uneven stress, oblique pulling and oblique pulling of each sling, inclination of the components and other factors in the hoisting process of the large-scale special-shaped components, and influence the quality of the whole structure. Through assembled hoist and mount distribution roof beam device, adjust the position of lower floor vertical secondary distribution roof beam according to the lug position adjustment of component and match to select different specification size hoist assembly combination to use, realized hoist lightweight, assembly, commonality etc. principle, ensure that the component is in hoist and mount in-process reasonable atress, guarantee hoist and mount process's stability and security.

Drawings

Fig. 1 is a front view of an embodiment of the present utility model.

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

Fig. 3 is a schematic structural view of an upper layer transverse hoisting girder in an embodiment of the present utility model.

Fig. 4 is a schematic view of a structure of a middle-level lateral secondary distribution beam in an embodiment of the present utility model.

Fig. 5 is a schematic view of the structure of the lower longitudinal secondary distribution beam according to the embodiment of the present utility model.

In the figure: 100. the upper layer transversely hangs the girder; 101. a main beam round tube; 102. a main beam end sealing plate; 103. a main connecting lifting lug plate; 104. lifting lug holes; 105. a lower hanging ear hole; 200. middle-level lateral secondary distribution beams; 201. a middle layer box type bearing seat; 202. the middle layer is connected with a lifting lug plate; 203. a middle layer bearing lifting lug plate; 300. a lower longitudinal secondary distribution beam; 301. a lower box type bearing seat; 302. the lower layer is connected with a lifting lug plate; 303. a bearing plate; 304. a cable lifting lug hole; 305. triangular lifting lug stiffening plates; 306. stiffening plates with straight plate-shaped lifting lugs; 400. a wire rope; 500. a main beam pin shaft; 600. a first middle layer pin shaft; 700. a second middle layer pin shaft; 800. a rigging; 900. the lifting lug strengthens the annular plate.

Detailed Description

The utility model is further described with reference to the following detailed drawings in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the implementation of the utility model easy to understand.

Examples

The utility model provides a general hoist and mount distribution beam device of large-scale dysmorphism component, is shown in fig. 1, 2, includes upper strata horizontal hoist and mount girder 100, and the both ends of upper strata horizontal hoist and mount girder 100 all are equipped with middle level horizontal secondary distribution beam 200, and the lower extreme of two middle level horizontal secondary distribution beams 200 all is equipped with two lower floor's vertical secondary distribution beam 300, and lower floor's vertical secondary distribution beam 300 and middle level horizontal secondary distribution beam 200 mutually perpendicular.

As shown in fig. 3, the upper layer transverse hoisting girder 100 includes a girder circular tube 101, two ends of the girder circular tube 101 are welded with girder end sealing plates 102, outer ends of the two girder end sealing plates 102 are welded with a main connecting lifting lug plate 103, and an upper lifting lug hole 104 and a lower lifting lug hole 105 are formed in the main connecting lifting lug plate 103.

As shown in fig. 4, the middle-layer transverse secondary distribution beam 200 includes a C-shaped middle-layer box-type bearing seat 201, a middle-layer connection lifting lug plate 202 is welded at the upper end of the middle-layer box-type bearing seat 201, ten middle-layer bearing lifting lug plates 203 are welded at the lower end of the middle-layer box-type bearing seat 201, and four triangular lifting lug stiffening plates are welded on the middle-layer connection lifting lug plate 202 and the middle-layer bearing lifting lug plate 203.

As shown in fig. 5, the lower-layer longitudinal secondary distribution beam 300 includes a lower-layer box-type bearing seat 301, a lower-layer connection lifting lug plate 302 is welded at the upper end of the lower-layer box-type bearing seat 301, two bearing plates 303 are welded at the lower end of the lower-layer box-type bearing seat 301, five horizontally arranged rigging lifting lug holes 304 are formed in each bearing plate 303, four triangular lifting lug stiffening plates 305 are welded on the lower-layer connection lifting lug plate 302, and straight plate-shaped lifting lug stiffening plates 306 are welded at two sides of the bearing plates 303 so as to strengthen the overall strength of the lower-layer longitudinal secondary distribution beam 300.

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

In the embodiment, the transverse connection of the special-shaped components is realized by transversely hoisting the main girder 100 on the upper layer, and the longitudinal connection of the special-shaped components is realized by the longitudinal secondary distribution girder 300 on the lower layer; the upper layer transverse hoisting main beam 100 and the lower layer longitudinal secondary distribution beam 300 are connected into a unified whole through the middle layer transverse secondary distribution beam 200, and the bearing plate 303 on the lower layer longitudinal secondary distribution beam 300 can realize free connection of lifting lugs of the suspended objects, so that the horizontal hoisting of the suspended objects can be ensured. The upper layer transverse hoisting main beam 100, the middle layer transverse secondary distribution beam 200 and the lower layer longitudinal secondary distribution beam 300 can be manufactured into various sizes in advance, and can be flexibly combined and used according to the arrangement of hoisting points when hoisting heavy objects, and are connected and assembled through pin shafts, so that the whole hoisting of the heavy objects can be realized, and the universality of the device is improved.

The foregoing is only the embodiments of the present utility model, and therefore, the patent scope of the utility model is not limited thereto, and all equivalent structures made by the description of the utility model and the accompanying drawings are directly or indirectly applied to other related technical fields, which are all within the scope 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.

Images