CN220201147U - Hanging bracket is transported to assembled component - Google Patents

Abstract

The utility model discloses an assembled component transferring hanger, which relates to the technical field of lifting slings and comprises a main lifting beam, a movable lifting piece and an adjusting supporting beam; the main hanging cross beams are provided with two groups, lifting lugs are arranged on the main hanging cross beams, and hanging parts are arranged on the main hanging cross beams at intervals; the movable hanging pieces are provided with a plurality of groups and are detachably connected with the hanging parts, so that the distance between the movable hanging pieces in the longitudinal direction can be adjusted; the adjusting support beams are arranged between the two groups of main hanging cross beams in parallel and detachable mode, and the adjusting support beams are used for adjusting the distance between the two groups of main hanging cross beams so that the distance between the movable hanging pieces in the transverse direction can be adjusted; through setting up main beam and adjusting the corbel, can be in horizontal and longitudinal direction adjustment and remove the interval of hanging the piece, guarantee that the lifting rope is perpendicular with prefabricated part to be fit for the steady handling of not unidimensional prefab.

Description

Hanging bracket is transported to assembled component

Technical Field

The utility model relates to the technical field of lifting slings, in particular to an assembled component transferring lifting frame.

Background

The assembled building has become the main development trend in the building industry in recent years, and has the characteristics of remarkable shortening of construction period, high installation efficiency, high quality and environmental protection. The assembled components are prefabricated in advance in a factory and then transported to a construction site for lifting and installation.

The prefabricated component mainly comprises a prefabricated floor slab, prefabricated stairs, prefabricated walls, prefabricated beams and the like, and due to the diversity of the sizes of the prefabricated components, when the sizes of the components are larger, the lifting rope is not perpendicular to the plane of the components, the situation that the lifting rope obliquely pulls the components can occur, and then the pulling force of the lifting rope is too large, and the pulling force directly acts on the components, so that the components are cracked or even damaged.

The utility model patent number CN209383265U discloses an assembled component hoisting tool, which is high in applicability by arranging a balance beam, a main lifting lug and a movable lifting lug which is arranged on the balance beam in a sliding manner, wherein the movable lifting lug can be adjusted according to components with different sizes; the lifting lug is moved to enable the balance beam to be matched with components with different sizes for leveling, so that the components are in a stable stress state in the lifting process, and the defect that the components are deformed due to unstable stress is overcome; in this patent, can adjust the position of removal lug to guarantee that the lifting rope is perpendicular with the component, thereby guarantee the stability of component hoist and mount in-process, but in this patent, can only adjust the size of component and lifting means in a direction, for the component that the size is great, the tie point of lifting means and component is only two points among them of component, in the in-process of removing the component, the component takes place deflection, slippage easily.

Disclosure of Invention

The utility model mainly aims to provide an assembled component transferring hanging bracket which is used for solving the problem that the stability is poor in the component lifting process because the adjustment of the distance between a lifting tool and a connecting point of a component in the existing prefabricated component lifting process is limited.

To achieve the above object, the present utility model provides a fabricated component transfer hanger comprising:

two groups of main hanging cross beams; lifting lugs are arranged on the main hanging beam, and hanging parts are arranged on the main hanging beam at intervals;

a plurality of groups of movable hanging pieces; the movable hanging piece is detachably connected with the hanging part, so that the distance between the movable hanging piece in the longitudinal direction can be adjusted;

the adjusting support beams are arranged between the two groups of main hanging cross beams in parallel and detachable mode; the adjusting support beam is used for adjusting the distance between the two groups of main hanging cross beams so as to enable the distance between the movable hanging pieces in the transverse direction to be adjustable.

As a further improvement of the utility model, a rectangular frame body is formed between the main hanging beam and the adjusting supporting beam.

As a further improvement of the utility model, the main hanging beam comprises a beam body and connecting brackets vertically arranged on the beam body; the connecting bracket and the cross beam body are all H-shaped steel with consistent cross section size.

As a further improvement of the utility model, the lifting lug is arranged at the connecting position of the beam body and the connecting bracket; stiffening ribs are arranged at the positions of the beam body, which are close to the lifting lugs.

As a further improvement of the utility model, the hoisting parts are parallel, symmetrical and equally-spaced adjusting bolt holes arranged on the beam body.

As a further improvement of the utility model, the mobile hanger comprises a gourd hanger; the calabash pendant detachable sets up in the adjusting bolt hole.

As a further improvement of the utility model, the utility model also comprises a splicing component; the splicing assembly comprises a flange outer perforated splice plate, a web perforated splice plate and a flange inner perforated splice plate; the flange outer perforated splice plates and the flange inner perforated splice plates are matched with each other to connect the upper wing plates and the lower wing plates of the connecting bracket and the adjusting supporting beam; the web plate with holes is used for connecting the bracket and the web plate of the adjusting support beam.

The beneficial effects of the utility model are as follows:

through setting up main beam and adjusting the corbel, can be in horizontal and longitudinal direction adjustment and remove the interval of hanging the piece, guarantee that the lifting rope is perpendicular with prefabricated part to be fit for the steady handling of not unidimensional prefab.

Drawings

FIG. 1 is a schematic view of the overall structure of a fabricated component transfer hanger of the present utility model;

FIG. 2 is an enlarged schematic view of the fabricated component handling hanger of the present utility model at A in FIG. 1;

FIG. 3 is an enlarged schematic view of a fabricated component transfer hanger of the present utility model at B in FIG. 1;

reference numerals illustrate:

1. a cross beam body; 11. lifting lugs; 12. stiffening ribs; 13. a calabash hanging piece; 14. an adjusting bolt hole; 2. connecting bracket; 21. bracket flange splicing holes; 22. bracket web splice holes; 3. adjusting the supporting beam; 31. a steel beam flange splicing hole; 32. splicing holes of steel beam webs; 4. a splice assembly; 41. splice plates with holes on the outer edges of the flanges; 42. splice plates with web holes; 43. splice plates with holes in the flanges; .

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the described embodiments are merely some, but not all embodiments of the present utility model. Embodiments and features of embodiments in this application may be combined with each other without conflict. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In one embodiment, referring to fig. 1, a fabricated component transfer hanger of the present utility model comprises a main hanger beam, a mobile hanger, and an adjusting corbel 3.

The main crane cross beams are provided with two groups, lifting lugs 11 are arranged on the main crane cross beams, and lifting parts are arranged on the main crane cross beams at intervals; the movable hanging pieces are provided with a plurality of groups and are detachably connected with the hanging parts, so that the distance between the movable hanging pieces in the longitudinal direction can be adjusted; the adjusting support beams 3 are arranged between the two groups of main hanging cross beams side by side and detachably, and the adjusting support beams 3 are used for adjusting the distance between the two groups of main hanging cross beams so that the distance between the movable hanging pieces in the transverse direction can be adjusted.

Specifically, referring to fig. 1, a rectangular frame is formed between the main hanging beam and the adjusting corbel 3.

Preferably, the two groups of main hanging beams are positioned on the same horizontal plane and are arranged in parallel, and the lug plates 11 are welded on the upper flange and near the two ends of the upper flange and are used for fixing slings of a crane.

Further, referring to fig. 1, the main hanging beam comprises a beam body 1 and a connecting bracket 2 vertically arranged on the beam body 1; the connecting bracket 2 and the beam body 1 are all H-shaped steel with consistent section size.

Preferably, the beam body 1 and the connecting bracket 2 are all made of H-shaped steel comprising a web plate, an upper wing plate and a lower wing plate, the cross section size of the connecting bracket 2 is consistent with that of the beam body 1, the connecting bracket 2 is provided with two groups, the two groups of connecting brackets 2 are welded on the beam body 1 at intervals, the web plate on the connecting bracket 2 is vertical to the horizontal plane when the connecting bracket 2 is welded with the beam body 1, the upper wing plate on the connecting bracket 2 is welded with the upper wing plate on the beam body 1, and the lower wing plate on the connecting bracket 2 is welded with the lower wing plate on the beam body 1.

Further, referring to fig. 3, the lifting lug 11 is provided at the connection position of the beam body 1 and the connection bracket 2; the beam body 1 is provided with stiffening ribs 12 at positions close to the lifting lugs 11.

Preferably, two groups of lifting lugs 11 are arranged, stiffening ribs 12 are respectively arranged at two sides of the beam body 1, one stiffening rib 12 at one side is respectively welded with a web plate, an upper wing plate and a lower wing plate on the beam body 1, and the stiffening rib 12 at one side close to the adjusting supporting beam 3 is respectively welded with the web plate, the upper wing plate, the lower wing plate and the connecting bracket 2 on the beam body 1.

Further, referring to fig. 1, the hanging parts are parallel, symmetrical, and equally spaced adjusting bolt holes 14 provided on the beam body 1.

Preferably, the adjusting bolt holes 14 are arranged on two sides of the lower flange of the H-shaped steel beam.

Further, referring to fig. 1 and 3, the movable hanger includes a hoist hanger 13, and the hoist hanger 13 is detachably disposed in the adjusting bolt hole 14.

Preferably, the hoist hanging parts 13 are omega-shaped and are arranged on the lower side of the lower flange of the H-shaped steel, and two omega-shaped hoist hanging parts 13 are arranged on the lower part of each H-shaped steel beam, and the number of the hoist hanging parts is four.

Further, referring to fig. 2, the splicing assembly 4 further comprises a splicing assembly 4, wherein the splicing assembly 4 comprises a flange outer perforated splice plate 41, a web perforated splice plate 42 and a flange inner perforated splice plate 43; the flange outer hole splice plate 41 and the flange inner hole splice plate 43 are matched with each other to connect the upper wing plate and the lower wing plate of the connecting bracket 2 and the adjusting supporting beam 3, and the web plate hole splice plate 42 is used for connecting the web plates of the connecting bracket 2 and the adjusting supporting beam 3.

Preferably, bracket flange splicing holes 21 are respectively formed in the upper wing plate and the lower wing plate of the connecting bracket 2, bracket web splicing holes 22 are formed in the web of the connecting bracket 2, steel beam flange splicing holes 31 are respectively formed in the upper wing plate and the lower wing plate of the adjusting supporting beam 3, and steel beam web splicing holes 32 are formed in the web of the adjusting supporting beam 3; the upper wing plate on the connecting bracket 2 and the upper wing plate on the adjusting supporting beam 3 pass through the flange outer band hole splice plate 41, the hole on the flange inner band hole splice plate 43 and the bracket flange splice hole 21 as well as the steel beam flange splice hole 31 through bolts, and the lower wing plate on the connecting bracket 2 and the lower wing plate on the adjusting supporting beam 3 pass through the flange outer band hole splice plate 41, the hole on the flange inner band hole splice plate 43 and the bracket flange splice hole 21 as well as the steel beam flange splice hole 31 through bolts; the web on the connecting bracket 2 and the web on the adjusting supporting beam 3 pass through the holes on the web splicing plate 42 with holes and the bracket web splicing holes 22 and the steel beam web splicing holes 32 to be connected and fixed.

In this embodiment, the hoist cable is connected with lug 11, through adjusting the hooker 13 with the hooker body 1 hookup location, can be in the tie point of longitudinal adjustment with prefabricated component, through adjusting the length of adjusting the corbel 3, can adjust the interval between two sets of main hanging crossbeams to adjust the tie point with prefabricated component in the horizontal direction, to the great prefabricated component of size, can adjust the size of this transportation gallows, guarantee that the lifting rope is perpendicular with prefabricated sufficiency piece, thereby stabilize handling component.

The detachable adjusting corbel 3 is connected with the connecting corbel 2 in the form of full bolting, so that the components can be detached, replaced and recycled.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (7)

1. A fabricated component transfer hanger, comprising:

two groups of main hanging cross beams; lifting lugs (11) are arranged on the main hanging beam, and hanging parts are arranged on the main hanging beam at intervals;

a plurality of groups of movable hanging pieces; the movable hanging piece is detachably connected with the hanging part, so that the distance between the movable hanging piece in the longitudinal direction can be adjusted;

the adjusting support beams (3) are arranged between the two groups of main hanging cross beams in parallel and detachable mode; the adjusting corbel (3) is used for adjusting the interval between the two groups of main hanging cross beams so as to enable the interval between the movable hanging pieces in the transverse direction to be adjustable.

2. A fabricated component transport hanger as claimed in claim 1, wherein: a rectangular frame body is formed between the main hanging beam and the adjusting supporting beam (3).

3. A fabricated component transport hanger as claimed in claim 2, wherein: the main hanging beam comprises a beam body (1) and a connecting bracket (2) vertically arranged on the beam body (1); the connecting bracket (2) and the cross beam body (1) are all H-shaped steel with consistent cross section size.

4. A fabricated component handling hanger according to claim 3, wherein: the lifting lug (11) is arranged at the connection position of the beam body (1) and the connecting bracket (2); stiffening ribs (12) are arranged at the position of the beam body (1) close to the lifting lugs (11).

5. A fabricated component transport hanger as claimed in claim 4, wherein: the hoisting parts are parallel, symmetrical and equidistant adjusting bolt holes (14) arranged on the beam body (1).

6. A fabricated component transport hanger as claimed in claim 5, wherein: the movable hanging piece comprises a gourd hanging piece (13); the hoist pendant (13) is detachably arranged in the adjusting bolt hole (14).

7. A fabricated component transport hanger as claimed in claim 5, wherein: the device also comprises a splicing component (4); the splicing assembly (4) comprises a flange outer perforated splice plate (41), a web perforated splice plate (42) and a flange inner perforated splice plate (43); the flange outer perforated splice plate (41) and the flange inner perforated splice plate (43) are matched with each other to connect the upper wing plate and the lower wing plate of the connecting bracket (2) and the adjusting supporting beam (3); the web plate with holes (42) connects the web plates of the connecting bracket (2) and the adjusting support beam (3).