CN214399608U - Triangular combined support for hoisting component - Google Patents

Abstract

A triangular combined bracket for hoisting components belongs to the technical field of installation of additional components behind a building factory roof. Including 1# tripod (1), 2# tripod (2), 3# tripod (3), connect back timber (4), connect floorbar (5), connect the roof beam (4) above 1# tripod (1), 2# tripod (2), 3# tripod (3) and be in the same place by a connection back timber (4) connection, connect the floorbar (5) by two below and be in the same place connection, the interval is 500mm between the tripod, the tripod is for not having the equilateral of base. The hoisting device has the advantages that the hoisting of the components is safe and stable, the use of large hoisting machines is avoided, the construction cost is saved, and the construction cost is reduced.

Description

Triangular combined support for hoisting component

Technical Field

The utility model belongs to the technical field of increase component installation behind the building factory building roofing, especially, provide a triangle sectional shelf-unit of hoist and mount component.

Background

Due to functional requirements, part of components need to be added to the roof in the later stage of a building factory building to meet use requirements, part of roof panels need to be detached according to a conventional method, then the added components are hoisted in place by using a large crane, the large hoisting cost is high, and the construction cost is increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a triangular combined support of hoist and mount component, it is higher to have solved large-scale hoist and mount expense, and construction cost increases the scheduling problem. The utility model discloses utilize I shaped steel assembly welding to become triangle-shaped sectional shelf-unit, place triangle-shaped sectional shelf-unit directly over roofing installation girder steel position for fix the space that the chain block rigging on the support can be demolishd through the roof boarding, promote to transport to subaerial girder steel component and hoist and mount and take one's place.

The utility model discloses a 1# tripod 1, 2 # tripod 2, 3# tripod 3, connect back timber 4, connect floorbar 5, connect by a connection back timber 4 above 1# tripod 1, 2 # tripod 2, 3# tripod and be in the same place fixed, connect the floorbar 5 by two below and be in the same place fixed, the interval is 500mm (fig. 1, fig. 2, fig. 3) between the tripod.

The 1# tripod 1, the 2# tripod 2 and the 3# tripod 3 are all formed by processing I-steel with the cross section width of 120mm, the tripods are equilateral triangles without bottom edges, and the height is 800 mm; the connecting top beam 4 is formed by processing channel steel with the section width of 120mm and the length of 1000 mm; the connecting bottom beam 5 is formed by processing two channel steels with the section width of 140mm, and each channel steel is 1000mm long.

The chain block rigging 6 is fixed at the top end of the No. 2 tripod 2, so that the chain block rigging 6 can lift and hoist the steel beam member 8 conveyed to the ground in place through the gap removed by the roof panel 7 (fig. 4 and 5).

The triangular combined support makes full use of the stability principle of a triangle, so that the hoisting of the component is safe and stable, the use of large hoisting machines is avoided, the construction cost is saved, the construction cost is reduced, and good economic benefits are obtained for companies.

Drawings

Fig. 1 is a front view of a triangular combined bracket.

Fig. 2 is a side view of the triangular combined bracket.

Fig. 3 is a three-dimensional effect diagram of the triangular combined bracket.

Fig. 4 is a diagram of the fixing effect of the inverted chain sling of the triangular combined bracket.

Fig. 5 is a side view of the triangular combined bracket in use for hoisting.

In the figure, a 1# tripod 1, a 2# tripod 2, a 3# tripod 3, a connecting top beam 4, a connecting bottom beam 5, a chain block rigging 6, a roof panel 7 and a steel beam component 8.

Detailed Description

Fig. 1-5 show a specific embodiment of the present invention. The present invention will be further explained with reference to the accompanying drawings.

The utility model discloses a triangle combined support comprises a 1# tripod 1, a 2# tripod 2, a 3# tripod 3, a connecting top beam 4 and a connecting bottom beam 5, wherein the 1# tripod 1, the 2# tripod 2 and the 3# tripod 3 are processed by I-steel with the cross section width of 120mm, the tripod is an equilateral shape without a bottom edge and has the height of 800 mm; the connecting top beam 4 is formed by processing channel steel with the section width of 120mm and the length of 1000 mm; the connecting bottom beam 5 is formed by processing two channel steels with the section width of 140mm, and each channel steel is 1000mm long. The 1# tripod 1, the 2# tripod 2 and the 3# tripod are fixedly connected together by a connecting top beam 4, the lower part of the tripod is fixedly connected by two connecting bottom beams 5, and the distance between the tripods is 500 mm.

The chain block rigging 6 is fixed at the top end of the No. 2 tripod 2, so that the chain block rigging 6 can lift and hoist the steel beam member 8 conveyed to the ground in place through a gap formed by detaching the roof panel 7.

In the construction of the winter-Austrian and winter-training ice hockey hall, a triangular combined bracket is adopted for hoisting the steel beam additionally arranged on the roof of the ice hockey hall in the later period, so that a better effect is achieved. The I-shaped steel is assembled and welded into a triangular combined support, a local roof panel is detached above the steel beam mounting position, and then the assembled triangular combined support is placed right above the roof mounting steel beam position, so that a chain block rigging fixed on the support can lift and hoist the steel beam component conveyed to the ground in place through a gap where the roof panel is detached. The triangular combined support makes full use of the stability principle of a triangle, so that the hoisting of the component is safe and stable, the use of large hoisting machines is avoided, the construction cost is saved, the construction cost is reduced, and valuable experience is accumulated for similar construction in the future.

Claims (4)

1. The utility model provides a triangle sectional shelf-unit of hoist and mount component, a serial communication port, including 1# tripod (1), 2# tripod (2), 3# tripod (3), connect back timber (4), connect floorbar (5), connect back timber (1), 2# tripod (2), connect by a connection back timber (4) above 3# tripod (3) and be in the same place, connect the floorbar (5) by two below and be in the same place fixedly, the interval is 500mm between the tripod, the tripod is for not having the equilateral of base.

2. The triangular combined bracket of a hoisting member according to claim 1, characterized in that the No. 1 tripod (1), the No. 2 tripod (2) and the No. 3 tripod (3) are all made of I-steel with a cross section width of 120mm and a height of 800 mm.

3. The triangular combined bracket of a hoisting member according to claim 1, characterized in that the connecting top beam (4) is formed by processing channel steel with a cross section width of 120mm and a length of 1000 mm.

4. The triangular combined bracket of a hoisting member according to claim 1, characterized in that the connecting bottom beam (5) is formed by processing channel steel with a section width of 140mm, and two channel steel with a section width of 1000mm are connected.

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