CN214399569U - Large-size bearing platform steel reinforcement cage hoisting device - Google Patents

Abstract

The utility model relates to the field of constructional engineering construction, aiming at solving the problems that the hoisting of a large-volume bearing platform steel reinforcement cage in the prior art is inconvenient to construct and influences the normal construction progress, and providing a large-volume bearing platform steel reinforcement cage hoisting device which comprises two horizontally corresponding main frames, wherein each main frame comprises two stand columns, two main beams and two upper inclined struts which are arranged at intervals; each upright post is respectively supported on a base, and the extending direction of the base is vertical to the plane of the main frame; two ends of the base respectively extend out transversely so that the base and the upright post form an inverted T shape together; two sides of the upright post are respectively supported at two ends of the base through lower inclined struts; the two main beams are connected through the two secondary beams, so that the two main beams and the two secondary beams form a rectangular frame structure; the main beams of the two main frames are respectively connected with a trolley which can move along the length direction of the main beams, and the lower end of the trolley is hung with an electric hoist. The beneficial effects of the utility model are that can conveniently hoist and mount the steel reinforcement cage, improve the efficiency of construction.

Description

Large-size bearing platform steel reinforcement cage hoisting device

Technical Field

The utility model relates to a building engineering construction field particularly, relates to bulky cushion cap steel reinforcement cage hoist device.

Background

In building engineering, to bulky cushion cap steel reinforcement cage hoist and mount, probably because the condition that the steel reinforcement cage ligature is inconvenient or there is weight to surpass tower crane and hang heavy ability, lead to the construction inconvenient, influence the problem of normal construction progress.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a bulky cushion cap steel reinforcement cage hoist device to there is the construction inconvenience in bulky cushion cap steel reinforcement cage hoist and mount among the solution prior art, influences the problem of normal construction progress.

The embodiment of the utility model is realized like this:

a hoisting device for a large-volume bearing platform reinforcement cage comprises two horizontally corresponding main frames, wherein each main frame comprises two stand columns arranged at intervals, a main beam connected to the upper ends of the two stand columns in a spanning manner and an upper inclined strut connected to the intersection angle of the main beam and the stand columns;

each upright post is supported on a base, and the extending direction of the base is vertical to the plane of the main frame and extends along the horizontal direction; two ends of the base respectively extend out transversely so that the base and the upright post form an inverted T shape together; two sides of the upright post are respectively supported at two ends of the base through lower inclined struts;

the two main beams are connected through the two secondary beams, so that the two main beams and the two secondary beams form a rectangular frame structure;

the main beams of the two main frames are respectively connected with a trolley which can move along the length direction of the main beams, and the lower end of the trolley is hung with an electric hoist.

In the scheme, the large-volume bearing platform steel reinforcement cage hoisting device is characterized in that two corresponding main frames are connected into a whole by vertical secondary beams, the extending direction of a base at the lower end is perpendicular to the plane of the main frames and extends along the horizontal direction, and upper and lower inclined struts are arranged, so that the transverse, longitudinal and oblique stability of the main frames is ensured; the two sides of the steel reinforcement cage can be conveniently hoisted by arranging the hoist on the two main beams, and the steel reinforcement cage is ensured to be stably hoisted.

In one embodiment:

the upright post is made of I-shaped steel, and the upper end and the lower end of the upright post are respectively welded with a connecting steel plate;

the main beam is supported and attached to the connecting steel plate at the upper end of the upright column by a lower wing plate of the main beam, and is connected to the connecting steel plate through a connecting bolt;

the base is of an I-shaped steel structure and is arranged in the direction that a web plate of the base is horizontal; the connecting steel plate at the lower end of the upright post supports and is attached to the web plate of the base and is connected to the web plate of the base through a connecting bolt.

In one embodiment:

the secondary beams are connected by adopting I-shaped steel, and two ends of each secondary beam are respectively welded with a connecting steel plate;

and the connecting steel plates at the two ends of the secondary beam are respectively attached to the webs of the main beams at the two sides and are connected to the webs of the corresponding main beams through connecting bolts.

In one embodiment:

two ends of the upper inclined strut are respectively welded with a connecting steel plate;

the connecting steel plate at the upper end of the upper inclined strut is attached to the lower end face of the lower wing plate of the main beam and is connected to the lower wing plate of the main beam through a connecting bolt; and the connecting steel plate at the lower end of the upper inclined strut is attached to the wing plate at the inner side of the stand column and is connected to the wing plate of the stand column through a connecting bolt.

In one embodiment:

two ends of the lower inclined strut are respectively welded with a connecting steel plate;

the connecting steel plate at the upper end of the lower inclined strut is attached to the web plate of the upright post and is connected to the web plate of the upright post through a connecting screw; and the connecting steel plate at the lower end of the lower inclined strut is attached to the web plate of the bottom plate and is connected to the web plate of the bottom plate through a connecting screw.

In one embodiment:

two lower inclined struts connected to the same stand column are symmetrically arranged, the connecting steel plates connected to the upper end are horizontally corresponding to each other and are respectively attached to two sides of the web plate of the stand column, and the two lower inclined struts are connected to each other through a group of connecting bolts penetrating through the two connecting steel plates and the web plate of the stand column.

In one embodiment:

the main beam adopts 30# I-steel, the secondary beam adopts 16# I-steel, the stand adopts 30# I-steel, go up bracing and lower bracing and adopt 14# I-steel, the base adopts 34# I-steel.

In one embodiment:

the connecting steel plate is a steel plate with the thickness of 10 mm; the connecting bolt is an M20 bolt.

In one embodiment:

the electric hoist adopts a 10T electric hoist.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings referred to in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings may be obtained from these drawings without inventive effort.

Fig. 1 shows a front elevation view of a large-volume bearing platform steel reinforcement cage hoisting device in an embodiment of the present invention (additionally shown in the figure is a hoisted steel reinforcement cage structure);

fig. 2 shows a side elevation view of a large-volume bearing platform steel reinforcement cage hoisting device in the embodiment of the present invention (in the figure, a hoisted steel reinforcement cage structure is additionally shown).

Icon: the large-size bearing platform steel reinforcement cage hoisting device comprises a large-size bearing platform steel reinforcement cage hoisting device 10, a main frame 11, an upright post 12, a main beam 13, an upper inclined strut 14, a base 15, a lower inclined strut 16, a secondary beam 17, a trolley 18, an electric hoist 19, a connecting steel plate 20, a connecting bolt 21 and a steel reinforcement cage 22.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

Examples

Referring to fig. 1 and 2, the present embodiment provides a large-volume bearing platform steel reinforcement cage hoisting device 10, which includes two horizontally corresponding main frames 11, where the main frames 11 include two upright columns 12 arranged at intervals, a main beam 13 connected to the upper ends of the two upright columns 12 in a straddling manner, and an upper inclined strut 14 connected to the intersection between the main beam 13 and the upright column 12. Each upright 12 is supported on a base 15, and the extending direction of the base 15 is perpendicular to the plane of the main frame 11 and extends along the horizontal direction. The base 15 has two ends extending laterally, respectively, so that the base 15 and the upright 12 together form an inverted T-shape. Two sides of the upright post 12 are respectively supported at two ends of the base 15 through lower inclined struts 16. The two main beams 13 are connected through the two secondary beams 17, so that the two main beams 13 and the two secondary beams 17 enclose a rectangular frame structure. The main beams 13 of the two main frames 11 are respectively connected with a trolley 18 capable of moving along the length direction of the main beams 13, and the lower end of the trolley 18 is hung with an electric hoist 19.

In the scheme, the large-volume bearing platform steel reinforcement cage hoisting device 10 is provided with two corresponding main frames 11 which are connected into a whole by vertical secondary beams 17, the extending direction of a base 15 at the lower end is vertical to the plane of the main frames 11 and extends along the horizontal direction, and upper and lower inclined struts 16 are arranged, so that the transverse, longitudinal and oblique stability of the main frames 11 is ensured; the two sides of the reinforcement cage 22 can be conveniently hoisted by arranging the hoist on the two main beams 13, and the reinforcement cage 22 is ensured to be stably hoisted.

In this embodiment, the upright post 12 is made of i-steel, and the upper and lower ends thereof are welded with steel plates 20, respectively; the main beam 13 is supported and attached to a connecting steel plate 20 at the upper end of the upright post 12 by a lower wing plate and is connected to the connecting steel plate 20 through a connecting bolt 21; the base 15 is of an I-shaped steel structure and is arranged in the direction that a web plate of the base is horizontal; the connecting steel plate 20 at the lower end of the upright 12 is supported and attached to the web of the base 15 by the connecting bolt 21.

The secondary beam 17 is connected by adopting I-shaped steel, and two ends of the secondary beam 17 are respectively welded with a connecting steel plate 20; the connecting steel plates 20 at the two ends of the secondary beam 17 are respectively attached to the webs of the main beams 13 at the two sides and are connected to the webs of the corresponding main beams 13 through connecting bolts 21.

The two ends of the upper inclined strut 14 are respectively welded with a connecting steel plate 20; the connecting steel plate 20 at the upper end of the upper inclined strut 14 is attached to the lower end face of the lower wing plate of the main beam 13 and is connected to the lower wing plate of the main beam 13 through a connecting bolt 21; the connecting steel plate 20 at the lower end of the upper brace 14 is attached to the wing plate inside the column 12 and connected to the wing plate of the column 12 by the connecting bolt 21.

The two ends of the lower inclined strut 16 are respectively welded with a connecting steel plate 20; the connecting steel plate 20 at the upper end of the lower inclined strut 16 is attached to the web plate of the upright post 12 and is connected to the web plate of the upright post 12 through a connecting screw; the connecting steel plate 20 at the lower end of the lower inclined strut 16 is attached to the web of the bottom plate and is connected to the web of the bottom plate through a connecting screw.

The two lower inclined struts 16 connected to the same upright post 12 are symmetrically arranged, and the connecting steel plates 20 connected to the upper ends horizontally correspond to each other and are respectively attached to two sides of the web plate of the upright post 12 and are connected together through a group of connecting bolts 21 penetrating through the two connecting steel plates 20 and the web plate of the upright post 12.

In this embodiment, optionally, the main beam 13 is made of # 30 i-steel, the secondary beam 17 is made of # 16 i-steel, the column 12 is made of # 30 i-steel, the upper inclined strut 14 and the lower inclined strut 16 are made of # 14 i-steel, and the base 15 is made of # 34 i-steel. The connecting steel plate 20 is a steel plate with the thickness of 10 mm; the connecting bolt 21 is an M20 bolt. The electric hoist 19 is a 10T electric hoist.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides a bulky cushion cap steel reinforcement cage hoist device which characterized in that:

the device comprises two horizontally corresponding main frames, wherein each main frame comprises two upright posts arranged at intervals, a main beam connected to the upper ends of the two upright posts in a spanning manner and an upper inclined strut connected to the intersection angle of the main beam and the upright posts;

each upright post is supported on a base, and the extending direction of the base is vertical to the plane of the main frame and extends along the horizontal direction; two ends of the base respectively extend out transversely so that the base and the upright post form an inverted T shape together; two sides of the upright post are respectively supported at two ends of the base through lower inclined struts;

the two main beams are connected through the two secondary beams, so that the two main beams and the two secondary beams form a rectangular frame structure;

the main beams of the two main frames are respectively connected with a trolley which can move along the length direction of the main beams, and the lower end of the trolley is hung with an electric hoist.

2. The large-volume bearing platform steel reinforcement cage hoisting device of claim 1, characterized in that:

the upright post is made of I-shaped steel, and the upper end and the lower end of the upright post are respectively welded with a connecting steel plate;

the main beam is supported and attached to the connecting steel plate at the upper end of the upright column by a lower wing plate of the main beam, and is connected to the connecting steel plate through a connecting bolt;

the base is of an I-shaped steel structure and is arranged in the direction that a web plate of the base is horizontal; the connecting steel plate at the lower end of the upright post supports and is attached to the web plate of the base and is connected to the web plate of the base through a connecting bolt.

3. The large-volume bearing platform steel reinforcement cage hoisting device of claim 2, characterized in that:

the secondary beams are connected by adopting I-shaped steel, and two ends of each secondary beam are respectively welded with a connecting steel plate;

and the connecting steel plates at the two ends of the secondary beam are respectively attached to the webs of the main beams at the two sides and are connected to the webs of the corresponding main beams through connecting bolts.

4. The large-volume bearing platform steel reinforcement cage hoisting device of claim 1, characterized in that:

two ends of the upper inclined strut are respectively welded with a connecting steel plate;

the connecting steel plate at the upper end of the upper inclined strut is attached to the lower end face of the lower wing plate of the main beam and is connected to the lower wing plate of the main beam through a connecting bolt; and the connecting steel plate at the lower end of the upper inclined strut is attached to the wing plate at the inner side of the stand column and is connected to the wing plate of the stand column through a connecting bolt.

5. The large-volume bearing platform steel reinforcement cage hoisting device of claim 1, characterized in that:

two ends of the lower inclined strut are respectively welded with a connecting steel plate;

the connecting steel plate at the upper end of the lower inclined strut is attached to the web plate of the upright post and is connected to the web plate of the upright post through a connecting screw; and the connecting steel plate at the lower end of the lower inclined strut is attached to the web plate of the bottom plate and is connected to the web plate of the bottom plate through a connecting screw.

6. The large-volume bearing platform steel reinforcement cage hoisting device of claim 5, wherein:

two lower inclined struts connected to the same stand column are symmetrically arranged, the connecting steel plates connected to the upper end are horizontally corresponding to each other and are respectively attached to two sides of the web plate of the stand column, and the two lower inclined struts are connected to each other through a group of connecting bolts penetrating through the two connecting steel plates and the web plate of the stand column.

7. The large-volume bearing platform steel reinforcement cage hoisting device of claim 1, characterized in that:

the main beam adopts 30# I-steel, the secondary beam adopts 16# I-steel, the stand adopts 30# I-steel, go up bracing and lower bracing and adopt 14# I-steel, the base adopts 34# I-steel.

8. The large-volume bearing platform steel reinforcement cage hoisting device of claim 2, characterized in that:

the connecting steel plate is a steel plate with the thickness of 10 mm; the connecting bolt is an M20 bolt.

9. The large-volume bearing platform steel reinforcement cage hoisting device of claim 1, characterized in that:

the electric hoist adopts a 10T electric hoist.

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