CN220868808U - Supporting device suitable for variable dip angle cap structure - Google Patents

Abstract

The utility model discloses a supporting device suitable for a variable-dip-angle cap structure, which comprises a triangular supporting part, a main corrugated buckle, a steel pipe supporting buckle and a containment steel pipe, wherein the triangular supporting part is provided with a triangular supporting groove; the triangular support part comprises a plurality of shaping steel pipes; a plurality of the shaping steel pipes are welded into a triangular supporting structure and are arranged below the column caps; the main strap buckle is welded below the triangular support structure and is connected with the support frame main strap through a connecting part; the steel pipe support buckle is welded on the outer side of the triangular support structure and is used for placing the enclosure steel pipe; the upper end of the triangular support part is uniformly welded with a plurality of wood Fang Guding buckles, and any one of the wood Fang Guding buckles is provided with a bearing batten. The technical problems that in the prior art, the supporting device for the variable-dip-angle column cap is low in supporting efficiency, and because the column cap is special-shaped, the supporting device cannot effectively support the column cap, so that integral construction is difficult, construction time is prolonged, and cost is high are solved.

Description

Supporting device suitable for variable dip angle cap structure

Technical Field

The utility model relates to the technical field of building construction structures, in particular to a supporting device suitable for a variable-dip-angle column cap structure.

Background

With the development of constructional engineering, the aesthetic property of the building is more and more important, and the general column caps are in rectangular or inverted conical shapes, so that the column caps have small modeling change and small on-site template assembly difficulty;

In China utility model CN217353546U, a column cap formwork structure is provided, the device omits the working amount of blanking and cutting of other two isosceles trapezoid plates and the working procedure of site scattered double-headed nail, greatly facilitates construction, accelerates construction progress, improves construction efficiency, effectively solves the technical problem of increased quality cost required by repairing concrete defects, but with the continuous development of construction engineering, the existing column caps are mostly shaped, especially the inverted quadrangular variable inclination column cap structure is more, when facing the inverted quadrangular variable inclination column cap structure, the site installation process of the supporting structure is more complicated, and the existing supporting structure is mostly a prefabricated steel formwork or a manufacturer customized finished formwork, thereby having larger cost and low efficiency.

Disclosure of utility model

The utility model aims to overcome the defects of the prior art, and provides a supporting device suitable for a variable-dip-angle column cap structure, which solves the technical problems that the supporting device for the variable-dip-angle column cap in the prior art is low in supporting efficiency, and the supporting device cannot effectively support the column cap due to the fact that the column cap is special-shaped, so that integral construction is difficult, construction time is prolonged, and cost is high.

In order to achieve the technical purpose, the utility model adopts the following technical scheme:

The supporting device suitable for the variable-dip-angle cap structure comprises a triangular supporting part, a main corrugated buckle, a steel pipe supporting buckle and a containment steel pipe;

The triangular support part comprises a plurality of shaping steel pipes; a plurality of the shaping steel pipes are welded into a triangular supporting structure and are arranged below the column caps;

The main strap buckle is welded below the triangular support structure and is connected with the support frame main strap through a connecting part;

The steel pipe support buckle is welded on the outer side of the triangular support structure and is used for placing the enclosure steel pipe;

the triangular support part upper end evenly welds has a plurality of wood Fang Guding buckles, arbitrary any wood Fang Guding buckle is last all to be provided with to bear the weight of the flitch, it is connected with the loading board to bear the weight of flitch upper end, the loading board with post cap lower extreme butt.

In a specific embodiment, the triangular support part further comprises a plurality of bearing steel pipes; the bearing steel pipes are arranged in the triangular support structure and used for enhancing the firmness of the triangular support structure.

In a specific embodiment, the upper end of the triangular support structure is provided with a first inclined surface end and a second inclined surface end respectively; the first inclined surface end is inclined at an angle a, the second inclined surface end is inclined at an angle b, and a is smaller than b; the first inclined surface end and the second inclined surface end are equally spaced with a plurality of battens.

In a specific embodiment, the connection part comprises a first connection wire and a second connection wire; the first connecting steel wire is used for connecting the enclosure steel pipe with the triangular support structure; the second connecting steel wire is used for connecting the triangular support structure with the support frame main rib.

In a specific embodiment, the shaped steel pipe is a 40mm by 3mm steel pipe, the main buckle has a length of 50mm, and is welded to the bottom of the triangular support structure.

In a specific embodiment, the steel pipe support buckle is of an L-shaped structure, the horizontal length is 50mm, and the bending length is 30mm.

In a specific embodiment, the length of each square fixing buckle is 30mm, and each square fixing buckle gap is smaller than 200mm.

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

1. Compared with the prior art, the utility model has the advantages that the whole structure is simple, the construction is convenient, the workers can choose to install on the construction site or in the processing factory according to the actual condition of the site, the turnover use can be carried out for many times, the construction cost is greatly reduced, the construction site requirement of the variable-dip-angle column cap structure is met, and the difficulty of template assembly and the stability and the safety of the column cap template support frame body are greatly reduced.

Drawings

FIG. 1 is a schematic diagram of the front structure of the present utility model;

FIG. 2 is a top view of the present utility model;

FIG. 3 is a schematic view of the left side assembly of the triangular support of the present utility model;

FIG. 4 is an enlarged schematic view of the utility model at A in FIG. 3;

FIG. 5 is a right side assembled schematic view of the triangular support section of the present utility model;

FIG. 6 is an enlarged schematic view of the utility model at B in FIG. 5;

fig. 7 is an enlarged schematic view of fig. 1 at C in accordance with the present utility model.

In the figure: 1. a triangular support part; 11. shaping the steel pipe; 111. carrying a steel pipe; 12. a first beveled end; 13. a second beveled end; 2. a main corrugated buckle; 21. support frame main corrugated; 3. the steel pipe supports the buckle; 4. enclosing the steel pipe; 5. a wood fixing buckle; 51. carrying a wood square; 6. a connection part; 61. a first connecting wire; 62. a second connecting steel wire; 7. and a bearing plate.

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 specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 1, the supporting device for a variable-inclination-angle cap structure provided by the utility model comprises a triangular supporting part 1, a main corrugated buckle 2, a steel pipe supporting buckle 3 and a containment steel pipe 4;

The triangular support part 1 comprises a plurality of shaping steel pipes 11; a plurality of shaping steel pipes 11 are welded into a triangular supporting structure and are arranged below the column cap;

the main corrugated buckle 2 is welded below the triangular support structure and is connected with the support frame main corrugated 21 through the connecting part 6;

the steel pipe supporting buckle 3 is welded on the outer side of the triangular supporting structure and is used for placing the enclosure steel pipe 4;

The upper end of the triangular support part 1 is uniformly welded with a plurality of square fixing buckles 5, a bearing square 51 is arranged on any square fixing buckle 5, the upper end of the bearing square 51 is connected with a bearing plate 7, and the bearing plate 7 is abutted with the lower end of the column cap.

Welding a plurality of shaping steel pipes 11 to form a triangular support structure, welding a main corrugated buckle 2 at the lower end of the triangular support structure, welding a steel pipe support buckle 3 at the outer side of the triangular support structure, and horizontally placing a containment steel pipe 4 on the steel pipe support buckle 3; and the square fixing buckles 5 are vertically welded on the inclined plane end of the triangular support structure, each square fixing buckle 5 is connected with a bearing square 51, the upper end of the bearing square 51 is connected with a bearing plate 7, and the bearing plate 7 is abutted with the lower end of the column cap and used for achieving the support effect.

To enhance the supporting effect of the device, referring to fig. 1, 3 and 5, in a preferred embodiment, the triangular supporting portion 1 further includes a plurality of bearing steel pipes 111; the steel bearing pipes 111 are arranged in the triangular support structure and used for enhancing the firmness of the triangular support structure, the shaping steel pipes 11 are steel pipes with the length of 40mm multiplied by 3mm, the length of the main corrugated buckle 2 is 50mm and welded at the bottom of the triangular support structure, the steel pipe support buckle 3 is of an L-shaped structure, the horizontal length is 50mm, the bending length is 30mm, the length of the square fixing buckle 5 is 30mm, and the gap of each square fixing buckle 5 is smaller than 200mm.

A triangular support structure is welded by adopting a 40mm multiplied by 3mm shaped steel pipe 11, a main corrugated buckle 2 is welded at the lower end of the triangular support structure, a steel pipe support buckle 3 is welded at the middle part of a steel pipe at the outer side of the triangular support structure, and a square fixing buckle 5 is vertically and uniformly welded on the triangular support structure.

In order to improve the bearing effect of the whole triangular support structure, referring to fig. 3-7, in a preferred embodiment, a first inclined surface end 12 and a second inclined surface end 13 are respectively provided at the upper end of the triangular support structure; the first inclined surface end 12 is inclined at an angle a, the second inclined surface end 13 is inclined at an angle b, and a is less than b; a plurality of battens are equally spaced on the first inclined surface end 12 and the second inclined surface end 13, and the connecting part 6 comprises a first connecting steel wire 61 and a second connecting steel wire 62; the first connecting steel wire 61 is used for connecting the enclosure steel pipe 4 with the triangular support structure; the second connecting wire 62 is used to connect the triangular support structure to the brace main 21.

Wherein triangle bearing structure upper end is provided with first inclined plane end 12 and second inclined plane end 13 respectively, through setting up first inclined plane end 12 and second inclined plane end 13, can be better carry out the adaptation with the dysmorphism cap, and bear the weight of the square 51 and connect gradually on the fixed buckle of square 5, and bear the weight of the square 51 upper end and connect loading board 7, can make things convenient for whole loading board 7 and cap lower extreme butt, improve the bearing effect of whole device, and through setting up first connecting wire 61, make things convenient for triangle bearing structure lower extreme and support frame owner 21 to be connected, and set up second connecting wire 62, then make things convenient for enclosure steel pipe 4 and triangle bearing structure to carry out the connection fixedly.

For a better understanding of the present utility model, the following will describe in detail the operation of a supporting device for a tilt-angle cap structure with reference to fig. 1 to 7: when in use, the assembly is carried out according to the following steps:

Step one: welding a plurality of 40mm multiplied by 3mm shaped steel pipes 11 to form a triangular support structure;

Step two: the main buckle 2 is welded on the triangular support structure, and the whole triangular support structure and the main buckle 2 are connected on the support frame main buckle 21 through the second connecting steel wire 62;

Step three: welding a steel pipe supporting buckle 3 in the middle of the steel pipe outside the triangular supporting structure;

Step four: the wood fixing buckles 5 are vertically and uniformly welded on a first inclined surface end 12 and a second inclined surface end 13 at the upper end of the triangular support structure, and the distance between each wood fixing buckle 5 is 150mm;

Step five: the enclosure steel pipe 4 is horizontally placed on the steel pipe supporting buckle 3 and is reinforced with the triangular supporting structure through the first connecting steel wire 61;

step six: the bearing battens 51 are sequentially connected to the batten fixing buckles 5, the upper ends of the bearing battens 51 are connected with the bearing plates 7, and the bearing plates 7 are contacted with the lower ends of the column caps, so that the support is completed.

When the device needs to be dismantled later, the first connecting steel wire 61 and the second connecting steel wire 62 are cut off, and the enclosure steel pipe 4 and the corresponding peripheral connecting pieces are dismantled, so that the demolding and turnover can be completed.

The above-described embodiments of the present utility model do not limit the scope of the present utility model. Any of various other corresponding changes and modifications made according to the technical idea of the present utility model should be included in the scope of the claims of the present utility model.

Claims (7)

1. Support arrangement for be applicable to become inclination cap structure, its characterized in that: comprises a triangular support part, a main corrugated buckle, a steel pipe support buckle and a containment steel pipe;

The triangular support part comprises a plurality of shaping steel pipes; a plurality of the shaping steel pipes are welded into a triangular supporting structure and are arranged below the column caps;

The main strap buckle is welded below the triangular support structure and is connected with the support frame main strap through a connecting part;

The steel pipe support buckle is welded on the outer side of the triangular support structure and is used for placing the enclosure steel pipe;

the triangular support part upper end evenly welds has a plurality of wood Fang Guding buckles, arbitrary any wood Fang Guding buckle is last all to be provided with to bear the weight of the flitch, it is connected with the loading board to bear the weight of flitch upper end, the loading board with post cap lower extreme butt.

2. A support device for be applicable to variable pitch cap structure according to claim 1, wherein: the triangular support part also comprises a plurality of bearing steel pipes; the bearing steel pipes are arranged in the triangular support structure and used for enhancing the firmness of the triangular support structure.

3. A support device for be applicable to variable pitch cap structure according to claim 1, wherein: the upper end of the triangular support structure is provided with a first inclined surface end and a second inclined surface end respectively; the first inclined surface end is inclined at an angle a, the second inclined surface end is inclined at an angle b, and a is smaller than b; the first inclined surface end and the second inclined surface end are equally spaced with a plurality of battens.

4. A support device for be applicable to variable pitch cap structure according to claim 1, wherein: the connecting part comprises a first connecting steel wire and a second connecting steel wire; the first connecting steel wire is used for connecting the enclosure steel pipe with the triangular support structure; the second connecting steel wire is used for connecting the triangular support structure with the support frame main rib.

5. A support device for be applicable to variable pitch cap structure according to claim 1, wherein: the shaping steel pipe is a steel pipe with the length of 40mm multiplied by 3mm, the length of the main corrugated buckle is 50mm, and the shaping steel pipe is welded with the bottom of the triangular support structure.

6. A support device for be applicable to variable pitch cap structure according to claim 1, wherein: the steel pipe support buckle is of an L-shaped structure, the horizontal length is 50mm, and the bending length is 30mm.

7. A support device for be applicable to variable pitch cap structure according to claim 1, wherein: the length of each square fixing buckle is 30mm, and the gap of each square fixing buckle is smaller than 200mm.