CN212957653U - Aluminum mould bracing reinforced structure - Google Patents

Abstract

The utility model relates to an aluminum mould diagonal bracing reinforced structure, which comprises an aluminum alloy template, diagonal bracing, a horseshoe plate, a bolt, a concrete floor and a pre-buried component, wherein the pre-buried component comprises a sleeve and a nut, the upper end of the sleeve is open, the lower end of the sleeve is closed, and the nut is arranged in the inner cavity of the sleeve and is close to the lower end of the sleeve; the U-shaped plate is provided with a through hole, a sleeve is embedded in the position of the concrete floor corresponding to the through hole, and the upper end of the sleeve is exposed out of the concrete floor; the aluminum alloy template and the aluminum alloy template are opposite and vertical, the aluminum alloy template and the aluminum alloy template are locked through the split bolts, a concrete pouring area is defined between the aluminum alloy template and the aluminum alloy template, and the aluminum alloy template is located on the concrete floor, so that the horseshoe plate, the aluminum alloy template, the first inclined strut, the second inclined strut and the bolts can be repeatedly utilized, the labor intensity of workers is greatly reduced, the later treatment procedures are reduced, the screw rods can be repeatedly utilized, and the use cost is reduced.

Description

Aluminum mould bracing reinforced structure

Technical Field

The utility model relates to a building field, in particular to aluminium mould bracing reinforced structure.

Background

The existing fixing technology for the diagonal bracing horse shoe plate of the aluminum mould mainly meets the stability of an aluminum alloy template in the concrete pouring process, and ensures that the verticality and the flatness of the concrete forming reach the quality requirements of enterprises.

Traditional aluminium mould bracing horse shoe plate fixed technology adopts embedded steel bar, pre-buried screw rod, beats expansion bolts fixed, however, aluminium mould bracing horse shoe plate fixed technology, embedded steel bar shortcoming (more commonly used): the embedded steel bars need to be processed into U-shaped in the early stage, the steel bars need to be cut and subjected to rust prevention treatment in the later stage, materials cannot be recycled, the workload of processing, embedding and cutting off rust prevention in the later stage of the steel bars is large, and the method is not suitable for the social situation that the labor cost is high day by day.

The fixed technique of aluminium mould bracing horse shoe plate, pre-buried screw rod shortcoming: the screw is pre-buried easy off normal, and the screw can not retrieve after using, later stage need cut the bolt off to do rust-resistant processing.

The fixing technology of the aluminum mould diagonal bracing horse shoe plate has the following defects of expansion bolt fixing: the expansion bolt is easy to damage a wire sleeve embedded in a concrete slab, threading is difficult, the expansion bolt needs to be cut off at the later stage and subjected to rust prevention treatment, and the method is forbidden to be used in a large area at present and is supplemented only when an embedded part is lost or deviated.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an adopt bolted connection fixed, screw rod can retrieve reuse, can not damage the wire casing's in the floor aluminium mould bracing reinforced structure.

The purpose of the utility model is realized like this:

an aluminum mould diagonal bracing reinforcing structure comprises an aluminum alloy template, diagonal braces, a horseshoe plate, bolts, a concrete floor and a pre-embedded assembly, wherein the pre-embedded assembly comprises a sleeve and a nut, the upper end of the sleeve is open, the lower end of the sleeve is closed, and the nut is arranged in the inner cavity of the sleeve and abuts against the lower end of the sleeve;

the U-shaped plate is provided with a through hole, a sleeve is embedded in the position of the concrete floor corresponding to the through hole, and the upper end of the sleeve is exposed out of the concrete floor;

the aluminum alloy formwork and the aluminum alloy formwork are opposite and vertical, the aluminum alloy formwork and the aluminum alloy formwork are locked through split bolts, a concrete pouring area is defined between the aluminum alloy formwork and the aluminum alloy formwork, the aluminum alloy formwork is located on a concrete floor, one end of each inclined strut is connected with the aluminum alloy formwork, the other end of each inclined strut is connected with the horseshoe, the bolts penetrate through holes of the horseshoe and are inserted into inner cavities of the sleeves along openings of the sleeves, and the bolts and the nuts are locked.

The sheathed tube upper end opening, sheathed tube lower extreme is sealed, the sleeve pipe inner chamber is arranged in to the nut and is close to its lower extreme, the sleeve pipe is pre-buried on concrete floor, utilize the through-hole that the bolt passed the horseshoe board to insert the sleeve pipe inner chamber along sheathed tube opening, bolt and nut locking, can be fixed firm with the horseshoe board, connect the horseshoe board with bracing one end this moment, aluminum alloy plate is connected to the other end, can realize bracing bearing aluminum alloy plate, and when the horseshoe board was demolishd, only need twist the bolt until bolt and nut separation, the user up draws the horseshoe board and can dismantle the horseshoe board this moment, thereby make the horseshoe board, aluminum alloy template, first bracing, the equal reuse of second bracing and bolt, the intensity of labour of workman's work has significantly reduced, the processing procedure in later stage has been reduced, and the screw rod can reuse, use cost is reduced.

The purpose of the utility model can also adopt the following technical measures to solve:

more specifically, the embedded assembly further comprises a rubber plug 63, and the rubber plug 63 is blocked at the opening of the sleeve. By arranging the rubber plug 63, the rubber plug 63 blocks the opening of the sleeve, so that dust is prevented from falling into the sleeve.

As a more specific scheme, the inclined strut comprises a first inclined strut and a second inclined strut, one end of the first inclined strut is connected to the upper portion of the aluminum alloy template, the other end of the first inclined strut is connected to the horseshoe plate, one end of the second inclined strut is connected to the lower portion of the aluminum alloy template, the other end of the second inclined strut is connected to the horseshoe plate, and the first inclined strut and the second inclined strut jointly support the aluminum alloy template.

More specifically, the head of the bolt is sleeved with a gasket.

The utility model has the advantages as follows:

the utility model discloses, sheathed tube upper end opening, sheathed tube lower extreme is sealed, the sleeve pipe inner chamber is arranged in to the nut near its lower extreme, the sleeve pipe is pre-buried on concrete floor, the through-hole that utilizes the bolt to pass the horseshoe board inserts the sleeve pipe inner chamber along the sheathed tube opening, bolt and nut locking, can be fixed firm with the horseshoe board, connect the horseshoe board with bracing one end this moment, aluminum alloy plate is connected to the other end, can realize bracing bearing aluminum alloy plate, and when the horseshoe board demolishs, only need twist the bolt until bolt and nut separation, the user up draws the horseshoe board and can dismantle the horseshoe board this moment, thereby make the horseshoe board, aluminum alloy template, first bracing, the equal reuse of second bracing and bolt, the intensity of labour of workman's work has significantly reduced, the processing procedure in later stage has been reduced, and the screw rod can reuse, use cost is reduced.

Drawings

Fig. 1 is the schematic diagram of the aluminum mold diagonal bracing reinforcing structure of the present invention.

Fig. 2 is the utility model discloses an enlarged schematic view of aluminium mould bracing reinforced structure.

Detailed Description

The invention will be further described with reference to the following drawings and examples:

embodiment, as shown in fig. 1 to 2, an aluminum mold diagonal bracing reinforcement structure includes an aluminum alloy template 1, a diagonal bracing 2, a horseshoe plate 3, a bolt 4, a concrete floor 5, and a pre-embedded assembly 6, where the pre-embedded assembly 6 includes a sleeve 61, a nut 62, and a rubber plug 63, an upper end of the sleeve 61 is open, a lower end of the sleeve 61 is closed, and the nut 62 is disposed in an inner cavity of the sleeve 61 and abuts against the lower end thereof.

The horseshoe plate 3 is provided with a through hole 31, a sleeve 61 is embedded in the position of the concrete floor 5 corresponding to the through hole 31, the upper end of the sleeve 61 is exposed out of the concrete floor 5, the rubber plug 63 is blocked at the opening of the sleeve 61, and after the concrete of the concrete floor 5 is solidified, the sleeve 61 can be firmly embedded in the concrete floor 5.

The head of the bolt 4 is sleeved with the gasket 8, a user inserts the bolt 4 into the inner cavity of the sleeve 61 through the through hole 31 of the horseshoe plate 3 along the opening of the sleeve 61, and the bolt 4 and the nut 62 are locked, so that the horseshoe plate 3 is firmly fixed on the concrete floor 5.

The inclined strut 2 comprises a first inclined strut 21 and a second inclined strut 22, the aluminum alloy template 1 and the aluminum alloy template 1 are opposite and vertical, the aluminum alloy template 1 and the aluminum alloy template 1 are locked through the split bolts 7, and a concrete pouring area 11 is enclosed between the aluminum alloy template 1 and the aluminum alloy template 1.

The aluminum alloy formwork 1 is located on the concrete floor 5, one end of a first inclined strut 21 is connected to the upper portion of the aluminum alloy formwork 1, the other end of the first inclined strut 21 is connected to the horse shoe plate 3, one end of a second inclined strut 22 is connected to the lower portion of the aluminum alloy formwork 1, the other end of the second inclined strut 22 is connected to the horse shoe plate 3, and the first inclined strut 21 and the second inclined strut 22 jointly support the aluminum alloy formwork 1.

First bracing 21 and second bracing 22 bearing aluminum alloy template 1, pour concrete into concrete placement area 11 this moment, form the wallboard after waiting the concrete air-dries, the user can demolish aluminum alloy template 1 this moment, when demolising horse shoe plate 3, the user only needs to twist bolt 4, separate until bolt 4 and nut 62, the user up draws horse shoe plate 3 this moment and can dismantle horse shoe plate 3, thereby make horse shoe plate 3, aluminum alloy template 1, first bracing 21, the equal reuse of second bracing 22 and bolt 4, the intensity of labour of workman's work has significantly reduced, the processing procedure in later stage has been reduced, and the screw rod can reuse, use cost is reduced.

Furthermore, when the sleeve 61 is pre-buried, avoid the through-hole 31 of horse shoe board 3 and pre-buried sleeve 61 that produces the dislocation at concrete slab, the user can adopt 15mm thick wood plywood, it is the same with 3 length and width of horse shoe board to process into, draw out the through-hole 31 (two or three) of 3 looks co-position of horse shoe board on thick wood plywood, and mark out the central point of every hole, fix plug 63 on the through-hole 31 central point that marks out on thick wood plywood with the iron nail, plug 63's the other end is plugged in the sleeve 61 of built-in fitting, make two or three built-in fittings form a whole, guarantee that its relative position accords with horse shoe board 3 installation requirement.

The utility model discloses can not damage wire sleeve 61 in the floor, reuse can be retrieved to the screw rod, and the later stage need not cut the rust cleaning, and the work load is little, and 3 fixed adoption bolts 4 of horseshoe plate connect fixedly, and is fixed for the reinforcing bar, more reliable and more stable.

Claims (4)

1. The utility model provides an aluminium mould bracing reinforced structure, includes aluminum alloy template, bracing, horseshoe plate, bolt, concrete floor and pre-buried subassembly, its characterized in that: the embedded assembly comprises a sleeve and a nut, the upper end of the sleeve is open, the lower end of the sleeve is closed, and the nut is arranged in the inner cavity of the sleeve and abuts against the lower end of the sleeve;

the U-shaped plate is provided with a through hole, a sleeve is embedded in the position of the concrete floor corresponding to the through hole, and the upper end of the sleeve is exposed out of the concrete floor;

the aluminum alloy formwork and the aluminum alloy formwork are opposite and vertical, the aluminum alloy formwork and the aluminum alloy formwork are locked through split bolts, a concrete pouring area is defined between the aluminum alloy formwork and the aluminum alloy formwork, the aluminum alloy formwork is located on a concrete floor, one end of each inclined strut is connected with the aluminum alloy formwork, the other end of each inclined strut is connected with the horseshoe, the bolts penetrate through holes of the horseshoe and are inserted into inner cavities of the sleeves along openings of the sleeves, and the bolts and the nuts are locked.

2. The aluminum die diagonal bracing reinforcing structure of claim 1, wherein: the embedded component also comprises a rubber plug which is plugged at the opening of the sleeve.

3. The aluminum die diagonal bracing reinforcing structure of claim 1, wherein: the bracing includes first bracing and second bracing, and first bracing one end is connected on the upper portion of aluminum alloy template, and the first bracing other end is connected on the horseshoe plate, and second bracing one end is connected in the lower part of aluminum alloy template, and the second bracing board other end is connected on the horseshoe plate, and first bracing and the common bearing aluminum alloy template of second bracing.

4. The aluminum die diagonal bracing reinforcing structure of claim 1, wherein: the head of the bolt is sleeved with a gasket.

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