CN219327326U

CN219327326U - Splicing device for aluminum alloy templates

Info

Publication number: CN219327326U
Application number: CN202320315256.6U
Authority: CN
Inventors: 孙克长; 庞伟; 曹粉粉; 魏娟丽; 卢文春; 张高贵; 谢尚志
Original assignee: Gansu Third Construction Group Co ltd
Current assignee: Gansu Third Construction Group Co ltd
Priority date: 2023-02-26
Filing date: 2023-02-26
Publication date: 2023-07-11
Anticipated expiration: 2033-02-26

Abstract

The utility model discloses a splicing device of an aluminum alloy template, which is used for splicing an additional aluminum alloy template on a standard aluminum alloy template, wherein a first aluminum alloy groove and a second aluminum alloy groove of the splicing device respectively comprise a groove bottom wall, a narrow groove wall and a wide groove wall which are adjacent to the groove bottom wall and opposite to each other; the edge folds of the aluminum alloy templates are additionally arranged and fixed with the narrow groove walls of the first aluminum alloy groove into a whole, and the standard aluminum alloy templates and the narrow groove walls of the second aluminum alloy groove are fixed with each other into a whole; the square battens are detachably fixed between the wide groove wall of the first aluminum alloy groove and the wide groove wall of the second aluminum alloy groove; and a wood veneer is fixed on the side of the square wood strip, which is close to the pouring direction of the aluminum alloy template. The utility model can effectively shorten the construction period, reduce the labor cost, ensure stable splicing, have no gap and flexibly adjust the splicing height.

Description

Splicing device for aluminum alloy templates

Technical Field

The utility model belongs to the technical field of building construction, and relates to a splicing device of an aluminum alloy template.

Background

The aluminum alloy template is used as a new application technology, has the advantages of low average use cost, short construction period, good concrete impression, energy conservation, environmental protection and the like, meets the requirements of the building industry on green construction, and is gradually applied to more high-rise buildings. However, because the aluminum mould assembly size is a fixed value, the adjustable space is smaller, and the aluminum mould assembly is generally used for the construction of a standard layer, and therefore, in the implementation of an aluminum mould project, when the meeting layer is higher than the standard layer, the aluminum alloy template of the standard layer cannot be directly used for the construction.

Disclosure of Invention

The utility model aims to provide a splicing device for an aluminum alloy template, which can save the cost of reprocessing an aluminum die and the cost of reprocessing the whole set of wood die and supporting die frame body materials.

The utility model is realized in such a way, and the splicing device of the aluminum alloy template is used for splicing the additional aluminum alloy template on the standard aluminum alloy template, and comprises square battens, a first aluminum alloy groove, a second aluminum alloy groove and a wood adhesive plate; the first aluminum alloy groove and the second aluminum alloy groove respectively comprise a groove bottom wall, a narrow groove wall and a wide groove wall which are adjacent to the groove bottom wall and opposite to each other;

the edge folds of the aluminum alloy templates are fixed with the narrow groove walls of the first aluminum alloy groove into a whole, and the standard aluminum alloy templates are fixed with the narrow groove walls of the second aluminum alloy groove into a whole;

the square battens are detachably fixed between the wide groove wall of the first aluminum alloy groove and the wide groove wall of the second aluminum alloy groove;

and a wood veneer is fixed on the side of the square wood strip, which is close to the pouring direction of the aluminum alloy template.

Preferably, a plurality of through holes are arranged among the wide groove walls of the first aluminum alloy groove, the square battens and the wide groove walls of the first aluminum alloy groove, and the through holes are used for being matched with bolts to lock the square battens, the first aluminum alloy groove and the second aluminum alloy groove into a whole.

Preferably, the edge folds of the additionally arranged aluminum alloy templates are fixed with the narrow groove walls of the first aluminum alloy grooves into a whole through pins, and the standard aluminum alloy templates are fixed with the narrow groove walls of the second aluminum alloy grooves into a whole through pins.

Preferably, the wood veneer is fixed on the square batten through iron nails.

Preferably, the side, far away from the square batten, of the wood glue plate is coplanar with the casting surface of the aluminum alloy template.

Preferably, the outer sides of the bottom walls of the first aluminum alloy groove and the second aluminum alloy groove are coplanar with the pouring surface of the aluminum alloy template.

Preferably, the aluminum alloy templates are in seamless butt joint with the first aluminum alloy grooves, the first aluminum alloy grooves and the wood glue plates, the wood glue plates and the second aluminum alloy grooves, and the second aluminum alloy grooves and the standard aluminum alloy templates.

Compared with the defects and shortcomings of the prior art, the utility model has the following beneficial effects: the utility model can save the cost of reprocessing the aluminum alloy template, also can save the cost of retooling the whole set of wood die and the formwork support body material, in practical application, the aluminum alloy template is additionally arranged on the basis of the existing standard aluminum alloy template, and the height of the additionally arranged aluminum alloy template can be obtained by on-site cutting processing, thereby effectively shortening the construction period and reducing the labor cost; the utility model can carry out firm and seamless connection on the standard aluminum alloy template and the additional aluminum alloy template.

Drawings

FIG. 1 is a schematic cross-sectional structure of a splicing device of the present utility model after splicing in an aluminum alloy template;

fig. 2 is a right-side view of the structure of fig. 1.

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.

As shown in fig. 1-2, fig. 1 is a schematic diagram of a cross-sectional structure of a splicing device of the present utility model after splicing in an aluminum alloy template; fig. 2 is a right-side view of the structure of fig. 1.

The utility model discloses a splicing device of an aluminum alloy template, which is used for splicing an additionally-installed aluminum alloy template 1 on a standard aluminum alloy template 2, and comprises a square batten 3, a first aluminum alloy groove 4, a second aluminum alloy groove 5 and a wood glue plate 6; the first aluminum alloy groove 4 comprises a first groove bottom wall 4-1, a first narrow groove wall 4-2 adjacent to the first groove bottom wall 4-1 and opposite to each other, a first wide groove wall 4-3, and the second aluminum alloy groove 5 comprises a second groove bottom wall 5-1, a second narrow groove wall 5-2 adjacent to the second groove bottom wall 5-1 and opposite to each other, and a second wide groove wall 5-3; the edge folds of the additionally arranged aluminum alloy templates 1 are fixed with the first narrow groove walls 4-2 of the first aluminum alloy grooves 4 into a whole, and the standard aluminum alloy templates 2 are fixed with the second narrow groove walls 5-2 of the second aluminum alloy grooves 5 into a whole; the square battens 3 are detachably fixed between the first wide groove walls 4-3 of the first aluminum alloy grooves 4 and the second wide groove walls 5-3 of the second aluminum alloy grooves 5; and a wood glue plate 6 is fixed on the side of the square batten 3, which is close to the pouring direction of the aluminum alloy template.

The aluminum alloy template 1 is not suitable to be directly spliced on the standard aluminum alloy template 2, the aluminum alloy template is made of metal materials, and the requirements on connection strength and firmness are high, but the follow-up dismantling is very unfavorable after the firm connection, and the damage to the aluminum alloy template is large. In addition, the aluminum alloy template 1 and the standard aluminum alloy template 2 are not suitable to be directly fixed on the square batten 3, firstly, because the width of the edge folding edge of the aluminum alloy template is limited, the operation of a disassembly and assembly mode is not facilitated, and secondly, the edge metal folding edge of the aluminum alloy template is directly crushed into the square batten 3 after being stressed, and the stability is poor.

Thus, in embodiments of the present utility model, the width of the first wide groove wall 4-3 is greater than the width of the first narrow groove wall 4-2, and the width of the second wide groove wall 5-3 is greater than the width of the second narrow groove wall 5-2, e.g., the width of the first narrow groove wall 4-2 and the second narrow groove wall 5-2 may be equal to the width of the aluminum alloy form edge folds, while the width of the first wide groove wall 4-3 and the second wide groove wall 5-3 should not be less than the contact width with the square batten 3. The specific width setting is determined by one skilled in the art based on actual experience or basic knowledge.

In the embodiment of the utility model, the aluminum alloy templates 1 and the standard aluminum alloy templates 2 are additionally arranged and respectively and firmly fixed with the first aluminum alloy groove 4 and the second aluminum alloy groove 5 in advance into a whole, and the mode of pre-fixing can effectively ensure the flatness of the pouring surface and the seamless butt joint of the butt joint positions. It is easy to understand that this manner of firm connection includes, but is not limited to, fastening by means of the pin 7, specifically, the edge flange of the additional aluminum alloy template 1 is fastened to the first narrow groove wall 4-2 of the first aluminum alloy groove 4 by means of the pin 7, and the standard aluminum alloy template 2 is fastened to the second narrow groove wall 5-2 of the second aluminum alloy groove 5 by means of the pin 7. The fixed connection mode of the selected pin 7 is firm and convenient for subsequent disassembly and assembly.

Since the first aluminum alloy groove 4 and the second aluminum alloy groove 5 are also made of metal materials, and if the first aluminum alloy groove 4 and the second aluminum alloy groove 5 are directly spliced, the requirements on the connection strength and the firmness are high, but the mode is also unfavorable for disassembly and assembly, the square batten 3 is detachably fixed between the first wide groove wall 4-3 of the first aluminum alloy groove 4 and the second wide groove wall 5-3 of the second aluminum alloy groove 5 in the embodiment of the utility model. It is to be understood that such a removable manner includes, but is not limited to, bolt fastening, specifically, a plurality of through holes are provided between the first wide groove wall 4-3 of the first aluminum alloy groove 4, the square batten 3, and the second wide groove wall 5-3 of the first aluminum alloy groove 4, and the through holes are used for locking the square batten 3, the first aluminum alloy groove 4, and the second aluminum alloy groove 5 together by matching with bolts 8.

In the embodiment of the present utility model, the square batten 3 has a certain elasticity relative to the metal material, and is beneficial to butt joint of the tight wire joints among the square batten 3, the first aluminum alloy groove 4 and the second aluminum alloy groove 5, however, in view of practical application situations in the technical field, the square batten 3 is easy to be corroded and damaged by concrete, and the flatness cannot be ensured, so in order to avoid the problems, in the embodiment of the present utility model, the square batten 3 is fixed with the wood glue board 6 by the aluminum alloy template pouring direction side. It will be readily appreciated that the glue boards 6 may be secured to the square lumber strips 3 by iron nails.

In the embodiment of the utility model, in order to ensure the flatness of the poured concrete in the use process of the formwork, the side, away from the square batten 3, of the glue board 6 is coplanar with the pouring surface of the aluminum alloy formwork, and the outer sides of the first groove bottom wall 4-1 of the first aluminum alloy groove 4 and the second groove bottom wall 5-1 of the second aluminum alloy groove 5 are coplanar with the pouring surface of the aluminum alloy formwork.

In the embodiment of the utility model, in order to avoid leakage of concrete slurry from a formwork interface in the pouring process, the aluminum alloy formwork 1 is in seamless butt joint with the first aluminum alloy groove 4, the first aluminum alloy groove 4 and the wood glue plate 6, the wood glue plate 6 and the second aluminum alloy groove 5 and the standard aluminum alloy formwork 2.

The utility model can save the cost of reprocessing the aluminum alloy template, also can save the cost of retooling the whole set of wood die and the formwork support body material, in practical application, the aluminum alloy template 1 is additionally arranged on the basis of the existing standard aluminum alloy template 2, the height of the additionally arranged aluminum alloy template 1 can be obtained by on-site cutting processing, the construction period can be effectively shortened, and the labor cost can be reduced; the utility model can carry out stable and seamless connection on the standard aluminum alloy template 2 and the additional aluminum alloy template 1.

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, and alternatives falling within the spirit and principles of the utility model.

Claims

1. The splicing device is used for splicing the aluminum alloy templates on the standard aluminum alloy templates and is characterized by comprising square battens, a first aluminum alloy groove, a second aluminum alloy groove and a wood adhesive plate; the first aluminum alloy groove and the second aluminum alloy groove respectively comprise a groove bottom wall, a narrow groove wall and a wide groove wall which are adjacent to the groove bottom wall and opposite to each other;

2. The splicing device of claim 1, wherein a plurality of through holes are arranged among the wide groove wall of the first aluminum alloy groove, the square batten and the wide groove wall of the first aluminum alloy groove, and are used for being matched with bolts to lock the square batten, the first aluminum alloy groove and the second aluminum alloy groove into a whole.

3. The splicing device of claim 1, wherein the edge folds of the added aluminum alloy template are fixed with the narrow groove walls of the first aluminum alloy groove into a whole by pins, and the standard aluminum alloy template is fixed with the narrow groove walls of the second aluminum alloy groove into a whole by pins.

4. The splice device of claim 1, wherein the glue panels are secured to the square lumber strips by iron nails.

5. The splicing device of claim 1, wherein the side of the glue board away from the direction of the square batten is coplanar with the casting surface of the aluminum alloy template.

6. The splicing device of claim 1, wherein the outer sides of the bottom walls of the first aluminum alloy groove and the second aluminum alloy groove are coplanar with the casting surface of the aluminum alloy template.

7. The splice device of claim 1, wherein the splice is seamlessly engaged between the add-on aluminum alloy form and the first aluminum alloy channel, between the first aluminum alloy channel and the wood veneer, between the wood veneer and the second aluminum alloy channel, and between the second aluminum alloy channel and the standard aluminum alloy form.