CN215926719U

CN215926719U - Reinforcing structure of aluminum alloy template reverse ridge hanging die

Info

Publication number: CN215926719U
Application number: CN202121925083.7U
Authority: CN
Inventors: 张麒; 赵海清; 王琪; 李亚伟; 袁宝帅; 朱学斌; 于文青
Original assignee: China Construction Eighth Engineering Division Co Ltd
Current assignee: China Construction Eighth Engineering Division Co Ltd
Priority date: 2021-08-17
Filing date: 2021-08-17
Publication date: 2022-03-01
Anticipated expiration: 2031-08-17

Abstract

The utility model relates to a reinforcing structure of an aluminum alloy template reversed ridge hanging die, which comprises an aluminum alloy horizontal template, wherein an aluminum alloy hanging die is placed at the top of the aluminum alloy horizontal template, the bottom of the aluminum alloy hanging die is connected with the top of the aluminum alloy horizontal template through a hanging die vertical reinforcing member, the hanging die vertical reinforcing member comprises a bolt cone, connecting steel bars, three-section water stop screw rods and positioning nuts, two three-section water stop screw rods are placed between the aluminum alloy hanging die and the aluminum alloy horizontal template, and the two three-section water stop screw rods are fixed through the connecting steel bars; adopt the vertical reinforcement of hanging mould of taking stagnant water function to hang the mould with aluminum alloy horizontal template and aluminum alloy and consolidate, and two aluminum alloys hang and adopt between the mould and hang the mould horizontal reinforcement and consolidate, set up angle aluminium according to whole anti-bank template overall shape and consolidate improvement template overall stability, through having the construction simple like this, consolidate stable and the obvious advantage of water-proof effects.

Description

Reinforcing structure of aluminum alloy template reverse ridge hanging die

Technical Field

The utility model relates to the technical field of building construction, in particular to a reinforcing structure of an aluminum alloy template reverse ridge hanging die.

Background

At present, the application of the high-rise building to the aluminum alloy template is gradually popularized and refined, for water rooms such as kitchens and toilets, a concrete reverse ridge which is more than 200mm higher than the ground is usually applied in the construction of secondary structures, because of the pouring with the floor slab for several times and the large hidden trouble of leakage at the construction joint position, in recent years, the general contract units for fine construction all advocate the application of aluminum alloy templates and bring out the back ridges of kitchens and toilets at one time, further improving the quality of anti-seepage, but at present, the aluminum alloy template at the reverse ridge position is reinforced by a hanger frame which is usually arranged on the floor slab template, construction can make on the one hand assemble loaded down with trivial details, reinforcement unstable like this, can take place the off normal very easily among the concrete placement process, and on the other hand can cause waterproof quality to reach the effect of expectation, the phenomenon of infiltration can appear in later stage probably.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provides a reinforcing structure of an aluminum alloy template reversed ridge hanging die, which has the advantages of simple construction, stable reinforcement and obvious waterproof effect.

The technical scheme for realizing the purpose is as follows:

the utility model provides a reinforcing structure of an aluminum alloy template reverse ridge hanging die, which comprises an aluminum alloy horizontal template, wherein an aluminum alloy hanging die is placed at the top of the aluminum alloy horizontal template, the bottom of the aluminum alloy hanging die is connected with the top of the aluminum alloy horizontal template through a hanging die vertical reinforcing member, the hanging die vertical reinforcing member comprises a bolt cone, a connecting steel bar, three-section water stopping screw rods and a positioning nut, two three-section water stopping screw rods are placed between the aluminum alloy hanging die and the aluminum alloy horizontal template and are fixed through the connecting steel bar, the bolt cone and the positioning nut are installed on the outer side walls of the two three-section water stopping screw rods, the hanging die horizontal reinforcing member is installed at the top of the adjacent aluminum alloy hanging die, and an angle aluminum is also installed at one end of the aluminum alloy hanging die.

Preferably, a water stop sheet is further installed on the outer side wall of the three-section type water stop screw, and the water stop sheet is located at the gap formed by the aluminum alloy horizontal template and the aluminum alloy hanging mold. The condition that leakage happens at the three-section type water stopping screw rod is avoided.

Preferably, the transverse reinforcing member of the hanging die comprises a connecting screw rod and a connecting plate, the connecting plate is mounted at the tops of two adjacent aluminum alloy hanging dies, and the connecting plate is connected with the aluminum alloy hanging dies through the connecting screw rod. In order to facilitate the connection of two adjacent aluminum alloy hanging dies.

Preferably, the aluminum angle is of a T-shaped structure. In order to form the aluminum alloy suspended mould in multiple directions into a whole.

Preferably, a wall body is arranged at the end head of the aluminum alloy hanging die. In order to form a closed space through the wall body and the reverse ridge formed by injection molding of the aluminum alloy suspension mold.

Preferably, the number of the transverse reinforcing members of the suspended mould is several. In order to ensure that the connection between the aluminum alloy horizontal template and the vertical reinforcing member of the suspended mould is firmer.

Preferably, the connecting plate is a steel member. In order to avoid damage to the connection plates.

The utility model has the beneficial effects that: in the using process, the aluminum alloy horizontal template and the aluminum alloy hanging die are reinforced by the hanging die vertical reinforcing piece with the water stopping function, the two aluminum alloy hanging dies are reinforced by the hanging die horizontal reinforcing piece, and the angle aluminum is arranged according to the integral shape of the integral reverse ridge template to reinforce and improve the integral stability of the template.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the connection structure of the aluminum alloy horizontal template and the aluminum alloy hanging mold in FIG. 1;

FIG. 3 is a schematic illustration of the vertical reinforcement of the form hanger of FIG. 2 in accordance with the present invention;

description of reference numerals:

1. an aluminum alloy horizontal template; 2. hanging a mold by aluminum alloy; 3. a suspended mould vertical reinforcing member; 4. hanging a transverse reinforcing member of the mould; 5. an angle aluminum; 6. a wall body; 7. a water stop sheet; 8. a bolt cone; 9. connecting reinforcing steel bars; 10. a three-section water stop screw; 11. connecting a screw rod; 12. a connecting plate; 13. and (5) positioning a nut.

Detailed Description

The utility model is further described with reference to the following figures and specific examples.

Referring to fig. 1 to 3, the utility model provides a reinforcing structure of an aluminum alloy template inverted ridge hanging die, which comprises an aluminum alloy horizontal template 1, wherein an aluminum alloy hanging die 2 is placed at the top of the aluminum alloy horizontal template 1, the bottom of the aluminum alloy hanging die 2 is connected with the top of the aluminum alloy horizontal template 1 through a hanging die vertical reinforcing member 3, the hanging die vertical reinforcing member 3 comprises a bolt cone 8, a connecting steel bar 9, a three-section type water stop screw 10 and a positioning nut 13, two three-section type water stop screws 10 are placed between the aluminum alloy hanging die 2 and the aluminum alloy horizontal template 1, the two three-section type water stop screws 10 are fixed through the connecting steel bar 9, the bolt cone 8 and the positioning nut 13 are installed on the outer side walls of the two three-section type water stop screws 10, a hanging die horizontal reinforcing member 4 is installed at the top of the adjacent aluminum alloy hanging die 2, and an angle aluminum 5 is also installed at one end of the aluminum alloy hanging die 2.

In the embodiment, after the aluminum alloy horizontal template 1 is erected and the floor slab reinforcing steel bars are bound, the reverse ridge aluminum alloy hanging template 2 is placed at the use position, the three-section water stop screw 10, the connecting steel bar 9, the bolt cone 8 and the positioning nut 13 in the vertical reinforcing piece 3 of the suspended mould are connected, then two adjacent aluminum alloy hanging dies 2 are connected through hanging die transverse reinforcing members 4, finally the reversed ridge aluminum alloy hanging dies 2 in multiple directions are reinforced again through angle aluminum 5, and a stable and reliable reversed ridge aluminum alloy template system can be formed through the method, then concrete is poured at the aluminum alloy horizontal template 1 and the aluminum alloy hanging mould 2, after the concrete is poured and formed, the middle part of the three-section water stop screw 10 is kept in the concrete, and then the bolt cone 8 is dismantled to plug the groove left by the bolt cone 8.

Further, as shown in fig. 1, a water stop sheet 7 is further installed on the outer side wall of the three-section type water stop screw 10, the water stop sheet 7 is located at a gap formed by the aluminum alloy horizontal formwork 1 and the aluminum alloy hanging formwork 2, and the condition that the three-section type water stop screw 10 leaks can be avoided through the water stop sheet 7.

Further, as shown in fig. 1, the hanging die transverse reinforcement 4 comprises a connecting screw rod 11 and a connecting plate 12, the connecting plate 12 is installed at the top of two adjacent aluminum alloy hanging dies 2, the connecting plate 12 is connected with the aluminum alloy hanging dies 2 through the connecting screw rod 11, so that the connecting plate 12 is placed above the two adjacent aluminum alloy hanging dies 2, and then the connecting screw rod 11 penetrates through, so that the two adjacent aluminum alloy hanging dies 2 can be connected.

Further, as shown in fig. 1, the angle aluminum 5 has a T-shaped structure, and the angle aluminum 5 has a T-shaped structure, so that the aluminum alloy suspension molds 2 in a plurality of directions can be integrally formed.

Further, as shown in fig. 1, a wall 6 is installed at an end of the aluminum alloy suspension mold 2, and a closed space can be formed by the wall 6 and a reverse ridge formed by injection molding of the aluminum alloy suspension mold 2.

Further, as shown in fig. 1, the number of the hanging die transverse reinforcing members 4 is several, and the connection between the aluminum alloy horizontal template 1 and the hanging die vertical reinforcing members 3 can be firmer through the several hanging die transverse reinforcing members 4.

Further, as shown in fig. 2, the connecting plates 12 are steel members having a high strength, so that the connecting plates 12 are prevented from being damaged during use.

The working principle of the utility model is as follows: in the using process of the utility model, after the aluminum alloy horizontal template 1 is erected and the floor slab reinforcing steel bars are bound, the reversed bank aluminum alloy hanging die 2 is placed at the using position, then the connecting gap between the aluminum alloy horizontal template 1 and the aluminum alloy hanging die 2 meets the requirement of the floor slab thickness, two three-section water stop screws 10 in the vertical reinforcing part 3 of the hanging die are placed at the aluminum alloy horizontal template 1 and the aluminum alloy hanging die 2 and are connected through the bolt cones 8 and the positioning nuts 13, then the connecting plate 12 is connected with the two adjacent aluminum alloy hanging dies 2 through the connecting screws 11, finally the reversed bank aluminum alloy hanging dies 2 in the adjacent direction are reinforced again through the angle aluminum 5, thereby a stable and reliable reversed bank aluminum alloy template system can be formed, then concrete is poured at the aluminum alloy horizontal template 1 and the aluminum alloy hanging die 2, and after the pouring and forming, the middle part of the three-section water stop screw 10 is kept in the concrete, and then the bolt cone 8 is dismantled to plug the groove left by the bolt cone 8.

While the present invention has been described in detail and with reference to the embodiments thereof as illustrated in the accompanying drawings, it will be apparent to one skilled in the art that various changes and modifications can be made therein. Therefore, certain details of the embodiments are not to be interpreted as limiting, and the scope of the utility model is to be determined by the appended claims.

Claims

1. The utility model provides a reinforced structure of anti-bank suspended formwork of aluminum alloy template, its characterized in that, includes the aluminum alloy horizontal template, the aluminum alloy suspended formwork has been placed at the top of aluminum alloy horizontal template, the aluminum alloy suspended formwork bottom with the vertical reinforcement of suspended formwork top is connected through the vertical reinforcement of suspended formwork, the vertical reinforcement of suspended formwork includes bolt cone, connecting reinforcement, syllogic stagnant water screw rod and positioning nut, the aluminum alloy suspended formwork with two syllogic stagnant water screw rods have been placed between the aluminum alloy horizontal template, and two the syllogic stagnant water screw rod passes through connecting reinforcement fixed, two bolt cone and positioning nut are installed to the lateral wall of syllogic stagnant water screw rod, and are adjacent the top of aluminum alloy suspended formwork is installed and is suspended the horizontal reinforcement of suspended formwork, the angle aluminium is still installed to the one end of aluminum alloy suspended formwork.

2. The reinforcing structure of the aluminum alloy template inverted ridge hanging mold according to claim 1, wherein a water stop sheet is further installed on the outer side wall of the three-section water stop screw, and the water stop sheet is located at a gap formed by the aluminum alloy horizontal template and the aluminum alloy hanging mold.

3. The reinforcing structure of the aluminum alloy template inverted-ridge hanging die as claimed in claim 1, wherein the hanging die transverse reinforcing member comprises a connecting screw rod and a connecting plate, the connecting plate is mounted at the top of two adjacent aluminum alloy hanging dies, and the connecting plate and the aluminum alloy hanging dies are connected through the connecting screw rod.

4. The reinforcing structure of the aluminum alloy template reversed ridge hanging die as claimed in claim 1, wherein the angle aluminum is of a T-shaped structure.

5. The reinforcing structure of the aluminum alloy formwork reverse ridge hanging die as claimed in claim 1, wherein a wall body is installed at the end of the aluminum alloy hanging die.

6. The reinforcing structure of the aluminum alloy template reversed ridge hanging die as claimed in claim 1, wherein the number of the hanging die transverse reinforcing members is several.

7. The reinforcing structure of the aluminum alloy template reversed sill suspended form of claim 1, wherein the connecting plate is a steel member.