CN-224213767-U - Anti-deformation reinforced building template aluminum template assembly

Abstract

The application provides an anti-deformation reinforced building template aluminum template assembly, and relates to the technical field of building templates. The utility model provides a building templates aluminum template subassembly that anti-deformation was consolidated includes the aluminum template, the even rigid coupling in one side of aluminum template has a plurality of bottom to consolidate the subassembly, the bottom consolidate the subassembly including the rigid coupling in the bottom of aluminum template consolidates the roof beam, the symmetry is pegged graft on the roof beam and is had two displacement pieces, one side threaded connection of roof beam is consolidated to the bottom has the middle level to consolidate the roof beam, one side threaded connection of roof beam is consolidated to the middle level has outer to consolidate the roof beam, and the fixing between roof beam is consolidated to the middle level and the bottom can be to the shaping of aluminum template upper and lower direction, and the fixing between roof beam is consolidated to the middle level and the middle level can be to the shaping of aluminum template in the left and right directions, and the change of distance between roof beam is consolidated to the middle level makes the aluminum template take place certain bending in the left and right directions.

Inventors

• CHEN FUWEN

Assignees

• 金筑泰洋装饰有限公司

Dates

Publication Date

20260508

Application Date

20250321

Claims (8)

1. 1. The utility model provides a building templates aluminum mould board subassembly of deformation-proof reinforcement, includes aluminum mould board (1), its characterized in that: The utility model discloses a reinforced beam structure for aluminum mould board, including aluminum mould board (1), bottom reinforcing component (2) have evenly rigid coupling in one side of aluminum mould board (1), bottom reinforcing component (2) including the rigid coupling in bottom reinforcing beam (21) of aluminum mould board (1), the symmetry is pegged graft on bottom reinforcing beam (21) has two displacement pieces (22), displacement piece (22) butt in aluminum mould board (1), bottom reinforcing beam (21) keep away from one side threaded connection of aluminum mould board (1) has middle layer reinforcing beam (3), middle layer reinforcing beam (3) with bottom reinforcing beam (21) are crisscross form setting, middle layer reinforcing beam (3) keep away from one side threaded connection of bottom reinforcing beam (21) has outer reinforcing beam (4), outer reinforcing beam (4) with middle layer reinforcing beam (3) are crisscross form setting.
2. 2. The deformation-preventing reinforced building template aluminum template assembly according to claim 1, wherein a fixing block (211) is fixedly connected to the middle of one side of the bottom layer reinforcing beam (21) facing the aluminum template (1), the fixing block (211) is fixedly connected to the aluminum template (1), and two bottom layer through holes (212) are symmetrically formed in the bottom layer reinforcing beam (21).
3. 3. The deformation-preventing reinforced building template aluminum template assembly as claimed in claim 2, wherein an adjusting screw (221) is fixedly connected to the displacement block (22), the adjusting screw (221) is coupled with the bottom layer through hole (212), and an adjusting nut (222) is connected to the adjusting screw (221) in a threaded manner.
4. 4. The deformation-preventing reinforced building template aluminum template assembly as claimed in claim 1, wherein a bottom layer screw rod (23) is fixedly connected to the middle of one side of the bottom layer reinforcing beam (21) away from the aluminum template (1), and a bottom layer thread sleeve (231) is connected to the bottom layer screw rod (23) in a threaded manner.
5. 5. An anti-deformation reinforced building form aluminum form assembly as claimed in claim 4, wherein a plurality of middle layer through holes (31) are uniformly formed in the middle layer reinforcing beam (3), and the middle layer through holes (31) are coupled with the bottom layer screw rods (23).
6. 6. A deformation-resistant reinforced building form aluminum form assembly as recited in claim 5, wherein said bottom layer threading sleeve (231) is embedded in said middle layer through hole (31) and said bottom layer threading sleeve (231) is slidably engaged with said middle layer through hole (31).
7. 7. The deformation-preventing reinforced building template aluminum template assembly according to claim 5, wherein a plurality of middle layer screws (32) are uniformly arranged on one side, far away from the bottom layer reinforcing beam (21), of the middle layer reinforcing beam (3), the middle layer screws (32) and the middle layer through holes (31) are arranged in a staggered mode, and middle layer threaded sleeves (321) are connected to the middle layer screws (32) in a threaded mode.
8. 8. The deformation-preventing reinforced building template aluminum template assembly as claimed in claim 7, wherein a plurality of outer layer through holes (41) are uniformly formed in the outer layer reinforcing beam (4), the middle layer screw (32) is inserted into the outer layer through holes (41), the middle layer screw sleeve (321) is embedded into the outer layer through holes (41), and the middle layer screw sleeve (321) and the outer layer through holes (41) are in sliding fit.

Description

Anti-deformation reinforced building template aluminum template assembly Technical Field The application relates to the technical field of building templates, in particular to an anti-deformation reinforced building template aluminum template component. Background Among the prior art, for example, the disclosed improved generation building aluminum alloy template with preapring for an unfavorable turn of events of CN215926704U has offered the reinforced groove on the aluminum alloy template, has strengthened the inslot portion and has placed the gusset plate, a plurality of stiffening rods of inside fixedly connected with of aluminum alloy template, the stiffening rod is crisscross the arranging on the aluminum alloy template, is provided with the rectangular channel between the stiffening rod, the inside fixedly connected with horizontal pole of rectangular channel, the horizontal pole is the diagonal setting in the rectangular channel inside, separates the rectangular channel, and the horizontal pole both sides are provided with the triangular channel. In this scheme, play the effect of support to the aluminum alloy template through the gusset plate, avoid the aluminum alloy template to damage under the effect of external force and produce the deformation, the gusset rod that sets up and horizontal pole can be with the force evenly distributed that the aluminum alloy template received, avoid the aluminum alloy template to produce the deformation, the shock pad passes through bolted connection aluminum alloy template and gusset plate, make the gusset plate be difficult for separating from the reinforcement groove, the screw hole that sets up is convenient for the aluminum alloy template interconnect of difference. However, in the scheme, the aluminum alloy template is under the action of the reinforcing rods and the cross rods, the shape of the aluminum alloy template is fixed and cannot adapt to a scene, and certain deformation occurs artificially, namely the applicability of the aluminum alloy template is limited to be large. Disclosure of utility model The present application aims to solve at least one of the technical problems existing in the prior art. Therefore, the application provides a deformation-preventing reinforced building template aluminum template component, and aims to solve the problem that the shape of the existing deformation-preventing improved building aluminum alloy template cannot be artificially and actively deformed to adapt to different pouring scenes due to reinforcement. The application provides an anti-deformation reinforced building template aluminum template assembly, which comprises an aluminum template, wherein a plurality of bottom layer reinforcing assemblies are uniformly fixedly connected to one side of the aluminum template, each bottom layer reinforcing assembly comprises a bottom layer reinforcing beam fixedly connected to the aluminum template, two displacement blocks are symmetrically inserted on each bottom layer reinforcing beam, the displacement blocks are abutted to the aluminum template, a middle layer reinforcing beam is connected to one side of each bottom layer reinforcing beam far away from the aluminum template through threads, the middle layer reinforcing beam and each bottom layer reinforcing beam are arranged in a cross staggered mode, an outer layer reinforcing beam is connected to one side of each middle layer reinforcing beam far away from each bottom layer reinforcing beam through threads, and the outer layer reinforcing beams and the middle layer reinforcing beams are arranged in a cross staggered mode. The deformation-preventing reinforced building template aluminum template assembly has the beneficial effects that different fixing support ranges can be formed on the aluminum template by utilizing the displacement blocks on the plurality of bottom reinforcing beams, the aluminum template can be shaped in the up-down direction by utilizing the fixing between the middle reinforcing beam and the bottom reinforcing beam, the aluminum template can be shaped in the left-right direction by utilizing the fixing between the outer reinforcing beam and the middle reinforcing beam, the aluminum template can be bent to a certain extent in the up-down direction by utilizing the change of the distance between the middle reinforcing beam and the bottom reinforcing beam, the aluminum template can be bent to a certain extent in the left-right direction by utilizing the change of the distance between the outer reinforcing beam and the middle reinforcing beam, the aluminum template can be suitable for pouring in different shapes by virtue of active deformation, and the whole aluminum template can be firmly supported by virtue of the bottom reinforcing beam, the middle reinforcing beam and the outer reinforcing beam, so that passive deformation is avoided. In addition, the deformation-preventing reinforced building template aluminum template assembly provided by the