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Hyperbolic aluminum veneer and forming process thereof
The hyperbolic aluminum veneer comprises a veneer body, the veneer body is composed of a first veneer on the upper layer, a compression-resistant layer in the middle and a second veneer on the lower layer, and a plurality of transverse first wire grooves are formed in the opposite sides of the first veneer and the second veneer correspondingly; a plurality of transverse second wire grooves are formed between the adjacent first wire grooves, the compression-resistant layer comprises a plurality of first buffer ropes and a plurality of second buffer ropes, the first buffer ropes are fixedly adhered to the first wire grooves through adhesive glue, and the second buffer ropes are fixedly adhered to the second wire grooves through adhesive glue. A compression-resistant layer is arranged between the first single plate and the second single plate and composed of a first buffer rope and a second buffer rope, the first buffer rope is bonded to the first wire groove, the second buffer rope is bonded to the interior of the second wire groove, and therefore the hyperbolic aluminum single plate can have the efficient compression-resistant capacity through the elasticity of the buffer ropes, and the service life of the hyperbolic aluminum single plate is prolonged. And the offset or deformation condition of the veneer body due to insufficient compression resistance is avoided.
本发明公开了一种双曲铝单板及其成型工艺,包括单板本体,所述单板本体有上层的第一单板、中部的抗压层以及下层的第二单板组成,所述第一单板与第二单板的相对一侧均开设有若干横向的第一线槽,相邻的第一线槽之间形成有若干横向的第二线槽,所述抗压层包括若干第一缓冲绳和若干第二缓冲绳,第一缓冲绳通过粘接胶水固定粘接在第一线槽上,第二缓冲绳通过粘接胶水固定粘接在第二线槽上,第一单板与第二单板之间设置有抗压层,抗压层由第一缓冲绳与第二缓冲绳组成,第一缓冲绳粘接在第一线槽上,第二缓冲绳粘接在第二线槽中,进而通过缓冲绳的弹性,可使本双曲铝单板具有高效的抗压能力,避免单板本体因抗压性能不足而发生偏移或变形情况。
Hyperbolic aluminum veneer and forming process thereof
The hyperbolic aluminum veneer comprises a veneer body, the veneer body is composed of a first veneer on the upper layer, a compression-resistant layer in the middle and a second veneer on the lower layer, and a plurality of transverse first wire grooves are formed in the opposite sides of the first veneer and the second veneer correspondingly; a plurality of transverse second wire grooves are formed between the adjacent first wire grooves, the compression-resistant layer comprises a plurality of first buffer ropes and a plurality of second buffer ropes, the first buffer ropes are fixedly adhered to the first wire grooves through adhesive glue, and the second buffer ropes are fixedly adhered to the second wire grooves through adhesive glue. A compression-resistant layer is arranged between the first single plate and the second single plate and composed of a first buffer rope and a second buffer rope, the first buffer rope is bonded to the first wire groove, the second buffer rope is bonded to the interior of the second wire groove, and therefore the hyperbolic aluminum single plate can have the efficient compression-resistant capacity through the elasticity of the buffer ropes, and the service life of the hyperbolic aluminum single plate is prolonged. And the offset or deformation condition of the veneer body due to insufficient compression resistance is avoided.
本发明公开了一种双曲铝单板及其成型工艺,包括单板本体,所述单板本体有上层的第一单板、中部的抗压层以及下层的第二单板组成,所述第一单板与第二单板的相对一侧均开设有若干横向的第一线槽,相邻的第一线槽之间形成有若干横向的第二线槽,所述抗压层包括若干第一缓冲绳和若干第二缓冲绳,第一缓冲绳通过粘接胶水固定粘接在第一线槽上,第二缓冲绳通过粘接胶水固定粘接在第二线槽上,第一单板与第二单板之间设置有抗压层,抗压层由第一缓冲绳与第二缓冲绳组成,第一缓冲绳粘接在第一线槽上,第二缓冲绳粘接在第二线槽中,进而通过缓冲绳的弹性,可使本双曲铝单板具有高效的抗压能力,避免单板本体因抗压性能不足而发生偏移或变形情况。
Hyperbolic aluminum veneer and forming process thereof
一种双曲铝单板及其成型工艺
YU MAOQIANG (author) / SHEN YUE (author) / CAO YAQUN (author) / ZHOU JIANZHAO (author) / CHEN XIANGXIANG (author)
2022-11-18
Patent
Electronic Resource
Chinese
IPC:
B32B
LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
,
Schichtkörper, d.h. aus Ebenen oder gewölbten Schichten, z.B. mit zell- oder wabenförmiger Form, aufgebaute Erzeugnisse
/
E04B
Allgemeine Baukonstruktionen
,
GENERAL BUILDING CONSTRUCTIONS
/
E04F
FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
,
Ausbau von Bauwerken, z.B. Treppen, Fußböden