A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Manufacturing process of anti-deformation geothermal floor
The invention discloses a manufacturing process of an anti-deformation geothermal floor. The manufacturing process comprises the following steps: S1, processing a protective core plate; S2, processinga first protective panel, a second protective panel and a mounting lining plate; S3, processing a protective bottom plate; S4, sequentially conducting gluing by a gluing machine, assembling, pre-pressing, hot pressing by a hot press, and tempering with a balance library to obtain a blank body of a geothermal floor body; S5, carrying out surface coating on the blank body of the geothermal floor body; S6, processing a mounting groove; and S7, gluing the inner wall of the mounting groove by utilizing the gluing machine, and then connecting a retainer with the mounting groove. According to the manufacturing process, the lower end face of the protective core plate is protected through the mounting lining plate and the protective bottom plate, and the upper end face of the protective core plateis protected through the first protective panel and the second protective panel; and in addition, a carbon fiber heating wire is connected with the protective bottom plate through a limiting structure, so that the stability of connection between the carbon fiber heating wire and the protective bottom plate is effectively improved, and the quality of heating the geothermal floor body by the carbonfiber heating wire is effectively improved.
本发明公开了一种抗变形地热地板的制作工艺,S1:对防护芯板加工;S2:对第一防护面板、第二防护面板和安装衬板加工;S3:对防护底板加工;S4:涂胶机涂胶→组坯→预压→热压机热压→平衡库调质,得到地热地板本体的胚体;S5:对地热地板本体的胚体进行表面涂饰;S6:对安装凹槽进行加工;S7:在安装凹槽的内壁利用涂胶机涂胶,然后将保持架与安装凹槽相连接。本发明通过安装衬板和防护底板对防护芯板的下端面进行防护,通过第一防护面板和第二防护面板对防护芯板的上端面进行防护,另外所述碳纤维发热丝通过限位结构与防护底板相连接,进而有效的提高了碳纤维发热丝与防护底板相连接的稳定性,从而有效的提高了碳纤维发热丝对地热地板本体进行加热的质量。
Manufacturing process of anti-deformation geothermal floor
The invention discloses a manufacturing process of an anti-deformation geothermal floor. The manufacturing process comprises the following steps: S1, processing a protective core plate; S2, processinga first protective panel, a second protective panel and a mounting lining plate; S3, processing a protective bottom plate; S4, sequentially conducting gluing by a gluing machine, assembling, pre-pressing, hot pressing by a hot press, and tempering with a balance library to obtain a blank body of a geothermal floor body; S5, carrying out surface coating on the blank body of the geothermal floor body; S6, processing a mounting groove; and S7, gluing the inner wall of the mounting groove by utilizing the gluing machine, and then connecting a retainer with the mounting groove. According to the manufacturing process, the lower end face of the protective core plate is protected through the mounting lining plate and the protective bottom plate, and the upper end face of the protective core plateis protected through the first protective panel and the second protective panel; and in addition, a carbon fiber heating wire is connected with the protective bottom plate through a limiting structure, so that the stability of connection between the carbon fiber heating wire and the protective bottom plate is effectively improved, and the quality of heating the geothermal floor body by the carbonfiber heating wire is effectively improved.
本发明公开了一种抗变形地热地板的制作工艺,S1:对防护芯板加工;S2:对第一防护面板、第二防护面板和安装衬板加工;S3:对防护底板加工;S4:涂胶机涂胶→组坯→预压→热压机热压→平衡库调质,得到地热地板本体的胚体;S5:对地热地板本体的胚体进行表面涂饰;S6:对安装凹槽进行加工;S7:在安装凹槽的内壁利用涂胶机涂胶,然后将保持架与安装凹槽相连接。本发明通过安装衬板和防护底板对防护芯板的下端面进行防护,通过第一防护面板和第二防护面板对防护芯板的上端面进行防护,另外所述碳纤维发热丝通过限位结构与防护底板相连接,进而有效的提高了碳纤维发热丝与防护底板相连接的稳定性,从而有效的提高了碳纤维发热丝对地热地板本体进行加热的质量。
Manufacturing process of anti-deformation geothermal floor
一种抗变形地热地板的制作工艺
HUANG MINGXIANG (author)
2020-04-28
Patent
Electronic Resource
Chinese
IPC:
E04F
FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
,
Ausbau von Bauwerken, z.B. Treppen, Fußböden