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A platform for research: civil engineering, architecture and urbanism
Door and window energy-saving auxiliary frame and production technology thereof
The invention discloses a door and window energy-saving auxiliary frame which comprises an auxiliary frame body. The longitudinal cross section of the auxiliary frame body is rectangular. A plurality of separation strips are arranged in the middle of the auxiliary frame body. An inner cavity of the auxiliary frame body is separated into a plurality of heat insulation cavities. A steel liner is arranged on the inner wall of each heat insulation cavity. The steel liners are fastened to the inner walls of the heat insulation cavities through screws. A plug pin is arranged at one end of the auxiliary frame body. The production technology of the door and window energy-saving auxiliary frame comprises the following steps of 1, sectional material cutting, 2, steel liner assembling, 3, welding, 4, corner cleaning and adhesive tape assembling, and 5, finished product quality inspection , packaging and storage. The steel liners are installed on the inner walls of the heat insulation cavities of the auxiliary frame through the screws, assembling is easy and convenient, the heat insulation function of the auxiliary frame sectional material and the compressive strength of the steel liners are perfectly combined, the requirement for energy conservation can be met, and the requirement for the mechanic performance can be met. The production technology of the auxiliary frame is simple and convenient and fast to operate, and the produced auxiliary frame has the good heat insulation effect, stable structure and more attractive appearance.
Door and window energy-saving auxiliary frame and production technology thereof
The invention discloses a door and window energy-saving auxiliary frame which comprises an auxiliary frame body. The longitudinal cross section of the auxiliary frame body is rectangular. A plurality of separation strips are arranged in the middle of the auxiliary frame body. An inner cavity of the auxiliary frame body is separated into a plurality of heat insulation cavities. A steel liner is arranged on the inner wall of each heat insulation cavity. The steel liners are fastened to the inner walls of the heat insulation cavities through screws. A plug pin is arranged at one end of the auxiliary frame body. The production technology of the door and window energy-saving auxiliary frame comprises the following steps of 1, sectional material cutting, 2, steel liner assembling, 3, welding, 4, corner cleaning and adhesive tape assembling, and 5, finished product quality inspection , packaging and storage. The steel liners are installed on the inner walls of the heat insulation cavities of the auxiliary frame through the screws, assembling is easy and convenient, the heat insulation function of the auxiliary frame sectional material and the compressive strength of the steel liners are perfectly combined, the requirement for energy conservation can be met, and the requirement for the mechanic performance can be met. The production technology of the auxiliary frame is simple and convenient and fast to operate, and the produced auxiliary frame has the good heat insulation effect, stable structure and more attractive appearance.
Door and window energy-saving auxiliary frame and production technology thereof
WU XINYONG (author)
2015-12-09
Patent
Electronic Resource
English
IPC:
E06B
Feste oder bewegliche Abschlüsse für Öffnungen in Bauwerken, Fahrzeugen, Zäunen oder ähnlichen Einfriedungen allgemein, z.B. Türen, Fenster, Läden, Tore
,
FIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES, OR LIKE ENCLOSURES, IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
/
B23P
Sonstige Metallbearbeitung
,
OTHER WORKING OF METAL
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