CN-224228550-U - Novel heat preservation and insulation door and window

Abstract

The utility model relates to the technical field of heat-insulating doors and windows, and discloses a novel heat-insulating door and window, which comprises an opening and closing mechanism, a heat-insulating mechanism and a main body mechanism, wherein the opening and closing mechanism is positioned in the main body mechanism, the heat-insulating mechanism is positioned on the outer wall of the main body mechanism, the opening and closing mechanism comprises a motor, the output end of the motor is fixedly connected with a movable block I, the tail end of the movable block I is rotationally connected with a movable block II, and the tail end of the movable block II is rotationally connected with a connecting bracket. According to the utility model, the output end of the motor is fixedly connected with the first movable block, the second movable block is rotatably connected with the first movable block, when the motor drives the first movable block and the second movable block to move, the second movable block is rotatably connected with the connecting support, the connecting support is fixedly connected with the alloy window frame, and when the connecting support moves, the alloy window frame can be driven to automatically open and close, so that convenience of a user in the window opening and closing process can be improved.

Inventors

• CHEN TAIPING

Assignees

• 贵州星铝铝业有限公司

Dates

Publication Date

20260512

Application Date

20250429

Claims (7)

1. 1. The novel heat-preservation and heat-insulation door and window is characterized by comprising an opening and closing mechanism (1), a heat-preservation mechanism (2) and a main body mechanism (3), wherein the opening and closing mechanism (1) is positioned in the main body mechanism (3), and the heat-preservation mechanism (2) is positioned on the outer wall of the main body mechanism (3); The opening and closing mechanism (1) comprises a motor (101), the output end of the motor (101) is fixedly connected with a movable block I (102), the tail end of the movable block I (102) is rotationally connected with a movable block II (103), the tail end of the movable block II (103) is rotationally connected with a connecting support (104), the top end of the connecting support (104) is slidably connected with a mounting base (105), and a Y-shaped sliding groove (106) is formed in the outer wall of the mounting base (105).
2. 2. The novel heat preservation and heat insulation door and window as claimed in claim 1, wherein the tail end of the connecting bracket (104) is fixedly connected with a fixing bolt (108).
3. 3. The novel heat preservation and heat insulation door and window as claimed in claim 1, wherein the top end of the connecting bracket (104) is fixedly connected with a connecting rod (107).
4. 4. The novel heat preservation and heat insulation door and window as claimed in claim 1, wherein the heat preservation mechanism (2) comprises an alloy window frame (201), a hollow glass (202) is fixedly connected to the inner wall of the alloy window frame (201), and a sealing rubber strip (203) is fixedly connected to the outer wall of the hollow glass (202).
5. 5. The novel heat preservation and heat insulation door and window as claimed in claim 4, wherein the outer wall of the hollow glass (202) is fixedly connected with a tin dioxide heat insulation coating (204).
6. 6. The novel heat preservation and heat insulation door and window according to claim 1, wherein the main body mechanism (3) comprises a main body shell (301), and an embedded part (302) is fixedly connected to the side wall of the main body shell (301).
7. 7. The novel heat preservation and heat insulation door and window as claimed in claim 6, wherein the heat insulation strip (303) is clamped inside the main body shell (301).

Description

Novel heat preservation and insulation door and window Technical Field The utility model relates to the technical field of heat-insulating doors and windows, in particular to a novel heat-insulating door and window. Background The heat-insulating door and window is one with high heat-insulating performance. It plays an extremely important role in modern architecture. From the structural point of view, the materials of the window frame and the glass are very fine. The window frame adopts materials with low heat conductivity such as bridge cut-off aluminum, and the like, so that heat conduction is effectively blocked. The glass is often a double or multiple layer hollow glass, with an intermediate air layer or filled inert gas to reduce heat exchange. The door and window can greatly reduce the loss of indoor heat in winter and the transmission of outdoor heat in summer, thereby reducing the use frequency of air conditioner and heating, saving energy and protecting environment, creating more comfortable indoor environment for residents, reducing energy cost and meeting the concept of sustainable development while improving life quality. Along with the continuous improvement of people's requirement for living environment comfort, the heat preservation and heat insulation performance of door and window becomes more and more important, and traditional heat preservation and heat insulation door and window often dead weight is great, and operation generally needs to be operated with great strength in the process of opening and shutting to make the operation process have certain difficulty. Disclosure of utility model In order to solve the technical problems, the utility model provides a novel heat-preservation and heat-insulation door and window. The novel heat-preservation and heat-insulation door and window comprises an opening and closing mechanism, a heat-preservation mechanism and a main body mechanism, wherein the opening and closing mechanism is positioned in the main body mechanism, and the heat-preservation mechanism is positioned on the outer wall of the main body mechanism; The opening and closing mechanism comprises a motor, the output end of the motor is fixedly connected with a first movable block, the tail end of the first movable block is rotationally connected with a second movable block, the tail end of the second movable block is rotationally connected with a connecting support, the top end of the connecting support is slidably connected with a mounting base, and a Y-shaped chute is formed in the outer wall of the mounting base. Through the technical scheme, the output fixed connection movable block of motor, movable block one is rotated and is connected movable block two, when external 38V direct current driving motor goes on the operation, the motor drives movable block one and moves, can drive movable block two and move when movable block one rotates, set up movable block two and rotate the connection linking bridge, linking bridge sliding connection Y type spout, can drive the linking bridge and slide in the inside of Y type spout when movable block two moves, set up linking bridge fixed connection alloy window frame, can drive the alloy window frame and open and shut voluntarily when the linking bridge moves, thereby can increase the convenience of user at the switch window in-process. As a further improvement of the scheme, the tail end of the connecting bracket is fixedly connected with a fixing bolt. Through above-mentioned technical scheme, linking bridge fixed connection fixing bolt sets up fixing bolt threaded connection alloy window frame to can carry out fixed connection with linking bridge and alloy window frame through fixing bolt, and then can increase the steadiness of whole equipment. As a further improvement of the scheme, the top end of the connecting bracket is fixedly connected with a connecting rod. Through above-mentioned technical scheme, linking bridge fixed connection connecting rod is all provided with the linking bridge through the both ends at the connecting rod to can connect two linking bridge about with through the connecting rod, the linking bridge that the connecting rod can drive the bottom also carries out synchronous movement when the linking bridge at motor drive top moves about, thereby can increase the linkage nature of equipment. As a further improvement of the scheme, the heat preservation mechanism comprises an alloy window frame, wherein hollow glass is fixedly connected to the inner wall of the alloy window frame, and sealing rubber strips are fixedly connected to the outer wall of the hollow glass. Through above-mentioned technical scheme, alloy window frame fixed connection cavity glass, because cavity glass has better heat preservation performance to can effectively reduce indoor outer thermal conduction, set up cavity glass fixed connection joint strip, through set up joint strip around cavity glass, thereby can further strengthen the heat preserv