CN220849375U - Low-e processing technology-based energy-saving aluminum alloy door and window - Google Patents

Abstract

The application relates to an energy-saving aluminum alloy door and window based on a low-e processing technology, which relates to the field of door and window equipment and comprises a connecting mechanism and hollow low-e glass, wherein the connecting mechanism is used for realizing the rotary connection of the hollow low-e glass and a building main body, a storage bin and a shading bin are arranged in the hollow low-e glass, the storage bin is communicated with the shading bin, shading medium is filled in the storage bin, the shading medium has fluidity, and the volume of the storage bin is larger than that of the shading bin; the hollow low-e glass has the beneficial effects that the hollow low-e glass is rotationally connected with the building main body through the connecting mechanism, so that a shading medium in the hollow low-e glass can flow between the storage bin and the shading bin, the shading effect of the hollow low-e glass is realized when the shading medium flows into the shading bin, and the light transmission effect of the hollow low-e glass is realized when the shading medium flows into the storage bin.

Description

Low-e processing technology-based energy-saving aluminum alloy door and window

Technical Field

The application relates to the field of door and window equipment, in particular to an energy-saving aluminum alloy door and window based on a low-e processing technology.

Background

The door and window is divided into enclosure components or separation components according to different positions of the door and window, different design requirements are provided with functions of heat preservation, heat insulation, sound insulation, water resistance, fire resistance and the like, new requirements are energy saving, heat lost by gaps of the door and window in cold areas accounts for about 25% of total heating heat consumption, the requirement of tightness of the door and window is an important content in energy saving design, and the door and the window are important components in a building enclosure structure system.

The related prior art discloses energy-conserving door and window of aluminum alloy, and it includes first equipment frame and second equipment frame, first equipment frame with the laminating of second equipment frame mutually, the inner wall bottom fixedly connected with locating plate of second equipment frame, second equipment frame inner wall sliding connection has first push away the window, first push away the inboard of window seted up with the slide rail of locating plate looks adaptation, the inner wall bottom fixedly connected with limiting plate of second equipment frame. When the door and window assembly device is used, the first assembly frame is attached to the second assembly frame, the first sliding window and the second sliding window are limited by the inner wall of the first assembly frame, the first assembly frame and the second assembly frame are limited and fixed by manually using bolts and corresponding threaded holes, the disassembly and the installation of each part are convenient, and when the individual parts of the door and window need to be replaced, the door and window can be disassembled and replaced independently, and the door and window does not need to be replaced completely.

For the related art, when the aluminum alloy door and window is manufactured by the method, the first push window and the second push window are used for realizing light transmission, so that external light can conveniently irradiate into a room, but when external light is required to be isolated, a shading mechanism such as a shading curtain is required to be additionally arranged, and the phenomena of large occupied space, high manual installation cost and the like are easy to occur due to the additionally arranged shading mechanism.

Disclosure of utility model

In order to achieve the self-shading effect of doors and windows, the occupied space of a shading mechanism is reduced, and the manual installation cost is reduced, the application provides an energy-saving aluminum alloy door and window based on a low-e processing technology.

The application provides an energy-saving aluminum alloy door and window based on a low-e processing technology, which adopts the following technical scheme:

The utility model provides an energy-conserving aluminum alloy door and window based on low-e processing technology, includes coupling mechanism and cavity low-e glass, coupling mechanism is used for realizing cavity low-e glass is connected with the rotation of building main part, be provided with in the cavity low-e glass and store storehouse and shading storehouse, store the storehouse with shading storehouse intercommunication each other, it has shading medium to store the storehouse intussuseption, shading medium has the mobility, the volume of storing the storehouse is greater than the volume of shading storehouse.

Through adopting above-mentioned technical scheme, cavity low-e glass passes through coupling mechanism and rotates to be connected in the building main part, in the rotation in-process of cavity low-e glass, shading medium can flow between storage bin and shading bin, cavity low-e glass rotates to appointed position, make shading medium flow to in the shading bin from the storage bin, cavity low-e glass at this moment can realize the effect of shading, cavity low-e glass reverse rotation, make shading medium flow to in the storage bin from the shading bin, cavity low-e glass at this moment can realize printing opacity, convenient operation is swift, and need not to add structures such as like shading curtain, occupation space is little, the manual installation is with low costs.

Optionally, the coupling mechanism includes main frame and connecting frame, the main frame is used for being connected with the building main part, the connecting frame rotate connect in the main frame, the inner wall of connecting frame is provided with the spread groove, cavity low-e glass inserts and locates in the spread groove.

Through adopting above-mentioned technical scheme, cavity low-e glass passes through the spread groove and realizes being connected with the spread frame, and the spread frame rotates to be connected in the main frame, and the main frame is installed in the building main part to this realizes the rotation connection between cavity low-e glass and the building main part.

Optionally, the storage bin is located in the connecting groove, and the inner wall of the connecting groove covers the storage bin.

Through adopting above-mentioned technical scheme, when the shading medium in shading storehouse flows to storing in the storehouse, by the inner wall cover of spread groove blocking for when printing opacity, can not observe the shading medium, whole impression is good.

Optionally, be provided with locking mechanism on the main frame, locking mechanism includes pivot, locking claw, elasticity piece and limiting plate reset, the pivot rotate connect in the main frame, locking claw connect in the pivot, the locking claw is used for pressing from both sides tightly the linking frame, elasticity piece cover that resets is located the pivot perisporium, elasticity one end of resetting the piece connect in locking claw, the other end connect in the main frame, the limiting plate is located on the travel path of locking claw.

Through adopting above-mentioned technical scheme, rotate the pivot and can realize driving the locking claw and rotate to this realizes that the locking claw loosens the link and presss from both sides the state switching of tight link, and the setting of elasticity restoring member can realize keeping the locking claw in the state of pressing from both sides tight link, has improved the clamp stability.

Optionally, an adjusting handle is disposed at an end of the rotating shaft, and the adjusting handle is used for adjusting the position of the rotating shaft.

Through adopting above-mentioned technical scheme, the setting of adjusting the handle makes more convenient and fast when adjusting the pivot.

Optionally, a sealing pad is disposed on a side wall of the main frame, the rotating shaft penetrates through the sealing pad, and the sealing pad abuts against a peripheral wall of the rotating shaft.

Through adopting above-mentioned technical scheme, the leakproofness between pivot and the main frame can be realized improving in the setting of sealed pad, reduces the possibility that external rainwater permeated from the gap department between pivot and the main frame.

Optionally, a flexible pad is disposed on a side of the locking claw facing the main frame.

Through adopting above-mentioned technical scheme, the setting of flexible pad has reduced the phenomenon that the locking claw will connect the frame friction damage when rotating, has improved the life of connecting the frame.

Optionally, a magnetic absorption member is disposed on a side of the limiting plate facing the locking claw, and the magnetic absorption member is used for magnetically absorbing the locking claw.

Through adopting above-mentioned technical scheme, the setting of magnetism absorbing member can realize the absorption to the locking claw, when elasticity restoring member damages for the locking claw still can realize keeping pressing from both sides the state of tight connection frame, has improved the stability of locking claw.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the hollow low-e glass is rotatably connected with the building main body through the connecting mechanism, so that a shading medium in the hollow low-e glass can flow between the storage bin and the shading bin, the shading effect of the hollow low-e glass is achieved when the shading medium flows into the shading bin, and the light transmission effect of the hollow low-e glass is achieved when the shading medium flows into the storage bin.

2. The position of the locking claw is adjusted through the rotating shaft, so that the state switching of the loosening connecting frame and the locking connecting frame can be realized, and the operation is convenient and quick.

Drawings

Fig. 1 is a schematic diagram of the overall structure of an energy-saving aluminum alloy door and window based on low-e processing technology according to an embodiment of the application.

Fig. 2 is a schematic cross-sectional structure of an energy-saving aluminum alloy door and window based on low-e processing technology according to an embodiment of the application.

Fig. 3 is an enlarged schematic view at R in fig. 2.

Reference numerals illustrate: 1. a connecting mechanism; 101. a main frame; 102. a connection frame; 2. hollow low-e glass; 3. a storage bin; 4. a shading bin; 5. a connecting groove; 6. a locking mechanism; 601. a rotating shaft; 602. a locking claw; 603. an elastic reset piece; 604. a limiting plate; 7. adjusting the handle; 8. a sealing gasket; 9. a flexible pad; 10. a magnetic absorption member.

Detailed Description

The application is described in further detail below with reference to fig. 1-3.

The embodiment of the application discloses an energy-saving aluminum alloy door and window based on a low-e processing technology. Referring to fig. 1, an energy-saving aluminum alloy door window based on a low-e processing technology comprises a connecting mechanism 1 and hollow low-e glass 2, the connecting mechanism 1 is used for realizing rotary connection between the hollow low-e glass 2 and a building main body, the connecting mechanism 1 comprises a main frame 101 and a connecting frame 102, the main frame 101 is installed on the building main body, the connecting frame 102 is rotationally connected to the main frame 101, a connecting groove 5 is formed in the inner wall of the connecting frame 102, the hollow low-e glass 2 is inserted into the connecting groove 5 to realize connection with the connecting frame 102, a storage bin 3 and a shading bin 4 which are mutually communicated are formed in the hollow low-e glass 2, the volume of the storage bin 3 is larger than that of the shading bin 4, and the storage bin 3 is filled with shading medium, which can be fine sand, the shading medium can flow in the storage bin 3 and the shading bin 4 under the action of gravity, the storage bin is positioned at one side of the hollow low-e glass 2 which is inserted into the connecting groove 5, and the inner wall of the connecting groove 5 can cover the storage bin 3.

Referring to the figure, one side of the main frame 101 is provided with a locking mechanism 6, the locking mechanism 6 is not collinear with the rotation center shaft of the connection frame 102, the locking mechanism 6 comprises a rotating shaft 601, a locking claw 602, an elastic reset piece 603 and a limiting plate 604, the rotating shaft 601 is rotationally connected to the main frame 101, a sealing gasket 8 is arranged at the joint of the rotating shaft 601 and the main frame 101, one end of the rotating shaft 601 is welded with an adjusting handle 7, the sealing gasket 8 is adhered to the side wall of the main frame 101 and abuts against the peripheral wall of the rotating shaft 601, the sealing gasket 8 of the embodiment can be made of rubber, the locking claw 602 is welded to the rotating shaft 601 and is rotationally kept synchronous, the locking claw 602 is used for clamping the connection frame 102, one side, facing the connection frame 102, of the locking claw 602 is adhered with a flexible gasket 9, and the flexible gasket 9 of the embodiment can be made of rubber. The elastic restoring member 603 is sleeved on the peripheral wall of the rotating shaft 601, the elastic restoring member 603 in this embodiment may be a torsion spring, one end of the elastic restoring member 603 is inserted into the locking claw 602, the other end of the elastic restoring member is inserted into the main frame 101, the limiting plate 604 is welded to the main frame 101, the limiting plate 604 is located on a moving path of the locking claw 602, when the locking claw 602 abuts against the limiting plate 604, the locking claw 602 at this time can clamp the connecting frame 102, one side, facing the locking claw 602, of the limiting plate 604 is adhered with the magnetic absorbing member 10, the material of the locking claw 602 can be absorbed by the magnetic absorbing member 10, the magnetic absorbing member 10 in this embodiment can be a magnet, and the material of the locking claw 602 can be iron.

The implementation principle of the energy-saving aluminum alloy door and window based on the low-e processing technology provided by the embodiment of the application is as follows: when the light shielding device is used, the rotating shaft 601 is rotated through the adjusting handle 7, the locking claw 602 is used for loosening the connecting frame 102, the connecting frame 102 is rotated to enable the hollow low-e glass 2 to rotate together, the light shielding effect of the hollow low-e glass 2 can be achieved when the light shielding medium flows into the light shielding bin 4 from the storage bin 3 through rotation, the light transmission effect of the hollow low-e glass 2 can be achieved when the light shielding medium flows into the storage bin 3 from the light shielding bin 4 through rotation, a light shielding curtain is not required to be additionally installed, the occupied space of the embodiment is small, the installation is convenient, and the labor cost is low.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (8)

1. An energy-conserving aluminum alloy door and window based on low-e processing technique, its characterized in that: including coupling mechanism (1) and cavity low-e glass (2), coupling mechanism (1) are used for realizing the rotation of cavity low-e glass (2) and building main part is connected, be provided with in cavity low-e glass (2) and store storehouse (3) and shading storehouse (4), store storehouse (3) with shading storehouse (4) intercommunication each other, store storehouse (3) intussuseption and be filled with shading medium, shading medium has mobility, the volume of storing storehouse (3) is greater than the volume of shading storehouse (4).

2. The low-e processing technology-based energy-saving aluminum alloy door and window according to claim 1, wherein: coupling mechanism (1) include main frame (101) and connecting frame (102), main frame (101) are used for being connected with the building main part, connecting frame (102) rotate connect in main frame (101), the inner wall of connecting frame (102) is provided with spread groove (5), cavity low-e glass (2) are inserted and are located in spread groove (5).

3. The low-e processing technology-based energy-saving aluminum alloy door and window according to claim 2, wherein: the storage bin (3) is located in the connecting groove (5), and the inner wall of the connecting groove (5) covers the storage bin (3).

4. The low-e processing technology-based energy-saving aluminum alloy door and window according to claim 2, wherein: the locking mechanism is characterized in that a locking mechanism (6) is arranged on the main frame (101), the locking mechanism (6) comprises a rotating shaft (601), a locking claw (602), an elastic resetting piece (603) and a limiting plate (604), the rotating shaft (601) is rotationally connected to the main frame (101), the locking claw (602) is connected to the rotating shaft (601), the locking claw (602) is used for clamping the connecting frame (102), the elastic resetting piece (603) is sleeved on the peripheral wall of the rotating shaft (601), one end of the elastic resetting piece (603) is connected to the locking claw (602), the other end of the elastic resetting piece is connected to the main frame (101), and the limiting plate (604) is located on a moving path of the locking claw (602).

5. The low-e processing technology-based energy-saving aluminum alloy door and window according to claim 4, wherein: an adjusting handle (7) is arranged at the end part of the rotating shaft (601), and the adjusting handle (7) is used for adjusting the position of the rotating shaft (601).

6. The low-e processing technology-based energy-saving aluminum alloy door and window according to claim 4, wherein: the side wall of the main frame (101) is provided with a sealing gasket (8), the rotating shaft (601) penetrates through the sealing gasket (8), and the sealing gasket (8) is abutted to the peripheral wall of the rotating shaft (601).

7. The low-e processing technology-based energy-saving aluminum alloy door and window according to claim 4, wherein: a flexible pad (9) is arranged on one side of the locking claw (602) facing the main frame (101).

8. The low-e processing technology-based energy-saving aluminum alloy door and window according to claim 4, wherein: one side of the limiting plate (604) facing the locking claw (602) is provided with a magnetic absorption part (10), and the magnetic absorption part (10) is used for magnetically absorbing the locking claw (602).