CN216429403U - Hollow glass door and window with good heat preservation - Google Patents

Abstract

The utility model discloses a hollow glass door and window with good heat preservation performance, which comprises outer layer glass, inner layer glass, a window frame, a heat insulation coiled material, a rolling component and a glass film, wherein the outer layer glass and the inner layer glass are hermetically fixed on the inner wall of the window frame through adhesives, a middle cavity is formed among the outer layer glass, the inner layer glass and the window frame, the heat insulation coiled material, the rolling component and the glass film are arranged on the side surfaces of the opposite sides of the outer layer glass and the inner layer glass, the heat insulation coiled material is rolled on the rolling component, an upper containing cavity is formed in the top wall of the window frame, the rolling component is arranged in the upper containing cavity, the integral heat preservation effect is enhanced through the glass film on the inner layer glass and the glass film on the outer layer glass, and outdoor heat radiation is isolated outdoors as much as possible through the heat insulation coiled material. The hollow glass door and window with good heat preservation performance has the effects of improving the heat preservation and heat insulation of the hollow glass.

Description

Hollow glass door and window with good heat preservation

Technical Field

The utility model relates to the technical field of glass doors and windows, in particular to a hollow glass door and window with good heat insulation performance.

Background

The hollow glass is a new building material with good heat-insulating and sound-insulating properties, beautiful appearance and applicability and capable of reducing the dead weight of buildings, and is high-efficiency sound-insulating and heat-insulating glass prepared by bonding two (or three) sheets of glass with an aluminum alloy frame containing a drying agent by using a high-strength and high-airtightness composite bonding agent. The hollow glass has various properties superior to those of common double-layer glass, so that the hollow glass is accepted by all countries in the world, and two or more pieces of glass are effectively supported and uniformly separated and are bonded and sealed at the periphery, so that a dry gas space is formed between glass layers.

The common hollow glass achieves the heat preservation effect only through the dry gas between the glass, but the heat preservation effect is not good when the hollow glass is used in places with excessive temperature fluctuation.

SUMMERY OF THE UTILITY MODEL

In view of the above problems, an insulating glass door and window with good heat insulation is provided, which aims to improve the heat insulation effect of the insulating glass.

The specific technical scheme is as follows:

the utility model provides a cavity glass door and window with good heat insulating ability, includes outer glass, inlayer glass and window frame, outer glass with inlayer glass all is fixed in through the adhesive seal the window frame inner wall, constitute middle part cavity, its characterized in that between outer glass, inlayer glass and the window frame jointly: still include thermal-insulated coiled material, rolling subassembly and glass membrane, outer glass with all be provided with on the inner glass opposite side face the glass membrane, thermal-insulated coiled material rolling in on the rolling subassembly, the window frame roof has been seted up and has been held the chamber, the rolling subassembly set up in on hold in the chamber, on hold the chamber with middle part cavity intercommunication works as the rolling subassembly releases completely during the thermal-insulated coiled material, thermal-insulated coiled material will middle part cavity partition is outer cavity and inner cavity.

Foretell cavity glass door and window with good heat insulating ability still has such characteristic, still including being used for the drive thermal-insulated coiled material is followed the release subassembly of release on the rolling subassembly, the window frame diapire has been seted up down and has been held the chamber, the release subassembly can get into hold the chamber down, hold the chamber down with middle part cavity intercommunication, a drive end of release subassembly stretches into behind the middle part cavity with thermal-insulated coiled material is connected.

The beneficial effect of above-mentioned scheme: when inside and outside temperature is too big, need use the isolated outdoor heat radiation of thermal-insulated coiled material, make thermal-insulated coiled material break away from the rolling subassembly completely through the release subassembly and in order to keep apart outdoor radiation.

Foretell cavity glass door and window with good heat insulating ability still has such characteristic, the rolling subassembly includes rolling sleeve and drive arrangement, drive arrangement set up in on hold the chamber lateral wall, drive arrangement's power take off end with rolling sleeve's one end is connected, rolling sleeve's the other end with on hold the chamber lateral wall and rotate and connect, thermal-insulated coiled material's upper end with rolling sleeve's lateral wall is connected.

The beneficial effect of above-mentioned scheme: when the heat insulation coiled material is not needed to be used and the external force is removed, the driving device can enable the heat insulation coiled material to be completely rolled onto the rolling sleeve.

Foretell cavity glass door and window with good heat insulating ability still has such characteristic, the release subassembly includes haulage rope and bearing bar, thermal-insulated coiled material's lower extreme with the lateral wall of bearing bar is connected, the both sides lateral wall of window frame seted up with the spout of the both ends looks adaptation of bearing bar, the haulage rope stretches into by indoor side hold down behind the chamber with the bearing bar is connected, when needs release during the thermal-insulated coiled material, the pulling the haulage rope can make thermal-insulated coiled material lower extreme is kept away from gradually the rolling sleeve is up to the bearing bar laminating the window frame diapire.

The beneficial effect of above-mentioned scheme: pulling the haulage rope can make thermal-insulated coiled material break away from the rolling sleeve.

The hollow glass door and window with good heat insulation performance is characterized in that the indoor side wall of the lower part of the window frame is provided with the binding column.

The beneficial effect of above-mentioned scheme: when the heat insulation coiled material is in the limit position, the traction rope is bound on the binding column, so that the heat insulation coiled material cannot be rewound under the action of the driving device.

The hollow glass door and window with good heat preservation performance is characterized in that the driving device comprises a central shaft and a spiral spring, two ends of the central shaft are respectively connected with the side wall of the upper accommodating cavity, the winding sleeve is arranged on the periphery of the central shaft, and the central shaft and the winding sleeve are connected through the spiral spring.

The beneficial effect of above-mentioned scheme: when the external force is removed, the spiral spring can automatically drive the heat insulation coiled material to be wound.

In conclusion, the scheme has the beneficial effects that:

in the hollow glass door and window with good heat preservation performance, the integral heat preservation effect is enhanced through the glass films on the inner layer glass and the outer layer glass, and the outdoor heat radiation is isolated outdoors as much as possible through the heat insulation coiled material. The hollow glass door and window with good heat preservation performance has the effects of improving the heat preservation and heat insulation of the hollow glass.

Drawings

FIG. 1 is a schematic front sectional view of an insulated hollow glass door/window according to the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of the structure at B in FIG. 1 according to the present invention.

Description of the drawings: 1. a window frame; 2. outer layer glass; 3. inner layer glass; 4. a glass film; 5. a heat insulating coil; 6. winding a sleeve; 7. a clockwork spring; 8. a middle shaft; 9. a load-bearing bar; 10. a hauling rope; 11. Binding the column; 12. a chute.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the following embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

The present invention is further illustrated by the following examples, which are not to be construed as limiting the utility model.

Fig. 1 is a schematic front sectional view of a hollow glass door/window with good thermal insulation according to the present invention, fig. 2 is an enlarged structural view of a point a in fig. 1, and fig. 3 is an enlarged structural view of a point B in fig. 1, and as shown in fig. 1, fig. 2, and fig. 3, the hollow glass door/window with good thermal insulation according to the present embodiment: including outer glass 2, inlayer glass 3 and window frame 1, outer glass 2 and inlayer glass 3 all are fixed in 1 inner wall of window frame through the adhesive is sealed, outer glass 2, constitute the middle part cavity jointly between inlayer glass 3 and the window frame 1, still include thermal-insulated coiled material 5, rolling subassembly and glass membrane 4, all be provided with glass membrane 4 on outer glass 2 and the 3 opposite side sides of inlayer glass, thermal-insulated coiled material 5 rolls up on the rolling subassembly, 1 roof of window frame has been seted up and has been held the chamber, the rolling subassembly sets up and holds in the chamber on, on hold chamber and middle part cavity intercommunication, when rolling subassembly releases thermal-insulated coiled material 5 completely, thermal-insulated coiled material 5 separates the middle part cavity for outer cavity and inner cavity.

In the above-mentioned embodiment, still including the release subassembly that is used for driving thermal-insulated coiled material 5 to release from the rolling subassembly, the cavity is held under having seted up to 1 diapire of window frame, and the release subassembly can get into and hold the cavity down, holds cavity and middle part cavity intercommunication down, and a transmission end of release subassembly stretches into behind the middle part cavity and is connected with thermal-insulated coiled material 5.

In the above embodiment, the rolling subassembly includes rolling sleeve 6 and drive arrangement, and drive arrangement sets up and holds the chamber lateral wall on, and drive arrangement's power take off end is connected with rolling sleeve 6's one end, and rolling sleeve 6's the other end with hold the chamber lateral wall on and rotate and be connected, the upper end of thermal-insulated coiled material 5 is connected with rolling sleeve 6's lateral wall.

In the above-mentioned embodiment, the release subassembly includes haulage rope 10 and bearing bar 9, and the lower extreme of thermal-insulated coiled material 5 is connected with the lateral wall of bearing bar 9, and the spout 12 with the both ends looks adaptation of bearing bar 9 is seted up to the both sides lateral wall of window frame 1, and haulage rope 10 is connected with bearing bar 9 after stretching into down the chamber of holding by the indoor side, and when needs release thermal-insulated coiled material 5, pulling haulage rope 10 can make the thermal-insulated coiled material 5 lower extreme keep away from rolling sleeve 6 gradually until bearing bar 9 laminating window frame 1 diapire.

It should be noted that, the top wall and the bottom wall of the window frame 1 are both provided with a channel for the bearing rod 9 to be embedded in.

In the above embodiment, the lower indoor side wall of the window frame 1 is provided with the binding post 11.

In the above embodiment, the driving device includes the middle shaft 8 and the spiral spring 7, two ends of the middle shaft 8 are respectively connected with the side wall of the upper accommodating cavity, the winding sleeve 6 is arranged on the periphery of the middle shaft 8, and the middle shaft and the spiral spring 7 are connected.

The natural state of the drive device is a state in which the spring 7 is not subjected to an external force.

Theory of operation, hollow glass's heat preservation ability can be imposed to glass membrane 4, and glass membrane 4 laminates in outer glass 2 and the opposite side of inlayer glass 3, can prevent that glass membrane 4 from by the fish tail, when outdoor high temperature, pulling haulage rope 10 can make thermal-insulated coiled material 5 break away from rolling sleeve 6, until the channel of bearing bar 9 embedding window frame 1 diapire, at this moment with haulage rope 10 twine in tie up on post 11 can, when need not use thermal-insulated coiled material 5, untie haulage rope 10, clockwork spring 7 kick-backs, until in the channel of bearing bar 9 embedding window frame 1 roof.

While the utility model has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the utility model.

Claims (6)

1. The utility model provides a cavity glass door and window with good heat insulating ability, includes outer glass (2), inlayer glass (3) and window frame (1), outer glass (2) with inlayer glass (3) all are fixed in through the adhesive is sealed window frame (1) inner wall, constitute middle part cavity, its characterized in that between outer glass (2), inlayer glass (3) and window frame (1) jointly: still include thermal-insulated coiled material (5), rolling subassembly and glass membrane (4), outer glass (2) with all be provided with on inlayer glass (3) opposite side glass membrane (4), thermal-insulated coiled material (5) rolling in on the rolling subassembly, window frame (1) roof has been seted up and has been held the chamber, the rolling subassembly set up in on hold in the chamber, on hold the chamber with middle part cavity intercommunication works as the rolling subassembly releases completely during thermal-insulated coiled material (5), thermal-insulated coiled material (5) will middle part cavity partition is outer cavity and inner cavity.

2. The insulated glazing unit of claim 1, wherein: still including being used for the drive thermal-insulated coiled material (5) are followed the release subassembly of release on the rolling subassembly, window frame (1) diapire has been seted up down and has been held the chamber, the release subassembly can get into hold the chamber down, hold down the chamber with middle part cavity intercommunication, a transmission end of release subassembly stretches into behind the middle part cavity with thermal-insulated coiled material (5) are connected.

3. The insulated glazing unit of claim 2, wherein: the rolling subassembly includes rolling sleeve (6) and drive arrangement, drive arrangement set up in on hold the chamber lateral wall, drive arrangement's power take off end with the one end of rolling sleeve (6) is connected, the other end of rolling sleeve (6) with on hold the chamber lateral wall and rotate the connection, the upper end of thermal-insulated coiled material (5) with the lateral wall of rolling sleeve (6) is connected.

4. The insulated glazing unit of claim 3, wherein: release subassembly includes haulage rope (10) and bearing bar (9), the lower extreme of thermal-insulated coiled material (5) with the lateral wall of bearing bar (9) is connected, the both sides lateral wall of window frame (1) seted up with spout (12) of the both ends looks adaptation of bearing bar (9), haulage rope (10) are stretched into by indoor side hold down behind the chamber with bearing bar (9) are connected, when needs release during thermal-insulated coiled material (5), the pulling haulage rope (10) can make thermal-insulated coiled material (5) lower extreme is kept away from gradually winding sleeve (6) are up to bearing bar (9) laminating window frame (1) diapire.

5. The insulated glazing unit of claim 4, wherein: and a binding column (11) is arranged on the indoor side wall of the lower part of the window frame (1).

6. The insulated glazing unit according to any of claims 3 to 5, wherein: the driving device comprises a middle shaft (8) and a clockwork spring (7), two ends of the middle shaft (8) are respectively connected with the side wall of the upper accommodating cavity, the winding sleeve (6) is positioned on the periphery of the middle shaft (8), and the middle shaft and the clockwork spring are connected through the clockwork spring (7).

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