CN217326992U

CN217326992U - Energy-saving hidden frame window structure

Info

Publication number: CN217326992U
Application number: CN202122843674.6U
Authority: CN
Inventors: 李翔; 贾志强; 石燕
Original assignee: Tianjin Haiglite Intelligent Technology Co ltd
Current assignee: Tianjin Haiglite Intelligent Technology Co ltd
Priority date: 2021-11-19
Filing date: 2021-11-19
Publication date: 2022-08-30
Anticipated expiration: 2031-11-19

Abstract

The utility model relates to an energy-saving hidden frame window structure, wherein glass is arranged between two opposite end surfaces of a window frame and a stile, one side end surface of the glass is bonded with an outer frame and an inner frame of the window frame, and the other side end surface of the glass is bonded with the outer frame and the inner frame of the stile; the glass is arranged between the two opposite end surfaces of the window sash, and the end surfaces of the two sides of the glass are respectively bonded with the outer sash frame and the inner sash frame which are on the same side as the window sash. The utility model discloses in, with extension limit cancellation on extension limit and the outer fan frame on the original frame, make to expose the aluminum alloy surface area in the outside less by a wide margin, heat conduction area has been reduced, make indoor and outdoor heat exchange route reduce, moreover joint strip, the cancellation of profile and sealing strip has still reduced the part of assembly, the efficiency of assembly has been improved, in addition through outer bonding glue film, the side strengthening rib, interior strengthening rib and interior bonding glue film improved the fixed strength to glass, guarantee hidden frame mode safe in utilization.

Description

Energy-saving hidden frame window structure

Technical Field

The utility model belongs to the technical field of the aluminum alloy window institutional advancement, especially, energy-conserving hidden frame window structure.

Background

The aluminum alloy window is a firm and durable home structure with beautiful appearance, and the structure of the aluminum alloy window is shown in figure 2: the window comprises a window frame 8 and a window sash 11, wherein a window stile 12 is arranged in the window frame, glass 7 is arranged between one side of the window stile and the window frame, and the window sash is arranged between the other side of the window stile and the window frame. The window frame includes frame 1, frame connecting piece 2 and inside casing 3, the stile is the same with the structure of window frame, the casement includes outer sash frame 9, fan connecting piece 10 and interior sash 13, the frame of window frame and the frame of stile are provided with integrative extension limit 18 towards glass's side, it presses at the glass surface and seals through joint strip to extend the limit, outer sash frame is provided with integrative extension limit equally and presses at the glass surface equally and through joint strip sealed, be provided with between inside casing and interior sash frame and the glass internal surface and detain 19, set up sealing strip 20 between detain and the glass surface, the window frame on glass next door, be provided with strengthening rib 21 in stile and the casement.

In an aluminum alloy window, glass is a poor heat conductor, and aluminum alloy is a good heat conductor for internal and external heat conduction, so how to reduce the exposed area of the aluminum alloy window in the external environment is an effective method for reducing heat loss, and some manufacturers reduce the surface area of an aluminum alloy part on a window frame, a window stile or a window sash, for example: in the structure shown in fig. 1, the manufacturer reduces the width of the extending edge on the basis of the structure in the figure, but the whole structure is damaged by the change, and the fixing strength of the glass is reduced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's is not enough, provide and utilize new modified fixed mode to reduce window frame, stile and casement and expose an energy-conserving hidden frame window structure in external environment area on the basis that does not reduce glass fixed strength.

The utility model adopts the technical proposal that:

the utility model provides an energy-conserving hidden frame window structure, includes window frame, stile and casement, the stile sets up in the window frame, sets up glass and casement, its characterized in that respectively between the window frame of stile both sides and counterpoint: the glass is arranged between the two opposite end surfaces of the window frame and the stile, one end surface of the glass is bonded with the outer frame and the inner frame of the window frame, and the other end surface of the glass is bonded with the outer frame and the inner frame of the stile;

the glass is arranged between the two opposite end surfaces of the window sash, and the end surfaces of the two sides of the glass are respectively bonded with the outer sash frame and the inner sash frame which are on the same side as the window sash.

And an outer bonding glue layer is arranged between the outer frame of the window frame and the surface, close to the outer side, of the glass end face of the same side, a protrusion is arranged on the end face, facing the glass, of the frame connecting piece of the window frame, a side reinforcing rib is arranged between the outer bonding glue layer and the glass end face, a convex frame extending towards the inner surface of the glass is arranged on the inner frame of the window frame, and an inner bonding glue layer is arranged between the convex frame and the inner surface of the glass.

And moreover, a top rib is arranged on the surface of the frame connecting piece, which is close to the inner frame, the top rib abuts against the surface of the inner side of the glass end surface at the same side of the glass, an inner reinforcing rib is arranged between the top rib, the outer frame and the convex frame, and the side of the inner reinforcing rib is provided with the inner bonding glue layer.

Furthermore, the outer bonding glue layer is arranged between the outer frame of the window stile and the surface, close to the outer side, of the glass end face of the same side, the frame connecting piece of the window stile is provided with a bulge towards the end face of the glass, the bulge is provided with a side reinforcing rib between the outer bonding glue layer and the glass end face, the inner frame of the window stile is provided with a convex frame extending towards the inner surface of the glass, and an inner bonding glue layer is arranged between the convex frame and the inner surface of the glass.

And an outer bonding glue layer is arranged between the outer sash frame of the sash and the surface of the glass end surface of the same side close to the outer side, a bulge is arranged on the sash connecting piece of the sash towards the end surface of the glass, a side reinforcing rib is arranged between the bulge and the outer bonding glue layer and the glass end surface, a convex frame extending towards the inner surface of the glass is arranged on the inner sash frame of the sash, and an inner bonding glue layer is arranged between the convex frame and the inner surface of the glass.

Furthermore, the surface of the fan connecting piece close to the inner fan frame is provided with a top rib, the top rib abuts against the surface of the glass end surface close to the inner side at the same side of the glass, an inner reinforcing rib is arranged between the top rib, the outer frame and the convex frame, and the side of the inner reinforcing rib is provided with the inner bonding glue layer.

The utility model has the advantages that:

the utility model discloses in, a set of glass both ends face bonds with frame and protruding frame respectively through outer bonding glue film and interior bonding glue film, be provided with side strengthening rib and interior strengthening rib in it, another group's glass both ends face bonds with outer fan frame and protruding frame respectively through outer bonding glue film and interior bonding glue film, be provided with side strengthening rib and interior strengthening rib in it, from this with the extension limit on the original frame and the extension limit cancellation on the outer fan frame, it is less by a wide margin to make to expose the aluminum alloy surface area in the outside, heat conduction area has been reduced, make indoor and outdoor heat exchange route reduce, and joint strip, the cancellation of profile and sealing strip has still reduced the part of assembly, the efficiency of assembly has been improved, in addition through outer bonding glue film, the side strengthening rib, interior strengthening rib and interior bonding glue film have improved the fixed strength to glass, guarantee the safe in utilization of hidden frame mode.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic diagram of a prior art structure.

Detailed Description

The present invention is further illustrated by the following examples, which are intended to be illustrative, not limiting and are not intended to limit the scope of the invention.

The utility model provides an energy-conserving hidden frame window structure, as shown in fig. 1-2, including window frame 8, stile 12 and casement 11, the stile sets up in the window frame, sets up glass 7 and casement between the window frame of stile both sides and counterpoint respectively, the utility model discloses an innovation lies in: the glass is arranged between the two opposite end surfaces of the window frame and the stile, one end surface of one group of glass is bonded with the outer frame and the inner frame of the window frame, and the other end surface of the group of glass is bonded with the outer frame and the inner frame of the stile; the other group of glass is arranged between the two opposite end surfaces of the window sash, and the end surfaces of the two sides of the glass are respectively bonded with the outer sash frame and the inner sash frame which are on the same side as the window sash.

In this embodiment, an outer adhesive layer 4 is disposed between the outer frame 1 of the window frame and the surface of the glass end surface on the same side close to the outer side, a protrusion 6 is disposed on the end surface of the frame connecting member 2 of the window frame facing the glass, a side reinforcing rib 5 is disposed between the protrusion and the outer adhesive layer and the glass end surface, a convex frame 17 extending towards the inner surface of the glass is disposed on the inner frame 3 of the window frame, and an inner adhesive layer 16 is disposed between the convex frame and the inner surface of the glass. The surface that the frame connecting piece is close to the inside casing sets up one and pushes up muscle 14, should push up the muscle and lean on inboard surface at the glass terminal surface of glass homonymy, sets up interior strengthening rib 15 between top muscle, frame and protruding frame, interior strengthening rib side sets up interior bonding glue film.

The frame 1 of stile and the glass terminal surface of homonymy lean on between the surface in the outside to set up outer adhesive layer 4, and the frame connecting piece 2 of stile is provided with a arch 6 towards glass's terminal surface, this arch with set up side strengthening rib 5 between outer adhesive layer and the glass terminal surface, the inside casing 3 of stile sets up a protruding frame 17 towards glass internal surface extension, sets up interior adhesive layer 16 between this protruding frame and the glass internal surface. The surface of the frame connecting piece close to the inner frame is provided with a top rib 14 which is pressed against the surface of the glass end surface close to the inner side of the glass at the same side, an inner reinforcing rib 15 is arranged among the top rib, the outer frame and the convex frame, and the side of the inner reinforcing rib is provided with the inner adhesive layer.

The outer adhesive layer 4 is arranged between the outer sash frame 9 of the sash and the surface of the glass end surface close to the outer side of the same side, the sash connecting piece 10 of the sash is provided with a bulge 6 towards the end surface of the glass, the bulge and the outer adhesive layer and the glass end surface are provided with side reinforcing ribs 5, the inner sash frame 13 of the sash is provided with a convex frame 17 extending towards the inner surface of the glass, and an inner adhesive layer 16 is arranged between the convex frame and the inner surface of the glass. The surface of the fan connecting piece close to the inner fan frame is provided with a top rib 14, the top rib is pressed against the surface of the glass end surface close to the inner side at the same side of the glass, an inner reinforcing rib 15 is arranged between the top rib, the outer frame and the convex frame, and the side of the inner reinforcing rib is provided with the inner bonding glue layer.

The utility model discloses in, a set of glass both ends face bonds with frame and protruding frame respectively through outer bonding glue film and interior bonding glue film, be provided with side strengthening rib and interior strengthening rib in it, another group glass both ends face bonds with outer frame and protruding frame respectively through outer bonding glue film and interior bonding glue film, be provided with side strengthening rib and interior strengthening rib in it, from this with the extension limit on the original frame and the extension limit cancellation on the outer frame, make and expose outside aluminum alloy surface area less by a wide margin, heat conduction area has been reduced, make indoor and outdoor heat exchange route reduce, and joint strip, the cancellation of profile and sealing strip has still reduced the part of assembly, the efficiency of assembly has been improved, in addition through outer bonding glue film, the side strengthening rib, interior strengthening rib and interior bonding glue film have improved the fixed strength to glass, guarantee the safe in utilization of hidden frame mode.

Claims

1. The utility model provides an energy-conserving hidden frame window structure, includes window frame, stile and casement, the stile sets up in the window frame, sets up glass and casement, its characterized in that respectively between the window frame of stile both sides and counterpoint: the glass is arranged between the two opposite end surfaces of the window frame and the stile, one end surface of the glass is bonded with the outer frame and the inner frame of the window frame, and the other end surface of the glass is bonded with the outer frame and the inner frame of the stile;

2. The energy saving hidden sash structure of claim 1, wherein: an outer bonding glue layer is arranged between the outer frame of the window frame and the surface, close to the outer side, of the glass end face of the same side, a protrusion is arranged on the frame connecting piece of the window frame and faces towards the end face of the glass, a side reinforcing rib is arranged between the outer bonding glue layer and the glass end face, a convex frame extending towards the inner surface of the glass is arranged on the inner frame of the window frame, and an inner bonding glue layer is arranged between the convex frame and the inner surface of the glass.

3. The energy saving hidden sash structure of claim 2, wherein: the surface that the frame connecting piece is close to the inside casing sets up a top muscle, and this top muscle top is by inboard surface at the glass terminal surface of glass homonymy, sets up interior strengthening rib between top muscle, frame and protruding frame, and interior strengthening rib side sets up interior bonding glue film.

4. The energy saving hidden sash structure of claim 2 or 3, wherein: the frame of stile and the glass terminal surface of homonymy lean on setting up outer bonding glue film between the surface in the outside, and the frame connecting piece of stile is provided with a arch towards glass's terminal surface, should protruding with set up the side strengthening rib between outer bonding glue film and the glass terminal surface, the inside casing of stile sets up a protruding frame that extends towards the glass internal surface, sets up interior bonding glue film between this protruding frame and the glass internal surface.

5. The energy saving hidden sash structure of claim 4, wherein: the surface that the frame connecting piece is close to the inside casing sets up a top muscle, and this top muscle top is by inboard surface at the glass terminal surface of glass homonymy, sets up interior strengthening rib between top muscle, frame and protruding frame, and interior strengthening rib side sets up interior bonding glue film.

6. The energy saving concealed sash structure according to claim 2, 3 or 5, wherein: the outer frame of the window sash and the surface of the glass end surface of the same side close to the outer side are provided with an outer bonding glue layer, the sash connecting piece of the window sash is provided with a bulge towards the end surface of the glass, the bulge and the outer bonding glue layer and the glass end surface are provided with side reinforcing ribs, the inner frame of the window sash is provided with a convex frame extending towards the inner surface of the glass, and an inner bonding glue layer is arranged between the convex frame and the inner surface of the glass.

7. The energy saving hidden sash structure of claim 6, wherein: the surface of the fan connecting piece close to the inner fan frame is provided with a top rib, the top rib is pressed against the surface of the glass end surface close to the inner side of the glass at the same side, an inner reinforcing rib is arranged between the top rib, the outer frame and the convex frame, and the side of the inner reinforcing rib is provided with the inner bonding glue layer.