CN215632514U - Energy-saving hidden-frame and semi-hidden-frame window device - Google Patents

Abstract

The utility model discloses an energy-saving hidden frame and semi-hidden frame window device, which relates to the field of building aluminum alloy glass outer window systems. The window frame does not need to be replaced, the installation of the window glass can be realized by using the opening sash transfer frame, the installation of the fixed window glass can be realized by canceling the opening sash transfer frame, and the applications of the hidden frame energy-saving protective edge and the exposed frame energy-saving protective edge are realized.

Description

Energy-saving hidden-frame and semi-hidden-frame window device

The technical field is as follows:

the utility model relates to an energy-saving hidden-frame and semi-hidden-frame window device, and belongs to the technical field of building aluminum alloy glass outer window systems.

Background art:

the conventional aluminum alloy window, especially the opening window part, has a larger window frame and a poorer outward-looking effect. According to the traditional curtain wall system, glass is fixed by screws through segmented pressing blocks or continuous pressing plates, the hidden frame and semi-hidden frame effects can be achieved, but workers are required to install more accessories on the site, and manufacturing cost, construction period, safety and the like are greatly influenced. Although the existing hidden frame window system can achieve the aim, the conversion of a hidden frame, a semi-hidden frame and a full-visible frame is difficult to achieve.

The utility model has the following contents:

in view of the above problems, the technical problem to be solved by the present invention is to provide an energy-saving hidden-frame and semi-hidden-frame window device.

The utility model relates to an energy-saving hidden frame and semi-hidden frame window device which comprises an aluminum alloy frame, a middle vertical frame, a middle transverse frame, a fixed window, a first hollow energy-saving glass, a first glass profile structural adhesive, a fixed sash frame, a stainless steel screw and a hidden frame energy-saving protective edge, wherein the middle vertical frame and the middle transverse frame are distributed in the aluminum alloy frame in a cross way and divide the aluminum alloy frame into four cavities, the fixed window is arranged in each cavity, the first hollow energy-saving glass is installed on the fixed window and structurally bonded with the fixed sash frame through the first glass profile structural adhesive, the fixed sash frame is connected with the aluminum alloy frame, the middle vertical frame and the middle transverse frame through the stainless steel screw, and the hidden frame energy-saving protective edge is arranged at the front end of the fixed sash frame.

Preferably, the aluminum alloy frame consists of a first vertical frame, a second vertical frame, an upper transverse frame and a lower transverse frame, the sections of the first vertical frame, the second vertical frame, the upper transverse frame and the lower transverse frame are the same, and a door and window corner combining machine is adopted to carry out 45-degree corner combining.

Preferably, the aluminum alloy frame adopts a non-adiabatic design, the outer side of the aluminum alloy frame is used for placing the first hollow energy-saving glass, and the aluminum alloy frame is not in direct contact with the outside, so that the energy-saving and heat-insulating effects are achieved.

Preferably, the cross sections of the middle vertical frame and the middle transverse frame are the same, material purchasing and processing are facilitated, the middle vertical frame and the middle transverse frame can be the same as those of a conventional window frame according to the load condition, structure strengthening is carried out, the middle vertical frame and the middle transverse frame adopt the glue injection heat insulation design, and the energy-saving heat insulation effect is met.

Preferably, the middle vertical frame and the middle transverse frame are provided with adhesive tape notches.

Preferably, the hollow energy-saving glass is composed of outer-layer toughened glass, a hollow glass self-structure adhesive and inner-layer toughened glass, and the vertical projection positions of the hollow glass self-structure adhesive and the glass section structure adhesive coincide, so that the stress of the glass is more reasonable.

Preferably, the hidden frame energy-saving protective edge adopts a glue injection heat insulation design, so that the energy-saving and heat-preserving effect is met, and the hidden frame energy-saving protective edge can be partially or completely replaced by an exposed frame energy-saving protective edge for realizing the effects of a hidden frame, a semi-hidden frame and an exposed frame.

The utility model has the beneficial effects that: the window glass protection device has the advantages of reasonable structural design, simplicity in installation and convenience in use, a window frame does not need to be replaced, installation of the window glass can be realized by opening the window glass switching frame, the window glass can be fixed by canceling the opening of the window glass switching frame, and the window glass can be protected by the hidden frame energy-saving protection edge and the exposed frame energy-saving protection edge.

Description of the drawings:

for ease of illustration, the utility model is described in detail by the following detailed description and the accompanying drawings.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a sectional view taken along line A-A of FIG. 1;

fig. 3 is a schematic structural diagram of a second embodiment.

1-an aluminum alloy frame; 101-vertical frame one; 102-vertical frame two; 103-an upper horizontal frame; 104-lower horizontal border; 2-middle vertical frame; 3-middle horizontal frame; 4-fixing the window; 5-hollow energy-saving glass I; 501-outer layer toughened glass; 502-hollow glass self-structure glue; 503-inner layer toughened glass; 6-glass section structural adhesive I; 7-fixing the fan frame; 8-stainless steel screws; 9-hidden frame energy-saving edge protection; 10-exposed frame energy-saving edge protection; 11-opening the window; 12-opening the fan transfer frame; 13-a close joint adhesive tape; 14-hollow energy-saving glass II; 15-glass section structural adhesive II; 16-opening the fan frame.

The specific implementation mode is as follows:

the first embodiment is as follows: as shown in fig. 1 and fig. 2, the following technical solutions are adopted in the present embodiment: the hollow energy-saving glass window comprises an aluminum alloy frame 1, a middle vertical frame 2, a middle transverse frame 3, a fixed window 4, a hollow energy-saving glass 5, a glass profile structural adhesive 6, a fixed sash frame 7, stainless steel screws 8 and hidden frame energy-saving protective edges 9, wherein the middle vertical frame 2 and the middle transverse frame 3 are distributed in the aluminum alloy frame 1 in a cross mode and divide the aluminum alloy frame 1 into four cavities, the fixed window 4 is arranged in each cavity, the hollow energy-saving glass 5 is installed on the fixed window 4, the hollow energy-saving glass 5 is structurally bonded with the fixed sash frame 7 through the glass profile structural adhesive 6, the fixed sash frame 7 is connected with the aluminum alloy frame 1, the middle vertical frame 2 and the middle transverse frame 3 through the stainless steel screws 8, and the hidden frame energy-saving protective edges 9 are arranged at the front end of the fixed sash frame 7.

The aluminum alloy frame 1 is composed of a first vertical frame 101, a second vertical frame 102, an upper horizontal frame 103 and a lower horizontal frame 104, the sections of the first vertical frame 101, the second vertical frame 102, the upper horizontal frame 103 and the lower horizontal frame 104 are the same, and a door and window corner combining machine is adopted for 45-degree corner combining; the aluminum alloy frame 1 adopts a non-adiabatic design, the outer side of the aluminum alloy frame is used for placing the hollow energy-saving glass I5, and the aluminum alloy frame 1 is not in direct contact with the outside, so that the energy-saving and heat-preserving effects are achieved; the cross sections of the middle vertical frame 2 and the middle transverse frame 3 are the same, so that the material purchasing and processing are convenient, the middle vertical frame 2 and the middle transverse frame 3 can be the same as a conventional window frame according to the load condition to carry out structure reinforcement, and the middle vertical frame 2 and the middle transverse frame 3 adopt the glue injection heat insulation design to meet the energy-saving heat insulation effect; the middle vertical frame 2 and the middle transverse frame 3 are provided with adhesive tape notches; the hollow energy-saving glass I5 consists of outer-layer toughened glass 501, hollow glass self-structure glue 502 and inner-layer toughened glass 503, and the vertical projection positions of the hollow glass self-structure glue 502 and the glass profile structure glue I6 are superposed, so that the glass is stressed more reasonably; the hidden frame energy-saving protective edge 9 adopts an injection heat insulation design, so that the energy-saving and heat-preserving effect is met, the hidden frame energy-saving protective edge 9 can be partially or completely replaced by an exposed frame energy-saving protective edge 10, and the effects of hidden frames, semi-hidden frames and exposed frames are achieved.

The second embodiment is as follows: as shown in fig. 3, the present embodiment differs from the first embodiment in that: fixed window 4 replace for opening window 11, the outside of aluminum alloy frame 1 is provided with opens a switching frame 12, it is provided with the joint strip 13 to open on the switching frame 12, when opening window 11 and closing, increase the waterproof, sealed effect of window, open and install two 14 of energy-conserving glass of cavity on the window 11, and two 14 of energy-conserving glass of cavity carry out the structure through two 15 of glass section structure glue and open a frame 16 and bond, open a frame 16 and pass through hardware and aluminum alloy frame 1, well mullion 2 and middle horizontal frame 3 are connected, other component parts are the same with embodiment one with the relation of connection.

The window glass protection device has the advantages that the window glass protection device is reasonable in structural design, simple to install and convenient to use, a window frame does not need to be replaced, installation of the window glass can be achieved by opening the sash switching frame, installation of the fixed window glass can be achieved by canceling the opening of the sash switching frame, the hidden frame energy-saving protection edge and the exposed frame energy-saving protection edge are applied, on one hand, the window glass protection device is used for protecting the side face of glass and preventing the glass from being broken by colliding with the glass, on the other hand, due to the adoption of an energy-saving heat-insulation structure, the phenomenon that a cold bridge is formed by the common protection edge and indoor condensation in winter is caused is avoided, and the window glass protection device has the characteristics of energy conservation, convenience in installation and attractive effect.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides an energy-conserving hidden frame half hidden frame window device which characterized in that: it comprises an aluminum alloy frame (1), a middle vertical frame (2), a middle transverse frame (3), a fixed window (4), a hollow energy-saving glass (5), a glass section structural adhesive (6), a fixed sash frame (7), stainless steel screws (8) and hidden frame energy-saving protective edges (9), wherein the middle vertical frame (2) and the middle transverse frame (3) are distributed in the aluminum alloy frame (1) in a cross way, the aluminum alloy frame (1) is divided into four cavities, a fixed window (4) is arranged in each cavity, a hollow energy-saving glass I (5) is arranged on each fixed window (4), and the hollow energy-saving glass I (5) is structurally bonded with the fixed sash frame (7) through the glass section structural adhesive I (6), the fixed sash frame (7) is connected with the aluminum alloy frame (1), the middle vertical frame (2) and the middle transverse frame (3) through stainless steel screws (8), and the front end of the fixed sash frame (7) is provided with a hidden frame energy-saving protective edge (9).

2. The energy-saving hidden-frame semi-hidden-frame window device as claimed in claim 1, wherein: the aluminum alloy frame (1) is composed of a first vertical frame (101), a second vertical frame (102), an upper transverse frame (103) and a lower transverse frame (104), the sections of the first vertical frame (101), the second vertical frame (102), the upper transverse frame (103) and the lower transverse frame (104) are identical, and a door and window corner combining machine is adopted for 45-degree corner combining.

3. The energy-saving hidden-frame semi-hidden-frame window device as claimed in claim 1, wherein: the aluminum alloy frame (1) adopts a non-adiabatic design.

4. The energy-saving hidden-frame semi-hidden-frame window device as claimed in claim 1, wherein: the sections of the middle vertical frame (2) and the middle transverse frame (3) are the same.

5. The energy-saving hidden-frame semi-hidden-frame window device as claimed in claim 1, wherein: the middle vertical frame (2) and the middle transverse frame (3) are provided with adhesive tape notches.

6. The energy-saving hidden-frame semi-hidden-frame window device as claimed in claim 1, wherein: the hollow energy-saving glass I (5) is composed of outer-layer toughened glass (501), hollow glass self-structure glue (502) and inner-layer toughened glass (503), and the vertical projection positions of the hollow glass self-structure glue (502) and the glass section structure glue I (6) are overlapped.

7. The energy-saving hidden-frame semi-hidden-frame window device as claimed in claim 1, wherein: the hidden frame energy-saving protective edge (9) adopts a glue injection heat insulation design.

8. The energy-saving hidden-frame semi-hidden-frame window device as claimed in claim 1, wherein: fixed window (4) replace for opening window (11), the outside of aluminum alloy frame (1) is provided with opens fan and changes frame (12), open and be provided with on fan and change frame (12) close seam adhesive tape (13), open and install two (14) of cavity energy-conserving glass on window (11), and two (14) of cavity energy-conserving glass carry out the structure through two (15) of glass section structure glue and opening fan frame (16) and bond, open fan frame (16) and be connected through hardware and aluminum alloy frame (1), well mullion (2) and middle horizontal frame (3).

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