CN220081200U - U-shaped glass peripheral heat-insulating section bar assembly of energy-saving window - Google Patents

Abstract

The utility model discloses an energy-saving window U-shaped glass peripheral heat-insulating section bar assembly, which comprises an aluminum outer frame, an aluminum inner frame, heat insulation strips and pressing lines, wherein the aluminum outer frame and the aluminum inner frame are connected through the heat insulation strips, and the pressing lines are arranged on the aluminum inner frame; further comprises: the heat-insulating section bar assembly body is arranged on the inner side of the pressing line, and the glass body is arranged on the inner side of the heat-insulating section bar assembly body; countersunk head screw, it is connected in the inside of heat preservation section bar subassembly body, be the block connection between heat preservation section bar subassembly body and the glass body. This energy-conserving window U type glass border heat preservation section bar subassembly, the outside of heat preservation section bar subassembly body is provided with aluminium frame and aluminium inside casing, and is connected with the heat insulating strip between aluminium frame and the aluminium inside casing, can reach the effect that reduces heat transfer like this, and subassembly left banding and subassembly right banding design are multi-chamber structure moreover, can be further reduce the heat transfer in the cavity, and then can improve the heat preservation effect.

Description

U-shaped glass peripheral heat-insulating section bar assembly of energy-saving window

Technical Field

The utility model relates to the technical field of glass heat-insulating profiles, in particular to a U-shaped glass peripheral heat-insulating profile component of an energy-saving window.

Background

The broken bridge aluminum door and window has the characteristics of high strength, low density and fashionable modeling, is widely applied in the building industry, and is common in production and life.

The broken bridge aluminum door and window comprises an aluminum alloy door and window frame, wherein the aluminum alloy door and window frame is provided with a cavity, a heat insulation section bar, toughened glass, a first motor, a second motor, a rotating wheel and a solar panel, the toughened glass is provided with a sterilizing lamp and a cleaning brush, a traction rope is arranged on the cleaning brush, a control circuit board is arranged in the cavity at the bottom of the aluminum alloy door and window frame, a control button is arranged on the aluminum alloy door and window frame, a waterproof ring is arranged on the aluminum alloy door and window frame, and a sealing plug is arranged on the aluminum alloy door and window frame, so that the broken bridge aluminum door and window not only can clean inner side glass, but also has a sterilizing function, provides power through the solar panel, saves energy, has reasonable design and simple structure, and is suitable for popularization;

however, the bridge-cut-off aluminum door and window in the above application still has some disadvantages in the use, for example aluminum alloy window does not fill fine heat preservation material at glass border, leads to there is the heat bridge in glass border cavity department, has reduced the holistic heat preservation effect of door and window, so we propose an energy-conserving window U type glass border heat preservation section bar subassembly to in the solution problem that above-mentioned put forward.

Disclosure of Invention

The utility model aims to provide an energy-saving U-shaped glass periphery heat-insulating section assembly for a window, which solves the problem that the heat bridge exists at a cavity of the glass periphery due to the fact that the glass periphery is not filled with good heat-insulating materials by an aluminum alloy window in the market, and the integral heat-insulating effect of the window is reduced.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the U-shaped glass peripheral heat-insulating section bar assembly of the energy-saving window comprises an aluminum outer frame, an aluminum inner frame, heat-insulating strips and pressing lines, wherein the aluminum outer frame and the aluminum inner frame are connected through the heat-insulating strips, and the pressing lines are arranged on the aluminum inner frame;

further comprises:

the heat-insulating section bar assembly body is arranged on the inner side of the pressing line, and the glass body is arranged on the inner side of the heat-insulating section bar assembly body;

and the countersunk head screw is connected to the inside of the heat-insulating section bar assembly body.

Preferably, the heat preservation section bar subassembly body includes subassembly left banding, subassembly right banding, thickness adjustment groove spare and thickness adjustment plug-in components, and thickness adjustment groove spare sets up in the inboard of subassembly left banding and subassembly right banding to the inboard of thickness adjustment groove spare is connected with thickness adjustment plug-in components, is convenient for adjust the distance between subassembly left banding and the subassembly right banding like this, thereby can be applicable to the glass body of different thickness.

Preferably, the inboard of subassembly left side banding and subassembly right side banding all is provided with the banding and connects the silk way, be provided with thickness adjustment plug-in components on the thickness adjustment plug-in components and easily roll over the structure, can make heat preservation section bar subassembly body stability when using better like this, guarantee the fastness.

Preferably, the heat preservation section bar subassembly body is nylon material, and heat transfer coefficient is low, subassembly left side banding and subassembly right side banding are multi-chamber structure, can further reduce the heat transfer in the cavity, can improve the heat preservation effect when using like this.

Preferably, the inner wall of banding connection silk way has been seted up the screwed connection and has been perforated in advance, and the screwed connection has countersunk screw in advance's internal connection, is convenient for connect fixedly to the subassembly left banding after the cutting and subassembly right banding, further guarantees the fastness when using.

Preferably, the heat preservation section bar subassembly body is connected for the block between the glass body, can carry out spacing fixed to the glass body, ensures the stability in the use of whole operation, has also guaranteed the heat preservation effect.

Compared with the prior art, the utility model has the beneficial effects that:

(1) The U-shaped glass peripheral heat-insulating section bar assembly for the energy-saving window comprises a heat-insulating section bar assembly body, wherein the heat-insulating section bar assembly body wraps the periphery of a glass body, the heat-insulating section bar assembly body comprises an assembly left sealing edge, an assembly right sealing edge, a thickness adjusting groove piece and a thickness adjusting plug-in, and after the assembly left sealing edge, the assembly right sealing edge, the thickness adjusting groove piece and the thickness adjusting plug-in are aligned, the heat-insulating section bar assembly body and the glass body can be fixedly connected through countersunk screws, so that the heat-insulating section bar assembly body and the glass body are connected more tightly, and the heat-insulating effect is achieved under the effect of protecting the Wen Xingcai assembly body;

(2) This energy-conserving window U type glass border heat preservation section bar subassembly, the outside of heat preservation section bar subassembly body is provided with aluminium frame and aluminium inside casing, and is connected with the heat insulating strip between aluminium frame and the aluminium inside casing, can reach the effect that reduces heat transfer like this, and subassembly left banding and subassembly right banding design are multi-chamber structure moreover, can be further reduce the heat transfer in the cavity, and then can improve the heat preservation effect.

Drawings

FIG. 1 is a schematic view of the overall construction of the installation of the present utility model;

FIG. 2 is a schematic view of the body of the heat-insulating section assembly of the present utility model;

FIG. 3 is a schematic view of the left edge seal of the assembly of the present utility model;

FIG. 4 is a schematic view of a thickness-adjusting insert according to the present utility model;

fig. 5 is a schematic view of the edge sealing connection fixing structure of the present utility model.

In the figure: 1. an aluminum outer frame; 2. an aluminum inner frame; 3. a heat insulating strip; 4. pressing line; 5. a heat preservation profile assembly body; 6. a glass body; 7. countersunk head screws; 5-1, left edge sealing of the assembly; 5-2, sealing edges on the right of the assembly; 5-3, a thickness adjusting groove member; 5-4, a thickness adjusting plug-in; 5-5, edge sealing and wire channel connection; 5-6, a thickness adjusting plug-in is of an easy-to-fold structure; 5-7, connecting the pre-holes by screws; 5-8, countersunk head screws.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides a technical solution: the U-shaped glass peripheral heat-insulating profile assembly of the energy-saving window comprises an aluminum outer frame 1, an aluminum inner frame 2, heat-insulating strips 3 and pressing lines 4, wherein the aluminum outer frame 1 and the aluminum inner frame 2 are connected through the heat-insulating strips 3, and the pressing lines 4 are arranged on the aluminum inner frame 2;

further comprises:

the heat-insulating section bar assembly body 5 is arranged on the inner side of the pressing line 4, and a glass body 6 is arranged on the inner side of the heat-insulating section bar assembly body 5;

when the U-shaped glass peripheral heat-insulating profile assembly of the energy-saving window is used, firstly, the aluminum outer frame 1 and the aluminum inner frame 2 are installed at corresponding positions, then, the heat insulation strip 3 is connected between the aluminum outer frame 1 and the aluminum inner frame 2, the effect of reducing heat transfer can be achieved under the effect of the heat insulation strip 3, and then, the heat-insulating profile assembly body 5 is installed on the inner sides of the aluminum outer frame 1 and the aluminum inner frame 2, and because the heat-insulating profile assembly body 5 comprises an assembly left sealing edge 5-1, an assembly right sealing edge 5-2, a thickness adjusting groove piece 5-3 and a thickness adjusting plug-in 5-4, and the assembly left sealing edge 5-1 and the assembly right sealing edge 5-2 are of multi-cavity structures, the heat transfer in a cavity can be reduced;

a countersunk head screw 7 connected to the inside of the heat-insulating section bar assembly body 5;

the heat preservation section bar subassembly body 5 includes subassembly left banding 5-1, subassembly right banding 5-2, thickness adjustment groove spare 5-3 and thickness adjustment plug-in components 5-4, and thickness adjustment groove spare 5-3 sets up in the inboard of subassembly left banding 5-1 and subassembly right banding 5-2, and thickness adjustment plug-in components 5-4 are connected with to the inboard of thickness adjustment groove spare 5-3, the inboard of subassembly left banding 5-1 and subassembly right banding 5-2 all is provided with banding connection silk way 5-5, be provided with thickness adjustment plug-in components easy-to-fold structure 5-6 on the thickness adjustment plug-in components 5-4, screwed connection pre-hole 5-7 has been seted up to the inner wall of banding connection silk way 5-5, and screwed connection pre-hole 5-7's internal connection has countersunk screw 5-8;

the heat-insulating section bar assembly body 5 is made of nylon, the heat transfer coefficient is low, the left sealing edge 5-1 of the assembly and the right sealing edge 5-2 of the assembly are of multi-cavity structures, heat transfer in a cavity can be further reduced, and the heat-insulating section bar assembly body 5 and the glass body 6 are connected in a clamping mode;

then put glass body 6 in Wen Xingcai subassembly body 5's inboard, wrap up glass body 6 through heat preservation section bar subassembly body 5, be provided with banding connection silk way 5-5 in subassembly left banding 5-1's inside, thickness adjustment plug-in components 5-4 are last to be provided with thickness adjustment plug-in components and easily roll over structure 5-6, be convenient for adjust the interval between subassembly left banding 5-1 and the subassembly right banding 5-2 like this, adjust according to glass body 6 of different thickness, when subassembly left banding 5-1, subassembly right banding 5-2, thickness adjustment trough member 5-3 and thickness adjustment plug-in components 5-4 are mutually aligned, can lock fixedly through countersunk screw 7, after subassembly left banding 5-1 and subassembly right banding 5-2 are connected and are accomplished, carry out 45 unloading cutting according to the length and width size of glass body 6, simultaneously, subassembly left side 5-1 and subassembly right banding 5-2 are designed with banding connection silk way 5-5, install at glass body 6 week circle after 45 DEG cutting, then use countersunk screw 5-8 to fix, the work of whole device is the following, the technical details of the technical field that the work of the whole device has not been described in the prior art.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (6)

1. The U-shaped glass peripheral heat-insulating profile assembly of the energy-saving window comprises an aluminum outer frame (1), an aluminum inner frame (2), heat insulation strips (3) and pressing lines (4), wherein the aluminum outer frame (1) and the aluminum inner frame (2) are connected through the heat insulation strips (3), and the pressing lines (4) are arranged on the aluminum inner frame (2);

characterized by further comprising:

the heat-insulating section assembly body (5) is arranged on the inner side of the pressing line (4), and a glass body (6) is arranged on the inner side of the heat-insulating section assembly body (5);

and the countersunk head screw (7) is connected to the inside of the heat-insulating section bar assembly body (5).

2. The energy-saving window U-shaped glass peripheral heat-insulating profile assembly of claim 1, wherein: the heat preservation section bar subassembly body (5) is including subassembly left banding (5-1), subassembly right banding (5-2), thickness adjustment cell spare (5-3) and thickness adjustment plug-in components (5-4), and thickness adjustment cell spare (5-3) set up in the inboard of subassembly left banding (5-1) and subassembly right banding (5-2), and the inboard of thickness adjustment cell spare (5-3) is connected with thickness adjustment plug-in components (5-4).

3. The energy-saving window U-shaped glass peripheral heat-insulating profile assembly according to claim 2, wherein: the inner sides of the left sealing edge (5-1) and the right sealing edge (5-2) of the assembly are respectively provided with a sealing edge connecting wire channel (5-5), and the thickness adjusting plug-in (5-4) is provided with a thickness adjusting plug-in easily-folded structure (5-6).

4. The energy-saving window U-shaped glass peripheral heat-insulating profile assembly according to claim 2, wherein: the heat preservation section bar subassembly body (5) are nylon material, and heat transfer coefficient is low, subassembly left banding (5-1) and subassembly right banding (5-2) are multi-chamber structure, can further reduce the heat transfer in the cavity.

5. A U-shaped glass perimeter insulating profile assembly for an energy efficient window according to claim 3, wherein: the inner wall of the edge sealing connecting wire channel (5-5) is provided with a screw connecting pre-hole (5-7), and the inside of the screw connecting pre-hole (5-7) is connected with a countersunk screw (5-8).

6. The energy-saving window U-shaped glass peripheral heat-insulating profile assembly of claim 1, wherein: the heat preservation section bar subassembly body (5) is the block connection between with glass body (6).