CN215859710U

CN215859710U - 650 type glass fiber reinforced polyurethane high energy-saving system window

Info

Publication number: CN215859710U
Application number: CN202122056007.3U
Authority: CN
Inventors: 颜承法; 黄井然; 张凯; 黄启宾
Original assignee: Taichu Guocai Wuxi Technology Co ltd; Shandong Mingzhu Material Technology Co ltd
Current assignee: Taichu Guocai Wuxi Technology Co ltd; Shandong Mingzhu Material Technology Co ltd
Priority date: 2021-08-30
Filing date: 2021-08-30
Publication date: 2022-02-18
Anticipated expiration: 2031-08-30

Abstract

The utility model relates to a 650-type glass fiber reinforced polyurethane high-energy-saving system window, and belongs to the technical field of door and window manufacturing. The polyurethane system window includes casement and window frame, and the casement includes sash frame and 3 layers of glass, the window frame is formed by the concatenation of window frame section bar, and the lateral surface of window frame section bar is the mounting groove of C type, and the right side end of the medial surface of window frame section bar inwards stretches out there is the casement baffle, and the sash frame is formed by the concatenation of sash frame section bar, and the right side end of the medial surface of sash frame section bar is provided with the glass blend stop, and the left side end of the medial surface of sash frame section bar has the aluminum alloy layering in the block, and the edge of 3 layers of glass is fixed between the aluminum alloy layering of sash frame and glass blend stop, and the left side end of the lateral surface of sash frame section bar outwards stretches out there is the window frame baffle, and the right flank of sash frame and the outer sealing strip butt on the casement baffle, and the inner sealing strip butt on the left surface of window frame baffle. The polyurethane system window designed by the utility model is convenient to assemble and good in sealing and heat-insulating performance.

Description

650 type glass fiber reinforced polyurethane high energy-saving system window

Technical Field

The utility model relates to the technical field of door and window manufacturing, in particular to a 650-type glass fiber reinforced polyurethane high-energy-saving system window.

Background

The existing aluminum alloy sections for manufacturing doors and windows are more, but the energy-saving coefficient of the aluminum alloy door and window sections is lower, so that the energy-saving coefficient of the aluminum alloy doors and windows is improved in the prior art by adding heat insulation strips in the aluminum alloy door and window sections. Although the energy-saving coefficient is improved after the heat insulation strips are added, the strength of the aluminum alloy section is reduced, and certain hidden dangers exist in the safety and firmness of the manufactured doors and windows.

Disclosure of Invention

In order to solve the problems in the prior art, the utility model discloses a 650-type glass fiber reinforced polyurethane high energy-saving system window with high energy-saving coefficient and guaranteed strength, which comprises a window sash and a window frame made of glass fiber reinforced polyurethane materials, wherein the window sash is hinged with the window frame, the window sash comprises a sash frame and 3 layers of glass, the window frame is formed by splicing window frame sectional materials, the outer side surface of each window frame sectional material is a C-shaped mounting groove, a sash baffle plate inwards extends from the right side end of the inner side surface of each window frame sectional material, a C-shaped outer sealing groove is arranged at the end part of the sash baffle plate, an outer sealing strip is arranged in each outer sealing groove, the sash frame is formed by splicing sash frame sectional materials, a glass baffle strip is arranged at the right side end of the inner side surface of each sash frame sectional material, and a C-shaped pressing strip clamping groove is arranged at the left side end of the inner side surface of each sash frame sectional material, the aluminum alloy layering has been blocked to the block in the layering draw-in groove, and the edge of 3 layers of glass is fixed between the aluminum alloy layering of fan frame and the glass blend stop, the left side end of the lateral surface of fan frame section bar outwards stretches out there is the window frame baffle, the tip of window frame baffle is equipped with the inside seal groove of C type, be provided with the inside seal strip in the inside seal groove, when the casement was closed, the outside seal strip butt on the right flank of fan frame and the casement baffle, the inside seal strip butt on the left surface of window frame and the window frame baffle. The window sash and the window frame made of the glass fiber reinforced polyurethane material are low in heat conductivity coefficient, the window sash and the window frame are sealed through the inner sealing strip and the outer sealing strip when being closed, and the heat insulation performance, the air tightness performance and the sound insulation performance are better.

Furthermore, the window frame section bar and the sash frame section bar are both of hollow structures, and the inner cavities of the window frame section bar and the sash frame section bar are filled with foamed polyurethane. The thermal conductivity of the window is further reduced after the foamed polyurethane is filled.

Furthermore, a buffer pad is arranged between the inner side surface of the fan frame and the end surface of the 3 layers of glass.

Furthermore, the middle part of the inner side surface of the window frame section is provided with a C-shaped middle sealing groove, a middle sealing strip is connected in the middle sealing groove, a middle blocking strip protrudes outwards from the middle part of the outer side surface of the sash frame section, and when the sash is closed, the outer side end of the middle blocking strip is abutted to the middle sealing strip. The middle sealing strip further improves the tightness of the window frame and the window sash.

Furthermore, the aluminum alloy pressing strip is provided with two vertical elastic clamping edges, the end parts of the two elastic clamping edges are clamped in the pressing strip clamping groove on the inner side surface of the fan frame, and a cushion strip is arranged between the aluminum alloy pressing strip and the glass. The aluminum alloy pressing bar is connected with the fan frame in a clamping manner, so that the assembly and disassembly are convenient.

Furthermore, the end part of the contact surface between the glass barrier strip and the glass is provided with a C-shaped glass sealing groove, and a glass sealing strip is arranged in the glass sealing groove. The sealing performance between the fan frame and the glass is improved.

Compared with the prior art, the 650-type glass fiber reinforced polyurethane high-energy-saving system window designed by the utility model has the advantages that the window frame and the sash frame which are made of polyurethane profiles are assembled, the profiles are convenient to assemble, the manufacturing efficiency is high, the sash and the window frame are sealed by the inner sealing strip, the middle sealing strip and the outer sealing strip, the sealing performance is better after the window is closed, the sash frame and the glass are fixed by the aluminum alloy pressing strip, the aluminum alloy pressing strip is connected with the sash frame in a clamping manner, the assembly is quick, the disassembly is convenient, and the assembly and the maintenance are better and more efficient; the hollow cavities of the window frame and the fan frame are filled with foamed polyurethane, so that the heat insulation effect is further improved.

Drawings

FIG. 1 is a schematic view of a cross-sectional structure of a 650-type glass fiber reinforced polyurethane window

In the figure, 1 window frame, 2 frames, 3 glass, 4 aluminum alloy battens, 11 mounting grooves, 12 window sash baffles, 13 outer sealing grooves, 14 outer sealing strips, 15 middle sealing grooves, 16 middle sealing strips, 21 glass blocking strips, 22 window frame baffles, 23 batten clamping grooves, 24 inner sealing grooves, 25 inner sealing strips, 26 middle blocking strips, 27 buffer pads, 28 glass sealing grooves, 29 glass sealing strips, 41 elastic clamping edges and 42 cushion strips

Detailed Description

The utility model is further described with reference to the following figures and specific embodiments. The technical solutions in the embodiments of the present invention are clearly and completely described, and the described embodiments are only some embodiments, but not all embodiments of the present invention. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without any creative effort belong to the protection scope of the present invention.

As shown in fig. 1, the present invention relates to an embodiment of a 650 type glass fiber reinforced polyurethane high energy saving system window, wherein the 650 type glass fiber reinforced polyurethane high energy saving system window comprises a window frame 1 and a window sash which are hinged with each other and made of glass fiber reinforced polyurethane material, and the window sash comprises a

sash frame

2 and 3 layers of glass 3. The window frame 1 is 65mm thick and is formed by splicing window frame sectional materials, the outer side face of each window frame sectional material is a C-shaped installation groove 11, a window sash baffle 12 extends inwards from the right side end of the inner side face of each window frame sectional material, a C-shaped outer sealing groove 13 is formed in the end portion of each window sash baffle 12, and an outer sealing strip 14 is arranged in each outer sealing groove 13. The middle part of the inner side surface of the window frame section is provided with a C-shaped middle sealing groove 15, and a middle sealing strip 16 is connected in the middle sealing groove 15.

The sash frame 2 is formed by splicing sash frame sectional materials, a glass barrier strip 21 is arranged at the right side end of the inner side surface of each sash frame sectional material, a C-shaped bead clamping groove 23 is arranged at the left side end of the inner side surface of each sash frame sectional material, an aluminum alloy bead 4 is clamped in the bead clamping groove 23, and the edge of the 3 layers of glass 3 is fixed between the aluminum alloy bead 4 of the sash frame 2 and the glass barrier strip 21. A window frame baffle 22 extends outwards from the left end of the outer side surface of the sash frame profile, a C-shaped inner sealing groove 24 is formed in the end part of the window frame baffle 22, and an inner sealing strip 25 is arranged in the inner sealing groove 24. The middle part of the outer side surface of the sash frame section bar is convexly provided with a middle baffle 26, when the sash is closed, the outer side end of the middle baffle 26 of the sash frame 2 is abutted with the middle sealing strip 16, the right side surface of the sash frame 2 is abutted with the outer sealing strip 14 on the sash baffle 12, and the left side surface of the window frame 1 is abutted with the inner sealing strip 25 on the window frame baffle 22. A buffer pad 27 is arranged between the inner side surface of the fan frame 2 and the end surface of the 3 layers of glass 3.

The window frame section and the sash frame section are both of hollow structures, and the respective internal cavities are filled with foamed polyurethane.

The aluminum alloy pressing strip 4 is provided with two vertical elastic clamping edges 41, the end parts of the two elastic clamping edges 41 are respectively bent with a clamping hook, and the two clamping hooks are respectively clamped in the pressing strip clamping grooves 23 on the inner side surface of the fan frame 2. And a filler strip 42 is padded between the aluminum alloy pressing strip 4 and the glass 3. The end of the contact surface between the glass barrier strip 21 and the glass 3 is provided with a C-shaped glass sealing groove 28, and a glass sealing strip 29 is arranged in the glass sealing groove 28, so that the glass 3 and the fan frame 2 are hermetically connected.

The above description is only for the preferred embodiment of the present invention, and should not be taken as limiting the scope of the utility model, which is defined by the appended claims and the description of the utility model.

Claims

1. The utility model provides a 650 type glass fiber reinforced polyurethane high energy-saving system window, glass fiber reinforced polyurethane high energy-saving system window includes casement and window frame, and the casement is articulated with the window frame, the casement includes sash frame and 3 layers of glass, its characterized in that, the window frame is formed by the concatenation of window frame section bar, the lateral surface of window frame section bar is the mounting groove of C type, the right side end of the medial surface of window frame section bar inwards stretches out there is the sash baffle, the tip of sash baffle is equipped with the external seal groove of C type, be provided with the external seal strip in the external seal groove, the sash frame is formed by the concatenation of sash frame section bar, the right side end of the medial surface of sash frame section bar is provided with the glass blend stop, the left side end of the medial surface of sash frame section bar is provided with the layering draw-in groove of C type, the block has the aluminum alloy layering in the layering draw-in groove, the edge of 3 layers of glass is fixed between the aluminum alloy layering and the glass blend stop of sash frame, the left side end of the outer side face of the sash frame section bar extends outwards to form a window frame baffle, the end part of the window frame baffle is provided with a C-shaped inner sealing groove, an inner sealing strip is arranged in the inner sealing groove, when the sash is closed, the right side face of the sash frame is abutted to the outer sealing strip on the sash baffle, and the left side face of the window frame is abutted to the inner sealing strip on the window frame baffle.

2. The type 650 glass fiber reinforced polyurethane high energy saving system window according to claim 1, wherein the window frame section and the sash frame section are hollow structures, and the inner cavity thereof is filled with foamed polyurethane.

3. The type 650 glass fiber reinforced polyurethane high energy saving system window according to claim 1 or 2, wherein a buffer pad is disposed between the inner side surface of the sash frame and the end surface of the 3 glass layers.

4. The 650 type glass fiber reinforced polyurethane high energy saving system window according to claim 3, wherein a C-shaped middle sealing groove is arranged in the middle of the inner side of the window frame section, a middle sealing strip is connected in the middle sealing groove, a middle blocking strip is protruded out of the middle of the outer side of the sash frame section, and when the sash is closed, the outer side end of the middle blocking strip is abutted against the middle sealing strip.

5. The 650 type glass fiber reinforced polyurethane high energy saving system window according to claim 4, wherein the aluminum alloy pressing strip has two vertical elastic clamping edges, the ends of the two elastic clamping edges are clamped in the clamping grooves of the pressing strip on the inner side of the sash frame, and a gasket strip is arranged between the aluminum alloy pressing strip and the glass.

6. The 650 type glass fiber reinforced polyurethane high energy saving system window according to claim 5, wherein the end of the contact surface between the glass barrier strip and the glass is provided with a C-shaped glass sealing groove, and a glass sealing strip is arranged in the glass sealing groove.