CN215859712U - 901-type glass fiber reinforced polyurethane high-energy-saving system window - Google Patents

Abstract

The utility model relates to a 901-type glass fiber reinforced polyurethane high-energy-saving system window, and belongs to the technical field of door and window manufacturing. Polyurethane system window includes casement and window fan and includes sash frame and 3 layers of glass, the window frame is formed by the window frame section bar concatenation, and the right side end of window frame section bar inwards stretches out and has right fender body, and the sash frame is formed by the concatenation of sash frame section bar, the right side end of sash frame section bar inwards is provided with the glass fender body, and the left side end of the medial surface of sash frame section bar is provided with the layering draw-in groove of C type, and the block has the aluminum alloy layering in the layering draw-in groove, and the edge of 3 layers of glass is fixed between the aluminum alloy layering of sash frame and glass fender body, and the left side end of sash frame section bar outwards stretches out has the window frame baffle, and the right flank of sash frame and the outer sealing strip butt on the right fender body of window frame, the left flank of window frame and the interior sealing strip butt on the window frame baffle of sash frame. The polyurethane system window designed by the utility model is convenient to assemble and has better energy-saving and heat-insulating properties.

Description

901-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 901-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 increased, 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 901-type glass fiber reinforced polyurethane high energy-saving system window with higher energy-saving coefficient and ensured strength, which comprises a window sash and a window frame, wherein the window sash is hinged with the window frame, the window sash comprises a sash frame and multilayer glass, the window frame is formed by splicing window frame profiles, the outer side surface of each window frame profile is a C-shaped installation groove, the right side end of each window frame profile extends inwards to form a right baffle body, the end part of the right baffle body is provided with a C-shaped outer sealing groove, an outer sealing strip is arranged in each outer sealing groove, the sash frame is formed by splicing sash frame profiles, the right side end of each sash frame profile is inwards provided with a glass baffle body, the left side end of the inner side surface of each sash frame profile is provided with a C-shaped press strip clamping groove, an aluminum alloy press strip is clamped in each press strip clamping groove, and the edge of the multilayer glass is fixed between the aluminum alloy press strip and the glass baffle body of the sash frame, the left side end 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 right flank of fan frame and the outer seal strip butt on the right baffle of window frame, the left surface of window frame and the inside seal strip butt on the window frame baffle of fan frame, window frame section bar and fan frame section bar are hollow structure, and respective inside is enclosed respectively has two logical chambeies, is the big chamber that leads to and leads to the chamber for a short time respectively, it is full of foaming polyurethane to fill in the big chamber that leads to and/or the little chamber that leads to respectively. The window sash and the window frame made of the glass fiber reinforced polyurethane material are low in heat conductivity coefficient, two through cavities are formed in the window frame and the window sash profile, foamed polyurethane can be filled in a single through cavity or a double through cavity according to the requirements of energy conservation and heat preservation, and the energy conservation and heat preservation effects are further improved. When the window sash and the window frame are closed, the window sash and the window frame are sealed through the inner sealing strip and the outer sealing strip, so that the heat preservation performance, the air tightness performance and the sound insulation performance are better.

Furthermore, the right baffle body and the glass baffle body are respectively of a hollow structure, and the cavities in the right baffle body and the glass baffle body are respectively filled with foamed polyurethane. The right baffle body and the glass baffle body are arranged on one side contacting with the outside, so that the heat insulation effect is improved, and after the foaming polyurethane is filled, the heat insulation effect can be further improved.

Furthermore, the middle part of the inner side surface of the window frame section bar is provided with two middle sealing grooves, a wide middle sealing gasket is connected in the middle sealing groove, an elastic flange extends out of the right side end of the middle sealing gasket, the middle part of the outer side surface of the fan frame section bar corresponds to the middle sealing gasket, the middle baffle is formed in a convex mode, a middle baffle is arranged in a position corresponding to the left side end of the middle sealing gasket, when the window sash is closed, the right side end of the middle baffle abuts against the elastic flange of the middle sealing gasket, and the middle baffle abuts against the left side end of the middle sealing gasket. And the middle baffle body, the middle baffle plate and the middle sealing pad are added to form two layers of middle sealing, so that the sealing effect is further improved.

Furthermore, the aluminum alloy layering is equipped with the twice riser, and wherein inboard riser is the elastic plate that the slant set up, and the tip of twice riser is buckled respectively and is colluded the limit, and the limit block that colludes of twice riser tip is in the layering draw-in groove of fan frame medial surface, the butt end pad of aluminum alloy layering and glass has the gasket strip. The aluminum alloy layering is connected with the layering draw-in groove block through the riser of twice, easy dismounting.

Furthermore, the end of the contact surface of the glass baffle and the glass is provided with a C-shaped glass sealing groove, a glass sealing strip is connected in the glass sealing groove, the glass sealing strip is filled with the contact surface of the whole glass baffle and the glass, and the end surface of the inner side of the glass baffle is an inclined plane. The inclined plane prevents water from being stored on the inner side surface when raining.

Furthermore, a buffer pad is arranged between the inner side surface of the fan frame and the end surface of the multilayer glass. The glass is protected by buffering.

Compared with the prior art, the 901-type glass fiber reinforced polyurethane high-energy-saving system window designed by the utility model has the advantages that the window frame and the fan frame of the polyurethane material section are assembled, the section is convenient to assemble, the manufacturing efficiency is high, the heat conductivity coefficient of the window sash and the window frame of the glass fiber reinforced polyurethane material is low, two through cavities are arranged in the window frame and the fan frame section, foamed polyurethane can be filled in a single through cavity or double through cavities according to the energy-saving and heat-insulating requirements, and the energy-saving and heat-insulating effects are further improved. Set up hollow structure's right side fender body and glass fender body with outdoor one side of contact, improve the heat preservation effect, fill behind the foaming polyurethane, the heat preservation effect can further promote. When the window sash and the window frame are closed, the window sash and the window frame are sealed through the inner sealing strip, the middle sealing strip and the outer sealing strip, so that the heat preservation performance, the air tightness performance and the sound insulation performance are better. The sash frame and the glass are fixed through the aluminum alloy pressing strip, the aluminum alloy pressing strip is connected with the sash frame in a clamping mode, the assembly is rapid, and the installation and the maintenance are better and convenient.

Drawings

FIG. 1 is a schematic view of a sectional structure of a 901-type glass fiber reinforced polyurethane window for a high energy-saving system

In the figure, 1 window frame, 2 window frames, 3 glass, 4 aluminum alloy pressing strips, 5 through cavities, 11 right baffle bodies, 12 middle sealing grooves, 13 middle sealing gaskets, 14 mounting grooves, 111 outer sealing grooves, 112 outer sealing strips, 131 elastic baffle edges, 21 window frame baffle plates, 22 glass baffle bodies, 23 pressing strip clamping grooves, 24 middle baffle bodies, 25 middle baffle plates, 211 inner sealing grooves, 212 inner sealing strips, 221 glass sealing grooves, 222 glass sealing strips, 31 buffer cushions, 41 vertical plates, 42 hook edges and 43 sealing gasket 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 utility model relates to an embodiment of a 901-type glass fiber reinforced polyurethane high energy-saving system window, which includes a sash and a window frame 1, the sash includes a sash frame 2 and 3 layers of glass 3, and the window frame is hinged to the window frame 1. The window frame 1 is 90mm wide and is formed by splicing window frame sectional materials. The outer side surface of the window frame section is a C-shaped mounting groove 14, and the window frame section is fixedly mounted with a wall of a building through the mounting groove 14. The right side end of the window frame section bar extends inwards to form a right baffle body 11, the end part of the right baffle body 11 is provided with a C-shaped outer sealing groove 111, and an outer sealing strip 112 is arranged in the outer sealing groove 111. Two C-shaped middle sealing grooves 12 are arranged in the middle of the inner side face of the window frame section bar, a wide middle sealing gasket 13 is connected in each middle sealing groove 12, a plurality of through holes are formed in the middle sealing gasket 13, and an elastic flange 131 extends out of the right side end of the middle sealing gasket.

The sash frame 2 is formed by splicing sash frame sectional materials, a window frame baffle 21 extends outwards from the left end of each sash frame sectional material, a C-shaped inner sealing groove 211 is formed in the end part of each window frame baffle 21, and an inner sealing strip 212 is arranged in each inner sealing groove 211. The middle part of the outer side surface of the fan frame section bar is convexly formed into a middle baffle 24 corresponding to the position of the middle sealing gasket 13, and a middle baffle 25 is arranged corresponding to the position of the left end of the middle sealing gasket 13.

When the window sash is closed, the right side surface of the window frame 2 abuts against the outer sealing strip 112 on the right baffle 11 of the window frame 1, the left side surface of the window frame 1 abuts against the inner sealing strip 212 on the window frame baffle 21 of the window frame 2, the right end of the middle baffle 24 of the window frame 2 abuts against the elastic flange 131 of the middle sealing gasket 13, and the middle baffle 25 abuts against the left end of the middle sealing gasket 13. A 3-layer seal is formed between the window frame 1 and the sash frame 2.

The window frame section bar and the sash frame section bar are both of hollow structures, two through cavities 5 are respectively enclosed in the respective interior of the window frame section bar and the sash frame section bar, and are respectively a large through cavity and a small through cavity, and the large through cavity and the small through cavity are respectively filled with foamed polyurethane. The right baffle 11 and the glass baffle 22 are also hollow structures, and the cavities inside the right baffle and the glass baffle are filled with foamed polyurethane.

The right side end of the sash frame section bar is inwards provided with a glass baffle 22, the left side end of the inner side surface of the sash frame section bar is integrally formed with a C-shaped bead clamping groove 23, an aluminum alloy bead 4 is clamped in the bead clamping groove 23, the edge of the 3 layers of glass 3 is fixed between the glass baffle 22 of the sash frame 2 and the aluminum alloy bead 4, and a cushion pad 31 is arranged between the inner side surface of the sash frame 2 and the end surface of the 3 layers of glass 3.

The inner end of the glass stopper 22 is formed as an inclined surface to prevent water from being stored in the inner end when raining. The end of the contact surface between the glass stopper 22 and the glass 3 is provided with a C-shaped glass sealing groove 221, a glass sealing strip 222 is connected in the glass sealing groove 221, and the glass sealing strip 222 fills up the whole contact surface between the glass stopper 22 and the glass 3.

The aluminum alloy pressing strip 4 is provided with two vertical plates 41, wherein the vertical plate 41 on the inner side is an elastic plate which is obliquely arranged. The ends of the two vertical plates 41 are respectively bent to form a hook edge 42, and the hook edges 42 at the ends of the two vertical plates 41 are clamped in the bead clamping grooves 23 on the inner side surfaces of the fan frame 2. The butt joint end of the aluminum alloy pressing strip 4 and the glass 3 is padded with a sealing padding strip 43. The aluminum alloy pressing strip 4 is connected with the pressing strip clamping groove 23 in a clamping mode through two vertical plates 41, and the assembling and disassembling are convenient.

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 (6)

1. The 901-type glass fiber reinforced polyurethane high-energy-saving system window comprises a window sash and a window frame, wherein the window sash comprises a sash frame and multi-layer glass, and is characterized in that the window frame is formed by splicing window frame sectional materials, the outer side surfaces of the window frame sectional materials are C-shaped mounting grooves, a right baffle extends inwards from the right side end of the window frame sectional materials, the end part of the right baffle is provided with a C-shaped outer sealing groove, an outer sealing strip is arranged in the outer sealing groove, the window frame is formed by splicing the window frame sectional materials, a glass baffle is inwards arranged at the right side end of the window frame sectional materials, a C-shaped batten clamping groove is arranged at the left side end of the inner side surface of the window frame sectional materials, an aluminum alloy batten is clamped in the batten clamping groove, the edge of the multi-layer glass is fixed between the glass baffle of the window frame and the aluminum alloy batten, and a window frame baffle extends outwards from the left side end of the window frame sectional materials, 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 right flank of fan frame and the outer seal strip butt on the right baffle of window frame, the left surface of window frame and the inside seal strip butt on the window frame baffle of fan frame, window frame section bar and fan frame section bar are hollow structure, and respective inside is enclosed two respectively and is led to the chamber, is the big chamber and leads to the chamber for a short time respectively, it is full of foaming polyurethane to fill in the big chamber and/or the little chamber that leads to respectively.

2. The 901-type glass fiber reinforced polyurethane high energy saving system window as in claim 1, wherein the right baffle and the glass baffle are hollow structures, and the inner cavities of the right baffle and the glass baffle are filled with foamed polyurethane.

3. The 901-type glass fiber reinforced polyurethane high energy saving system window of claim 2, wherein two middle sealing grooves are formed in the middle of the inner side of the window frame profile, a middle sealing gasket is connected in the middle sealing groove, an elastic flange extends out from the right end of the middle sealing gasket, a middle baffle is formed in the middle of the outer side of the sash frame profile and protrudes out from the position corresponding to the middle sealing gasket, a middle baffle is arranged at the position corresponding to the left end of the middle sealing gasket, when the sash is closed, the right end of the middle baffle abuts against the elastic flange of the middle sealing gasket, and the middle baffle abuts against the left end of the middle sealing gasket.

4. The 901-type glass fiber reinforced polyurethane high energy saving system window of claim 3, wherein the aluminum alloy pressing strip is provided with two vertical plates, wherein the vertical plate at the inner side is an elastic plate arranged obliquely, the ends of the two vertical plates are respectively bent with a hook edge, the hook edges at the ends of the two vertical plates are clamped in the clamping groove of the pressing strip at the inner side of the sash frame, and the abutting end of the aluminum alloy pressing strip and the glass is padded with a sealing gasket strip.

5. The 901-type glass fiber reinforced polyurethane high energy saving system window of claim 4, wherein a C-shaped glass sealing groove is arranged at the end of the contact surface between the glass stopper and the glass, a glass sealing strip is connected in the glass sealing groove, the glass sealing strip fills the whole contact surface between the glass stopper and the glass, and the inner side end surface of the glass stopper is an inclined surface.

6. The 901-type glass fiber reinforced polyurethane high energy saving system window as claimed in claim 5, wherein a buffer is provided between the inner side of the sash frame and the end face of the multiple glass layers.

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