CN215859714U

CN215859714U - 898 type glass fiber reinforced polyurethane aluminum composite high-energy-saving system window

Info

Publication number: CN215859714U
Application number: CN202122056557.5U
Authority: CN
Inventors: 张凯; 黄井然; 黄启宾; 颜承法
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 an 898 type glass fiber reinforced polyurethane aluminum composite high-energy-saving system window, and belongs to the technical field of door and window manufacturing. The composite system window comprises a window sash and a window frame which are hinged, wherein the window sash comprises a sash frame and a multi-layer glass, the window frame is formed by splicing window frame polyurethane composite aluminum profiles, the sash frame is formed by splicing sash frame polyurethane composite aluminum profiles, window frame polyurethane core materials and sash frame polyurethane core materials are both of hollow structures, two cavities are enclosed in the window frame polyurethane core materials, the two cavities are respectively a large cavity and a small cavity, and foaming polyurethane is filled in the large cavity and/or the small cavity respectively. The composite system window designed by the utility model is convenient to assemble and has better sealing and heat-insulating properties.

Description

898 type glass fiber reinforced polyurethane aluminum composite high-energy-saving system window

Technical Field

The utility model relates to the technical field of door and window manufacturing, in particular to an 898 type glass fiber reinforced polyurethane aluminum composite high-energy-saving system window.

Background

Along with the continuous improvement of the energy-saving and heat-insulating requirements of buildings, the requirements on building windows are also continuously improved, and the traditional aluminum alloy window cannot well meet the energy-saving and heat-insulating requirements of modern buildings. The glass fiber reinforced polyurethane aluminum composite window has lower heat conductivity coefficient due to the performance advantage of the polyurethane material, and after the aluminum alloy plate is compounded, the strength and the attractiveness of the whole window are greatly improved, but the application of the existing glass fiber reinforced polyurethane aluminum composite window in some fields with stricter requirements on heat insulation, water and air tightness cannot completely meet the requirements.

Disclosure of Invention

In order to solve the problems in the prior art, the utility model discloses an 898-type glass fiber reinforced polyurethane aluminum composite high-energy-saving system window with better heat insulation, water and air tightness effects, which comprises a hinged window sash and a window frame, wherein the window sash comprises a sash frame and multilayer glass, the window frame is formed by splicing window frame polyurethane composite aluminum profiles, the window frame polyurethane composite aluminum profiles comprise a window frame polyurethane core material, the sash frame is formed by splicing window frame polyurethane composite aluminum profiles, the window frame polyurethane composite aluminum profiles comprise a sash frame polyurethane core material, the window frame polyurethane core material and the sash frame polyurethane core material are both of a hollow structure, two cavities are enclosed in the window frame polyurethane core material and the sash frame polyurethane core material, the two cavities are respectively a large cavity and a small cavity, foamed polyurethane is filled in the large cavity and/or the small cavity, and two C-shaped positioning clamping grooves are arranged on the inner side surface of the window frame polyurethane core material, be fixed with the sealed pad of inclined plane on the positioning channel groove, the sealed bottom surface of filling up of inclined plane is provided with twice location sand grip, and twice location sand grip block respectively is fixed in the twice positioning channel groove of window frame polyurethane core medial surface, the sealed top surface of inclined plane is the inclined plane, and the flange upwards stretches out to the right side end of top surface, the outer side middle part of fan frame polyurethane core corresponds the sealed position evagination of inclined plane and has the butt joint face, the butt joint face also is the inclined plane, the butt joint face is with the sealed top surface butt of filling up of inclined plane, the right side end and the flange butt of butt joint face. The interior of the window frame polyurethane core material and the fan frame polyurethane core material is provided with a large cavity and a small cavity, foamed polyurethane can be selectively filled in the two cavities according to the energy-saving requirement of the use environment, the heat preservation capacity is improved, the contact surface of the window sash and the window frame is provided with the inclined plane sealing gasket for sealing, the inclined plane sealing gasket and the window sash are in surface contact sealing, the sealing area is increased, and the water tightness and the air tightness of the closed window are improved.

Furthermore, a layer of aluminum alloy plate is compounded on the left side surface and the right side surface of the window frame polyurethane core material of the window frame polyurethane composite aluminum profile respectively, namely a left window frame plate and a right window frame plate, the right window frame plate extends inwards to form a window sash baffle plate, a C-shaped outer sealing groove is formed in the end part of the window sash baffle plate, and an outer sealing strip is arranged in the outer sealing groove; the window frame is characterized in that a layer of aluminum alloy plate is compounded on the left side face and the right side face of a fan frame polyurethane core material of the fan frame polyurethane composite aluminum profile respectively, the left side face and the right side face are respectively a left fan frame plate and a right fan frame plate, a window frame baffle plate extends outwards from the left fan frame plate, the end portion of the window frame baffle plate is provided with a C-shaped inner sealing groove, an inner sealing strip is arranged in the inner sealing groove, the right side face of the fan frame is abutted to an outer sealing strip on the window frame baffle plate, and the left side face of the window frame is abutted to the inner sealing strip on the window frame baffle plate. The composite aluminum alloy panel forms two seals on both sides of the window frame and the sash frame.

Furthermore, the four corners of the window frame polyurethane core material and the fan frame polyurethane core material are respectively provided with a V-shaped clamping groove, the inner side surfaces of the left window frame plate, the right window frame plate, the left fan frame plate and the right fan frame plate are respectively provided with two clamping plates, the appearance of each clamping plate is matched with the V-shaped clamping groove, and the left window frame plate, the right window frame plate, the left fan frame plate and the right fan frame plate are respectively connected with the V-shaped clamping grooves of the window frame polyurethane core material and the fan frame polyurethane core material in a clamping mode through the clamping plates. The aluminum alloy plate is connected with the polyurethane core material in a clamping mode, and the assembly is convenient.

Furthermore, the middle parts of the left and right side surfaces of the window frame polyurethane core material and the fan frame polyurethane core material are respectively provided with a positioning groove, the middle parts of the inner side surfaces of the left window frame plate, the right window frame plate, the left fan frame plate and the right fan frame plate are respectively provided with a positioning strip, and the positioning strips of the inner side surfaces of the left window frame plate, the right window frame plate, the left fan frame plate and the right fan frame plate are respectively clamped in the positioning grooves of the left and right side surfaces of the corresponding window frame polyurethane core material and the fan frame polyurethane core material.

Furthermore, a glass baffle plate extends inwards from the right sash frame plate, an aluminum alloy pressing strip is clamped at the left side end of the inner side face of the sash frame polyurethane composite aluminum profile, the edge of the multilayer glass is fixed between the aluminum alloy pressing strip on the inner side of the sash frame and the glass baffle plate, a cushion pad is arranged between the inner side face of the sash frame and the end face of the multilayer glass, and the whole width of the cushion pad is larger than the thickness of the multilayer glass.

Further, the whole F type that is of aluminum alloy layering, including horizontal limit and twice perpendicular limit, the tip butt glass of horizontal limit, the bottom on twice perpendicular limit is provided with respectively colludes the limit, the medial surface of fan frame polyurethane core is provided with L type blend stop near the left side end, the L type blend stop is buckled into perpendicularly to the medial surface end of left side fan frame board, the limit that colludes of two times perpendicular limit bottoms of aluminum alloy layering block respectively in L type blend stop and L type blend stop. The aluminum alloy pressing bar is connected with the fan frame in a clamping manner, and the assembly and the disassembly are convenient.

Furthermore, the contact parts of the end parts of the glass baffle and the transverse edge and the two side surfaces of the multilayer glass are respectively provided with a C-shaped glass sealing groove, and glass sealing strips are respectively arranged in the glass sealing grooves of the glass baffle and the transverse edge.

Furthermore, the outer side surface of the window frame polyurethane core material of the window frame is convexly provided with a mounting groove. The mounting groove is used for connecting and fixing the window frame and the building wall.

Compared with the prior art, the 898-type glass fiber reinforced polyurethane aluminum composite high-energy-saving system window designed by the utility model has the advantages that a large cavity and a small cavity are arranged inside a window frame polyurethane core material and a fan frame polyurethane core material of the composite system window, foamed polyurethane can be selectively filled in the two cavities according to the energy-saving requirement of the use environment, the heat preservation capability is improved, the contact surface of a window sash and the window frame is provided with an inclined surface sealing gasket for sealing, the inclined surface sealing gasket and the window sash are in surface contact sealing, the sealing area is increased, when the composite system window with closed water tightness and air tightness is closed, the contact surface of the window sash and the window frame is sealed through an inner sealing strip, a middle sealing strip and an outer sealing strip, and the sealing performance is better after the composite system window is closed; 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 quick, the disassembly is convenient, and the installation and the maintenance are better and efficient.

Drawings

Fig. 1 is a schematic view of a section structure of an 898 glass fiber reinforced polyurethane aluminum composite high energy-saving system window.

In the figure, 1 window frame, 2 window frames, 3 glass, 4 aluminum alloy pressing strips, 5-V-shaped clamping grooves, 11 window frame polyurethane core materials, 12 left window frame plates, 13 right window frame plates, 14 positioning clamping grooves, 15 inclined surface sealing gaskets, 16 mounting grooves, 131 window sash baffle plates, 132 outer sealing grooves, 133 outer sealing strips, 151 top surfaces, 152 positioning convex strips, 153 flanges, 21 window frame polyurethane core materials, 22 left window frame plates, 23 right window frame plates, 221 window frame baffle plates, 222 inner sealing grooves, 223 inner sealing strips, 224-L-shaped flanges, 231 glass baffle plates, 232 glass sealing grooves, 233 glass sealing strips, 24 butt joint surfaces, 25 buffer pads, 26-L-shaped baffle plates, 41 transverse edges, 42 vertical edges, 43 hook edges, 51 clamping plates, 52 positioning strips and 53 positioning grooves.

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 an 898-type glass fiber reinforced polyurethane aluminum composite energy saving system window, wherein the glass fiber reinforced polyurethane aluminum composite energy saving system window includes a hinged window sash and a window frame 1, and the window sash includes a

sash frame

2 and 3 layers of glass 3. The thickness of the window frame 1 is 89.8mm, and the window frame is formed by splicing a window frame polyurethane composite aluminum profile, wherein the window frame polyurethane composite aluminum profile comprises a window frame polyurethane core material 11, a layer of aluminum alloy plate is compounded on the left side surface and the right side surface of the window frame polyurethane core material 11 respectively, namely a left window frame plate 12 and a right window frame plate 13, the right window frame plate 13 inwards extends to form a window sash baffle 131, the end part of the window sash baffle 131 is provided with a C-shaped outer sealing groove 132, and an outer sealing strip 133 is arranged in the outer sealing groove 132. The middle part of the inner side surface of the window frame polyurethane core material is provided with 2C-shaped positioning clamping grooves 14, and inclined plane sealing gaskets 15 are connected in the positioning clamping grooves 14. The bottom surface of the inclined sealing gasket 15 is provided with two positioning convex strips 152, and the two positioning convex strips 152 are respectively clamped and fixed in the two positioning clamping grooves 14 on the inner side surface of the polyurethane core material 11 of the window frame. The top surface 151 of the beveled gasket 15 is beveled and the right side end of the top surface 151 extends upwardly beyond the rim 153. The window frame polyurethane core material 11 is of a hollow structure, two cavities are formed in the inner periphery of the window frame polyurethane core material, and foamed polyurethane is filled in the two cavities respectively. The outer side surface of the window frame polyurethane core material 1 of the window frame 1 is convexly provided with a C-shaped mounting groove 16.

The fan frame 2 is formed by splicing fan frame polyurethane composite aluminum profiles, each fan frame polyurethane composite aluminum profile comprises a fan frame polyurethane core material 21, and a layer of aluminum alloy plate, namely a left fan frame plate 22 and a right fan frame plate 23, is also compounded on the left side surface and the right side surface of the window frame polyurethane core material 21 respectively. A window frame baffle 221 extends outwards from the left frame plate 22, a C-shaped inner sealing groove 222 is arranged at the end of the window frame baffle 221, and an inner sealing strip 223 is arranged in the inner sealing groove 222. The middle part of the outer side surface of the fan frame polyurethane core material 21 is convexly provided with a butting surface 24 corresponding to the position of the inclined surface sealing gasket 15 of the window frame 1, the butting surface 24 is also an inclined surface, and the inclination angles of the butting surface 24 and the top surface 151 of the inclined surface sealing gasket 15 are the same. The fan frame polyurethane core material 21 is also of a hollow structure, two cavities are formed in the inner periphery of the fan frame polyurethane core material, and foamed polyurethane is filled in the two cavities respectively.

When the window is closed, the right sash plate 23 of the sash frame 2 abuts against the outer weather strip 133 on the sash baffle 131, the left sash plate 12 of the window frame 1 abuts against the inner weather strip 223 on the window frame baffle 221, the abutting surface 24 abuts against the top surface 151 of the slope gasket 15, the right end of the abutting surface 24 abuts against the

flange

153, and 3 seals are formed between the sash frame 2 and the window frame 1.

The four corners of the window frame polyurethane core material 11 and the fan frame polyurethane core material 21 are respectively provided with a V-shaped clamping groove 5, the inner side surfaces of the left window frame plate 12, the right window frame plate 13, the left fan frame plate 22 and the right fan frame plate 23 are respectively provided with two clamping plates 51, the shapes of the clamping plates 51 are matched with the V-shaped clamping grooves 5, and the left window frame plate 12, the right window frame plate 13, the left fan frame plate 22 and the right fan frame plate 23 are respectively connected with the V-shaped clamping grooves 15 of the window frame polyurethane core material 11 or the fan frame polyurethane core material 21 in a clamping manner through the two clamping plates 51 and are clamped and fixed. In addition, the middle parts of the left and right side surfaces of the window frame polyurethane core 11 and the sash frame polyurethane core 21 are respectively provided with a positioning groove 53, and correspondingly, the middle parts of the inner side surfaces of the left window frame plate 12, the right window frame plate 13, the left sash frame plate 22 and the right sash frame plate 23 are respectively provided with a positioning strip 52. The positioning strips 52 on the inner side surfaces of the left window frame plate 12, the right window frame plate 13, the left window frame plate 22 and the right window frame plate 23 are respectively clamped in the positioning grooves 53 on the left and right side surfaces of the corresponding window frame polyurethane core material 11 and the corresponding window frame polyurethane core material 21. The connecting position of the aluminum alloy plate and the polyurethane core material is positioned through the positioning groove 53 and the positioning strip 52.

The right fan frame plate 23 of the fan frame 2 extends inwards to form a glass baffle 231, the left end of the inner side face of the fan frame polyurethane composite aluminum profile is clamped with an aluminum alloy pressing strip 4, and the edge of the 3 layers of glass 3 is fixed between the aluminum alloy pressing strip 4 on the inner side of the fan frame and the glass baffle 231. A buffer pad 25 is arranged between the inner side surface of the fan frame 2 and the end surface of the 3 layers of glass 3, and the whole width of the buffer pad 25 is larger than the thickness of the 3 layers of glass 3.

The aluminum alloy pressing strip 4 is integrally F-shaped and comprises a transverse edge 41 and two vertical edges 42. The ends of the lateral sides 41 abut the glass 3, and the bottoms of the two vertical sides 42 are provided with hook sides 43, respectively. An L-shaped baffle strip 26 is arranged on the inner side face of the fan frame polyurethane core material close to the left side end, the inner side end of the left fan frame plate 22 is vertically bent into an L-shaped baffle edge 224, and the hook edges 43 at the bottoms of the two vertical edges 42 of the aluminum alloy pressing strip 4 are respectively clamped in the L-shaped baffle strip 26 and the L-shaped baffle edge 224. The glass baffle 231 and the contact part of the end part of the transverse edge 41 and the two side surfaces of the 3-layer glass 3 are respectively provided with a C-shaped glass sealing groove 232, the glass sealing grooves 232 of the two are respectively provided with a glass sealing strip 233, and the inner side surface and the outer side surface of the glass 3 are sealed.

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. An 898-type glass fiber reinforced polyurethane aluminum composite high-energy-saving system window comprises a window sash and a window frame which are hinged, wherein the window sash comprises a sash frame and multilayer glass, and the composite high-energy-saving system window is characterized in that the window frame is formed by splicing window frame polyurethane composite aluminum profiles, the window frame polyurethane composite aluminum profiles comprise a window frame polyurethane core material, the sash frame is formed by splicing window frame polyurethane composite aluminum profiles, the window frame polyurethane composite aluminum profiles comprise a sash frame polyurethane core material, the window frame polyurethane core material and the sash frame polyurethane core material are both of hollow structures, two cavities, namely a large cavity and a small cavity, are enclosed in the window frame polyurethane core material and the sash frame polyurethane core material, foamed polyurethane is filled in the large cavity and/or the small cavity respectively, two C-type positioning clamping grooves are formed in the inner side surface of the window frame polyurethane core material, inclined plane sealing gaskets are fixed on the positioning clamping grooves, and two positioning protruding strips are arranged on the bottom surfaces of the inclined plane sealing gaskets, the fan frame polyurethane core material is characterized in that two positioning convex strips are respectively clamped and fixed in two positioning clamping grooves in the inner side face of a window frame polyurethane core material, the top face of the inclined plane sealing gasket is an inclined plane, a flange extends out of the right side end of the top face, a butt joint face protrudes outwards from the middle part of the outer side face of the fan frame polyurethane core material corresponding to the position of the inclined plane sealing gasket, the butt joint face is also an inclined plane, the butt joint face is abutted against the top face of the inclined plane sealing gasket, and the right side end of the butt joint face is abutted against the flange.

2. The 898 type glass fiber reinforced polyurethane aluminum composite high energy-saving system window of claim 1, wherein a layer of aluminum alloy plate is respectively compounded on the left and right side surfaces of the window frame polyurethane core material of the window frame polyurethane aluminum composite profile, the aluminum alloy plate is respectively a left window frame plate and a right window frame plate, the right window frame plate is provided with a window sash baffle plate extending inwards, the end part of the window sash baffle plate is provided with a C-shaped outer sealing groove, and an outer sealing strip is arranged in the outer sealing groove; the window frame is characterized in that a layer of aluminum alloy plate is compounded on the left side face and the right side face of a fan frame polyurethane core material of the fan frame polyurethane composite aluminum profile respectively, the left side face and the right side face are respectively a left fan frame plate and a right fan frame plate, a window frame baffle plate extends outwards from the left fan frame plate, the end portion of the window frame baffle plate is provided with a C-shaped inner sealing groove, an inner sealing strip is arranged in the inner sealing groove, the right side face of the fan frame is abutted to an outer sealing strip on the window frame baffle plate, and the left side face of the window frame is abutted to the inner sealing strip on the window frame baffle plate.

3. The 898 type glass fiber reinforced polyurethane aluminum composite high energy-saving system window of claim 2, wherein the four corners of the window frame polyurethane core and the sash frame polyurethane core are respectively provided with a V-shaped slot, the inner sides of the left window frame plate, the right window frame plate, the left sash frame plate and the right sash frame plate are respectively provided with two clamping plates, the shapes of the clamping plates are matched with the V-shaped slots, and the left window frame plate, the right window frame plate, the left sash frame plate and the right sash frame plate are respectively connected with the V-shaped slots of the window frame polyurethane core and the sash frame polyurethane core through the clamping plates in a clamping manner.

4. The 898 type glass fiber reinforced polyurethane aluminum composite high energy-saving system window of claim 3, wherein the middle parts of the left and right side surfaces of the window frame polyurethane core material and the sash frame polyurethane core material are respectively provided with a positioning groove, the middle parts of the inner side surfaces of the left window frame plate, the right window frame plate, the left sash frame plate and the right sash frame plate are respectively provided with a positioning bar, and the positioning bars of the inner side surfaces of the left window frame plate, the right window frame plate, the left sash frame plate and the right sash frame plate are respectively clamped in the positioning grooves of the left and right side surfaces of the corresponding window frame polyurethane core material and sash frame polyurethane core material.

5. The 898 type glass fiber reinforced polyurethane aluminum composite high energy-saving system window of claim 4, wherein a glass baffle plate extends inwards from the right sash frame plate, an aluminum alloy bead is clamped at the left end of the inner side surface of the sash frame polyurethane aluminum composite profile, the edge of the multi-layer glass is fixed between the aluminum alloy bead and the glass baffle plate of the sash frame, a buffer pad is arranged between the inner side surface of the sash frame and the end surface of the multi-layer glass, and the overall width of the buffer pad is greater than the thickness of the multi-layer glass.

6. The 898 type glass fiber reinforced polyurethane aluminum composite high energy-saving system window of claim 5, wherein the aluminum alloy pressing strip is F-shaped as a whole and comprises a transverse edge and two vertical edges, the end of the transverse edge abuts against the glass, the bottoms of the two vertical edges are respectively provided with a hook edge, the inner side surface of the sash frame polyurethane core material is provided with an L-shaped baffle near the left side end, the inner side end of the left sash frame plate is inwards bent into an L-shaped baffle, and the hook edges at the bottoms of the two vertical edges of the aluminum alloy pressing strip are respectively clamped in the L-shaped baffle and the L-shaped baffle.

7. The 898 type glass fiber reinforced polyurethane aluminum composite high energy saving system window of claim 6, wherein the glass baffle and the contact part between the end of the transverse edge and the two side surfaces of the glass are respectively provided with a C type glass sealing groove, and the glass sealing grooves of the glass baffle and the transverse edge are respectively provided with a glass sealing strip.

8. The 898-type glass fiber reinforced polyurethane aluminum composite high energy-saving system window as claimed in claim 7, wherein the outer side of the polyurethane core of the window frame is protruded with mounting grooves.