CN211647782U - Bridge cut-off aluminum alloy system window with high-strength shock absorption performance - Google Patents

Abstract

The utility model discloses a bridge cut-off aluminum alloy system window with high-strength damping performance, including the window form, the window form includes first window pole, second window pole, third window pole, fourth window pole and fifth window pole, all pass through the fix with screw between first window pole, second window pole, third window pole and the fourth window pole, the junction between first window pole, second window pole, third window pole and the fourth window pole all is equipped with the gasket, the side of first window pole and second window pole is equipped with the slotted hole that matches with screw nut external diameter, the window form is through adopting flexible connection structure, can effectively improve window form compliance, rubber materials between the junction, absorb the vertical and horizontal vibrations that bring during the earthquake, reduce the clearance that appears between the window form; through the glass cushion blocks in the first window rod, the second window rod, the third window rod and the fourth window rod, the deformation of the window frame in an earthquake can be absorbed, so that the energy is reduced and transmitted to the glass, the glass cannot be easily cracked, and the life safety is harmed.

Description

Bridge cut-off aluminum alloy system window with high-strength shock absorption performance

Technical Field

The utility model relates to a window form, specificly relate to a bridge cut-off aluminum alloy system window with high-strength damping performance belongs to window form preparation field.

Background

The principle of the bridge-cut-off type aluminum alloy window is that an indoor layer and an outdoor layer of aluminum alloy are separated and tightly connected into a whole by PA66 nylon to form a novel heat-insulating aluminum section, the novel heat-insulating aluminum section can be divided into a strip penetrating type and a glue injecting type according to different connection modes, the section is used for manufacturing the window and door, the heat insulation performance is superior, the fatal problems that the aluminum alloy is fast in conduction and heat dissipation and does not meet the energy-saving requirement are thoroughly solved, and meanwhile, the old and difficult problem that an aluminum alloy sliding window is not tight in sealing is thoroughly solved by adopting some novel structural matching modes. The product has aluminum material on two sides and PA66 nylon as heat insulating material in the middle. The innovative structural design takes advantages of two materials of nylon and aluminum alloy into consideration, and simultaneously meets various requirements of decorative effect, door and window strength and ageing resistance. The super bridge-cut-off aluminum profile can realize three sealing structures of doors and windows, reasonably separate water and vapor cavities, successfully realize air and water isobaric balance, and remarkably improve the water tightness and the air tightness of the doors and windows. The air tightness of the window is better than that of any aluminum or plastic window, and the indoor windowsill and the floor in a windy and sandy area can be ensured to be free of dust; can guarantee that the resident in 50 meters in highway both sides does not receive noise interference, its performance is close flat-open window, and current bridge cut-off aluminum alloy window body has following shortcoming:

1. the existing aluminum alloy window is produced by adopting a welding process, and the welding has the advantages of high connection strength, good air tightness and the like, but when meeting special conditions: if an earthquake occurs, the aluminum alloy window cannot slow down longitudinal vibration and transverse vibration generated by the earthquake, so that the whole aluminum alloy window is deformed integrally, and indoor personnel cannot escape through the aluminum alloy window;

2. the existing fixing modes of the aluminum alloy window glass and the window frame are all bonded and fixed by adopting colloids, and the fixing mode is single and is not convenient for replacing the glass.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to overcome current problem, provide a bridge cut-off aluminum alloy system window with high strength damping performance.

In order to solve the technical problem, the utility model provides a following technical scheme:

the utility model provides a bridge cut-off aluminum alloy system window with high-strength shock attenuation performance, including the window form, the window form includes first window pole, second window pole, third window pole, fourth window pole and glass, first window pole the second window pole the third window pole with the fourth window pole constitutes the window form, first window pole the second window pole the third window pole with all through the fix with screw between the fourth window pole, first window pole the second window pole the junction between third window pole and the fourth window pole all is equipped with the gasket, first window pole with the side of second window pole be equipped with screw nut external diameter assorted slotted hole.

As an optimal technical scheme of the utility model, first window pole second window pole third window pole with the medial surface of fourth window pole all is equipped with the glass mounting groove, one side of glass mounting groove is equipped with the clamping piece, the right flank of clamping piece is equipped with the bolt, first window pole second window pole third window pole with fourth window pole surface all be equipped with bolt assorted through-hole, the left end of clamping piece still is equipped with the protection pad.

As a preferred technical scheme of the utility model, the middle part of window form still is equipped with fifth window pole, the both ends of fifth window pole are equipped with plug-in components, third window pole with fourth window pole surface both ends all are equipped with the jack, fifth window pole with third window pole fifth window pole with fourth window pole all passes through plug-in components and the jack is pegged graft fixedly.

As an optimal technical scheme of the utility model, first window pole second window pole third window pole with the inside glass cushion standing groove that all is equipped with of fourth window pole.

As an optimized technical solution of the present invention, the fifth window rod with the third window rod and also be equipped with between the fourth window rod junction the gasket.

As an optimized technical scheme of the utility model, the gasket with the protection pad is the rubber gasket.

The utility model discloses the beneficial effect who reaches is:

1. the bridge-cut-off aluminum alloy system window with high-strength shock absorption performance can effectively improve the flexibility of a window frame by adopting a flexible connection structure, and longitudinal and transverse shock caused by an earthquake can be absorbed by rubber materials between the connection parts, so that gaps between window bodies can be reduced; through the glass cushion blocks in the first window rod, the second window rod, the third window rod and the fourth window rod, the deformation of the window frame in an earthquake can be absorbed, so that energy is reduced to be transmitted to glass, the glass is protected to a certain extent, and the glass cannot be cracked easily and harm the life safety.

2. This kind of bridge cut-off aluminum alloy system window with high-strength shock-absorbing performance is through being equipped with clamping mechanism in inside one side of glass mounting groove for glass only needs to press from both sides tightly fixed it through clamping mechanism when window frame is inside to be installed, makes the mounting means of glass and window frame change, is convenient for install and dismantle the change to glass.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic structural view of a first window bar and a second window bar of the present invention;

fig. 3 is a schematic structural view of a third window bar and a fourth window bar of the present invention;

fig. 4 is a schematic structural view of a fifth window bar of the present invention;

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Example 1

As shown in fig. 1-4, the utility model provides a bridge cut-off aluminum alloy system window with high-strength damping performance, including window form 1, window form 1 includes first window pole 2, second window pole 3, third window pole 4, fourth window pole 5 and glass 6, window form 1 is constituteed to first window pole 2, second window pole 3, third window pole 4 and fourth window pole 5, all fix through screw 7 between first window pole 2, second window pole 3, third window pole 4 and the fourth window pole 5, first window pole 2, second window pole 3, the junction between third window pole 4 and the fourth window pole 5 all is equipped with gasket 8, the side of first window pole 2 and second window pole 3 be equipped with screw 7 nut external diameter assorted slotted hole 9.

The medial surface of first window pole 2, second window pole 3, third window pole 4 and fourth window pole 5 all is equipped with glass mounting groove 11, and one side of glass mounting groove 11 is equipped with clamping piece 16, and the right flank of clamping piece 16 is equipped with bolt 17, first window pole 2, second window pole 3, third window pole 4 and fourth window pole 5 surfaces all be equipped with bolt 17 assorted through-hole 19, and the left end of clamping piece 16 still is equipped with protection pad 18.

The middle part of window body 1 still is equipped with fifth window pole 10, and the both ends of fifth window pole 10 are equipped with plug-in components 15, and third window pole 4 all is equipped with jack 14 with fourth window pole 5 surperficial both ends, and fifth window pole 10 all passes through plug-in components 15 and jack 14 grafting with third window pole 4, fifth window pole 10 and fourth window pole 5 and fixes.

The first window rod 2, the second window rod 3, the third window rod 4 and the fourth window rod 5 are all internally provided with glass cushion placing grooves 12.

A gasket 8 is also arranged between the joints of the fifth window rod 10 and the third window rod 4 and the fourth window rod 5.

The gasket 8 and the protection pad 18 are rubber gaskets, the gasket 8 can absorb longitudinal vibration and transverse vibration brought by earthquake, gaps between window bodies are reduced, and the protection pad 18 can protect glass and prevent the glass from directly contacting the clamping member 16.

The window body is a broken bridge aluminum alloy system window with high-strength shock absorption performance, when the window body needs to be used, an assembling person fixes a fifth window rod 10 between a third window rod 4 and a fourth window rod 5 by placing a glass cushion block in a glass cushion block placing groove 12 through plug-in components 15 at two ends of the fifth window rod 10 and plug-in holes 14 on the inner surfaces of the third window rod 4 and the fourth window rod 5, after the fifth window rod 10 is installed, the assembling person puts glass 6 on the surface of a glass installing groove 11 on the inner side of the window rod, the assembling person enables a bolt 17 to move towards the left end in the glass installing groove 11 through a through hole 19 on the inner surface of the window rod, a clamping member 16 directly contacts the glass through a protective pad 18 to enable the glass to abut against the inside of the glass installing groove 11, so that the glass is fixed, the assembling person completes the combination of the window body 1 through the bolt 7, and after the assembly of the window body 1 is completed, the assembly personnel fix window form 1 on the wall surface, when meetting the earthquake, first window pole 2, second window pole 3, third window pole 4, the gasket 8 of junction between fourth window pole 5 and the fifth window pole 10 can absorb vertical and horizontal vibrations that bring when the earthquake, reduce window form 1 and appear the clearance, glass 6 to 1 inside of window form protects, first window pole 2, second window pole 3, third window pole 4, the inside glass cushion standing groove 12 of fourth window pole 10, the glass cushion who fills can absorb the window frame deflection when the earthquake, thereby reduce energy transmission to glass 6, thereby protect glass 6, the vibrations that make the earthquake produce can not directly be used to glass 6 surfaces.

1. The bridge-cut-off aluminum alloy system window with high-strength shock absorption performance can effectively improve the flexibility of a window frame by adopting a flexible connection structure, and longitudinal and transverse shock caused by an earthquake can be absorbed by rubber materials between the connection parts, so that gaps between window bodies can be reduced; through the glass cushion blocks in the first window rod, the second window rod, the third window rod and the fourth window rod, the deformation of the window frame in an earthquake can be absorbed, so that energy is reduced to be transmitted to glass, the glass is protected to a certain extent, and the glass cannot be cracked easily and harm the life safety.

2. This kind of bridge cut-off aluminum alloy system window with high-strength shock-absorbing performance is through being equipped with clamping mechanism in inside one side of glass mounting groove for glass only needs to press from both sides tightly fixed it through clamping mechanism when window frame is inside to be installed, makes the mounting means of glass and window frame change, is convenient for install and dismantle the change to glass.

Finally, it should be noted that: although the present invention has been described in detail 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 in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A bridge-cut-off aluminum alloy system window with high-strength shock absorption performance comprises a window body (1), characterized in that the window body (1) comprises a first window rod (2), a second window rod (3), a third window rod (4), a fourth window rod (5) and glass (6), the first window bar (2), the second window bar (3), the third window bar (4) and the fourth window bar (5) form the window body (1), the first window bar (2), the second window bar (3), the third window bar (4) and the fourth window bar (5) are fixed through screws (7), gaskets (8) are arranged at the joints among the first window rod (2), the second window rod (3), the third window rod (4) and the fourth window rod (5), and slotted holes (9) matched with the outer diameters of nuts of the screws (7) are formed in the side surfaces of the first window rod (2) and the second window rod (3).

2. A broken bridge aluminum alloy system window with high strength and shock absorption performance as claimed in claim 1, wherein the inner side surfaces of the first window rod (2), the second window rod (3), the third window rod (4) and the fourth window rod (5) are all provided with a glass installation groove (11), one side of the glass installation groove (11) is provided with a clamping member (16), the right side surface of the clamping member (16) is provided with a bolt (17), the surfaces of the first window rod (2), the second window rod (3), the third window rod (4) and the fourth window rod (5) are all provided with a through hole (19) matched with the bolt (17), and the left end of the clamping member (16) is further provided with a protection pad (18).

3. A broken bridge aluminum alloy system window with high-strength shock-absorbing performance as claimed in claim 2, wherein a fifth window rod (10) is further disposed in the middle of the window body (1), inserts (15) are disposed at two ends of the fifth window rod (10), insertion holes (14) are disposed at two ends of the surfaces of the third window rod (4) and the fourth window rod (5), and the fifth window rod (10) and the third window rod (4), the fifth window rod (10) and the fourth window rod (5) are fixed by the inserts (15) and the insertion holes (14) in an inserting manner.

4. A broken bridge aluminum alloy system window with high damping performance according to claim 1, wherein the first window rod (2), the second window rod (3), the third window rod (4) and the fourth window rod (5) are all provided with glass cushion placing grooves (12) inside.

5. A broken bridge aluminum alloy system window with high damping performance according to claim 3, wherein said gasket (8) is also provided between the joints of said fifth window rod (10) and said third window rod (4) and said fourth window rod (5).

6. A broken bridge aluminum alloy system window with high shock absorption performance according to claim 5, wherein the gasket (8) and the protection pad (18) are both rubber gaskets.

7. A broken bridge aluminum alloy system window with high damping performance as claimed in claim 2, wherein the bolt (17) is threaded with the first window rod (2), the second window rod (3), the third window rod (4) and the fourth window rod (5), respectively.

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