CN115478761B

CN115478761B - Aluminum-clad wood window

Info

Publication number: CN115478761B
Application number: CN202211175030.7A
Authority: CN
Inventors: 李兴宇
Original assignee: Hunan Gaobang Decoration Engineering Co ltd
Current assignee: Hunan Gaobang Decoration Engineering Co ltd
Priority date: 2022-09-26
Filing date: 2022-09-26
Publication date: 2023-08-22
Anticipated expiration: 2042-09-26
Also published as: CN115478761A

Abstract

The invention relates to the field of windows, in particular to an aluminum-clad wood window. The utility model provides an aluminium package wood window, includes frame strip, aluminum plate I and T shape support, aluminum plate I's middle part integrated into one piece has T shape support, and T shape support bonds in the rear side of frame strip. Still include spread groove, slot and rubber pole, the left side rear portion of frame strip is provided with the spread groove, and aluminum plate I's left part is provided with the slot, and the both ends of rubber pole are inserted respectively in spread groove and slot, and the rubber pole bonds in spread groove and slot. The aluminum plate I is characterized by further comprising transverse edges, and a plurality of transverse edges are arranged on the rear side of the aluminum plate I from top to bottom. The sliding seat is connected with the sliding strip in a sliding manner, the vertical shaft is fixedly connected with the lower side of the sliding strip, and the vertical shaft is inserted into the hollow seat. Can effectively support aluminum and improve the anti-collision performance of aluminum.

Description

Aluminum-clad wood window

Technical Field

The invention relates to the field of windows, in particular to an aluminum-clad wood window.

Background

The aluminum-clad wood door and window is a frame body formed by compounding a heat-insulating bridge-cut-off aluminum alloy section bar and solid wood by a mechanical method on the premise of retaining the characteristics and functions of the pure solid wood door and window. The two materials can be connected with each other, so that the strength and corrosion resistance of the wood window are improved fully. But the sound insulation effect of the conventional aluminum clad wood window is general, and the supportability of the aluminum case on the aluminum clad wood window is general.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides the aluminum-clad wood window which has the beneficial effects that the aluminum-clad wood window can effectively support aluminum and improve the anti-collision performance of the aluminum.

The utility model provides an aluminium package wood window, includes frame strip, aluminum plate I and T shape support, aluminum plate I's middle part integrated into one piece has T shape support, and T shape support bonds in the rear side of frame strip.

Still include spread groove, slot and rubber pole, the left side rear portion of frame strip is provided with the spread groove, and aluminum plate I's left part is provided with the slot, and the both ends of rubber pole are inserted respectively in spread groove and slot, and the rubber pole bonds in spread groove and slot.

The aluminum plate I is characterized by further comprising transverse edges, and a plurality of transverse edges are arranged on the rear side of the aluminum plate I from top to bottom.

Still include axle bed, draw runner, vertical axis and hollow seat, the front side of frame strip has the axle bed through the screw connection, and the front side of inside casing strip has the hollow seat through the screw connection, and sliding connection has the draw runner on the hollow seat, and the downside fixedly connected with vertical axis of draw runner, vertical axis insert on the hollow seat, threaded connection has the fastening screw on the hollow seat, and the fastening screw presses on the draw runner.

Drawings

The invention will be described in further detail with reference to the accompanying drawings and detailed description.

FIG. 1 is a schematic structural view of an aluminum clad wood window;

FIG. 2 is a schematic diagram of a second aluminum clad wood window;

fig. 3 is a schematic structural view of an aluminum clad wood window;

fig. 4 is a schematic structural view of an aluminum clad wood window;

FIG. 5 is a schematic diagram of the structure of the outer frame strip;

FIG. 6 is a schematic diagram II of the structure of the outer frame strip;

FIG. 7 is a schematic view of the first inner frame strip;

FIG. 8 is a schematic diagram II of the inner frame strips;

fig. 9 is a schematic structural view of an aluminum plate I;

fig. 10 is a schematic diagram II of the structure of the aluminum plate I;

FIG. 11 is a schematic structural view of aluminum plate II;

FIG. 12 is a schematic diagram II of the structure of the aluminum plate II;

fig. 13 is a schematic view of the structure of the door-shaped member.

In the figure: an outer frame bar 101; a connection groove 102; a concave portion 103; a convex strip 104; axle seat 105;

a rubber barrel 201; rubber ribs 202;

inner frame strips 301; a glass trough 302; a cambered surface groove 303; a rubber strip 304; a convex portion 305; a slider 306; a vertical axis 307; a hollow seat 308;

aluminum plate I401; a slot 402; an adduction section I403; an edge strip 404; a rubber rod 405; a T-shaped bracket 406; a transverse rib 407;

aluminum plate II501; an adduction part II502; a support bar 503; a rectangular rubber 504;

a gate 601; a spacer bar 602; a connecting bar 603; a circular ring 604; glass 605.

Detailed Description

This example can achieve the effect of improving the impact resistance of the aluminum plate I401, as shown in fig. 5 to 10.

Because the aluminum-clad wood window comprises the outer frame strip 101, the aluminum plate I401 and the T-shaped support 406, the T-shaped support 406 is integrally formed in the middle of the aluminum plate I401, and the T-shaped support 406 is adhered to the rear side of the outer frame strip 101. Install the aluminum plate I401 in the outside of the frame strip 101 of wood and protect frame strip 101, promoted the intensity and the corrosion resistance of wood window to support aluminum plate I401 through T shape support 406, promoted aluminum plate I401's anti-collision's performance, have the air between frame strip 101 and the aluminum plate I401, make the window more give sound insulation and thermal insulation.

This example can achieve an effect of making better sealability between the outer frame strip 101 and the aluminum plate I401, as shown in fig. 5 to 10.

Because aluminium package wood window still includes spread groove 102, slot 402 and rubber pole 405, spread groove 102 sets up the left side rear portion at frame strip 101, and slot 402 sets up the left portion at aluminum plate I401, and rubber pole 405's both ends are inserted respectively in spread groove 102 and slot 402, and rubber pole 405 bonds in spread groove 102 and slot 402, links together frame strip 101 and one side of aluminum plate I401 through rubber material's rubber pole 405 for better leakproofness has between frame strip 101 and the aluminum plate I401.

This example can achieve the effect of improving the strength of the aluminum plate I401, as shown in fig. 9 to 10.

Because the aluminum-clad wood window further comprises the transverse ribs 407, the transverse ribs 407 are welded on the rear side of the aluminum plate I401 from top to bottom, and the aluminum plate I401 is reinforced by the transverse ribs 407, so that the strength of the aluminum plate I401 is improved.

This example achieves the effect of allowing close between the inner 301 and outer 101 strips, as shown in figures 5-8.

Because the aluminum-clad wood window further comprises the shaft seat 105, the sliding strips 306, the vertical shafts 307 and the hollow seat 308, the front side of the outer frame strip 101 is connected with the shaft seat 105 through screws, the shaft seat 105 is provided with insertion holes corresponding to the vertical shafts 307, the front side of the inner frame strip 301 is connected with the hollow seat 308 through screws, the sliding strips 306 are connected to the hollow seat 308 in a sliding manner, the vertical shafts 307 are welded on the lower side of the sliding strips 306, the vertical shafts 307 are matched with vertical holes inserted in the shaft seat 105 in a clearance manner, the hollow seat 308 is connected with fastening screws in a threaded manner, and the fastening screws are pressed on the sliding strips 306. The outer frame strip 101 corresponds to a window frame fixed on a wall, the inner frame strip 301 corresponds to a window frame capable of being opened and closed in a rotating mode, the outer frame strip 101 and the inner frame strip 301 are hinged together through the cooperation of the vertical shaft 307 and the shaft seat 105, the inner frame strip 301 is pressed on the outer frame strip 101 when closed, further window closing operation is completed, the left and right positions of the vertical shaft 307 can be controlled through the sliding mode of the sliding strip 306 on the hollow seat 308, and when the inner frame strip 301 is not tightly pressed on the outer frame strip 101 when closed, the left and right positions of the vertical shaft 307 are adjusted, so that the inner frame strip 301 and the outer frame strip 101 are tightly closed.

This example may achieve the effect of improving the sealing performance when the window is closed, as shown in fig. 7-10.

Because aluminium package wood window still includes arc groove 303 and edge strip 404, and the rear right side of convex part 305 is provided with arc groove 303, and the left side of rubber pole 405 is provided with edge strip 404, after inside casing strip 301 is pressed on frame strip 101, the sealing performance when window was closed has been promoted to the edge strip 404 entering arc groove 303 of rubber material.

As shown in fig. 5 to 8, this example can achieve the effect of making the inner frame strip 301 and the outer frame strip 101 contact one surface having a plurality of bends.

Because the aluminum-clad wood window further comprises the concave part 103 and the convex part 305, the convex part 305 is arranged at the front part of the right side of the inner frame strip 301, the concave part 103 is arranged at the left side of the front part of the outer frame strip 101, the convex part 305 can be pressed on the concave part 103, and when the window is closed, the convex part 305 on the inner frame strip 301 is pressed on the concave part 103 on the outer frame strip 101, so that the inner frame strip 301 and the outer frame strip 101 are in contact with each other and are provided with a plurality of bending surfaces, and rainwater is prevented from entering a room from a gap between the inner frame strip 301 and the outer frame strip 101.

This example achieves the effect of improving the closure of the window through multiple seals, as shown in fig. 5-8.

Because aluminium package wood window still includes sand grip 104 and rubber strip 304, and the right angle department of concave part 103 is provided with sand grip 104, and the right side of inside casing strip 301 bonds and has rubber strip 304, and rubber strip 304 can press on sand grip 104, and when inside casing strip 301 was pressed on outside frame strip 101, rubber strip 304 was pressed towards sand grip 104, and then carries out another seal at the centre bending position of inside casing strip 301 and outside frame strip 101, has promoted the closure of window through the multichannel seal.

This example may achieve the effect of making the window less audible when closed, as shown in fig. 5-8.

Because aluminium package wood window still includes rubber barrel 201 and rubber arris 202, a plurality of rubber arris 202 set up in the inside of rubber barrel 201, a plurality of rubber arris 202 cross arrangement, make rubber barrel 201 have stronger resilience, concave part 103 department bonds and has rubber barrel 201, the right side of convex part 305 bonds and has rubber barrel 201, two rubber barrels 201 can pressfitting each other, when inside casing strip 301 presses to outside frame strip 101, two rubber barrels 201 contact each other once more, carry out sealing once more between the front portion of inside casing strip 301 and outside frame strip 101, and because two rubber barrels 201 all have good resilience, and then make two rubber barrels 201 can strike buffering each other when closing the window, sound when making the window close is less.

This example achieves the effect of two support bars 503 supporting aluminum sheet II501 as shown in fig. 11-12.

Because aluminum-clad wood window still includes aluminum plate II501 and support bar 503, the left and right sides both ends of aluminum plate II501 front side all are provided with support bar 503, and the rear side of inner frame strip 301 is glued to two support bars 503. Aluminum plate II501 protects the outside of inside casing strip 301 for ligneous inside casing strip 301 intensity and corrosion resistance are stronger, and two support strips 503 support aluminum plate II501, have promoted aluminum plate II 501's anti striking's performance.

This example can achieve the effect of sealing again on the outermost side of the window, as shown in fig. 9-12.

Because aluminium package wood window still includes rectangle rubber 504 and adduction portion I403, aluminium aluminum plate I401's left side is provided with adduction portion I403, and aluminium plate II 501's rear side bonds there is rectangle rubber 504, and adduction portion I403 can press on rectangle rubber 504, and when the window was closed, adduction portion I403 can press on rectangle rubber 504 for combine sealedly between aluminium plate I401 and the aluminium plate II501, seal once more in the outside of window, greatly promoted the leakproofness of window.

The aluminum-clad wood window further comprises a glass groove 302, a door-shaped piece 601, spacing bars 602 and glass 605, the glass groove 302 is arranged on the left side of the inner frame bar 301, the door-shaped piece 601 is adhered to the glass groove 302, three pieces of glass 605 are inserted onto the door-shaped piece 601, the edges of the three pieces of glass 605 are separated by the two spacing bars 602, and the spacing bars 602 are adhered to the corresponding pieces of glass 605.

This example may achieve the effect of improving the insulating capacity of the window, as shown in fig. 7-13.

Three glasses 605 are arranged on the inner frame strip 301 through the glass groove 302 and the door-shaped piece 601, the three glasses 605 form two interlayers, the heat insulation capacity of the window is improved, and the spacing strip 602 is used for enabling the three glasses 605 to generate a space.

The aluminum-clad wood window further comprises an inner receiving part II502, a connecting strip 603 and a circular ring 604, two circular rings 604 are arranged between the three glass 605, the circular rings 604 are connected to the spacing strip 602 through the connecting strip 603, the inner receiving part II502 is arranged on the left side of the aluminum plate II501, and the end part of the inner receiving part II502 is pressed on the glass 605 located on the rear side.

This example, as shown in fig. 11-13, can achieve the effect of avoiding the lower strength caused by the middle portion of the glass 605 being unsupported.

The ring 604 plays a supporting role between two adjacent glasses 605, so that the problem that the strength is low due to the fact that the middle part of the glass 605 is not supported is avoided, and the inner receiving part II502 can be pressed on the glass 605 at the outermost side, so that the aluminum plate II501 and the glass are perfectly combined.

Claims

1. The utility model provides an aluminium package wood window, includes frame strip (101), aluminum plate I (401) and T shape support (406), its characterized in that: a T-shaped bracket (406) is integrally formed in the middle of the aluminum plate I (401), and the T-shaped bracket (406) is adhered to the rear side of the outer frame strip (101);

the novel aluminum plate comprises an aluminum plate I (401), and is characterized by further comprising a connecting groove (102), a slot (402) and a rubber rod (405), wherein the connecting groove (102) is formed in the rear portion of the left side of the outer frame strip (101), the slot (402) is formed in the left portion of the aluminum plate I (401), two ends of the rubber rod (405) are respectively inserted into the connecting groove (102) and the slot (402), and the rubber rod (405) is adhered into the connecting groove (102) and the slot (402);

the aluminum plate I (401) is provided with a plurality of transverse ribs (407) from top to bottom;

the novel sliding seat comprises an outer frame strip (101), and is characterized by further comprising a shaft seat (105), a sliding strip (306), a vertical shaft (307) and a hollow seat (308), wherein the shaft seat (105) is connected to the front side of the outer frame strip (101) through a screw, the hollow seat (308) is connected to the front side of the inner frame strip (301) through a screw, the sliding strip (306) is connected to the hollow seat (308) in a sliding manner, the vertical shaft (307) is fixedly connected to the lower side of the sliding strip (306), the vertical shaft (307) is inserted into the hollow seat (308), a fastening screw is connected to the hollow seat (308) through a screw thread, and the fastening screw is pressed on the sliding strip (306);

the novel rubber rod comprises a rubber rod (405) and is characterized by further comprising an arc groove (303) and an edge strip (404), wherein the arc groove (303) is formed in the right side of the rear part of the convex part (305), the edge strip (404) is arranged on the left side of the rubber rod (405), and the edge strip (404) can be inserted into the arc groove (303);

the novel inner frame comprises an outer frame strip (101), and is characterized by further comprising a concave part (103) and a convex part (305), wherein the convex part (305) is arranged at the front part of the right side of the inner frame strip (301), the concave part (103) is arranged at the left side of the front part of the outer frame strip (101), and the convex part (305) can be pressed on the concave part (103);

the rubber strip (304) is adhered to the right side of the inner frame strip (301), and the rubber strip (304) can be pressed on the raised strips (104);

the novel rubber cylinder comprises a concave part (103) and is characterized by further comprising a rubber cylinder (201) and rubber ribs (202), wherein a plurality of rubber ribs (202) are arranged in the rubber cylinder (201), the rubber ribs (202) are arranged in a crossing mode, the rubber cylinder (201) is adhered to the concave part (103), the rubber cylinder (201) is adhered to the right side of the convex part (305), and the two rubber cylinders (201) can be pressed together;

the aluminum plate II (501) and the supporting strips (503) are also included, the supporting strips (503) are arranged at the left end and the right end of the front side of the aluminum plate II (501), and the two supporting strips (503) are adhered to the rear side of the inner frame strip (301);

the aluminum plate II (501) is adhered with the rectangular rubber (504), and the inner receiving part I (403) can be pressed on the rectangular rubber (504).

2. An aluminum clad wood window according to claim 1, wherein: the aluminum-clad wood window further comprises a glass groove (302), a door-shaped piece (601), spacing bars (602) and glass (605), the glass groove (302) is formed in the left side of the inner frame bar (301), the door-shaped piece (601) is adhered to the glass groove (302), three glass (605) are inserted onto the door-shaped piece (601), the edges of the three glass (605) are spaced through the two spacing bars (602), and the spacing bars (602) are adhered to the corresponding glass (605).

3. An aluminum clad wood window according to claim 2, wherein: the aluminum-clad wood window further comprises an inner receiving part II (502), connecting strips (603) and circular rings (604), two circular rings (604) are arranged between the three glass (605), the circular rings (604) are connected to the spacing strips (602) through the connecting strips (603), the inner receiving part II (502) is arranged on the left side of the aluminum plate II (501), and the end part of the inner receiving part II (502) is pressed on the glass (605) located on the rear side.