CN215485609U - Aluminium alloy sliding window - Google Patents

Abstract

The utility model belongs to the technical field of building door and window and specifically relates to an aluminum alloy austral window, sliding sash is related to, including window frame and at least one push-and-pull casement, and the push-and-pull casement slides and sets up in the window frame, and one side that window frame and push-and-pull casement slide each other along the direction that the push-and-pull casement slides is close to all is equipped with the anti-deformation device who is used for preventing window frame and push-and-pull casement deformation. This application is in the use, promotes the push-and-pull casement and slides in the window frame, and the window frame takes place the striking with one side that the direction that the push-and-pull casement slided along the push-and-pull casement is close to each other, establishes anti-deformation device on window frame and push-and-pull casement and supports window frame and push-and-pull casement to make the whole of aluminum alloy austral window, sliding sash be difficult to take place to warp.

Description

Aluminium alloy sliding window

Technical Field

The application relates to the technical field of building doors and windows, in particular to an aluminum alloy sliding window.

Background

The aluminum alloy window is a window with frame and sash structures made of aluminum alloy profiles, has the advantages of attractive appearance, good sealing property, high strength and the like, and is widely applied to the field of constructional engineering. In home decoration, aluminum alloy doors and windows are commonly used to encapsulate balconies.

The chinese utility model patent with application number 201921228884.0 discloses an aluminum alloy sliding window sash, which comprises an inner glass member and an outer glass member arranged in parallel, an upper sash frame and a lower sash frame for fixing the inner glass member and the outer glass member, and an upper track and a lower track slidably connected with the upper sash frame and the lower sash frame; the lower rail is an inner lower rail and an outer lower rail, and the height of the inner lower rail is higher than that of the outer lower rail.

In view of the above-mentioned related technologies, the inventor believes that, in the use process of the aluminum alloy sliding window, the aluminum alloy sliding window is pushed and pulled for a long time, and when the inside of the aluminum alloy sliding window is impacted, the whole aluminum alloy sliding window is easy to deform.

SUMMERY OF THE UTILITY MODEL

In order to enable the whole aluminum alloy sliding window not to deform easily in the using process, the application provides the aluminum alloy sliding window.

The application provides an aluminum alloy austral window, sliding sash adopts following technical scheme:

an aluminum alloy sliding window comprises a window frame and at least one sliding window sash, wherein the sliding window sash is arranged in the window frame in a sliding mode, and anti-deformation devices used for preventing the window frame and the sliding window sash from deforming are arranged on the side, close to each other, of the window frame and the sliding window sash in the sliding direction of the sliding window sash.

Through adopting above-mentioned technical scheme, promote the push-and-pull casement and slide in the window frame, and the window frame takes place the striking with one side that the push-and-pull casement is close to each other, and anti-deformation device can be so that window frame and push-and-pull casement non-deformable to the use durability of reinforcing aluminum alloy austral window, sliding sash.

Optionally, the window frame includes two window frame pillars that the interval set up, the push-and-pull casement includes two sash frame pillars that all establish between two window frame pillars and the interval sets up, anti-deformation device establishes in window frame pillar and sash frame pillar, anti-deformation device includes arch and filler, the arch is established in window frame pillar and sash frame pillar, the filler joint is fixed in the arch.

By adopting the technical scheme, when the window frame and the sliding window sash are impacted, the window frame upright post and the sash frame upright post are impacted with each other, and the window frame upright post and the sash frame upright post are not easy to deform due to the impact because of the support of the filler; and the filler is fixed through protruding joint, and the installation of filler in window frame stand and fan frame stand is more firm.

Optionally, a fixed window sash and a sliding window sash are arranged in the window frame, the fixed window sash is fixed in the window frame, and the sliding window sash and the fixed window sash are arranged in a staggered manner.

By adopting the technical scheme, the fixed window sash is not movable, the push-pull window sash can be moved, so that the aluminum alloy push-pull window is set to be in a single-opening mode, the aluminum alloy push-pull window can be used in a specific scene, for example, in the case that an air conditioner external unit is arranged at one end of the fixed window sash of the aluminum alloy push-pull window, the fixed window sash does not need to be opened or closed, and outdoor heat can be effectively prevented from entering a room when the fixed window sash is fixed.

Optionally, the fixed window sash comprises a fixed upright and a fixed glass piece, the fixed upright is arranged in the middle of the window frame, the fixed glass piece is arranged between the fixed upright and one of the window frame uprights, a push-pull glass piece is arranged between the two sash frame uprights, and sealing pieces are arranged at the fixed connection positions of the fixed glass piece and the window frame uprights and the fixed upright and at the fixed connection positions of the push-pull glass piece and the sash frame uprights.

By adopting the technical scheme, the sealing element enhances the sealing performance between the fixed glass piece and the window frame upright post and the fixed upright post as well as between the push-pull glass piece and the sash frame upright post, thereby preventing dust or water from entering the window frame upright post, the fixed upright post or the sash frame upright post.

Optionally, the window frame upright post and the fixed upright post are both provided with fixed glass mounting parts, and the fixed glass pieces are embedded in the fixed glass mounting parts; the window frame is characterized in that the sash frame upright post is provided with a push-pull glass mounting part, the push-pull glass piece is embedded in the push-pull glass mounting part, and the sealing elements are arranged between the push-pull glass piece and the push-pull glass mounting part and between the fixed glass piece and the fixed glass mounting part.

Through adopting above-mentioned technical scheme, fixed glass installing component has the clamping action to fixed glass spare, and push-and-pull glass installing component has the clamping action to push-and-pull glass spare for the installation of fixed glass spare and push-and-pull glass spare is more firm.

Optionally, the fixed glass mounting component is provided with a mounting groove, and the sealing element is arranged in the mounting groove.

Through adopting above-mentioned technical scheme, the installation of the sealing member of being convenient for of mounting groove, and form spacing between sealing member and the mounting groove for the sealing member is difficult for droing from fixed glass installation component.

Optionally, one side of the push-pull glass mounting component, which is close to the push-pull glass piece, is provided with a sawtooth section, and the sealing element is arranged between the sawtooth section and the push-pull glass piece.

Through adopting above-mentioned technical scheme, the sawtooth section has increased the frictional force between push-and-pull glass spare installation component and the sealing member to make the sealing member be difficult for droing from between push-and-pull glass spare installation component and the push-and-pull glass spare.

Optionally, a handle is arranged on one side of the push-pull window sash close to the indoor space.

By adopting the technical scheme, when the push-pull window sash is pushed, the handle can be held to push the window sash, so that the aim of saving labor is fulfilled.

Optionally, the handle is rotatably arranged on the upright post of the sash frame, an overturning bulge is arranged at one end of the handle close to the window frame, a limiting section is arranged at one end of the overturning bulge close to the window frame, and the limiting section is fixedly clamped with the window frame and limits the sliding of the sliding sash.

By adopting the technical scheme, when the sliding sash is closed, the handle is driven to rotate, so that the overturning bulge and the limiting section both rotate, the limiting section rotates into the window frame upright post to form limiting with the window frame upright post, and at the moment, the sliding sash is fixedly connected with the window frame, so that the sliding sash and the window frame are not easy to slide, and the aluminum alloy sliding window is easier to keep a closed state; the handle is rotated to enable the limiting section to extend out of the window frame, the limiting between the limiting section and the window frame is removed, and the sliding window sash can be pushed, so that the aluminum alloy sliding window is in an open state.

Optionally, one side of the window frame stand column close to the fan frame stand column is provided with a connecting block, the connecting block is matched with the fan frame stand column in an inserting mode, the inner side wall of one end, close to the connecting block, of the fan frame stand column is provided with wool tops, and the wool tops are mutually abutted to the connecting block.

By adopting the technical scheme, the wool tops fill the gap between the upright post of the fan frame and the connecting block, and the tightness of the aluminum alloy sliding window in a closed state is enhanced, so that external substances are not easy to enter the room.

In summary, the present application includes at least one of the following beneficial technical effects:

the anti-deformation devices in the window frame and the sliding window sash support the window frame and the sliding window sash, so that the whole aluminum alloy sliding window is not easy to deform;

the handle capable of being turned is arranged on the sliding sash, the handle drives the turning bulge of the handle to extend into the window frame, and the limiting section and the window frame form limiting, so that the aluminum alloy sliding window can be more easily kept in a closed state;

the wool tops are mutually abutted with the connecting blocks, gaps between the sliding window sashes and the connecting blocks are filled with the wool tops, and the airtightness of the aluminum alloy sliding window is enhanced.

Drawings

Fig. 1 is a schematic structural diagram of an aluminum alloy sliding window in the embodiment of the present application.

Fig. 2 is a horizontal sectional view of an aluminum alloy sliding window according to an embodiment of the present application.

Fig. 3 is an enlarged view at a in fig. 2.

Fig. 4 is an enlarged view at B in fig. 2.

Description of reference numerals: 1. a window frame; 2. sliding the window sash; 21. a fan frame upright post; 3. fixing the window sash; 31. fixing the upright post; 4. a window frame pillar; 51. a window frame cross member; 52. fixing a sash cross beam; 53. a sliding sash beam; 6. an anti-deformation device; 61. a protrusion; 62. a filler; 71. fixing a glass mounting member; 711. a fixed connection section; 72. a push-pull glass mounting member; 721. a push-pull connecting section; 8. installing a groove; 9. a seal member; 101. fixing the glass piece; 102. pushing and pulling the glass piece; 11. connecting blocks; 13. a sawtooth section; 14. a handle; 15. turning over the bulge; 151. a limiting section; 16. and (5) wool tops.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses an aluminum alloy sliding window. Referring to fig. 1, the aluminum alloy sliding window includes a window frame 1 and a window sash. The window frame 1 is embedded in the building main body, the window sash is arranged in the window frame 1, the window frame 1 is used as an installation foundation of the window sash, and the window sash is used for lighting. The window sash can be set as a push-pull window sash 2 and a fixed window sash 3, the push-pull window sash 2 is arranged in the window frame 1 in a sliding mode, the fixed window sash 3 is fixedly arranged in the window frame 1, and the push-pull window sash 2 and the fixed window sash 3 are arranged in a staggered mode, so that the single-opening mode of the aluminum alloy push-pull window is realized under the specific condition. The casement can set up to two push-and-pull casement 2, and two push-and-pull casement 2 all slide and set up in window frame 1, and push-and-pull casement 2 dislocation set, and the aluminum alloy austral window, sliding sash is the form of two divisions promptly. In this embodiment, a sliding sash 2 and a fixed sash 3 are provided in the window frame 1.

Referring to fig. 2, the window frame 1 includes a frame pillar 4 and a frame beam 51. The two window frame upright posts 4 are arranged at intervals, and the window frame upright posts 4 are vertically arranged; two window frame cross beams 51 are horizontally arranged between the two window frame upright posts 4, one window frame cross beam 51 is fixedly connected at one end, far away from the ground, of the two window frame upright posts 4, the other window frame cross beam 51 is fixedly connected at one end, close to the ground, of the two window frame upright posts 4, and the rectangular window frame 1 is enclosed by the window frame cross beams 51 and the window frame upright posts 4.

The fixed sash 3 includes a fixed pillar 31, a fixed sash beam 52, and a fixed glass 101. The fixed upright column 31 is vertically fixed in the middle of the window frame cross beam 51, two fixed sash cross beams 52 are horizontally fixed between the fixed upright column 31 and any one of the window frame upright columns 4, and the fixed sash cross beams 52, the window frame upright columns 4 and the fixed upright column 31 enclose to form a rectangular frame-shaped structure. The fixed glass element 101 is fixed in a rectangular frame-like structure enclosed by the fixed sash beam 52, the frame upright 4 and the fixed upright 31.

Referring to fig. 2 and 3, the fixed glass mounting part 71 is provided on both the fixed pillar 31 and the side of the frame pillar 4 adjacent to the fixed sash 3 adjacent to the fixed glass 101. The fixed glass mounting part 71 is composed of two fixed attachment sections 711. The fixing attachment section 711 is formed by the fixing post 31 and the side wall of the sash post 4 extending in the direction close to the fixing glass member 101, and the two fixing attachment sections 711 are parallel to each other. Both sides of the fixed glass member 101 in the horizontal direction are embedded between the two fixed connecting sections 711. So that the fixing glass mounting part 71 has a clamping effect on the fixing glass member 101, thereby making the fixing glass member 101 mounted more stably.

The mounting groove 8 is arranged on the side of the fixed upright column 31 or the window frame upright column 4, which is close to the two fixed connecting sections 711, and the mounting groove 8 is arranged at one end of the fixed connecting section 711 close to the fixed glass part 101. A sealing piece 9 is arranged in the mounting groove 8. The seal member 9 serves to enhance the sealing between the fixing glass member 101 and the fixing glass mounting member 71 and prevent dust or water from entering the inside of the sash stud 4.

The sealing element 9 can be made of waterproof glue, one end of the sealing element 9 is clamped and fixed in the mounting groove 8, and the other end of the sealing element 9 is fixedly connected with the fixed glass element 101. A stopper is formed between the sealing member 9 and the side wall of the mounting groove 8 so that the sealing member 9 is not easily removed from the fixing glass mounting member 71.

Referring to fig. 2 and 4, the push-pull window sash 2 includes a sash frame pillar 21, a push-pull window sash cross member 53, and a push-pull glass member 102. Two sash frame upright posts 21 are arranged in the window frame 1 at intervals, and the sash frame upright posts 21 are parallel to the window frame upright posts 4. Two sliding sash cross beams 53 are horizontally fixed between the two sash frame upright posts 21, and the sliding sash cross beams 53 and the sash frame upright posts 21 are enclosed to form a rectangular frame-shaped structure. The sliding sash beam 53 is slidably arranged on the frame beam 51. The push-pull glass member 102 is provided in a rectangular frame-like structure surrounded by the push-pull sash cross member 53 and the sash frame pillar 21.

The sash frame upright 21 is provided with a push-pull glass mounting part 72 on the side close to the push-pull glass member 102, and the push-pull glass mounting part 72 is composed of two push-pull connecting sections 721. The push-pull connecting section 721 is formed by extending the side wall of the sash frame upright 21 in a direction close to the push-pull glass member 102, and the two push-pull connecting sections 721 are parallel to each other. Both sides of the push-pull glass member 102 in the horizontal direction are embedded between the two push-pull connection sections 721, so that the push-pull glass mounting member 72 has a clamping effect on the push-pull glass member 102, and the push-pull glass member 102 can be mounted more stably.

The two push-pull connecting sections 721 are fixed with saw tooth sections 13 at the sides close to each other, and the saw tooth sections 13 are provided at the ends close to the push-pull glass member 102. A seal 9 is also provided between the push-pull connection 721 and the push-pull glass element 102, which seal 9 is identical to the seal 9 in the mounting groove 8. One end of the sealing member 9 is fixedly connected with the sawtooth section 13, and the other end of the sealing member 9 is fixedly connected with the push-pull glass member 102. The serration 13 enhances the friction between the seal member 9 and the push-pull glass attachment member 72, so that the seal member 9 is less likely to slip off from the push-pull glass attachment member 72.

The anti-deformation devices 6 are arranged in the window frame upright post 4 and the fan frame upright post 21. The deformation preventing means 6 includes a protrusion 61 and a filler 62. The filler 62 may be made of a flexible material, such as sponge or foam. The filler 62 is filled in the window frame column 4 and the sash frame column 21, and the filler 62 has a rectangular parallelepiped shape. The protrusions 61 are fixed in the window frame upright post 4 and the sash frame upright post 21, the protrusions 61 are arranged at four edges of the filler 62 in the vertical direction, and the protrusions 61 and the filler 62 are mutually abutted and form a limit position, so that the filler 62 is more stably fixed in the window frame upright post 4 and the sash frame upright post 21. Because the thickness of the window frame upright post 4 is larger than that of the sash frame upright post 21, two deformation preventing devices 6 are arranged in the window frame upright post 4 at intervals along the direction vertical to the sliding sash 2, and one deformation preventing device 6 is arranged in the sash frame upright post 21. The push-pull window sash 2 is pushed to slide in the window frame 1, and when the window frame upright post 4 and the sash frame upright post 21 are impacted, the window frame upright post 4 and the sash frame upright post 21 are not easy to deform due to impact because of the support of fillers.

In order to facilitate the sliding of the sliding window sash 2, the handle 14 is arranged on the sliding window sash 2, and the handle 14 is used for saving more labor when the sliding window sash 2 is pushed. The handle 14 may be provided on both sides of the sliding sash 2, or may be provided only on the side of the sliding sash 2 near the indoor space. In the present embodiment, the former is taken as an example, and the handle 14 provided on the indoor side of the sliding sash 2 is fixedly provided on the sash frame pillar 21, and the handle 14 provided on the indoor side of the sliding sash 2 is rotatably provided on the sash frame pillar 21. The handle 14 is arranged at one end of the push-pull window sash 2 far away from the fixed window sash 3, and the handle 14 is arranged in the middle of the vertical direction of the frame upright post 21.

The handle 14 which is positioned at one side of the push-pull window sash 2 close to the indoor is provided with a turning bulge 15, the turning bulge 15 is fixedly arranged at one side of the handle 14 close to the window frame upright post 4, one end of the turning bulge 15 far away from the handle 14 is fixedly provided with a limiting section 151, and the setting direction of the limiting section 151 is the same as the rotating direction of the turning bulge 15.

The end of the window frame upright post 4 far away from the fixed glass installation part 71 is fixedly provided with a connecting block 11, the connecting block 11 is arranged on one side of the window frame upright post 4 close to the sliding sash 2, and the connecting block 11 is cuboid. The limiting section 151 can extend into the connecting block 11 and limit the connecting block 11, so that the push-pull window sash 2 is not easy to open after being closed. The handle 14 is rotated to separate the limiting section 151 from the connecting block 11, so that the limiting between the limiting section 151 and the connecting block 11 is released, and the sliding sash 2 can be pushed to slide in the window frame 1.

Wool tops 16 are fixed on one side of the fan frame upright post 21 close to the handle 14, and the wool tops 16 are mutually abutted with the connecting block 11. The wool tops 16 fill the gap between the fan frame upright post 21 and the connecting block 11, so that the tightness when the window frame upright post 4 and the fan frame upright post 21 are connected is enhanced, and external substances are not easy to enter a room.

The implementation principle of the aluminum alloy sliding window in the embodiment of the application is as follows: the handle 14 of the sliding sash 2 close to one indoor side is rotated to release the limit between the limit section 151 and the connecting block 11, then the handle 14 is tightly held to pull the sliding sash 2 open, so that the sliding sash 2 moves along the direction close to the fixed sash 3, and the aluminum alloy sliding window is opened. When the window frame upright post 4 collides with the sash frame upright post 21, the filler 62 in the window frame upright post 4 and the sash frame upright post 21 has a supporting effect on the sash frame upright post 21 and the window frame upright post 4, so that the window frame upright post 4 and the sash frame upright post 21 are not easily deformed. When the aluminum alloy sliding window needs to be closed, the handle 14 is gripped to drive the sliding window sash 2 to slide along the direction far away from the fixed window sash 3 until the wool tops 16 are abutted to the connecting blocks 11. The wool tops 16 fill the gap between the fan frame upright post 21 and the connecting block 11, so that the tightness when the window frame upright post 4 and the fan frame upright post 21 are connected is enhanced, and external substances are not easy to enter a room. And then, the handle 14 is rotated, so that the limiting section 151 extends into the connecting block 11, and then the limiting section 151 and the connecting block 11 are limited, and the aluminum alloy sliding window is closed.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides an aluminum alloy austral window, sliding sash, includes window frame (1) and at least one push-and-pull casement (2), push-and-pull casement (2) slide and set up in window frame (1), its characterized in that: and the anti-deformation device (6) for preventing the deformation of the window frame (1) and the sliding window sash (2) is arranged on one side of the window frame (1) and the sliding window sash (2) close to each other along the sliding direction of the sliding window sash (2).

2. An aluminium alloy sliding window according to claim 1, characterised in that: the window frame (1) comprises two window frame upright columns (4) which are arranged at intervals, the push-pull window sash (2) comprises two sash frame upright columns (21) which are arranged between the two window frame upright columns (4) at intervals, the anti-deformation device (6) is arranged in the window frame upright columns (4) and the sash frame upright columns (21), the anti-deformation device (6) comprises protrusions (61) and fillers (62), the protrusions (61) are arranged in the window frame upright columns (4) and the sash frame upright columns (21), and the fillers (62) are clamped and fixed on the protrusions (61).

3. An aluminium alloy sliding window according to claim 2, characterised in that: the window frame is characterized in that a fixed window sash (3) and a push-pull window sash (2) are arranged in the window frame (1), the fixed window sash (3) is fixed in the window frame (1), and the push-pull window sash (2) and the fixed window sash (3) are arranged in a staggered mode.

4. An aluminium alloy sliding window according to claim 3, characterised in that: the fixed window sash (3) comprises fixed upright posts (31) and fixed glass pieces (101), the fixed upright posts (31) are arranged in the middle of the window frame (1), the fixed glass pieces (101) are arranged between the fixed upright posts (31) and one window frame upright post (4), push-pull glass pieces (102) are arranged between the two window frame upright posts (21), and sealing pieces (9) are arranged at the fixed connection positions of the fixed glass pieces (101) and the window frame upright posts (4) and the fixed upright posts (31) and the fixed connection positions of the push-pull glass pieces (102) and the window frame upright posts (21).

5. An aluminium alloy sliding window according to claim 4, characterised in that: the window frame upright post (4) and the fixed upright post (31) are both provided with fixed glass mounting parts (71), and the fixed glass piece (101) is embedded in the fixed glass mounting parts (71); the sash frame upright post (21) is provided with a push-pull glass mounting part (72), the push-pull glass piece (102) is embedded in the push-pull glass mounting part (72), and the sealing member (9) is arranged between the push-pull glass piece (102) and the push-pull glass mounting part (72) and between the fixed glass piece (101) and the fixed glass mounting part (71).

6. An aluminium alloy sliding window according to claim 5, characterised in that: and the fixed glass mounting component (71) is provided with a mounting groove (8), and the sealing element (9) is arranged in the mounting groove (8).

7. An aluminium alloy sliding window according to claim 5, characterised in that: one side of the push-pull glass mounting component (72) close to the push-pull glass piece (102) is provided with a sawtooth section (13), and the sealing element (9) is arranged between the sawtooth section (13) and the push-pull glass piece (102).

8. An aluminium alloy sliding window according to claim 2, characterised in that: a handle (14) is arranged on one side of the push-pull window sash (2) close to the indoor space.

9. An aluminium alloy sliding window according to claim 8, characterised in that: the handle (14) is rotatably arranged on a sash frame upright post (21), one end, close to the window frame (1), of the handle (14) is provided with a turning bulge (15), one end, close to the window frame (1), of the turning bulge (15) is provided with a limiting section (151), and the limiting section (151) is fixedly connected with the window frame (1) in a clamping mode and limits sliding of the push-pull sash (2).

10. An aluminium alloy sliding window according to claim 2, characterised in that: one side that window frame stand (4) are close to fan frame stand (21) is equipped with connecting block (11), connecting block (11) and fan frame stand (21) cooperation of pegging graft, fan frame stand (21) are close to and are equipped with wool tops (16) on the inside wall of connecting block (11) one end, wool tops (16) and connecting block (11) butt each other.

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