CN214330355U - Novel aluminum alloy section structure for sliding window - Google Patents

Abstract

The utility model relates to a novel aluminum alloy section structure for a sliding window, which is used for being installed on the wall surface of a building and comprises at least two window rails and a window sash which is arranged in each window rail and is in sliding fit with the window rail, wherein the window rails are provided with side edges for surrounding the window sash, and the height of the upper end surface of each side edge is greater than that of the lower end surface of the window sash in the height direction of the novel aluminum alloy section structure for the sliding window; the novel aluminum alloy profile structure for the sliding window further comprises a drainage channel communicated with the window rail and a wind shield rotatably arranged on the outer side of the drainage channel, wherein the wind shield is used for preventing external dust water from entering the drainage channel; the drainage channel is positioned below the window rail and is downwards inclined from inside to outside. The rainwater drainage device is simple in structure, can quickly drain rainwater, and is convenient and quick.

Description

Novel aluminum alloy section structure for sliding window

Technical Field

The utility model relates to a novel aluminum alloy profile structure for austral window, sliding sash belongs to door and window technical field.

Background

The sliding window is widely applied to various house buildings all over the world, and is safer to use compared with a casement window in high-rise buildings. And the sliding window is more convenient and smoother in use, and is more suitable for production and life of people. The sliding window has the working principle that a track is arranged below a window frame, a roller wheel is arranged below a window sash, and the roller wheel is matched on a track strip to realize the back-and-forth translation on the window. In order to realize the pushing, a gap is required between the lower part of the window and the rail, the roller is repelled on the rail strips, the rail strips are arranged on the rail in a protruding mode, meanwhile, a recess exists between the rail strips, when rainwater comes, the rainwater is accumulated in the recess, and a large amount of rainwater is deposited.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel aluminum alloy ex-trusions structure for austral window, sliding sash, it can solve above-mentioned prior art problem, and simple structure, convenient operation.

In order to achieve the above purpose, the utility model provides a following technical scheme: a novel aluminum alloy section structure for a sliding window is used for being installed on a building wall surface and comprises at least two window rails and a window sash which is arranged in each window rail and is in sliding fit with the window rails, wherein each window rail is provided with a side edge used for surrounding the window sash, and in the height direction of the novel aluminum alloy section structure for the sliding window, the height of the upper end surface of each side edge is greater than that of the lower end surface of the window sash;

the novel aluminum alloy profile structure for the sliding window further comprises a drainage channel communicated with the window rail and a wind shield rotatably arranged on the outer side of the drainage channel, wherein the wind shield is used for preventing external dust water from entering the drainage channel; the drainage channel is located below the window rail and is arranged in a downward inclined mode from inside to outside.

Furthermore, a step is arranged on the outer side of the drainage channel, one end of the wind shield is connected with the window rail, and the other end of the wind shield abuts against the step so that the wind shield cannot rotate towards the drainage channel.

Furthermore, at least two window rails include a first rail and a second rail disposed adjacent to the first rail, in the installation direction of the window rails, the first rail is located outside the second rail, and the height of one side of the first rail, which is far away from the second rail, is greater than the height of one side of the second rail, which is far away from the first rail.

Further, a novel aluminum alloy section structure for austral window, sliding sash still including set up in the window rail and be used for preventing that dust from entering into to the dust keeper in the window rail.

Furthermore, the dustproof piece is close to the upper end face of the window rail, and the end portions of the bristles are abutted against the window sash.

Furthermore, the dustproof piece is detachably arranged in the window rail, one of the window rail and the dustproof piece is provided with a clamping groove, and the other of the window rail and the dustproof piece is provided with a clamping block clamped with the clamping groove.

Further, the dust-proof pieces are bristles.

Furthermore, the window rail is provided with a drain hole, the upper end surface of the drain hole is provided with an inward concave part, and the concave part guides the flow direction of rainwater.

The beneficial effects of the utility model reside in that: the inclined drainage channel is arranged, so that rainwater always flows outwards and cannot flow into the room, and good use experience is provided for users;

the lower end face of the window sash is arranged on the upper end face of the side edge of the window rail, so that rainwater accumulated in the window rail is prevented from bubbling under the action of wind pressure, safety hazards are caused, and the use of a user is influenced;

the wind shield is arranged and used for preventing external dust and water from entering the drainage channel to block the drainage channel and cause the phenomenon of difficult drainage.

The above description is only an overview of the technical solution of the present invention, and in order to make the technical means of the present invention clearer and can be implemented according to the content of the description, the following detailed description is made with reference to the preferred embodiments of the present invention and accompanying drawings.

Drawings

Fig. 1 is the schematic view of the novel aluminum alloy profile structure for the sliding window of the utility model.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

Please refer to fig. 1, the present invention provides a novel aluminum alloy profile structure for a sliding window in a preferred embodiment, which is used for being installed on a building wall surface. Concretely, a novel aluminum alloy section structure for austral window, sliding sash includes two at least window rails 1 and sets up in every window rail 1 and with window rail 1 sliding fit's casement 5, the material of casement 5 and window rail 1 all is the aluminum alloy. In this embodiment, the number of the window rails 1 is two, and it is true that in other embodiments, the number of the window rails 1 may also be other, for example, three, and the like, which is not specifically limited herein and is determined according to the window sash 5 to be installed and the installation requirement.

The window rail 1 has a side edge for surrounding the window sash 5, and the side edge is a side edge arranged outside the window sash 5. In the height direction of the novel aluminum alloy section structure for the sliding window, the height of the upper end surface of the side edge is greater than that of the lower end surface of the window sash 5. The purpose of this is to: because casement 5 when installing on window rail 1, can have the interval with the side of window rail 1, when this interval internal accumulation has the rainwater, the side can play windproof effect to prevent to gather the rainwater in the interval and bubble under the effect of wind pressure, in order to improve user's use impression, can also improve the holistic safety in utilization of novel aluminum alloy ex-trusions structure that is used for the austral window, sliding sash simultaneously.

The at least two window rails 1 include a first rail 11 and a second rail 12 disposed adjacent to the first rail 11, and in the installation direction of the window rails 1, the first rail 11 is located outside the second rail 12, that is, the first rail 11 is installed near the outdoor, and the second rail 12 is installed near the indoor. In the present embodiment, the first rail 11 and the second rail 12 are connected and integrally formed, and indeed, in other embodiments, the first rail 11 and the second rail 12 may be separately arranged and connected by welding or the like, which is not specifically limited herein and is determined according to the actual situation. The height of the first rail 11 at the side far from the second rail 12 is greater than the height of the second rail 12 at the side far from the first rail 11, so as to reduce the possibility that external dust enters the room from the window rail 1.

A novel aluminum alloy section structure for austral window, sliding sash still including set up in window rail 1 and be used for preventing that dust from entering into the dust keeper 4 in window rail 1, in this embodiment, all be provided with dust keeper 4 in first track 11 and the second track 12, and dust keeper 4 is the brush hair. Wherein, the dustproof piece 4 is arranged close to the upper end surface of the window rail 1, and the end parts of the brush hairs are propped against the window sash 5. The purpose of this is to: the brush hairs are soft, even if the brush hairs are abutted against the window sash 5, the smoothness of the movement of the window sash 5 along the window rail 1 cannot be influenced, meanwhile, the dense brush hairs are abutted against the window sash 5, dust can be prevented from entering the window rail 1, and the window is convenient and rapid to use.

The dust-proof member 4 is detachably provided in the window rail 1 for cleaning. When dust exists in the window rail 1, the dust-proof piece 4 can be detached to clean the dust in the window rail 1, so that two purposes are achieved at one stroke. The connection mode of the dust-proof piece 4 and the window rail 1 can be as follows: one of the window rail 1 and the dustproof piece 4 is provided with a clamping groove, and the other one of the window rail 1 and the dustproof piece 4 is provided with a clamping block clamped with the clamping groove. Or, one of the window rail 1 and the dust-proof member 4 is provided with a magnetic member, and the other of the window rail 1 and the dust-proof member 4 is provided with an adsorbing member that adsorbs the magnetic member, which is not particularly limited herein, depending on the actual situation.

A novel aluminum alloy section structure for austral window, sliding sash still includes drainage channel 2 that sets up with 1 intercommunication of window rail and rotationally sets up the deep bead 3 in the drainage channel 2 outside, and is corresponding, is provided with the wash port with drainage channel 2 intercommunication on the window rail 1, and the up end of this wash port has inside sunken concave part to guide rainwater flow direction this wash port, and from the drain port flow to in drainage channel 2. The drain hole is formed in the window rail 1, so that the overall attractiveness of the novel aluminum alloy profile structure for the sliding window is improved. The wind shield 3 is used for preventing external dust and water from entering the drainage channel 2; drainage channel 2 is located the below of window rail 1, and drainage channel is from inside to outside downward sloping setting to make the rainwater directly flow to outdoor, and can not flow to indoor, the drainage of being more convenient for. In the present embodiment, the wind deflector 3 is vertically disposed under its own weight. Meanwhile, a step is arranged on the outer side of the drainage channel 2, one end of the wind shield 3 is connected with the window rail 1, and the other end of the wind shield 3 abuts against the step to enable the wind shield 3 to rotate towards the drainage channel 2.

In summary, the following steps: by arranging the inclined drainage channel 2, rainwater always flows outwards and cannot flow into the room, so that good use experience is provided for users;

the lower end surface of the height window sash 5 is arranged on the upper end surface of the side edge of the window rail 1, so that rainwater accumulated in the window rail 1 is prevented from bubbling under the action of wind pressure, safety hazards are caused, and the use of a user is influenced;

by arranging the wind shield 3, the wind shield 3 is used for preventing external dust and water from entering the drainage channel 2 to block the drainage channel 2 and cause the phenomenon of difficult drainage.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (8)

1. A novel aluminum alloy section structure for a sliding window is used for being installed on a building wall surface and is characterized by comprising at least two window rails and window sashes, wherein the window sashes are arranged in the window rails and are in sliding fit with the window rails;

the novel aluminum alloy profile structure for the sliding window further comprises a drainage channel communicated with the window rail and a wind shield rotatably arranged on the outer side of the drainage channel, wherein the wind shield is used for preventing external dust water from entering the drainage channel; the drainage channel is located below the window rail and is arranged in a downward inclined mode from inside to outside.

2. The novel aluminum alloy profile structure for the sliding window as claimed in claim 1, wherein a step is arranged on the outer side of the drainage channel, one end of the wind shield is connected with the window rail, and the other end of the wind shield abuts against the step so that the wind shield cannot rotate in the drainage channel.

3. The new aluminum alloy profile structure for sliding window according to claim 1, wherein at least two of the window rails comprise a first rail and a second rail disposed adjacent to the first rail, the first rail is located outside the second rail in the installation direction of the window rails, and the height of the side of the first rail away from the second rail is greater than the height of the side of the second rail away from the first rail.

4. The new aluminum alloy profile structure for a sliding window as claimed in claim 1, further comprising a dust-proof member disposed in the window rail for preventing dust from entering into the window rail.

5. The new aluminum alloy profile structure for sliding window according to claim 4, wherein the dust-proof member is disposed near the upper end surface of the window rail, and the end of the dust-proof member abuts against the window sash.

6. The novel aluminum alloy profile structure for the sliding window as claimed in claim 4, wherein the dust-proof piece is detachably arranged in the window rail, one of the window rail and the dust-proof piece is provided with a clamping groove, and the other of the window rail and the dust-proof piece is provided with a clamping block clamped with the clamping groove.

7. The new aluminum alloy profile structure for sliding window according to claim 4, wherein said dust-proof member is a bristle.

8. The new aluminum alloy profile structure for sliding window as claimed in claim 1, wherein the window rail is provided with a drainage hole, the upper end surface of the drainage hole is provided with an inward concave part, and the concave part guides the flow direction of rainwater.

Images