CN214247058U - Lower frame of door and window frame, door and window frame and sliding door and window - Google Patents

Abstract

The utility model relates to a lower frame, door and window frame and sliding door of door and window frame, lower frame are located the bottom of door and window frame, and the door and window frame is used for installing the push-and-pull casement, and the lower frame includes the roof towards push-and-pull casement one side, and the roof is set up by the inboard tilt up of the outside of door and window to door and window. When raining or rinsing the window greatly, water can be along frame to the lower frame in, because the roof slope setting of lower frame, by the inboard tilt up of the outside of door and window to door and window, the roof that is close to the door and window inboard is higher than the roof that is close to the door and window outside, and the water that flows into the lower frame can flow the outside of door and window along the roof, improves the drainage effect of lower frame, avoids ponding in the lower frame, convenient clearance.

Description

Lower frame of door and window frame, door and window frame and sliding door and window

Technical Field

The utility model relates to a door and window technical field, in particular to lower frame, door and window frame and sliding door of door and window frame.

Background

At present, the existing window adopts a frame and an opening-pulling type window structure, and the glass window can be opened and closed by pulling a handle on one side after the window is installed. The frame structure is pieced together to the right angle that adopts the straight flange to current sliding door's frame, and when raining or wasing the window, water can flow into to the lower frame along the frame in, sets up two apertures through the bottom at the lower frame at present and comes the water discharge, but the discharge effect is not good, often can cause ponding in the lower frame, the clearance of being not convenient for.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a lower frame, door and window frame and sliding door of door and window frame can improve the drainage effect of lower frame, convenient clearance.

For realizing the purpose of the utility model, the technical proposal adopted is that:

the lower frame is positioned at the bottom of the door and window frame, the door and window frame is used for installing a sliding window sash, the lower frame comprises a top plate facing one side of the sliding window sash, and the top plate is arranged by inclining upwards from the outer side of the door and window to the inner side of the door and window.

When raining or rinsing the window greatly, water can flow to the lower frame along the frame in, because the roof slope setting of lower frame, by the inboard tilt up of the outside to door and window of door and window, the roof that is close to the door and window inboard is higher than the roof that is close to the door and window outside, and the water that flows into the lower frame can flow the outside of door and window along the roof, improves the drainage effect of lower frame, avoids ponding in the lower frame, convenient clearance.

The technical scheme is further explained as follows:

furthermore, the lower frame comprises a slide rail in sliding fit with the sliding window sash, one end of the slide rail is connected with the top plate, the other end of the slide rail extends upwards and is matched with the sliding door window, and a drain hole is formed in one end, close to the top plate, of the slide rail. The lower frame is matched with the sliding window sash through the sliding rail to realize the opening and closing of the door and window, and one end of the sliding rail close to the top plate is provided with the drain hole, so that the drainage of accumulated water is facilitated under the condition of meeting the connection and matching of the sliding window sash and the dragging window sash, and the structural design is more reasonable.

Further, the slide rail is vertically arranged. When the sliding window sash is installed, the sliding window sash is vertically contacted with the sliding rail, so that the sliding window sash is pushed and pulled more stably, and the derailment condition is avoided.

Further, the slide rail and the top plate are integrally formed. The lower frame has higher overall structure strength and more stable support for the push-pull window sash.

The utility model also provides a door and window frame, including foretell lower frame, with the relative last frame that sets up of lower frame, and set up between last frame and lower frame and relative left side frame and the right frame that sets up, left side frame, lower frame, right frame and last frame head and the tail connect gradually. The lower frame top plate of the door and window frame is arranged by the outer side of the door and window to incline upwards towards the inner side of the door and window, so that water flowing into the lower frame can flow out of the outer side of the door and window along the top plate, the drainage effect of the lower frame is improved, accumulated water in the lower frame is avoided, and the door and window frame is convenient to clean.

The utility model also provides a sliding door, including above-mentioned door and window frame, install two at least push-and-pull casement in the door and window frame, the lower frame be equipped with push-and-pull casement one-to-one and sliding fit's slide rail, the slide rail side by side interval arrangement on the roof. This lower frame roof of sliding door and window is set up by the inboard tilt up of door and window's outside to door and window, makes the water that flows into the lower frame can flow the outside of door and window along the roof, improves the drainage effect of lower frame, avoids ponding in the lower frame, convenient clearance.

Furthermore, the push-pull window sash is provided with a first pulley matched with the top of the sliding rail. Through the cooperation of slide rail and first pulley, the side-to-side movement of push-and-pull casement realizes opening and closing of door and window.

Furthermore, the bottom of the push-pull window sash is provided with a fan flange extending downwards, one side of the fan flange, which faces the slide rail, is provided with a second pulley, and the second pulley is perpendicular to and abuts against the side wall of the slide rail. The window sash is enabled to generate a bidirectional constraint relation with the slide rail after being installed, the sliding window sash is ensured not to be separated from the slide rail in the use process when the inclined plate is installed on the sliding window sash, the installation coefficient is improved, and meanwhile, the window sash is enabled to slide smoothly and stably due to the fact that the second pulley is stressed on the side face of the slide rail.

Furthermore, the second pulley is positioned on one side of the corresponding sliding rail facing the outer side of the door window. Because the roof is by the inboard tilt up setting of the outside of door and window to door and window, the second pulley sets up in the slide rail towards the one side in the door and window outside, makes the installation space of second pulley bigger, is convenient for install and routine maintenance.

Furthermore, the sliding door and window also comprises a water retaining frame which is arranged around the circumference of the door and window frame and covers the periphery of the inner frame of the door and window frame, the water retaining frame is positioned at the inner side of the door and window, a water retaining plate which is butted with the top plate is arranged in the water retaining frame, and the water retaining plate is positioned on the extending surface of the top plate facing to the inner side of the door and window. The periphery of the inner frame of the door and window frame is provided with the water retaining frame which further shields rainwater, a water retaining plate in butt joint with the top plate is arranged in the water retaining frame, and rainwater entering the water retaining frame can flow out of the outer side of the door and window along the water retaining plate and the top plate to prevent the rainwater from permeating into the room.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses when heavy rain or washing window under, water can flow into to the lower frame along the frame in, because the roof slope setting of lower frame, by the inboard tilt up of door and window in the outside of door and window, the roof that is close to the door and window inboard is higher than the roof that is close to the door and window outside, and the water that flows into the lower frame can be along the outside that the roof flows door and window, improves the drainage effect of lower frame, avoids ponding in the lower frame, convenient clearance.

Drawings

Fig. 1 is a schematic structural view of a sliding door or window according to an embodiment of the present invention;

fig. 2 is a view taken along direction a of fig. 1.

Description of reference numerals:

10. the door and window frame comprises a door and window frame body, a lower frame body, a top plate, a sliding rail, a bottom plate, a reinforcing rib, a right frame body, a sliding sash, a.

Detailed Description

The embodiments of the present invention will be described in detail below with reference to the accompanying drawings:

as shown in fig. 1 and 2, a sliding door or window includes a door or window frame 10 and at least two sliding sashes 20 installed in the door or window frame 10, where the door or window frame 10 includes a lower frame 110 located at the bottom, the lower frame 110 is provided with a top plate 111 facing one side of the sliding sashes 20, the top plate 111 is inclined upward from the outer side 40 of the door or window to the inner side 50 of the door or window, the top plate 111 is provided with sliding rails 112 corresponding to the sliding sashes 20 one to one and arranged side by side at intervals, the sliding sashes 20 are provided with first pulleys 210 matched with the tops of the corresponding sliding rails 112, the bottom of the sliding sashes 20 is further provided with sash flanges 220 extending downward, one side of the sash flanges 220 facing the corresponding sliding rails 112 is provided with second pulleys 230, and the second pulleys 230 are vertically arranged and abut against the side walls of the sliding rails 112.

When raining or cleaning a window, water flows into the lower frame 110 along the frame, and because the top plate 111 of the lower frame 110 is obliquely arranged and inclines upwards from the outer side 40 of the door or window to the inner side 50 of the door or window, the top plate 111 close to the inner side of the door or window is higher than the top plate 111 close to the outer side of the door or window, the water flowing into the lower frame 110 flows out of the outer side 40 of the door or window along the top plate 111, so that the drainage effect of the lower frame 110 is improved, water accumulation in the lower frame 110 is avoided, and the cleaning is convenient; and the arrangement mode of the first pulley 210, the second pulley 230 and the sliding rail 112 enables the sliding window sash 20 to generate a bidirectional constraint relationship with the sliding rail 112 after installation, so that the sliding window sash 20 is ensured not to be separated from the sliding rail 112 during installation of the sloping plate, the installation coefficient is improved, and meanwhile, the sliding window sash 20 slides due to the stress of the second pulley 230 on the side surface of the sliding rail 112, so that the sliding is smoother and more stable.

To further avoid derailment, the sliding rail 112 is vertically disposed as shown in fig. 2, so that the sliding sash 20 is vertically contacted with the sliding rail 112 when being installed, and the sliding sash is more stably pushed and pulled.

As shown in fig. 2, the lower frame 110 further includes a bottom plate 113 horizontally disposed below the top plate 111, and a plurality of reinforcing ribs 114 are disposed between the top plate 111 and the bottom plate 113. The lower frame 110 is fixed to the window opening through the bottom plate 113, and the plurality of reinforcing ribs 114 are provided between the top plate 111 and the bottom plate 113, so that the overall structural strength of the lower frame 110 is higher, and the support of the push-pull window sash 20 is more stable.

In this embodiment, two ends of each of the sash flanges 220 are respectively provided with a second pulley 230, so that the sliding sash 20 is more constrained with the sliding rail 112 after being installed, and the sliding sash is more smoothly and stably pushed and pulled. Each fan rib 220 can be provided with more than one second pulley 230 according to actual needs.

As shown in fig. 2, the second pulley 230 is located on a side of the corresponding slide rail 112 facing the outer side 40 of the door window. Because the top plate 111 is inclined upwards from the outer side 40 of the door window to the inner side 50 of the door window, the second pulley 230 is arranged on one side of the sliding rail 112 facing the outer side 40 of the door window, so that the installation space of the second pulley 230 is larger, and the installation and the daily maintenance are convenient.

In this embodiment, the top plate 111 is provided with three slide rails 112 arranged at equal intervals, and the slide rails 112 and the top plate 111 are integrally formed, so that the overall structural strength of the lower frame 110 is higher, and the support for the sliding sash 20 is more stable. Each sliding rail 112 is provided with a sliding window sash 20 in a matching way, wherein two sliding window sashes 20 are internally provided with glass plates, and the third sliding window is provided with a screen window. The number of the sliding rails 112, the connection between the sliding rails 112 and the top plate 111, and the arrangement of the sliding door and window can be set in other manners according to actual needs.

In order to further improve the drainage effect of the sliding door/window, a drainage hole (not shown in the drawing) is formed in one end, close to the top plate 111, of the sliding rail 112, and accumulated water is drained out of the door/window along the top plate 111 and the drainage hole under the action of gravity. The structural design not only enables the lower frame 110 to be matched and connected with the push-pull window sash 20 through the slide rail 112, but also is beneficial to draining accumulated water, and the structural design is ingenious.

As shown in fig. 1 and 2, the sliding door further includes a water blocking frame 30 disposed around the circumference of the door window frame 10 and covering the inner frame periphery of the door window frame 10, the water blocking frame 30 is located at the inner side 50 of the door window, a water blocking plate 310 abutting against the top plate 111 is disposed in the water blocking frame 30, and the water blocking plate 310 is located on the extension surface of the top plate 111 facing the inner side 50 of the door window. The water blocking frame 30 is arranged on the periphery of the inner frame of the door window frame 10 to further block rainwater, the water blocking plate 310 butted with the top plate 111 is arranged in the water blocking frame 30, and rainwater entering the water blocking frame 30 can flow out of the outer side of the door window along the water blocking plate 310 and the top plate 111 to prevent rainwater from permeating into a room.

In this embodiment, the door/window frame 10 further includes an upper frame (not shown in the drawings) disposed opposite to the lower frame 110, and a left frame (not shown in the drawings) and a right frame 120 disposed between the upper frame and the lower frame 110 and disposed opposite to each other, and the left frame, the lower frame 110, the right frame 120 and the upper frame are sequentially connected end to end. The door and window frame 10 is of a splicing structure, the water retaining frame 30 is also of a splicing structure and covers the butt joint positions of all the frames of the door and window frame 10 and the sliding window sash 20, and the water retaining plates 310 which are in butt joint with the inner sides of the left frame, the lower frame 110, the right frame 120 and the upper frame are respectively arranged in the water retaining frame 30, so that water seeping from the edge of the door and window frame 10 cannot seep into a room.

As shown in fig. 1 and 2, the water blocking frame 30 is provided with a mounting groove 320, and the water blocking frame 30 is fixed to the window and door frame 10 by installing a fastener (not shown) in the mounting groove 320; and the opening of the mounting groove 320 is provided with the sealing cover 330, and the surface of the sealing cover 330 and the surface of the water blocking frame 30 are in smooth transition, so that the whole appearance is more beautiful.

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 (10)

1. The lower frame of the door and window frame is positioned at the bottom of the door and window frame, and the door and window frame is used for installing a sliding window sash.

2. The lower frame for a door and window frame as claimed in claim 1, comprising a slide rail slidably engaged with said sliding sash, wherein one end of said slide rail is connected to said top plate, and the other end thereof extends upward and engages with said sliding sash, and wherein a drain hole is formed at an end of said slide rail adjacent to said top plate.

3. The lower side frame of a window and door frame as claimed in claim 2, wherein said slide rail is vertically disposed.

4. The lower frame for window and door frames as claimed in claim 2 or 3, wherein the sliding rail is integrally formed with the top plate.

5. A door and window frame, characterized in that, includes the lower frame of any claim 1 to 4, the upper frame set opposite to the lower frame, and the left frame and the right frame set between the upper frame and the lower frame and set opposite to each other, the left frame, the lower frame, the right frame and the upper frame are connected end to end in sequence.

6. A sliding door and window, characterized in that, the sliding door and window comprises a door and window frame as claimed in claim 5, and at least two sliding window sashes arranged in the door and window frame, the lower frame is provided with sliding rails which are in one-to-one correspondence with the sliding window sashes and are in sliding fit with the sliding window sashes, and the sliding rails are arranged on the top plate side by side at intervals.

7. A sliding door or window according to claim 6, wherein the sash is provided with a first pulley engaging the top of the rail.

8. A sliding door or window according to claim 7, wherein the bottom of the sash is provided with a downwardly extending sash flange, and the side of the sash flange facing the rail is provided with a second pulley, the second pulley being disposed perpendicular to and abutting the side wall of the rail.

9. The sliding door or window according to claim 8, wherein the second pulley is located on a side of the corresponding sliding track facing an outside of the door or window.

10. The sliding door and window according to any one of claims 6 to 9, further comprising a water blocking frame circumferentially disposed around the door and window frame and covering the periphery of the inner frame of the door and window frame, wherein the water blocking frame is located at the inner side of the door and window, a water blocking plate abutting against the top plate is arranged in the water blocking frame, and the water blocking plate is located on the extending surface of the top plate facing the inner side of the door and window.

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