CN209959127U - Aluminum alloy door and window with dislocation wash port - Google Patents
Aluminum alloy door and window with dislocation wash port Download PDFInfo
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- CN209959127U CN209959127U CN201920162377.5U CN201920162377U CN209959127U CN 209959127 U CN209959127 U CN 209959127U CN 201920162377 U CN201920162377 U CN 201920162377U CN 209959127 U CN209959127 U CN 209959127U
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Abstract
The utility model discloses an aluminum alloy door and window with dislocation wash port, include: the frame body of the bottom frame is of a stepped structure, a plurality of clamping rails are sequentially horizontally extended forwards from the high step surface to the low step surface of the bottom frame, a rail frame is clamped on each clamping rail, a water through hole is formed in the horizontal plane of the frame body at the rear side end of each clamping rail, a drain hole is formed in the frame body at the lowest position of the bottom frame, the water through holes are communicated with the drain holes, and water flows through the water through holes of the frame body at the rear side end of each clamping rail along the surface of the bottom frame and then flows out of the drain holes to form a drain path; the window frame is characterized in that each track frame is provided with a window frame for fixing the window glass or the window screen, and the window frames are connected with the track frames in a sliding mode. The utility model discloses adopt hidden drainage route to carry out the drainage under the prerequisite of not destroying original frame structure, have efficient drainage effect.
Description
Technical Field
The utility model relates to an aluminum alloy door and window field especially relates to an aluminum alloy door and window with dislocation wash port.
Background
The drainage structures of the existing push-pull doors and windows with screen windows are generally vertical rail support ribs of the doors and windows, holes formed in the vertical rail support ribs are vertical, water can flow through the holes in the transverse direction, and the water flowing in the transverse direction has the defect of slow water flow speed, so that the water is easy to remain in a frame, and the drainage effect of the push-pull doors and windows is poor. Furthermore, when the outside air pressure is large, the defect that outdoor air and water vapor are easy to flow into the door and window frame exists, so that the door and window cannot achieve the drainage effect.
SUMMERY OF THE UTILITY MODEL
In order to overcome the not enough of prior art, the utility model aims to provide an adopt horizontal downward hidden drainage route to carry out the drainage under the prerequisite of not destroying original frame structure, improve the gas tightness and the water proofness of door and window framework when having efficient drainage effect, solve the outdoor water of sliding door and window and pour into indoor drawback into.
The purpose of the utility model is realized by adopting the following technical scheme:
an aluminum alloy door and window with staggered drain holes, comprising:
the frame body of the bottom frame is of a stepped structure, a plurality of clamping rails are sequentially horizontally extended forwards from the high step surface to the low step surface of the bottom frame, a rail frame is clamped on each clamping rail, a water through hole is formed in the horizontal plane of the frame body at the rear side end of each clamping rail, a drain hole is formed in the frame body at the lowest position of the bottom frame, the water through holes are communicated with the drain holes, and water flows through the water through holes of the frame body at the rear side end of each clamping rail along the surface of the bottom frame and then flows out of the drain holes to form a drain path;
the window frame is characterized in that each track frame is provided with a window frame for fixing the window glass or the window screen, and the window frames are connected with the track frames in a sliding mode.
Furthermore, wool tops for filling gaps between the fan frame and the track frame are arranged on the inner side face of the rear bottom end of the fan frame.
Furthermore, a first rubber strip is arranged on the inner side face of the front bottom end of the fan frame.
Further, the first adhesive tape is arranged to be in a hook-shaped structure.
Further, the orthographic projection of the rear frame leg of the track frame on the horizontal plane is positioned behind the orthographic projection of the water through hole on the horizontal plane or the orthographic projections of the rear frame leg of the track frame and the water through hole on the horizontal plane are overlapped.
Furthermore, at least one intermediate layer step surface is arranged between the adjacent clamping rails.
Furthermore, the middle frame body of the sash frame is inwards sunken, and a door and window handle is arranged at the sunken position.
Further, orthographic projections of adjacent water through holes on the vertical surface are not overlapped.
Furthermore, a second rubber strip is arranged on the bottom frame close to the step side frame body of the fan frame.
Further, the second adhesive tape is in a semi-arc structure.
Compared with the prior art, the beneficial effects of the utility model reside in that:
(1) the drainage path of the sliding door and window is hidden in the door and window frame, so that the damage to the structure of the outer surface of the frame can be avoided, and the sliding door and window has attractive appearance and better drainage effect;
(2) the stepped bottom frame can be matched with the positions of the limbers to accelerate water to be discharged from the interior of the frame in a smooth manner, and the staggered limbers can be matched to prevent gas in the frame from flowing backwards, so that the stability of the interior of the frame is improved.
Drawings
Fig. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic view of the drainage path of the present invention;
fig. 3 is a schematic view of the three-dimensional structure of the bottom frame of the present invention.
In the figure: 1. a fan frame; 2. a bottom frame; 3. clamping a rail; 4. a rail frame; 5. a water through hole; 6. wool tops; 7. a first adhesive tape; 8. a second adhesive tape; 9. a track bar.
Detailed Description
The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that the embodiments or technical features described below can be arbitrarily combined to form a new embodiment without conflict.
An aluminum alloy door/window with staggered drainage holes, as shown in fig. 1-3, comprises:
the bottom frame 2 is of a stepped structure, the bottom frame 2 is sequentially extended forwards horizontally from a high step surface to a low step surface to form a plurality of clamping rails 3, clamping openings of the clamping rails 3 face upwards, and a track frame 4 is clamped in each clamping opening of each clamping rail 3; a lug extends downwards from the inner bottom of the track frame 4, and the track frame 4 is clamped into a clamping opening of the clamping track 3 to realize the fixed connection between the clamping track 3 and the track frame 4; the two sides of the convex block of the track frame 4 are respectively provided with a limiting block, the limiting blocks are used for clamping the clamping rail 3 and the convex block to enable the track frame 4 to be fixed more stably, the upper surface of the track frame 4 is provided with an arc-shaped frame used for connecting the fan frame 1, and the bottom of the fan frame 1 is provided with a track strip 9 corresponding to the shape of the arc-shaped frame; the arc-shaped frame of each track frame 4 is provided with a sash frame 1 for fixing the door and window glass or the screen window, and the sash frame 1 is connected with the track frame 4 in a sliding manner through the track strips 9, so that the sliding opening and closing actions of the door and window glass or the screen window are realized.
In this embodiment, the number of the clamping rails 3 is three, the number of the leaf frames 1 correspondingly mounted on the clamping rails 3 is also three, the three leaf frames 1 are respectively used for fixing a screen window and two sliding half doors and windows, and the two leaf frames 1 respectively fixed with the half doors and windows slide back and forth along the rail frame 4, so that the door and window opening and closing actions are realized.
A water through hole 5 is formed in the horizontal plane of the frame body at the rear side end of each clamping rail 3, a drain hole is formed in the frame body at the lowest position of the bottom frame 2, and the water through holes 5 are communicated with the drain holes; because water seeps from the gap of the door and window, the water flows out of the door and window sash frame 1 and is collected in the bottom frame 2, the water flows vertically through the water through holes 5 of the frame body at the rear side end of each clamping rail 3 along the height difference of the bottom frame 2, and finally flows out of the water discharging holes to form a water discharging path (for example, a dotted line part in fig. 2 is a water discharging path), and the water flows from top to bottom under the action of gravity, so that the water discharging speed is high, the water discharging efficiency is improved, the water discharging path is hidden in the door and window frame, the surface damage of the frame body or the surface of an adhesive tape can be avoided, the sealing performance of the frame body is further improved while the appearance is attractive, and.
The inner side surface of the front bottom end of the fan frame 1 is provided with a first adhesive tape 7 of a hook-shaped structure, the first adhesive tape 7 of the hook-shaped structure has certain flexibility, so that the sliding friction force between the fan frame 1 and the track frame 4 is weakened, meanwhile, the inner side surface of the rear bottom end of the fan frame 1 is provided with a wool top 6 used for filling the gap between the fan frame 1 and the track frame 4, a certain gap is formed between the wool tops 6, water seeps out from the inside of the fan frame 1 due to the fact that the water can seep into the gap between the door and window glass and the fan frame 1, the water flowing out from the inside of the fan frame 1 falls into the bottom frame 2 through the gap of the wool top 6 and is collected and drained through the water phase of the water through holes 5 and the bottom frame 2, and the phenomenon of.
In order to prevent when the wind pressure is big, there is the phenomenon that the rainwater flows backward between a plurality of limbers 5, adjacent limbers 5 orthographic projection on vertical face does not coincide for the rainwater of flowing backward from limbers 5 can shunt, prevent that the rainwater from flowing backward and influencing door and window normal use in the frame, meanwhile, just reduced the wind pressure after dislocation trompil guide wind direction is bent many times, so be difficult to flow backward indoor with the rainwater, also can guarantee the smooth downward outflow of hydroenergy of stratum above the underframe 2 simultaneously. In addition, the orthographic projection of the rear frame leg of the track frame 4 on the horizontal plane is arranged behind the orthographic projection of the water through hole 5 on the horizontal plane, or the orthographic projection of the rear frame leg of the track frame 4 on the horizontal plane is overlapped with the orthographic projection of the water through hole 5 on the horizontal plane, so that water flow flowing out of the fan frame 1 and falling onto the surface of the bottom frame 2 can flow into the water through hole 5 in front along the water flow direction or directly fall into the water through hole 5, the situation of reverse flow of the water flow is reduced, the flow velocity is accelerated, and the drainage efficiency is further improved.
In order to accelerate the flowing speed of water from the bottom frame 2, the number of steps of the bottom frame 2 is further increased, and meanwhile, in order to avoid the problem that the door opening and closing action is blocked due to the fact that the gap between the adjacent clamping rails 3 is too small, at least one middle-layer step surface is arranged between the adjacent clamping rails 3, the distance between the adjacent clamping rails 3 is properly increased, the middle frame body of the sash frame 1 is inwards sunken, door and window handles are arranged at the sunken parts, and the adjacent doors and windows are prevented from being mutually influenced when the door opening and closing are conducted; meanwhile, the number of the steps is properly increased on the premise that the bottom width of the bottom frame 2 is inconvenient, so that the potential energy generated when water flows through the steps can be properly increased, the water flowing speed is further accelerated, and water is prevented from staying on the surface of the bottom frame 2.
In order to make the linking of fan frame 1 and underframe 2 more stable, be provided with the second adhesive tape 8 of half arc structure on underframe 2 is close to the ladder side framework of fan frame 1, half arc structure can make outside the second adhesive tape 8 can cushion the collision between fan frame 1 and underframe 2, can also reduce the frictional force between underframe 2 and the fan frame 1, and still do not hinder water and ooze from the clearance between fan frame 1 and the underframe 2, ensure the normal circulation of water in the drainage route.
Supplementary to the above description: as shown in FIG. 1, the right side of the drawing corresponds to the "front" orientation described above, and the "rear" orientation is the left side of the drawing.
The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.
Claims (10)
1. The utility model provides an aluminum alloy door and window with dislocation wash port which characterized in that includes:
the frame body of the bottom frame is of a stepped structure, a plurality of clamping rails are sequentially horizontally extended forwards from the high step surface to the low step surface of the bottom frame, a rail frame is clamped on each clamping rail, a water through hole is formed in the horizontal plane of the frame body at the rear side end of each clamping rail, a drain hole is formed in the frame body at the lowest position of the bottom frame, the water through holes are communicated with the drain holes, and water flows through the water through holes of the frame body at the rear side end of each clamping rail along the surface of the bottom frame and then flows out of the drain holes to form a drain path;
the window frame is characterized in that each track frame is provided with a window frame for fixing the window glass or the window screen, and the window frames are connected with the track frames in a sliding mode.
2. The al-alloy door & window with offset weep holes of claim 1, wherein orthographic projections of adjacent limber holes on vertical planes are not coincident.
3. The al-alloy door & window with staggered drainage holes as in claim 1, wherein the inner side surface of the back bottom end of the sash frame is provided with wool tops for filling the gap between the sash frame and the rail frame.
4. The al-alloy door & window with staggered drainage holes as in claim 1, wherein the inner side surface of the front bottom end of the sash frame is provided with a first adhesive tape.
5. The al-alloy door & window with staggered drainage holes of claim 4, wherein the first adhesive tape is provided with a hook-shaped structure.
6. The al-alloy door & window with staggered drainage holes as in claim 1, wherein the orthographic projection of the rear frame leg of the track frame on the horizontal plane is positioned behind the orthographic projection of the water through hole on the horizontal plane or the orthographic projections of the two on the horizontal plane are coincident.
7. The al-alloy door & window with staggered drainage holes of claim 1, wherein at least one intermediate layer step surface is arranged between adjacent clamping rails.
8. The al-alloy door & window with staggered drainage holes as claimed in claim 1, wherein the middle frame of the sash frame is recessed inwards, and a door and window handle is mounted at the recessed position.
9. The al-alloy door & window with staggered drainage holes of claim 1, wherein the bottom frame is provided with a second adhesive strip on the step side frame body close to the sash frame.
10. The al-alloy door & window with staggered drainage holes of claim 9, wherein the second adhesive tape is provided in a semi-arc structure.
Priority Applications (1)
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CN201920162377.5U CN209959127U (en) | 2019-01-30 | 2019-01-30 | Aluminum alloy door and window with dislocation wash port |
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CN201920162377.5U CN209959127U (en) | 2019-01-30 | 2019-01-30 | Aluminum alloy door and window with dislocation wash port |
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CN209959127U true CN209959127U (en) | 2020-01-17 |
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CN201920162377.5U Active CN209959127U (en) | 2019-01-30 | 2019-01-30 | Aluminum alloy door and window with dislocation wash port |
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2019
- 2019-01-30 CN CN201920162377.5U patent/CN209959127U/en active Active
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