CN111441695B - Heat-insulated and sealed lift-and-slide doors and windows - Google Patents

Abstract

The invention relates to a heat-insulating sealing lifting sliding door and window, which comprises an upper slide, a lower slide and at least 1 sliding sash for realizing sliding between the upper slide and the lower slide, wherein the bottom of the upper slide is provided with at least 1 track installation position, two inner side walls of each track installation position are oppositely provided with upper slide sealing strips, the top of the lower slide is provided with at least 1 sealing reinforcing groove, two inner side walls of each sealing reinforcing groove are oppositely provided with lower slide sealing strips, the upper transverse clamp of the sliding sash is arranged between 2 upper slide sealing strips, the bottom surface of the lower transverse is connected with at least 1 sealing piece, the heat-insulating sealing door and window further comprises at least 1 support section bar, the upper end of the upper transverse is clamped and fixed on the lower transverse, when the sliding sash is closed, the bottom of the sealing piece is tightly pressed on the lower slide, the lower end of the support section bar is inserted into the sealing reinforcing groove, and when the sliding sash is opened, the sealing piece is upwards separated from the lower slide, and the lower end of the support section bar is not inserted into the sealing reinforcing groove.

Description

Heat-insulating sealing lifting sliding door and window

Technical Field

The invention relates to an aluminum alloy door and window for home decoration, in particular to a lifting sliding door and window with good heat insulation performance.

Background

With the increasing demands of users for green buildings, the structural performance of aluminum alloy doors and windows is changed. Among them, the air tightness and water tightness are one of important functions. The gap of traditional aluminum alloy door and window is big, adopts the mode of single adhesive tape to seal generally. Particularly, the lifting action is needed when the sliding door and window is used, so that the requirements on heat insulation and sealing are special, the sealing mode of the upper sliding rubber strip and the lower sliding rubber strip is only used, the air tightness and the water tightness are poor, and the increasing requirements cannot be met. It is difficult to achieve high water tightness for common flat rail sliding doors and windows.

Therefore, how to improve the effective air tightness and water tightness is a problem to be solved.

Disclosure of Invention

The invention solves the technical problem of providing a heat-insulating sealing lifting sliding door and window with good heat-insulating performance.

The technical means adopted by the invention are as follows.

A heat-insulating sealing lifting sliding door and window comprises an upper sliding part, a lower sliding part and at least 1 sliding sash for realizing sliding between the upper sliding part and the lower sliding part, wherein the bottom of the upper sliding part is provided with at least 1 track installation position, two inner side walls of each track installation position are oppositely provided with upper sliding sealing strips, the top of the lower sliding part is provided with at least 1 sealing reinforcing groove, two inner side walls of each sealing reinforcing groove are oppositely provided with lower sliding sealing strips, the upper transverse clamp of the sliding sash is arranged between the 2 upper sliding sealing strips, the lower transverse bottom surface of the sliding sash is connected with at least 1 first sealing element, the upper end of the sliding sash is clamped and fixed on the lower transverse bottom surface of the sliding sash, when the sliding sash is closed, the bottom of the first sealing element is tightly pressed on the lower sliding part, the lower end of the sliding sash is inserted between the 2 lower sliding sealing strips of the sealing reinforcing grooves, and when the sliding sash is opened, the first sealing element is separated from the lower sliding part upwards, and the lower end of the sliding sash is not inserted between the 2 lower sliding sealing strips of the sealing reinforcing grooves.

Further, each push-pull fan corresponds to 1 track installation position, 1 sealing reinforcing groove and 1 support section bar.

Further, the bottom surface of each lower cross comprises a first buckling groove, the top of the first sealing piece is a first buckling part matched and clamped with the first buckling groove, the bottom of the first sealing piece is a pressing part, and when the bottom of the first sealing piece is pressed downwards and is upwards sliding, the bottom surface of the pressing part is elastically deformed upwards.

Further, the first sealing piece is a plastic piece, and the bottom surface of the pressing part is of a downward protruding arc structure or a rounded corner structure.

Further, the upper surface of gliding sets up the gliding slide rail, still contains the second sealing member, and it sets up in the hooked rabbet shrouding bottom of push-and-pull fan, and the bottom of this second sealing member is provided with the recess that matches with the gliding slide rail, still is connected with joint strip in second sealing member bottom, and it is connected in the spread groove that the second sealing member bottom was preset, and when the push-and-pull fan was closed, joint strip bottom was pressed on gliding and gliding slide rail.

Further, a second buckling groove is formed in the lower cross section, the top of the support section bar is provided with a second buckling part, the second buckling part is matched and clamped in the second buckling groove to connect the support section bar to the lower cross section, and the bottom of the support section bar is of a thin plate structure.

Further, the water draining device further comprises a cover plate, the cover plate is arranged at the step-shaped structure of the lower slide, so that the upper surface of the lower slide forms a step-free structure, and a cover plate drain hole is formed in the position, corresponding to the lower slide drain part, of the cover plate.

Preferably, the outdoor side and the indoor side of the drainage piece are respectively buckle structures matched with the downslide, so that the drainage piece is arranged on the downslide and is clamped between the cover plates at the two ends, a downslope slope is arranged on the outdoor side of the drainage piece, a drainage channel communicated with the upper surface of the downslide and the outdoor side is formed, and the drainage channel is independent and is not communicated with a cavity formed by the downslide and the cover plates.

Further, 3 equidistant positioning walls extend downwards from the bottom of the upper slide, 2 track installation positions are formed between the 3 positioning walls, an upper sliding rail is arranged in each track installation position, an upper pulley assembly is arranged at the position of the upper cross corresponding to the upper sliding rail, a lower sliding rail is arranged on the upper surface of the lower slide, and a lower pulley assembly is arranged at the position of the lower cross corresponding to the lower sliding rail.

Further, pulleys in the upper pulley assembly adopt an anti-balance wheel.

Further, the first sealing piece is clamped on the side of the smooth rabbet of the push-pull fan, and when the push-pull fan is closed, the smooth rabbet and the edge seal are tightly pressed and sealed through the first sealing piece.

The technical effects produced by the invention are as follows.

1. According to the invention, 3 sealing enhancing components are additionally arranged between the lower transverse and the lower slide, namely, a first sealing component with a certain elastic deformation capability is additionally arranged, gaps of a traditional aluminum alloy door are complemented by the first sealing component capable of generating a small degree of deformation, sealing effects such as air tightness and water tightness of the whole door are effectively ensured, a sealing reinforcing groove is preset on the lower slide, a matched supporting section bar is additionally arranged, the gap between the lower transverse and the lower slide is further sealed by the supporting section bar, and thirdly, a second sealing component is arranged at the bottom of the hooked rabbet sealing plate, so that the air tightness and the water tightness of the bottom of the hooked rabbet sealing plate can be effectively improved when the push-pull fan is closed. When the sliding door and window are closed, gaps of the traditional aluminum alloy door are complemented by the combined use of the 3 additionally-arranged components, and the sealing effects of air tightness, water tightness, heat insulation and the like of the whole door are effectively ensured.

2. The invention adopts a flat rail non-step design, which can effectively avoid the trouble of stumbling feet so as to achieve the safety effect.

3. The invention adopts the matching of a plurality of sealing strips in the upper sliding and the lower sliding, and perfectly embodies the sealing performance of the whole fan.

4. By arranging the independent drainage piece, the invention can maintain the drainage speed when the rainwater amount is large, avoid accumulated water, prevent rainwater from entering the interior of the sliding, avoid the condition of water storage in the interior of the sliding, improve the water tightness and avoid adverse effects caused by internal dampness.

Drawings

Fig. 1 is a schematic overall structure of a first embodiment of the present invention.

Fig. 2 is a cross-sectional view taken along ①-② in fig. 1, with the sash in a closed state.

Fig. 3 is a cross-sectional view taken along ①-② in fig. 1, with the sash in an open state.

Fig. 4 is a schematic view of an upward sliding cross-sectional structure.

Fig. 5 is a schematic view of a sectional structure of the slide-down.

Fig. 6 is a schematic cross-sectional view of a first seal.

Fig. 7 is a schematic cross-sectional view of a support profile.

Fig. 8 is a cross-sectional view taken along the direction ③-④-⑤ in fig. 1.

Fig. 9 is a schematic perspective view of the position of the slide and hooked rabbet seal plate.

Fig. 10 is a schematic view of a drain structure for assisting drainage in sliding down and up.

Fig. 11 is a schematic structural view of a second seal at the bottom of the hooked rabbet seal plate.

Detailed Description

The invention relates to a heat-insulating sealed lifting sliding door and window, which comprises an upper slide 1, a lower slide 2 and a sliding sash 3 between the upper slide 1 and the lower slide 2, wherein the sliding sash 3 is pushed and pulled by sliding a sliding rail oppositely arranged between the upper slide 1 and the lower slide 2. The following is a detailed description of an embodiment comprising inner and outer 2 push-pull fans, wherein the structure of the 2 push-pull fans is identical, and the arrangement direction is not used only because of the different push-pull directions.

As shown in fig. 2 and 4, the upper slide 1 includes an indoor upper slide inner frame 11 and an outdoor upper slide outer frame 12, and the upper slide inner frame 11 and the upper slide outer frame 12 are connected by an upper slide heat insulating strip 13. The bottoms of the upper sliding inner frame 11 and the upper sliding outer frame 12 extend downwards to form 3 equally-spaced positioning walls 14, 2 track installation positions 10 are formed between the 3 positioning walls 14, and an upper sliding track 15 is arranged in each track installation position 10. In the above structure, the position of the upper slide heat insulating strip 13 is required to be free from influencing the upper slide rail 15 and the middle positioning wall 142. The opposite sides of the positioning wall 14 are respectively provided with an upper sliding sealing strip 16 which is respectively clamped and fixed in a preset clamping groove of the positioning wall 14.

The lower slide 2 comprises a lower slide inner frame 21 at the indoor side and a lower slide outer frame 22 at the outdoor side, and the lower slide inner frame 21 and the lower slide outer frame 22 are connected through a lower slide heat insulation strip 23.

As shown in fig. 2 and 5, the lower slide frame 22 is generally provided with a drain 221 which is inclined, and an outer frame drain hole 222 is provided thereon, so as to collect and drain the rainwater on the outer fan during raining and drain the rainwater to the outside of the room. In the invention, in order to have the sealing performance of drainage, inner and outer fans and sliding down, the sliding down 2 adopts a flat rail non-step structure. Specifically, the cover plate 7 is also included, and the cover plate 7 is fastened on the drain portion 221 of the lower slide outer frame 22, so that the top surface of the lower slide 2 is of a horizontal non-stepped structure, and the cover plate 7 is also provided with a cover plate drain hole 71. The hidden drainage system ensures the water tightness of the whole door.

The drain hole 71 may be a preformed hole in the cover plate 7. More preferably, a separate drainage member 72 for auxiliary drainage is provided, as shown in fig. 9 and 10, and the indoor side and the outdoor side of the drainage member 72 are respectively provided with a fastening structure for fastening with the lower slide 2, so that the drainage member 72 can be fastened and mounted on the lower slide 2, two ends of the drainage member 72 are adjacent to the cover plates 7, that is, the two cover plates 7 are sandwiched between the two ends, and the upper surface of the drainage member 72 is preferably flush with the upper surface of the cover plates 7. The drain member 72 is provided with a concave slope on the outdoor side, which forms a drain passage 721 communicating the upper surface and the outdoor side, and the drain passage 721 is independent and does not communicate with the chamber formed by the lower slide 2 and the cover plate 7. The drain 72 is provided with a hole, and is screwed to the lower slide 2 by a connecting member such as a screw. In the installation, the drain member 72 and the cover plate 7 are pressed adjacently. The independent drainage piece is arranged, rainwater on the upper surface of the lower slide 2 is drained to the outdoor side of the lower slide through the drainage channel 721, the drainage speed can be kept when the rainwater amount is large, water accumulation is avoided, the rainwater cannot enter the lower slide, the condition of water storage in the lower slide is avoided, the water tightness is improved, and adverse effects caused by internal dampness are avoided.

On the lower slide 2, there are 2 seal reinforcing grooves 24 corresponding to the 2 push-pull fans 3, and the inner and outer sides of the seal reinforcing grooves 24 are provided with corresponding lower slide seal strips 26. The upper surface of this gliding 2 is provided with 2 gliding slide rail 25 that correspond to 2 push-and-pull casement 3, and gliding slide rail 25 is located the indoor side of sealed strengthening groove 24, more is favorable to thermal-insulated sealed and to the protection of slide rail, pulley.

The arrangement of the cover plate 7 does not affect the arrangement of the seal reinforcement groove 24 and the sliding rail 25, the seal reinforcement groove 24 may be disposed on the sliding inner frame 21 and the sliding outer frame 22, or in the embodiment shown in the drawings, the seal reinforcement groove 24 corresponding to the inner fan is formed by the sliding inner frame 21 and the cover plate 7 disposed opposite to each other, specifically, a fastening groove extends from the indoor end of the cover plate 7, and a corresponding fastening groove is disposed on the outdoor side of the sliding inner frame 21.

The top thickness of the upper transverse 31 of the push-pull fan 3 is matched with the distance between the 2 upper sliding sealing strips 16 in the track installation position, the upper pulley component 5 extending into the upper sliding track 15 is arranged at the top of the upper transverse 31, the pulley component 5 can be an anti-swing wheel as shown in the figure, so that the swaying performance of a door leaf can be prevented, the rolling force of the door leaf can be increased, the whole door leaf can be pushed without resistance, and the push-pull is easier.

In the middle of the bottom of the lower cross 32 is a cavity opening downward for mounting the lower pulley assembly 6. Another important aspect of the invention is the provision of a first seal 4 between the lower cross member 32 and the sliding contact surface. As shown in fig. 2, 3 and 6, a first fastening groove 321 is reserved on the inner side and the outer side of the bottom surface of the lower transverse member 32, a first sealing member 4 is installed on the first fastening groove 321, the top of the first sealing member 4 is a first fastening part 41 fastened and matched with the first fastening groove 321, the bottom of the first sealing member 4 is a pressing part 42 which can be in a protruding arc structure or a rounded corner structure, when the bottom of the first sealing member 4 is pressed on the top surface of the lower slide 2, the pressing part 42 at the bottom of the first sealing member 4 is extruded and elastically deformed upwards, so that the contact area between the bottom surface of the pressing part 42 and the top surface of the lower slide 2 is increased, and the function of enhancing the sealing performance is realized. Therefore, the first sealing member 4 is preferably a plastic member having both small deformation and hardness, and of course, other materials having a certain deformation can be used.

A second fastening groove 322 is reserved on the side wall of the cavity at the bottom of the lower transverse member 32. In order to enhance the sealing performance, another important point of the present invention is that a supporting section bar 8 is additionally provided, as shown in fig. 2 and fig. 3 and fig. 7, a fastening portion 81 matched with the second fastening groove 322 is provided at the upper portion of the supporting section bar 8, and a thin plate structure 82 is provided at the lower portion thereof, and the thin plate structure 82 is movably inserted between the two sliding sealing strips 26 of the sealing reinforcing groove 24.

The bottom of the lower pulley assembly 6 is provided with a concave part matched with the lower sliding rail 25, or the bottom of the lower pulley assembly 6 is connected with a soft sealing belt 61, and the sealing belt 61 is also provided with a concave part matched with the lower sliding rail 25.

Each of the sliding wings 3 corresponds to 1 rail mounting location 10, 1 seal reinforcing groove 24 and 1 support profile 8.

As shown in fig. 9 and 11, a second sealing member 33 is installed at the bottom of the hooked rabbet sealing plate of the push-pull fan 3, and is fixed by passing a fixing member such as a screw through a preset hole therein. The bottom of the second sealing element 33 is provided with a groove 331 matched with the sliding rail 25, and the bottom of the second sealing element 33 is also connected with a sealing rubber strip which is clamped and fixed at the bottom of the second sealing element 33 through a connecting groove 332 preset at the bottom. After the second sealing member 33 is arranged, the air tightness and the waterproof performance of the bottom of the hooked rabbet sealing plate can be effectively improved.

As shown in fig. 2, when the lifting sliding door and window of the invention is in a closed state, the window sashes fall on the lower slide, the upper transverse rail 31 is not separated from the rail installation position, is clamped between the 2 upper slide sealing strips 16, keeps the rail installation position airtight, the lower transverse rail 32 is tightly pressed on the top surface of the lower slide 2 through the first sealing piece 4, meanwhile, the thin plate structure 82 of the support section bar 8 is inserted into the corresponding 1 pair of lower slide sealing strips 26, and meanwhile, the concave part at the bottom of the lower pulley assembly 6 is pressed on the lower slide rail 25. Under the use state, the air tightness and the water tightness of the whole door can be effectively enhanced by downward movement of the window sashes, and the pulley is lifted up while the window sashes are downward moved, so that the pulley is lightened from being pressed down due to long-time stay, and the service life of the pulley can be effectively prolonged.

As shown in fig. 3, when the lifting sliding door and window of the invention is in an open state, the window sash is lifted, the upper transverse rail 31 is still positioned in the track installation position, the upper pulley assembly 5 is lifted to be matched with the upper sliding rail 15 to realize sliding, the sealing of the track installation position is still kept, the first sealing piece 4 at the bottom of the lower transverse rail 32 is separated from the top surface of the lower sliding rail 2, the thin plate structure 82 of the supporting section bar 8 is separated from 1 pair of lower sliding sealing strips 26 upwards, the concave part of the lower pulley assembly 6 is separated from the lower sliding rail 25, and only the pulley 62 in the pulley assembly 6 is left to slide on the lower sliding rail 25. After the door is opened, the whole door leaf is pushed and pulled smoothly by the separation of the window sash and the window frame, the door leaf can be positioned and closed at any time, and the bearing of a single door leaf can reach 300 kg.

The first sealing member 4 is not provided only at the bottom of the lower rail 32 to enhance sealing, but may be applied to other positions. As shown in fig. 7, which shows another cross-sectional position of the sliding door and window, the side of the smooth rabbet 91 can also be pressed against the edge seal 92 by the first sealing member 4, and the structural features are similar to those described above and will not be described again. The heat insulation performance and the sealing performance of the sliding door and window can be improved to the greatest extent through the arrangement.

Claims (9)

1. The utility model provides a thermal-insulated sealed promotion sliding door, contains and goes up smooth (1), gliding (2) and realizes at least 1 push-and-pull fan (3) of push-and-pull between the two, its characterized in that:

at least 1 track installation position (10) is arranged at the bottom of the upper slide (1), and upper slide sealing strips (16) are oppositely arranged on two inner side walls of each track installation position (10);

At least 1 sealing reinforcing groove (24) is arranged at the top of the lower slide (2), and lower slide sealing strips (26) are oppositely arranged on two inner side walls of each sealing reinforcing groove (24);

The upper cross (31) of the push-pull fan (3) is clamped between the 2 upper sliding sealing strips (16), and the bottom surface of the lower cross (32) of the push-pull fan (3) is connected with at least 1 first sealing piece (4);

the device also comprises at least 1 support section bar (8), wherein the upper end of the support section bar (8) is clamped and fixed on the lower transverse bar (32);

An upper sliding rail (15) is arranged in each rail mounting position (10), and an upper pulley assembly (5) is arranged at the position of the upper cross rail (31) corresponding to the upper sliding rail (15);

A lower sliding rail (25) is arranged on the upper surface of the lower slide (2), and a lower pulley assembly (6) is arranged at the position of the lower cross rail (32) corresponding to the lower sliding rail (25);

the bottom of the lower pulley assembly (6) is provided with a concave part matched with the lower sliding rail (25);

When the push-pull fan (3) is closed, the push-pull fan (3) falls on the lower slide (2), the upper cross (31) is not separated from the track installation position (10), the upper cross (31) is clamped between the 2 upper slide sealing strips (16) to keep the track installation position (10) airtight, the bottom of the first sealing piece (4) is tightly pressed on the lower slide (2), the lower end of the support section bar (8) is inserted between the 2 lower slide sealing strips (26) of the seal reinforcing groove (24), and meanwhile, the concave part of the bottom of the lower pulley assembly (6) is pressed on the lower slide rail (25);

when the push-pull fan (3) is opened, the push-pull fan (3) is lifted, the upper transverse rail (31) is still positioned in the track installation position (10), the upper pulley assembly (5) is lifted to be matched with the upper sliding rail (15) to realize sliding, the sealing of the track installation position (10) is still kept at the moment, the first sealing piece (4) is upwards separated from the lower sliding rail (2), the lower end of the support section bar (8) is not inserted between 2 lower sliding sealing strips (26) of the sealing reinforcing groove (24), meanwhile, the concave part of the lower pulley assembly (6) is separated from the lower sliding rail (25), only the pulleys in the lower pulley assembly (6) are left to slide on the lower sliding rail (25), and the support section bar can be positioned and closed at any time after being opened;

the sliding device also comprises a cover plate (7), wherein the cover plate (7) is arranged at the step-shaped structure of the sliding down, so that the top surface of the sliding down forms a step-free structure;

The novel water draining device comprises a water draining part (72), wherein the indoor side and the outdoor side of the water draining part (72) are respectively of buckle structures matched with a lower slide (2), the water draining part (72) is arranged on the lower slide (2) and clamped between cover plates (7) at two ends, a concave inclined plane is arranged on the outdoor side of the water draining part (72), a water draining channel (721) communicated with the upper surface of the lower slide (2) and the outdoor side is formed, and the water draining channel (721) is independent and is not communicated with a cavity formed by the lower slide (2) and the cover plates (7).

2. The heat-insulating sealed lifting sliding door and window according to claim 1, characterized in that each sliding sash (3) corresponds to 1 track installation position (10), 1 sealing reinforcing groove (24) and 1 supporting profile (8).

3. The heat-insulating sealing lifting sliding door and window according to claim 1, wherein the bottom surface of each lower cross (32) comprises a first buckling groove (321), the top of the first sealing element (4) is a first buckling part (41) which is matched and buckled with the first buckling groove (321), the bottom of the first sealing element (4) is a pressing part (42), and when the bottom of the first sealing element (4) is pressed downwards on the lower slide (2), the bottom surface of the pressing part (42) is elastically deformed upwards.

4. A heat-insulating sealing lifting sliding door and window according to claim 3, wherein the first sealing member (4) is a plastic member, and the bottom surface of the pressing part (42) is a downwardly protruding arc-shaped structure or a rounded corner structure.

5. The heat-insulating sealing lifting sliding door and window according to claim 1, wherein the upper surface of the lower sliding part (2) is provided with a lower sliding rail (25), the heat-insulating sealing lifting sliding door and window further comprises a second sealing part (33) which is arranged at the bottom of a hooked rabbet sealing plate of the sliding sash (3), a groove (331) matched with the lower sliding rail (25) is formed in the bottom of the second sealing part (33), a sealing rubber strip is further connected to the bottom of the second sealing part (33), the sealing rubber strip is connected to a connecting groove (332) preset at the bottom of the second sealing part (33), and when the sliding sash (3) is closed, the bottom of the sealing rubber strip is pressed on the lower sliding part (2) and the lower sliding rail (25).

6. The heat-insulating sealing lifting sliding door and window according to claim 1, wherein a second fastening groove (322) is formed in the lower transverse member (32), the top of the supporting section bar (8) is provided with a second fastening part (81), the second fastening part (81) is fastened in the second fastening groove (322) in a matching manner so as to connect the supporting section bar (8) to the lower transverse member (32), and the bottom of the supporting section bar (8) is provided with a thin plate structure (82).

7. The heat-insulating sealed lifting sliding door and window according to claim 1, further comprising a cover plate (7), wherein the cover plate (7) is installed at the step-shaped structure of the lower slide so that the top surface of the lower slide forms a step-free structure, and a cover plate drain hole (71) is arranged on the cover plate (7) at a position corresponding to the lower slide drain part (221).

8. The heat-insulating sealed lifting sliding door and window according to claim 1, wherein the bottom of the upper slide (1) is extended downwards to form 3 equidistant positioning walls (14), 2 track installation positions (10) are formed between the 3 positioning walls (14), and a balance wheel is adopted as a pulley in the upper pulley assembly (5).

9. The heat-insulating sealed lifting sliding door and window according to any one of claims 1 to 8, wherein the first sealing element (4) is clamped at the side of the smooth rabbet (91) of the sliding sash (3), and when the sliding sash (3) is closed, the smooth rabbet (91) and the edge seal (92) are tightly pressed and sealed through the first sealing element (4).