CN210685749U - Energy-conserving door and window subassembly structure of aluminum alloy - Google Patents

Abstract

The utility model relates to an energy-conserving door and window subassembly structure of aluminum alloy, including the window frame, the lower side edge fixed mounting of window frame have the slide rail strip, slide rail strip upper surface on all be provided with the sliding guide of cooperation austral window, sliding guide strip's both ends have all been seted up vertical mounting groove, the vertical limit of window frame is inlayed and is established in the mounting groove, distance between two mounting grooves equals the width of window frame, slide rail strip includes first slide rail piece and second slide rail piece, second slide rail piece detachable installs the end department at first slide rail piece, the mounting groove internal fixation is provided with first sealing strip. First sealing strip is located between the bottom surface of mounting groove and the vertical limit of window frame, fine filling the gap between mounting groove and the vertical limit of window frame, and then can carry out sealing process to the both ends of skid-mounted strip, the phenomenon of leaking out is difficult to appear, when adjusting indoor temperature through the air conditioner, has reduced the energy waste. And simple to operate is swift, and the follow-up dismantlement of being convenient for gets off and clears up the window frame.

Description

Energy-conserving door and window subassembly structure of aluminum alloy

Technical Field

The utility model relates to an aluminum alloy door and window's technical field especially relates to an energy-conserving door and window subassembly structure of aluminum alloy.

Background

The existing aluminum alloy doors and windows comprise various styles, wherein the push-pull doors and windows account for a large part of proportion, in the structure of the push-pull doors and windows, push-pull rails are fixedly arranged, and a plurality of separation rails exist in the structure, so that dead corners are easily caused, and dust accumulation is easily caused.

Chinese patent with grant publication number CN207048595U discloses a color energy-saving aluminum alloy door and window structure, including door and window cover and door and window frame, install the glass window body in the door and window frame, form the rice flower through slide rail set spare between the glass window body and the door and window frame and be connected, slide rail set spare includes the slide rail strip, set up the joint groove in the frame slot face of door and window frame, slide rail strip embedding joint inslot forms to dismantle the connection, the both ends of slide rail strip set up the location notch, the both ends in joint groove set up the elasticity pothook, the joint is formed in the elasticity pothook embedding location notch and is linked firmly, set up the guide runner on the border of glass window body, the guide runner clamping cover forms sliding connection on the slide rail strip, the both ends of guide runner set up the groove. Through detachable track package assembly, realize door and window's push-and-pull mode from this, can reach convenient clear purpose through dismantling again. However, in the installation process of such a structure, the two ends of the window cannot be well sealed, so that air leakage is likely to occur when the window is closed. When the indoor temperature is adjusted by the air conditioner in hot or cold weather, the air conditioner needs to consume more energy in order to reach the set temperature.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-conserving door and window subassembly structure of aluminum alloy when the installation slide rail strip, can effectively seal up the space between slide rail strip both ends and the window frame body.

The above object of the present invention can be achieved by the following technical solutions: the utility model provides an energy-conserving door and window subassembly structure of aluminum alloy, includes the window frame, the lower side edge fixed mounting of window frame have the slide rail strip, slide rail strip upper surface on all be provided with the sliding guide of cooperation austral window, sliding guide strip's both ends have all been seted up vertical mounting groove, the vertical limit of window frame is inlayed and is established in the mounting groove, distance between two mounting grooves equals the width of window frame, slide rail strip includes first slide rail piece and second slide rail piece, second slide rail piece detachable installs the end department at first slide rail piece, the mounting groove internal fixation is provided with first sealing strip.

Through adopting above-mentioned technical scheme, when installation slide rail bar, make into the length that equals with window frame downside length of side earlier slide rail bar, later first slide rail piece and second slide rail piece are dismantled and are opened, place first slide rail piece on the downside edge of window frame earlier, later will install the second slide rail piece again to make the vertical limit of window frame inlay and establish in the mounting groove. First sealing strip is located between the bottom surface of mounting groove and the vertical limit of window frame, fine filling the gap between mounting groove and the vertical limit of window frame, and then can carry out sealing process to the both ends of skid-mounted strip, the phenomenon of leaking out is difficult to appear, when adjusting indoor temperature through the air conditioner, has reduced the energy waste. And simple to operate is swift, and the follow-up dismantlement of being convenient for gets off and clears up the window frame.

The utility model discloses further set up to: the fixed sealed fixture block that is provided with of contained angle department between window frame lower limb and the vertical limit, the width of high lower position department is not less than the width of high higher position department all the time in the sealed fixture block, sets up the sealed draw-in groove of the sealed fixture block of cooperation on the bottom surface of mounting groove, first sealing strip is laid along the bottom surface of mounting groove and the bottom surface of sealed draw-in groove.

Through adopting above-mentioned technical scheme, when installing the slide rail strip at window frame downside edge, sealed draw-in groove erects at sealed fixture block upside, and the first sealing strip that sets up in sealed draw-in groove is incompletely vertical. When the sliding window is installed, the sliding window needs to be erected on the sliding rail strip, so that downward pressure is exerted on the sliding rail strip. The slide rail bar thus has a downward pressure against the seal cartridge, thereby compressing the first seal strip between the seal cartridge and the seal cartridge. Compare in direct with the vertical setting of first sealing strip, the first sealing strip of extrusion that such structure can last makes first sealing strip and sealed fixture block and the sealed draw-in groove between the space further reduce, and sealed effect is better, the phenomenon of leaking out is difficult for appearing.

The utility model discloses further set up to: the two sides of laminating each other of first slide rail piece and second slide rail piece on be provided with respectively to inlay establishes the groove and inlay and establish the strip, the cross section of inlaying and establishing the strip equals with the cross section size of inlaying and establishing the groove, and inlay the opening width of establishing the groove and be less than and inlay the inside widest width of establishing the groove, inlay and establish the strip and inlay the plane parallel of establishing the groove all with the window frame place.

Through adopting above-mentioned technical scheme, can be simple and convenient with first slide rail piece and second slide rail piece concatenation together, the difficult phenomenon that becomes flexible and drop that appears of first slide rail piece and the second slide rail piece that the concatenation is good.

The utility model discloses further set up to: the bottom surface of the embedding groove is fixedly provided with a second sealing strip, and the thickness of the lower position of the height of the second sealing strip is not less than that of the higher position of the height all the time.

Through adopting above-mentioned technical scheme, will inlay and establish the strip and set to narrow structure wide from top to bottom, it is easier when tentatively establishing the strip and inserting and establish the groove. Along with the embedding strip is gradually inserted into the embedding groove, the embedding strip further extrudes the second sealing strip, and therefore the gap between the second sealing strip and the embedding groove and the gap between the second sealing strip and the embedding strip are further sealed. The sealing effect is better, and the phenomenon of air leakage is not easy to occur.

The utility model discloses further set up to: the side face, which is mutually attached to the first sliding rail block and the second sliding rail block, is perpendicular to the plane where the window frame is located, the side face is an inclined face, and the distance between the upper end of the inclined face and the midpoint of the first sliding rail block is smaller than the distance between the lower end of the inclined face and the midpoint of the first sliding rail block.

By adopting the technical scheme, when the first sliding rail block and the second sliding rail block are installed, the first sliding rail block is installed on the lower side edge of the window frame, then the second sliding rail block slides into the space between the first sliding rail block and the vertical edge of the window frame, and finally the sliding window is erected on the sliding rail bar. When the sliding window is erected on the first sliding rail block and the second sliding rail block, the sliding window exerts downward pressure on the second sliding rail block, so that the second sliding rail block extrudes the first sliding rail block, and the second sealing strip arranged between the embedded strip and the embedded groove is further extruded. The second sealing strip and the gap between the embedded strip and the embedded groove are further reduced, the sealing effect is better, and the phenomenon of air leakage is not easy to occur.

The utility model discloses further set up to: the bottom surface of the sliding rail strip is provided with an erection groove, the lower side edge of the window frame is embedded in the erection groove, and a third sealing strip is clamped between the lower side edge of the window frame and the sliding rail strip.

Through adopting above-mentioned technical scheme, make the slide rail strip can be simple and convenient fix on the window frame. The erection groove increases the contact area between the lower side edges of the sliding rail strips and the window frame, and the gap between the erection groove and the sliding rail strips is sealed through the third sealing strip, so that the sealing effect is further improved, and the phenomenon of air leakage is not easy to occur.

The utility model discloses further set up to: first blind hole and second blind hole have been seted up respectively on the side of laminating each other of first slide rail piece and second slide rail piece, the axis of first blind hole and second blind hole all is located same straight line, wears to be equipped with the anchor bolt in first blind hole, has seted up the slip logical groove on the side of second blind hole, the anchor bolt is gone up the fixed slip shifting block that sets up, the slip shifting block is worn to establish in the slip logical groove.

Through adopting above-mentioned technical scheme, when using, install the anchor bolt earlier, later with first slide rail piece and the mutual amalgamation of second slide rail piece, stir the anchor bolt at last and fix first slide rail piece and second slide rail piece together. The structure of the installed slide rail bar is more stable and firm, and when the slide rail bar needs to be disassembled, the slide rail bar only needs to be pulled, and the slide rail bar can be conveniently disassembled.

The utility model discloses further set up to: and a return spring is arranged between the anchoring bolt and the bottom surface of the first blind hole.

Through adopting above-mentioned technical scheme, reset spring can be fine supports the anchor bolt, makes the anchor bolt wear to establish simultaneously in first blind hole and the second blind hole to it is more firm to make to connect between first slide rail piece and the second slide rail piece.

To sum up, the utility model discloses a beneficial technological effect does:

1. gaps between the mounting groove and the vertical edges of the window frame are well filled, so that two ends of the slide rail bar can be sealed, the phenomenon of air leakage is not easy to occur, and the energy waste is reduced;

2. simple to operate is swift, and the follow-up dismantlement of being convenient for gets off and clears up the window frame.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of the installation of the first and second blocks;

FIG. 3 is a schematic view of the installation of the first and second sealing strips;

fig. 4 is a schematic view of the internal structure of the first blind hole and the second blind hole.

Reference numerals: 1. a window frame; 2. a slide rail bar; 21. mounting grooves; 22. erecting a groove; 23. a third seal strip; 3. a first slide rail block; 31. a second slide rail block; 32. embedding a groove; 33. embedding a strip; 34. a second seal strip; 4. a first blind hole; 41. a second blind hole; 42. anchoring the bolt; 43. sliding the shifting block; 44. a sliding through groove; 45. a return spring; 5. sealing the clamping block; 51. sealing the clamping groove; 52. a first seal strip.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 and 2, the aluminum alloy energy-saving door and window assembly structure comprises a window frame 1. The upper surface of the lower side edge of the window frame 1 is a plane, and a slide rail bar 2 is arranged on the lower side edge of the window frame 1. The bottom surface of the slide rail bar 2 is provided with an erection groove 22, the bottom surface of the installation groove 21 is adhered with a third sealing strip 23, and the lower side edge of the window frame 1 is embedded in the erection groove 22. Vertical mounting grooves 21 are formed in the two ends of the slide rail bar 2, and the distance between the bottom surfaces of the two mounting grooves 21 is equal to the distance between the two vertical edges of the window frame 1. The slide rail bar 2 can be disassembled, so that the push-pull mode of the sliding window can be realized, and the aim of convenient cleaning can be achieved through disassembly. And the third sealing strip 23 seals the gap between the mounting groove 21 and the sliding rail strip 2, so that the phenomenon of air leakage is not easy to occur.

As shown in fig. 2 and 3, the slide rail bar 2 includes a first slide rail block 3 and two second slide rail blocks 31, the second slide rail blocks 31 are installed at both ends of the first slide rail block 3, and the installation groove 21 is opened at a side of the second slide rail block 31 far from the first slide rail block 3. The side face of the first sliding rail block 3, which is attached to the second sliding rail block 31, is an inclined face, the inclined face is perpendicular to the plane where the window frame 1 is located, and the distance between the upper side edge of the inclined face and the midpoint of the first sliding rail block 3 is smaller than the distance between the lower side edge of the inclined face and the midpoint of the first sliding rail block 3. An embedding groove 32 is formed on the side surface of the first slide rail block 3, which is attached to the second slide rail block 31, and an embedding strip 33 is formed on the side surface of the second slide rail block 31, which is attached to the first slide rail block 3 in a protruding manner. The embedding groove 32 is a dovetail groove, and the cross section of the embedding strip 33 is equal to the cross section of the embedding groove 32 in size. Can be simple and convenient splice first slide rail piece 3 and second slide rail piece 31 together, the difficult phenomenon that becomes flexible and drops that appears of first slide rail piece 3 and second slide rail piece 31 that splice. A second sealing strip 34 is adhered in the embedding groove 32, and the end with the lower height of the second sealing strip 34 is thicker, while the end with the higher height is thinner. The fitting bar 33 is configured to have a narrow lower portion and a wide upper portion, which makes it easier to initially insert the fitting bar 33 into the fitting groove 32. As the embedding bar 33 is gradually inserted into the embedding groove 32, the embedding bar 33 further presses the second sealing bar 34, thereby further closing the gap between the second sealing bar 34 and the embedding groove 32 and the embedding bar 33. The sealing effect is better, and the phenomenon of air leakage is not easy to occur.

As shown in fig. 3 and 4, a first blind hole 4 is formed on the side of the first slide rail block 3 attached to the second slide rail block 31, a second blind hole 41 is formed on the side of the second slide rail block 31 attached to the first slide rail block 3, and the first blind hole 4 and the second blind hole 41 are located on the same straight line. An anchoring bolt 42 is arranged in the first blind hole 4, the length of the anchoring bolt 42 is smaller than that of the first blind hole 4, and a return spring 45 is arranged between the anchoring bolt 42 and the bottom surface of the first blind hole 4. A sliding through groove 44 parallel to the axis of the first blind hole 4 is formed in the side surface of the first blind hole 4, a sliding shifting block 43 is integrally formed on the side surface of the anchoring bolt 42, and the sliding shifting block 43 penetrates through the sliding through groove 44 and moves along the sliding through groove 44. When the sliding shifting block 43 is located at the position where the sliding through groove 44 is close to the bottom end of the first blind hole 4, the anchoring bolt 42 is completely arranged in the first blind hole 4, and when the movable shifting block is located at the position where the sliding through groove 44 is far away from the bottom end of the first blind hole 4, the anchoring bolt 42 is simultaneously arranged in the first blind hole 4 and the second blind hole 41 in a penetrating manner. The first and second slide blocks 3, 31 can be simply assembled to each other by means of the anchor bolt 42. The structure of the installed slide rail bar 2 is more stable and firm, and when the slide rail bar needs to be disassembled, the slide shifting block 43 only needs to be shifted, and the disassembly can be conveniently carried out.

As shown in fig. 2 and 3, a sealing clamping block 5 is integrally formed at an included angle between the lower side edge and the vertical edge of the window frame 1, the cross section of the sealing clamping block 5 is a right triangle, one right-angle edge of the sealing clamping block 5 coincides with the lower side edge of the window frame 1, and the other right-angle edge coincides with the vertical edge of the window frame 1. A sealing slot 51 is formed on the bottom surface of the mounting groove 21, and the shape of the sealing slot 51 is equal to that of the sealing latch 5. A first sealing tape 52 is adhered to the bottom surface of the mounting groove 21, and the first sealing tape 52 is laid along the bottom surface of the mounting groove 21 and the bottom surface of the sealing card slot 51. When the slide rail bar 2 is installed on the lower side of the window frame 1, the sealing slot 51 is erected on the upper side of the sealing fixture block 5. When the sliding window is installed, the sliding window needs to be erected on the sliding rail strip 2, so that downward pressure is applied to the sliding rail strip 2. The slide rail 2 therefore presses downward against the sealing jaw 5, so that the first sealing strip 52 between the sealing groove 51 and the sealing jaw 5 is pressed. Compare in direct vertical setting with first sealing strip 52, the first sealing strip 52 of extrusion that such structure can last makes first sealing strip 52 and sealed fixture block 5 and the space between the seal groove 51 further reduce, and sealed effect is better, the phenomenon of the difficult appearance hourglass wind.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides an energy-conserving door and window subassembly structure of aluminum alloy, includes window frame (1), its characterized in that: the lower side edge fixed mounting of window frame (1) have smooth rail strip (2), smooth rail strip (2) upper surface on all be provided with the sliding guide of cooperation austral window, sliding guide rail strip (2) both ends have all been seted up vertical mounting groove (21), the vertical limit of window frame (1) inlays and establishes in mounting groove (21), distance between two mounting grooves (21) equals the width of window frame (1), smooth rail strip (2) include first slide rail piece (3) and second slide rail piece (31), second slide rail piece (31) detachable is installed in the end department of first slide rail piece (3), be provided with first sealing strip (52) at mounting groove (21) internal fixation.

2. The aluminum alloy energy-saving door and window assembly structure as claimed in claim 1, wherein: window frame (1) lower side and vertical limit between the contained angle department fixed be provided with sealed fixture block (5), the width of high lower position department is not less than the width of high higher position department all the time in sealed fixture block (5), set up sealed draw-in groove (51) of the sealed fixture block (5) of cooperation on the bottom surface of mounting groove (21), first sealing strip (52) are laid along the bottom surface of mounting groove (21) and the bottom surface of sealed draw-in groove (51).

3. The aluminum alloy energy-saving door and window assembly structure as claimed in claim 1, wherein: first slide rail piece (3) and second slide rail piece (31) two sides of laminating each other on be provided with respectively and inlay and establish groove (32) and inlay and establish strip (33), the cross section of inlaying and establishing strip (33) equals with the cross section size of inlaying and establishing groove (32), and the opening width of just inlaying and establishing groove (32) is less than and inlays the inside widest width of establishing groove (32), inlay and establish strip (33) and inlay and establish the plane parallel at groove (32) place all with window frame (1).

4. The aluminum alloy energy-saving door and window assembly structure as claimed in claim 3, wherein: the bottom surface of the embedding groove (32) is fixedly provided with a second sealing strip (34), and the thickness of the lower position of the height of the second sealing strip (34) is not less than that of the higher position of the height all the time.

5. The aluminum alloy energy-saving door and window assembly structure as claimed in claim 4, wherein: the side surfaces, which are mutually attached, of the first sliding rail block (3) and the second sliding rail block (31) are perpendicular to a plane where the window frame (1) is located, the side surfaces are inclined surfaces, and the distance between the upper ends of the inclined surfaces and the middle point of the first sliding rail block (3) is smaller than the distance between the lower ends of the inclined surfaces and the middle point of the first sliding rail block (3).

6. The aluminum alloy energy-saving door and window assembly structure as claimed in claim 1, wherein: the bottom surface of the sliding rail bar (2) is provided with an erection groove (22), the lower side edge of the window frame (1) is embedded in the erection groove (22), and a third sealing strip (23) is clamped between the lower side edge of the window frame (1) and the sliding rail bar (2).

7. The aluminum alloy energy-saving door and window assembly structure as claimed in claim 3, wherein: first blind hole (4) and second blind hole (41) have been seted up respectively on the side of first slide rail piece (3) and second slide rail piece (31) laminating each other, the axis of first blind hole (4) and second blind hole (41) all is located same straight line, wear to be equipped with anchor bolt (42) in first blind hole (4), logical groove (44) of sliding has been seted up on the side of second blind hole (41), fixed setting slip shifting block (43) on anchor bolt (42), slip shifting block (43) are worn to establish in the logical groove (44) that slides.

8. The aluminum alloy energy-saving door and window assembly structure as claimed in claim 7, wherein: and a return spring (45) is arranged between the anchoring bolt (42) and the bottom surface of the first blind hole (4).

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