CN215056559U - Frame structure for aluminum alloy sliding door and window - Google Patents

Abstract

The utility model relates to a frame structure for aluminum alloy sliding doors and windows, which belongs to the technical field of aluminum alloy doors and windows, and comprises two groups of edge sealing parts with central symmetry, wherein two groups of vacuum glass are installed between the two groups of edge sealing parts in a staggered manner, one end of the vacuum glass close to the adjacent edge sealing part is provided with a first smooth rabbet part, the other end of the vacuum glass is provided with a second smooth rabbet part, the second smooth rabbet part of one group of vacuum glass is hooked with the second smooth rabbet part of the other group of vacuum glass when being intersected, a position of one end of the outer wall of the edge sealing part close to the first smooth rabbet part is provided with a limiting rail, a round angle groove is formed on the edge sealing part, and a rubber strip is embedded in the round angle groove; compared with the prior art, the utility model, through adopting the mutually supporting of the limit sealing piece of notes gluey groove, the smooth rabbet spare one, smooth rabbet spare two and vacuum glass of heat insulating strip, framework structure is simple and reasonable in design, and the installation degree of difficulty is low, and thermal-insulated, sound insulation are effectual, have the buffering moreover when push-and-pull glass and both ends limit sealing contact, and the noise abatement avoids the aluminium alloy to warp simultaneously and increases the life-span.

Description

Frame structure for aluminum alloy sliding door and window

Technical Field

The utility model belongs to the technical field of aluminum alloy door and window, concretely relates to frame structure for aluminum alloy sliding door.

Background

Popular aluminum alloy doors and windows in the market, the outward appearance is exquisite difficult for rustting, because the aluminium alloy has light in weight, resists the advantage that the reinforce and is used widely in the building, current frame structure for aluminum alloy sliding door and window is mostly directly cut by whole aluminium alloy and is obtained, and heat-proof quality, sound insulation performance are relatively poor, greatly influence the travelling comfort of indoor life. Meanwhile, in the process of pushing and pulling the existing aluminum alloy sliding door and window, the pushing and pulling force is slightly too large, the contact force between the glass installation frame piece and the edge sealing piece is increased, huge sound can be generated, smooth rabbet pieces on two sides of the glass can be deformed, the service life of aluminum profiles is shortened, and people are worried about using the aluminum alloy sliding door and window. Therefore, a frame structure for aluminum alloy sliding doors and windows is proposed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an aluminum alloy is frame structure for sliding door to solve the problem that provides among the above-mentioned background art.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

the utility model provides an aluminum alloy is frame structure for sliding door, includes two sets of limit seals of central symmetry, and crisscross installation has two sets of vacuum glass between two sets of limit seals, vacuum glass is close to the one end of adjacent limit seal and is equipped with smooth rabbet spare one, and vacuum glass's the other end is equipped with smooth rabbet spare two, and a set of vacuum glass's smooth rabbet spare two catches on with another set of vacuum glass's smooth rabbet spare two when intersecting each other, is equipped with buffer structure on smooth rabbet spare two and the limit seal contact surface, the outer wall one end of limit seal is close to smooth rabbet spare one position department and is equipped with spacing rail, the last fillet groove of having seted up of limit seal, just the fillet inslot is inlayed and is had the rubber strip, and the rubber strip is located the same horizontal position department of the structure outside with smooth rabbet spare one on the limit seal.

As the utility model discloses a further optimization scheme, the limit sealing includes side frame body one, side frame body two, glue injection groove and frid, the glue injection groove is located between side frame body one and the side frame body two, the glue injection groove is formed by the frid of the relative outer wall of side frame body one and side frame body two, side frame body one, side frame body two pass through glue injection groove glue injection back and connect as an organic wholely, increase the thermal-insulated syllable-dividing effect of limit sealing, stability is high.

As the utility model discloses a further optimization scheme, spacing rail, fillet groove, rubber strip all are located the outer wall of frame body two, and fixed mounting increases stability.

As a further optimization scheme of the utility model, all be equipped with the drying plate around vacuum glass, just the outside of drying plate is equipped with the sealing member, all be equipped with the backing plate between vacuum glass and smooth rabbet spare one or smooth rabbet spare two, the vacuum glass's of being convenient for installation and stability.

As the utility model discloses a further optimization scheme, smooth rabbet spare two includes first structure, second structure, heat insulating strip, hooked rabbet spare and mounting, connect through two sets of heat insulating strips of joint between first structure and the second structure, the one end of first structure and second structure forms the glass gap, and other end installation hooked rabbet spare is equipped with the mounting between one end and the second structure that hooked rabbet spare is close to another a set of smooth rabbet spare two, increases the firm in connection nature of hooked rabbet spare and first structure and second structure.

As the utility model discloses a further optimization scheme, hooked rabbet spare includes the apron of right angle form, the apron is close to the one end in the outside and is equipped with the draw-in groove with first structure spare joint, the apron is close to inboard one end and is equipped with the portion of colluding with another group smooth rabbet spare two each other, it is equipped with outside open-ended sealing strip draw-in groove to be close to portion of colluding position department on the apron, it is equipped with outside open-ended rubber clamping groove to be close to draw-in groove position department on the apron.

As the utility model discloses a further optimization scheme, the same horizontal position department of frame body one and rubber draw-in groove is equipped with the recess.

The beneficial effects of the utility model reside in that: by adopting the mutual matching of the edge sealing piece of the glue injection groove, the first smooth rabbet piece and the second smooth rabbet piece of the heat insulation strip and the vacuum glass, the frame body has the advantages of simple structure, reasonable design, low installation difficulty, good heat insulation and sound insulation effects, uniform stress of the whole structure, and formation of a glue block after glue injection, thereby having good heat insulation and sound insulation effects and ensuring that the edge sealing piece is not easy to deform; and there is the buffering when push-and-pull glass and both ends edge sealing contact, and the noise abatement avoids the aluminium alloy to warp simultaneously, is favorable to improving aluminium alloy door and window's life, can improve connection structure's fastness moreover, prevents that the casement from appearing not hard up droing.

Drawings

Fig. 1 is a schematic view of the whole structure of the frame structure for aluminum alloy sliding doors and windows of the present invention;

fig. 2 is an enlarged schematic structural view of fig. 1 a of the present invention;

fig. 3 is a schematic structural view of a smooth rabbet component of the frame structure for the aluminum alloy sliding door and window of the utility model;

fig. 4 is a schematic structural view of the frame structure for aluminum alloy sliding doors and windows of the present invention.

In the figure: 1. edge sealing; 11. a first side frame body; 12. a second side frame body; 13. injecting glue groove; 14. a groove plate; 15. a groove; 2. a smooth rabbet part I; 3. vacuum glass; 31. a seal member; 32. drying the plate; 33. a base plate; 4. a smooth rabbet part II; 41. a first structural member; 42. a second structural member; 43. a heat insulating strip; 44. a hooked rabbet component; 441. a cover plate; 442. a sealing strip clamping groove; 443. a hook part; 444. a rubber clamping groove; 445. a connecting clamping groove; 45. a fixing member; 5. a limit rail; 6. a rounded corner groove; 7. a rubber strip.

Detailed Description

The present application will now be described in further detail with reference to the drawings, it should be noted that the following detailed description is given for illustrative purposes only and is not to be construed as limiting the scope of the present application, as those skilled in the art will be able to make numerous insubstantial modifications and adaptations to the present application based on the above disclosure.

Example 1

As shown in fig. 1 to 2, the frame structure for an aluminum alloy sliding door and window of the present embodiment includes two sets of edge sealing members 1 with central symmetry, two sets of vacuum glass 3 are installed between the two sets of edge sealing members 1 in a staggered manner, a first smooth rabbet member 2 is installed at one end of the vacuum glass 3 close to the adjacent edge sealing member 1, a second smooth rabbet member 4 is installed at the other end of the vacuum glass 3, the second smooth rabbet member 4 of one set of vacuum glass 3 and the second smooth rabbet member 4 of the other set of vacuum glass 3 are hooked with each other when intersecting, the frame structure is simple and reasonable in design, the heat and sound insulation effect is excellent, a limit rail 5 is installed at a position close to the first smooth rabbet member 2 at one end of the outer wall of the edge sealing member 1, a round groove 6 is opened on the edge sealing member 1, a rubber strip 7 is embedded in the round groove 6, the rubber strip 7 is located at the same horizontal position as the outward side structural member of the first smooth rabbet member 2 on the edge sealing member 1, when the vacuum glass 3 is pushed or pulled, a touch corner of one end of the first smooth rabbet member 2 is contacted with the two sealing members 1, and the buffer structure is provided by the rubber strip 7, noise is reduced and deformation of the aluminum profile is avoided.

The edge sealing piece 1 comprises a first edge frame body 11, a second edge frame body 12, an adhesive injection groove 13 and a groove plate 14, the adhesive injection groove 13 is positioned between the first edge frame body 11 and the second edge frame body 12, the adhesive injection groove 13 is formed by the groove plate 14 on the outer wall of the first edge frame body 11 and the second edge frame body 12, the groove plate 14 comprises two groups of long wedge-shaped plates which are symmetrical in the middle and short wedge-shaped plates which are symmetrical up and down, the contact area between glue and the first edge frame body 11 and the second edge frame body 12 is increased, the stress area is increased, the structure is more stable, the first edge frame body 11 and the second edge frame body 12 are connected into a whole after the glue is injected through the adhesive injection groove 13, a glue block is formed after the glue is injected, the glue block has good heat insulation effect and sound insulation effect and enables the edge sealing piece 1 not to be easily deformed, when the other end contact angle of the first light rabbet 2 and the two edge sealing pieces 1 are contacted, the cushion is provided by the glue block in the end edge sealing piece 13 when the vacuum glass 3 is pushed and pulled, the noise is reduced, and the aluminum section bar deformation is avoided at the same time, spacing rail 5, fillet groove 6, rubber strip 7 all are located the outer wall of frame body two 12, the multiplicable structural stability of above-mentioned structure fixed mounting.

All be equipped with drying plate 32 around vacuum glass 3, and the outside of drying plate 32 is equipped with sealing member 31, all is equipped with backing plate 33 between vacuum glass 3 and smooth rabbet spare 2 or smooth rabbet spare two 4, the installation and the stability of the vacuum glass of being convenient for.

As shown in fig. 3, the smooth rabbet component two 4 includes a first structural component 41, a second structural component 42, a heat insulation strip 43, a hook rabbet component 44 and a fixing component 45, the first structural component 41 and the second structural component 42 are connected by two groups of heat insulation strips 43 clamped, a glass gap is formed at one end of the first structural component 41 and one end of the second structural component 42, the vacuum glass 3 is installed in the glass gap, the hook rabbet component 44 is installed at the other end of the first structural component 41, the fixing component 45 is arranged between one end of the hook rabbet component 44 close to the other group of smooth rabbet component two 4 and the second structural component 42, and the connection firmness of the hook rabbet component 44 and the first structural component 41 and the second structural component 42 is increased.

As shown in fig. 4, the hooked rabbet component 44 includes a right-angled cover plate 441, the cover plate 441 covers the open ends of the first structural component 41 and the second structural component 42, a connecting slot 445 fastened with the first structural component 41 is disposed at one end of the cover plate 441 close to the outer side, a hook 443 hooked with the other group of smooth rabbet components is disposed at one end of the cover plate 441 close to the inner side, a sealing strip slot 442 opened outwards is disposed at a position close to the hook 443 on the cover plate 441, a sealing strip is mounted in the sealing strip slot 442, when the two groups of smooth rabbet components are hooked with each other, the sealing strip slot 442 has buffering and protecting functions, a rubber slot 444 opened outwards is disposed at a position close to the connecting slot 445 on the cover plate 441, a rubber strip is mounted on the rubber slot 444, a groove 15 is disposed at the same horizontal position of the first frame body 11 and the rubber slot 444, the rubber strip is mounted on the rubber slot 444 of the hooked rabbet component 44 to cooperate with each other, so as to reduce the collision between the first frame body 11 of the first frame body 1 of the smooth rabbet component 4 and the edge seal 1, thereby avoiding the sounding and the deformation of the aluminum profile.

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.

Claims (7)

1. A frame structure for aluminum alloy sliding doors and windows is characterized by comprising two groups of edge sealing pieces (1) which are centrosymmetric, two groups of vacuum glass (3) are arranged between the two groups of edge sealing pieces (1) in a staggered manner, one end of the vacuum glass (3) close to the adjacent edge sealing piece (1) is provided with a smooth rabbet piece I (2), and the other end of the vacuum glass (3) is provided with a smooth rabbet part II (4), the smooth rabbet parts II (4) of one group of vacuum glass (3) and the smooth rabbet parts II (4) of the other group of vacuum glass (3) are mutually hooked when being intersected, a limiting rail (5) is arranged at one end of the outer wall of the edge sealing piece (1) close to the first smooth rabbet piece (2), a round angle groove (6) is arranged on the edge sealing piece (1), and a rubber strip (7) is embedded in the round angle groove (6), and the rubber strip (7) is positioned on the edge sealing piece (1) and at the same horizontal position with the outward structural piece of the smooth rabbet piece (2).

2. The frame structure for the aluminum alloy sliding door and window according to claim 1, wherein the edge sealing member (1) comprises a first edge frame (11), a second edge frame (12), a glue injection groove (13) and a groove plate (14), the glue injection groove (13) is located between the first edge frame (11) and the second edge frame (12), the glue injection groove (13) is formed by the groove plate (14) on the outer wall opposite to the first edge frame (11) and the second edge frame (12), and the first edge frame (11) and the second edge frame (12) are connected into a whole after being filled with glue through the glue injection groove (13).

3. The frame structure for the aluminum alloy sliding door and window according to claim 2, wherein the limit rail (5), the circular bead groove (6) and the rubber strip (7) are all located on the outer wall of the second frame body (12).

4. The frame structure for the aluminum alloy sliding door and window according to claim 1, wherein drying plates (32) are arranged on the periphery of the vacuum glass (3), sealing pieces (31) are arranged on the outer sides of the drying plates (32), and base plates (33) are arranged between the vacuum glass (3) and the first smooth rabbet part (2) or the second smooth rabbet part (4).

5. The frame structure for the aluminum alloy sliding door and window according to claim 2, wherein the second smooth rabbet component (4) comprises a first structural component (41), a second structural component (42), a heat insulation strip (43), a hooked rabbet component (44) and a fixing component (45), the first structural component (41) and the second structural component (42) are connected through two groups of heat insulation strips (43) in clamping connection, a glass gap is formed at one end of the first structural component (41) and one end of the second structural component (42), the hooked rabbet component (44) is installed at the other end of the first structural component (41) and the other end of the second structural component (42), and the fixing component (45) is arranged between one end of the hooked rabbet component (44) close to the other group of the second smooth rabbet component (4) and the second structural component (42).

6. The frame structure for the aluminum alloy sliding door and window according to claim 5, wherein the hooked rabbet component (44) comprises a right-angle cover plate (441), a connecting clamping groove (445) clamped with the first structural component (41) is formed in one end, close to the outer side, of the cover plate (441), a hooked portion (443) hooked with the other group of smooth rabbet components (4) is formed in one end, close to the inner side, of the cover plate (441), a sealing strip clamping groove (442) with an outward opening is formed in the position, close to the hooked portion (443), of the cover plate (441), and a rubber clamping groove (444) with an outward opening is formed in the position, close to the connecting clamping groove (445), of the cover plate (441).

7. The frame structure for the aluminum alloy sliding door and window according to claim 6, wherein the first side frame (11) and the rubber clamping groove (444) are provided with a groove (15) at the same horizontal position.

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