CN113153079A

CN113153079A - Aluminum alloy sliding energy-saving door and window system

Info

Publication number: CN113153079A
Application number: CN202110316518.6A
Authority: CN
Inventors: 徐兵
Original assignee: Jiangsu Semia Door & Window Technology Co ltd
Current assignee: Jiangsu Semia Door & Window Technology Co ltd
Priority date: 2021-03-25
Filing date: 2021-03-25
Publication date: 2021-07-23

Abstract

The invention discloses an aluminum alloy push-pull energy-saving door and window system which comprises a door frame, wherein the inner wall of the door frame is fixedly connected with a first door and window and a second door and window, the edges of the first door and window and the second door and window are fixedly connected with sealing strips, a moving mechanism is arranged inside the door frame, a limiting mechanism is arranged at the bottom of an inner cavity of the door frame, and the moving mechanism comprises a first push-pull door and a second push-pull door. This energy-conserving door and window system of aluminum alloy push-and-pull, through being provided with moving mechanism, utilize the card strip and lead to the groove between first push-and-pull door and the second push-and-pull door opposite side, through the joint of second branch and draw-in groove, the cooperation pulling handle, first branch, pillar and first door opening, not only can realize smooth and easy the slip of push-and-pull door, can spend two push-and-pull doors to fix in addition, the not enough inclosed problem under traditional airtight strip contact has been avoided, make this push-and-pull door can carry out used repeatedly simultaneously.

Description

Aluminum alloy sliding energy-saving door and window system

Technical Field

The invention relates to the technical field of doors and windows, in particular to an aluminum alloy push-pull energy-saving door and window system.

Background

The door and window is divided into an enclosure member or a partition member according to different positions, different design requirements are required to have the functions of heat preservation, heat insulation, sound insulation, water resistance, fire prevention and the like, new requirements are energy-saving, and heat lost by door and window gaps in cold regions accounts for about 25% of the total heating heat consumption; the requirement of the tightness of the door and window is an important content in the energy-saving design; doors and windows are important components of building envelope systems; the second function is: the door and window are also important components of building shape (the contrast between real and virtual, rhythm artistic effect, playing an important role), so that their shape, size, proportion, arrangement, colour and shape, etc. have a great influence on the whole shape of building.

The existing aluminum alloy sliding door only simply utilizes the sealing strips to carry out relative contact, is easy to wear after a long time, and causes poor sealing performance, and meanwhile, the sliding door can only be opened and closed through movement, cannot be opened by rotating, and meanwhile, general doors and windows are easy to peel and rust after receiving external irradiation.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an aluminum alloy push-pull energy-saving door and window system, which solves the problems that the existing aluminum alloy push-pull door is not strong in airtightness, can not be opened by rotating, and is easy to damage by external sunlight irradiation.

In order to achieve the purpose, the invention is realized by the following technical scheme: an aluminum alloy push-pull energy-saving door and window system comprises a door frame, wherein a first door and window and a second door and window are fixedly connected to the inner wall of the door frame, sealing strips are fixedly connected to the edges of the first door and window and the second door and window, a moving mechanism is arranged inside the door frame, a limiting mechanism is arranged at the bottom of an inner cavity of the door frame, the moving mechanism comprises a first push-pull door and a second push-pull door, the surfaces of the first push-pull door and the second push-pull door are in contact with the surfaces of the sealing strips, a clamping strip is fixedly connected to the right side of the first push-pull door, a sliding groove is formed in the right side of the clamping strip, a clamping groove is formed below the inner surface of the sliding groove, a through groove is formed in the left side of the second push-pull door, a first door hole is formed in the front side of the second push-pull door, a sliding groove is formed in the inner surface of the first door hole, and a support column is connected to the inner surface of the through groove in a sliding manner, the one end of pillar extends to the outside of sliding tray, the one end fixedly connected with pulling handle of pillar, the first branch of surface fixedly connected with of pillar, the one end of first branch extends to the outside that leads to the groove, the one end fixedly connected with second branch of first branch, the surface of second branch and the internal surface sliding connection of draw-in groove.

Preferably, the top and the bottom of the first sliding door and the second sliding door are both movably connected with sliding bases, the bottom of the bottom sliding base is provided with a groove, the bottom of the inner surface of the door frame is fixedly connected with a sliding rail, and the outer surface of the sliding rail is slidably connected with the inner surface of the groove.

Preferably, including the axis of rotation in the stop gear, the axis of rotation runs through first push-and-pull door and second push-and-pull door and extends to the outside of first push-and-pull door and second push-and-pull door, the both ends of axis of rotation rotate with the relative one side of sliding base respectively and are connected.

Preferably, the bottoms of the first sliding door and the second sliding door are in sliding connection with one side, opposite to the sliding base, of the sliding base, the surface of the sliding base is provided with a limiting groove, the lower portion of one side, opposite to the first sliding door and the second sliding door, of the first sliding door and the second sliding door is provided with a placing groove, and the inner surface of the placing groove is provided with a moving groove.

Preferably, the internal surface sliding connection of shifting chute has the stopper, the top fixedly connected with card post of stopper, the top fixedly connected with spring of card post, the top of spring and the internal surface fixed connection of shifting chute.

Preferably, the outer surface of the limiting block is connected with the inner surface of the limiting groove in a sliding mode, the outer surface of the limiting block is fixedly connected with a rotating block, the inner surface of the rotating block is rotatably connected with a pulling rod through a rotating pin, and the inner surface of the placing groove is fixedly connected with a baffle.

Preferably, the surface of first door and window, second door and window, first push-and-pull door and second push-and-pull door all is provided with substrate layer and insulating layer, the bottom fixed connection of adhesive and insulating layer is passed through at the top of substrate layer.

Preferably, the heat insulation layer comprises a polypropylene fiber layer, a magnesium stearate layer and a glass fiber layer, the top of the polypropylene fiber layer is fixedly connected with the bottom of the magnesium stearate layer, and the top of the magnesium stearate layer is fixedly connected with the bottom of the glass fiber layer.

Advantageous effects

The invention provides an aluminum alloy push-pull energy-saving door and window system. Compared with the prior art, the method has the following beneficial effects:

(1) the aluminum alloy push-pull energy-saving door and window system comprises a first push-pull door and a second push-pull door in a moving mechanism, the surfaces of the first push-pull door and the second push-pull door are in contact with the surface of a sealing strip, the right side of the first push-pull door is fixedly connected with a clamping strip, the right side of the clamping strip is provided with a sliding groove, a clamping groove is formed below the inner surface of the sliding groove, the left side of the second push-pull door is provided with a through groove, the front side of the second push-pull door is provided with a first door hole, the inner surface of the first door hole is provided with a sliding groove, the inner surface of the through groove is slidably connected with a support column, one end of the support column extends to the outer part of the sliding groove, one end of the support column is fixedly connected with a pulling handle, the outer surface of the support column is fixedly connected with a first support rod, one end of the first support rod extends to the outer part of the through groove, the outer surface of the second support rod is slidably connected with the inner surface of the clamping groove, the top and the equal swing joint in bottom of first push-and-pull door and second push-and-pull door have a sliding base, bottom sliding base's bottom is seted up flutedly, the bottom fixedly connected with slide rail of door frame internal surface, the surface of slide rail and the internal surface sliding connection of recess, through being provided with moving mechanism, utilize the card strip and the logical groove between first push-and-pull door and the second push-and-pull door opposite side, joint through second branch and draw-in groove, the cooperation pulling handle, first branch, pillar and first door opening, not only can realize smooth and easy slip of push-and-pull door, and can spend two push-and-pull doors to fix, the not airtight problem of enough under traditional airtight strip contact has been avoided, make this push-and-pull door can carry out used repeatedly simultaneously.

(2) The aluminum alloy push-pull energy-saving door and window system comprises a rotating shaft in a limiting mechanism, wherein the rotating shaft penetrates through a first push-pull door and a second push-pull door and extends to the outer parts of the first push-pull door and the second push-pull door, two ends of the rotating shaft are respectively rotatably connected with one side, opposite to a sliding base, of the bottom parts of the first push-pull door and the second push-pull door, the side, opposite to the sliding base, of the sliding base is slidably connected, a limiting groove is formed in the surface of the sliding base, standing grooves are formed below the opposite side of the first push-pull door and the second push-pull door, moving grooves are formed in the inner surface of the standing grooves, limiting blocks are slidably connected to the inner surface of the moving grooves, clamping columns are fixedly connected to the top parts of the limiting blocks, springs are fixedly connected to the top parts of the clamping columns, the top parts of the springs are fixedly connected to the inner surfaces of the moving grooves, the outer surfaces of the limiting blocks are slidably connected to the inner surfaces of the limiting grooves, rotating blocks are fixedly connected to the outer surfaces of the limiting blocks, the internal surface of turning block rotates through the rotating pin to be connected with the pulling pole, and the internal surface fixed connection of standing groove has the baffle, through being provided with stop gear, utilizes the joint of stopper and spacing groove, fixes first push-and-pull door and second push-and-pull door, and cooperation card post, spring, turning block, pulling pole and baffle can be random transform plug-type and rotate the opening door to very big improvement this door and window's application range, expanded its rate of utilization simultaneously.

(3) The aluminum alloy push-pull energy-saving door and window system is characterized in that a substrate layer and a heat insulation layer are arranged on the outer surfaces of a first door and window, a second door and window, a first push-pull door and a second push-pull door respectively, the top of the substrate layer is fixedly connected with the bottom of the heat insulation layer through a bonding agent, the heat insulation layer comprises a polypropylene fiber layer, a magnesium stearate layer and a glass fiber layer, the top of the polypropylene fiber layer is fixedly connected with the bottom of the magnesium stearate layer, the top of the magnesium stearate layer is fixedly connected with the bottom of the glass fiber layer, by arranging the heat insulation layer, the uniform bonding is carried out by using the adhesive, and the polypropylene fiber layer, the magnesium stearate layer and the glass fiber layer are matched, so that the door and the window can be prevented from being lost for a long time by external sunlight, and the temperature in the room can be greatly kept, the problems of air leakage and energy loss are avoided, and the heat insulation performance of the door and window is greatly improved.

Drawings

FIG. 1 is a perspective view of the external structure of the present invention;

FIG. 2 is an exploded view of the moving mechanism of the present invention;

FIG. 3 is an exploded view of a portion of the structure of the present invention;

FIG. 4 is an exploded view of the spacing mechanism of the present invention;

FIG. 5 is an enlarged view of a portion of the structure of FIG. 4;

FIG. 6 is a schematic view of a layer-by-layer structure of a substrate according to the present invention;

fig. 7 is a schematic view of a thermal insulation layer structure of the present invention.

In the figure: 1-door frame, 2-first door and window, 3-second door and window, 4-sealing strip, 5-moving mechanism, 51-first sliding door, 52-second sliding door, 53-clamping strip, 54-sliding groove, 55-clamping groove, 56-through groove, 57-first door hole, 58-sliding groove, 59-supporting column, 510-pulling handle, 511-first supporting rod, 512-second supporting rod, 513-sliding base, 514-groove, 515-sliding rail, 6-limiting mechanism, 61-rotating shaft, 62-limiting groove, 63-placing groove, 64-moving groove, 65-limiting block, 66-clamping column, 67-spring, 68-rotating block, 69-rotating pin, 610-pulling rod, 611-baffle plate, etc, 7-substrate layer, 8-insulating layer, 81-polypropylene fiber layer, 82-magnesium stearate layer and 83-glass fiber layer.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: an aluminum alloy push-pull energy-saving door and window system comprises a door frame 1, wherein a first door and window 2 and a second door and window 3 are fixedly connected to the inner wall of the door frame 1, a substrate layer 7 and a heat insulation layer 8 are arranged on the outer surfaces of the first door and window 2, the second door and window 3, a first push-pull door 51 and a second push-pull door 52, the top of the substrate layer 7 is fixedly connected with the bottom of the heat insulation layer 8 through an adhesive, the heat insulation layer 8 comprises a polypropylene fiber layer 81, a magnesium stearate layer 82 and a glass fiber layer 83, the top of the polypropylene fiber layer 81 is fixedly connected with the bottom of the magnesium stearate layer 82, the top of the magnesium stearate layer 82 is fixedly connected with the bottom of the glass fiber layer 83, the heat insulation layer 8 is arranged, the adhesive is used for uniform bonding, the polypropylene fiber layer 81, the magnesium stearate layer 82 and the glass fiber layer 83 are matched, and loss of the door and window caused by external sunlight for a long time can be avoided, and can be very big keep the indoor temperature, the problem of leaking wind and energy loss has been avoided, very big improvement this door and window's heat-proof quality, the equal fixedly connected with sealing strip 4 in edge of first door and window 2 and second door and window 3, sealing strip 4 fills the gap between the door and window, make the seal better, the inside of door frame 1 is provided with moving mechanism 5, the bottom of the door frame 1 inner chamber is provided with stop gear 6, stop gear 6 includes axis of rotation 61, axis of rotation 61 runs through first push-and-pull door 51 and second push-and-pull door 52 and extends to the outside of first push-and-pull door 51 and second push-and-pull door 52, both ends of axis of rotation 61 rotate with the relative one side of sliding base 513 respectively and are connected, the bottom of first push-and-pull door 51 and second push-and-pull door 52 and the relative one side sliding base 513 sliding connection, the surface of sliding base 513 has seted up spacing groove 62, spacing groove 62 and spacing block 65 realize the slip joint, the lower parts of the opposite sides of the first sliding door 51 and the second sliding door 52 are respectively provided with a placing groove 63, the inner surface of the placing groove 63 is provided with a moving groove 64, the inner surface of the moving groove 64 is connected with a limiting block 65 in a sliding manner, the top of the limiting block 65 is fixedly connected with a clamping column 66, the top end of the clamping column 66 is fixedly connected with a spring 67, the elastic force of the spring 67 enables the limiting block 65 under the action of weakness to be completely arranged inside the moving groove 64, the top of the spring 67 is fixedly connected with the inner surface of the moving groove 64, the outer surface of the limiting block 65 is connected with the inner surface of the limiting groove 62 in a sliding manner, the outer surface of the limiting block 65 is fixedly connected with a rotating block 68, the inner surface of the rotating block 68 is rotatably connected with a pulling rod 610 through a rotating pin 69, the inner surface of the placing groove 63 is fixedly connected with a baffle 611, the baffle 611 enables the limiting block 65 to be clamped with the limiting groove 62 through limiting, and the limiting mechanism 6 is arranged, the first sliding door 51 and the second sliding door 52 are fixed by utilizing the clamping connection of the limiting block 65 and the limiting groove 62, the sliding type and the rotating door opening type can be changed freely by matching with the clamping column 66, the spring 67, the rotating block 68, the pulling rod 610 and the baffle 611, so that the application range of the door and window is greatly improved, and the utilization rate of the door and window is expanded, the moving mechanism 5 comprises the first sliding door 51 and the second sliding door 52, one opposite sides of the first sliding door 51 and the second sliding door 52 are tightly attached, the surfaces of the first sliding door 51 and the second sliding door 52 are contacted with the surface of the sealing strip 4, the right side of the first sliding door 51 is fixedly connected with the clamping strip 53, the clamping strip 53 is clamped with the through groove 56 in a sliding manner, the sliding groove 54 is formed on the right side of the clamping strip 53, the clamping groove 55 is formed below the inner surface of the sliding groove 54, the left side of the second sliding door 52 is provided with the through groove 56, and the front side of the second sliding door 52 is provided with the first door hole 57, the first door hole 57 is convenient for people to pull and bear force, the inner surface of the first door hole 57 is provided with a sliding groove 58, the inner surface of the through groove 56 is slidably connected with a support column 59, one end of the support column 59 extends to the outside of the sliding groove 58, one end of the support column 59 is fixedly connected with a pulling handle 510, the outer surface of the support column 59 is fixedly connected with a first support rod 511, one end of the first support rod 511 extends to the outside of the through groove 56, one end of the first support rod 511 is fixedly connected with a second support rod 512, the second support rod 512 is in sliding clamping connection with the clamping groove 55, the outer surface of the second support rod 512 is slidably connected with the inner surface of the clamping groove 55, the tops and the bottoms of the first sliding door 51 and the second sliding door 52 are movably connected with sliding bases 513, the bottom of the sliding base 513 is provided with a groove 514, the bottom of the inner surface of the door frame 1 is fixedly connected with a sliding rail 515, the outer surface of the sliding rail 515 is slidably connected with the inner surface of the groove 514, through being provided with moving mechanism 5, utilize card strip 53 and logical groove 56 between first push-and-pull door 51 and the second push-and-pull door 52 opposite side, through the joint of second branch 512 and draw-in groove 55, cooperation pulling handle 510, first branch 511, pillar 59 and first door opening 57, not only can realize smooth and easy slip of push-and-pull door, but also can spend two push-and-pull doors to fix, avoided traditional airtight strip contact not airtight enough problem down, make this push-and-pull door can carry out used repeatedly simultaneously, the content that does not make detailed description in this description all belongs to the prior art that skilled person knows simultaneously.

When the door and window sealing device works, the heat insulation layer 8 is uniformly coated on the surfaces of the first door and window 2, the second door and window 3, the first sliding door 51 and the second sliding door 52 through the adhesive, after the door and window sealing device is dried, the door and window sealing device can be put into use, the heat insulation layer 8 is arranged, the adhesive is used for uniformly bonding, and the polypropylene fiber layer 81, the magnesium stearate layer 82 and the glass fiber layer 83 are matched, so that the door and window can be prevented from being lost by external sunlight for a long time, the indoor temperature can be greatly kept, the problems of air leakage and energy loss are avoided, the heat insulation performance of the door and window is greatly improved, then when the rotating door needs to be closed, the first sliding door 51 and the second sliding door 52 are rotated to the sliding base 513, the limiting block 65 and the limiting groove 62 are aligned, at the moment, the rod 610 is upwards rotated, then the limiting block 65 is downwards pressed, and the spring 67 is extended, until one end of the pulling rod 610 abuts against the bottom of the baffle 611, at this time, the limiting block 65 is clamped with the limiting groove 62, the first sliding door 51 and the second sliding door 52 can be fixed, the limiting mechanism 6 is arranged, the first sliding door 51 and the second sliding door 52 can be fixed by utilizing the clamping connection of the limiting block 65 and the limiting groove 62, the clamping column 66, the spring 67, the rotating block 68, the pulling rod 610 and the baffle 611 are matched, the sliding mode and the rotating opening mode can be optionally changed, the application range of the door and window is greatly improved, the utilization rate of the door and window is expanded, then, the sliding base 513 at the bottom of the first sliding door 51 and the second sliding door 52 slides on the outer surface of the sliding rail 515 by pulling the first door hole 57 until the sliding base and the sliding base contact, at this time, the pulling handle 510 is upwards pulled until the first support rod 511 and the second support rod 512 enter the sliding groove 54, stir pulling handle 510 downwards this moment, make second branch 512 and draw-in groove 55 joint, can realize closing to door and window, through being provided with moving mechanism 5, utilize card strip 53 and logical groove 56 between first push-and-pull door 51 and the second push-and-pull door 52 opposite side, joint through second branch 512 and draw-in groove 55, cooperation pulling handle 510, first branch 511, pillar 59 and first door hole 57, not only can realize the smooth and easy slip of push-and-pull door, and can spend two push-and-pull doors to fix, the not inclosed problem under traditional airtight strip contact has been avoided, make this push-and-pull door can carry out used repeatedly simultaneously.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an energy-conserving door and window system of aluminum alloy push-and-pull, includes door frame (1), the inner wall fixedly connected with first door and window (2) and second door and window (3) of door frame (1), its characterized in that: the edges of the first door window (2) and the second door window (3) are fixedly connected with sealing strips (4), a moving mechanism (5) is arranged inside the door frame (1), and a limiting mechanism (6) is arranged at the bottom of the inner cavity of the door frame (1);

the movable mechanism (5) comprises a first sliding door (51) and a second sliding door (52), the surfaces of the first sliding door (51) and the second sliding door (52) are in contact with the surface of the sealing strip (4), a clamping strip (53) is fixedly connected to the right side of the first sliding door (51), a sliding groove (54) is formed in the right side of the clamping strip (53), a clamping groove (55) is formed below the inner surface of the sliding groove (54), a through groove (56) is formed in the left side of the second sliding door (52), a first door hole (57) is formed in the front side of the second sliding door (52), a sliding groove (58) is formed in the inner surface of the first door hole (57), a support column (59) is connected to the inner surface of the through groove (56) in a sliding manner, one end of the support column (59) extends to the outer portion of the sliding groove (58), and a pulling handle (510) is fixedly connected to one end of the support column (59), the surface fixedly connected with of pillar (59) is first branch (511), the one end of first branch (511) extends to the outside that leads to groove (56), the one end fixedly connected with second branch (512) of first branch (511), the surface of second branch (512) and the internal surface sliding connection of draw-in groove (55).

2. The aluminum alloy push-pull energy-saving door and window system according to claim 1, wherein: the top and the bottom of first push-and-pull door (51) and second push-and-pull door (52) all swing joint have sliding base (513), bottom sliding base (513)'s bottom is seted up flutedly (514), the bottom fixedly connected with slide rail (515) of door frame (1) internal surface, the surface of slide rail (515) and the internal surface sliding connection of flutedly (514).

3. The aluminum alloy push-pull energy-saving door and window system according to claim 1, wherein: including axis of rotation (61) in stop gear (6), axis of rotation (61) run through first push-and-pull door (51) and second push-and-pull door (52) and extend to the outside of first push-and-pull door (51) and second push-and-pull door (52), the both ends of axis of rotation (61) rotate with the relative one side of sliding base (513) respectively and are connected.

4. The aluminum alloy push-pull energy-saving door and window system according to claim 1, wherein: the bottom of first push-and-pull door (51) and second push-and-pull door (52) and the relative one side sliding connection of sliding base (513), spacing groove (62) have been seted up on the surface of sliding base (513), standing groove (63) have all been seted up to the below of the relative one side of first push-and-pull door (51) and second push-and-pull door (52), shifting chute (64) have been seted up to the internal surface of standing groove (63).

5. The aluminum alloy push-pull energy-saving door and window system according to claim 4, wherein: the internal surface sliding connection of shifting chute (64) has stopper (65), the top fixedly connected with card post (66) of stopper (65), the top fixedly connected with spring (67) of card post (66), the internal surface fixed connection of the top of spring (67) and shifting chute (64).

6. The aluminum alloy push-pull energy-saving door and window system according to claim 5, wherein: the surface of stopper (65) and the internal surface sliding connection of spacing groove (62), the external fixed surface of stopper (65) is connected with turning block (68), the internal surface of turning block (68) is rotated through rotating pin (69) and is connected with pulling rod (610), the internal fixed surface of standing groove (63) is connected with baffle (611).

7. The aluminum alloy push-pull energy-saving door and window system according to claim 1, wherein: the surface of first door and window (2), second door and window (3), first push-and-pull door (51) and second push-and-pull door (52) all is provided with substrate layer (7) and insulating layer (8), the bottom fixed connection of adhesive and insulating layer (8) is passed through at the top of substrate layer (7).

8. The aluminum alloy push-pull energy-saving door and window system according to claim 7, wherein: the heat insulation layer (8) comprises a polypropylene fiber layer (81), a magnesium stearate layer (82) and a glass fiber layer (83), the top of the polypropylene fiber layer (81) is fixedly connected with the bottom of the magnesium stearate layer (82), and the top of the magnesium stearate layer (82) is fixedly connected with the bottom of the glass fiber layer (83).