CN111794639B - Aluminum alloy door and window - Google Patents

Abstract

The invention relates to an aluminum alloy door and window. The aluminum alloy door and window comprises a frame body and two plate bodies, wherein vertical grooves are respectively concavely formed in two opposite side walls of the frame body, two parallel sliding grooves are formed in the bottom of the frame body, two parallel sliding grooves are formed in the top of the frame body, and the tops of the two plate bodies are respectively arranged in the two sliding grooves in a sliding mode through a hanging shaft structure so that the two plate bodies can be hung on the frame body. The aluminum alloy door and window can be opened from the upper part and is not easy to be damaged by particles entering from the bottom.

Description

Aluminum alloy door and window

Technical Field

The invention relates to an aluminum alloy door and window.

Background

The aluminum alloy door and window refers to a door and window made of aluminum alloy extruded sections as frames and sash materials, and is called an aluminum alloy door and window, and is called an aluminum door and window for short. The aluminum alloy door and window comprises a door and window which is compounded by wood and plastic and takes aluminum alloy as a base material of a stress rod (a rod for bearing and transmitting self weight and load). However, the al-alloy door & window can only be opened from left and right, not from above, and during the sliding of the al-alloy door & window, particles easily enter the bottom of the al-alloy door & window, so that the al-alloy door & window cannot slide, resulting in damage thereof.

Disclosure of Invention

Based on this, it is necessary to provide an aluminum alloy door and window that can be opened from the upper portion and is less likely to be damaged by particles entering from the bottom portion.

The utility model provides an aluminum alloy door and window, including framework and two plate bodys, the relative both sides wall of framework is concave respectively and is equipped with vertical groove, the bottom of framework is provided with the spout of two parallels, two parallel sliding grooves have been seted up at the top of framework, the top of two plate bodys is connected in two sliding inslot so that two plate bodys are hung and locate the framework through hanging axle structure slidable respectively, the bottom of two plate bodys is inserted respectively and is located two spouts, the bottom surface of plate body sets up with the bottom surface mutual interval of spout, the logical groove in upper portion has all been seted up on every plate body, the logical inslot rotation ground in upper portion is provided with the inner panel.

In one embodiment, the upper part of each plate body is provided with a strip-shaped groove, the strip-shaped grooves are positioned above the through grooves in the upper part, the lower end of the inner plate is connected to the lower edge of the through groove in the upper part through a pivot, the upper part of the inner plate is provided with an arc-shaped hanging strip, and the arc-shaped hanging strip is clamped in the strip-shaped grooves.

In one embodiment, the cross section of the arc-shaped holding strip is C-shaped, and an arc-shaped channel is formed in the arc-shaped holding strip and faces the plate body.

In one embodiment, the lower portion of the plate body is formed with a flexible strip, the lower portion of the flexible strip is inserted into the sliding groove, the upper portion of the flexible strip is provided with a hanging post, the inner plate is further used for rotating around the pivot shaft to enable the arc-shaped hanging strip to be hung on the hanging post, the hanging post is clamped into the arch-shaped channel, and the flexible strip is forced to deform and shrink upwards to be separated from the sliding groove.

In one embodiment, a strip-shaped groove is concavely arranged on the flexible lath of one plate body, and the strip-shaped groove is positioned on one side surface which is far away from the hanging column and is used for accommodating the hanging column of the other plate body.

In one embodiment, each plate body is further concavely provided with a rectangular accommodating groove, the rectangular accommodating groove is positioned below the upper through groove and is adjacent to the pivot, the rectangular accommodating groove is positioned on one side surface of the plate body, which is far away from the arc-shaped hanging strip, and a turnover cover is rotatably arranged in the rectangular accommodating groove.

In one embodiment, a strip-shaped avoiding groove is concavely arranged on the upper part of one plate body, extends along the horizontal direction and is positioned on one side surface of the plate body, which is far away from the arc-shaped hanging strip, so as to accommodate the arc-shaped hanging strip of the other plate body.

In one embodiment, the frame body is made of an aluminum alloy material and is in a rectangular frame shape, the two plate bodies are partially overlapped, and the side edges, far away from each other, of the two plate bodies are respectively used for being clamped into the two vertical grooves.

In one embodiment, the arc-shaped holding strip is made of a metal material, and the plate body is made of a transparent material.

In one embodiment, the two opposite ends of the hanging column are fixedly connected to the flexible lath through connecting strips respectively, the length direction of the hanging column is parallel to the length direction of the flexible lath, and the inner diameter of the cross section of the arc-shaped hanging strip is larger than the diameter of the hanging column.

Because the bottom surfaces of the two plate bodies and the bottom surface of the sliding groove are arranged at intervals, even if particles enter the sliding groove, the bottom of the plate body is not easy to rub the particles, and the aluminum alloy door and window cannot be damaged. In addition, the upper portion through groove of plate body can be opened through rotating the inner panel to it is comparatively convenient to make the upper portion of plate body open, and convenience of customers is ventilative, makes light or cool wind get into indoorly.

Drawings

Fig. 1 is a schematic perspective view of an aluminum alloy door/window according to an embodiment.

Fig. 2 is a perspective view of a frame body according to an embodiment.

Fig. 3 is a perspective view of two plate bodies according to an embodiment.

Fig. 4 is a perspective view of the two plate bodies shown in fig. 3 from another view angle.

Fig. 5 is a partially enlarged view of a portion a in fig. 3.

Fig. 6 is a partially enlarged view of fig. 3 at B.

Fig. 7 is a partially enlarged view at C in fig. 4.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The invention relates to an aluminum alloy door and window. For example, in the present embodiment, the aluminum alloy door/window is an aluminum alloy door or an aluminum alloy window. For example, the aluminum alloy door and window comprises a frame body and two plate bodies, wherein vertical grooves are respectively concavely formed in two opposite side walls of the frame body. For example, the bottom of the frame body is provided with two parallel sliding grooves, the top of the frame body is provided with two parallel sliding grooves, and the top of the two plate bodies are respectively connected in the two sliding grooves in a sliding manner through a hanging shaft structure so that the two plate bodies are hung on the frame body. For example, the bottoms of the two plate bodies are respectively inserted into the two sliding grooves, the bottom surfaces of the plate bodies and the bottom surfaces of the sliding grooves are arranged at intervals, and an upper through groove is formed in each plate body. For example, an inner plate is rotatably provided in the upper through groove.

Referring to fig. 1 to 7, an aluminum alloy door/window includes a frame 10 and two plate bodies 20, two opposite side walls of the frame 10 are respectively recessed with vertical grooves 12, the bottom of the frame 10 is provided with two parallel sliding grooves, the top of the frame 10 is provided with two parallel sliding grooves 15, the tops of the two plate bodies 20 are respectively slidably connected in the two sliding grooves 15 through a hanging shaft structure, so that the two plate bodies 20 are hung on the frame 10, the bottoms of the two plate bodies 20 are respectively inserted in the two sliding grooves, the bottom surfaces of the plate bodies 20 and the bottom surfaces of the sliding grooves are spaced from each other, each plate body 20 is provided with an upper through groove 25, and an inner plate 28 is rotatably disposed in the upper through groove 25.

Because the bottom surfaces of the two plate bodies 20 and the bottom surfaces of the sliding grooves are arranged at intervals, even if particles enter the sliding grooves, the bottom of the plate body 20 is not easy to rub the particles, and the aluminum alloy door and window cannot be damaged. In addition, the upper through groove 25 of the plate body 20 can be opened by rotating the inner plate 28, so that the upper portion of the plate body 20 can be opened conveniently, a user can breathe conveniently, and light rays or cool air can enter the room.

For example, in order to facilitate the rotation to open the inner plate 28, a strip-shaped groove 21 is formed on the upper portion of each plate body 20, the strip-shaped groove 21 is located above the upper through groove 25, the lower end of the inner plate 28 is rotatably connected to the lower edge of the upper through groove 25 through a pivot 281, an arc-shaped hanging strip 282 is formed on the upper portion of the inner plate 28, and the arc-shaped hanging strip 282 is clamped in the strip-shaped groove 21. The cross-section of the arc-shaped holding strip 282 is C-shaped, and an arc-shaped channel is formed in the arc-shaped holding strip 282 and faces the plate body 20. By rotatably connecting the inner panel 28 to the lower edge of the upper through groove 25 and using the arc hanging strip 282 to hang and hold in the strip groove 21, the upper through groove 25 can be closed by using the inner panel 28, when needing to be opened, the arc hanging strip 282 is separated from the strip groove 21, and the upper through groove 25 can be opened by turning over the inner panel 28.

For example, in order to facilitate lifting the lower portions of the plate bodies 20 out of the sliding grooves, so as to facilitate the subsequent rotation of the two plate bodies 20 around the vertical axis to open the whole space inside the frame body 10, the lower portions of the plate bodies 20 are formed with flexible laths 23, the lower portions of the flexible laths 23 are inserted into the sliding grooves, the upper portions of the flexible laths 23 are provided with hanging posts 235, the inner plate 28 is further configured to rotate around the pivot 281 so that the arc-shaped hanging strips 282 are hung on the hanging posts 235, so that the hanging posts 235 are clamped into the arch-shaped channel and force the flexible laths 23 to deform and contract upwards to separate from the sliding grooves. A strip-shaped groove is concavely arranged on the flexible lath 23 of one plate body 20, and the strip-shaped groove is positioned on the side surface departing from the hanging column 235 and is used for accommodating the hanging column 235 of the other plate body 20. By providing the hanging post 235, after the inner plate 28 is turned downward to open the upper through slot 25, the arc hanging bar 282 can be used to hang the hanging post 235, so as to force the flexible lath 23 to contract upward and disengage from the sliding slot, and thereafter, due to no blocking of the flexible lath 23, the other plate 20 can be used to rotate to completely open the whole space in the frame 10.

For example, in order to improve the appearance after the upper through slot 25 is opened, a rectangular receiving slot 24 is further recessed on each board body 20, the rectangular receiving slot 24 is located below the upper through slot 25 and adjacent to the pivot 281, the rectangular receiving slot 24 is located on a side surface of the board body 20 away from the arc-shaped holding strip 282, and a flip cover 245 is rotatably disposed in the rectangular receiving slot 24, and after the inner board 28 is flipped and attached to the lower portion of the board body 20, the flip cover 245 is used for being flip-covered on the pivot 281 and the inner board 28. The upper portion of one of the plate bodies 20 is concavely provided with a strip-shaped avoiding groove 26, and the strip-shaped avoiding groove 26 extends along the horizontal direction and is located on a side surface of the plate body 20 departing from the arc-shaped hanging strip 282 for accommodating the arc-shaped hanging strip 282 of the other plate body 20. When the two boards 20 move toward each other, the strip-shaped avoiding groove 26 receives the arc-shaped hanging strip 282 of the other board 20, and the strip-shaped groove receives the hanging post 235 of the other board 20. The frame body 10 is made of, for example, an aluminum alloy material, and has a rectangular frame shape. After the groove 25 is led to in opening upper portion, for the convenience of making the lower limb that the groove 25 is led to in upper portion more level and smooth, after upset inner panel 28, then locate the top of inner panel 28 with the upset lid 245 upset lid, the upper edge after the upset of inner panel 28 is located to the lid promptly, and the lower limb that the groove was led to in upper portion this moment is because of the lid that has upset lid 245 is established, can be comparatively smooth, and the impression is better, can place article moreover.

For example, in order to prevent the two plate bodies 20 from being pushed out of the frame body 10 by vertical force, the two plate bodies 20 are partially overlapped and the side edges of the two plate bodies 20 away from each other are respectively used for being clamped into the two vertical grooves 12. The arc-shaped holding strip 282 is made of a metal material, and the plate body 20 is made of a transparent material. The opposite ends of the hanging post 235 are respectively fixedly connected to the flexible lath 23 through connecting strips, the length direction of the hanging post 235 is parallel to the length direction of the flexible lath 23, and the inner diameter of the cross section of the arc-shaped hanging bar 282 is larger than the diameter of the hanging post 235. Through going into two vertical grooves 12 respectively with the side of two plate bodies 20 keeping away from each other, consequently after plate body 20 received the impact strength of vertical direction, can not deviate from outside the framework 10 because the side of two plate bodies 20 can be firmly located the vertical groove 12 of framework 10, and flexible lath 23 blocks in the spout, has the resistance.

For example, it is particularly important that, in order to improve the flexibility of the flexible strip 23, the top of the flexible strip 23 is formed with a horizontal groove 232, and the horizontal groove 232 enables the flexible strip 23 to be thinned so that the flexible strip 23 is shortened to deform to escape from the chute when pulled upward. In order to facilitate the two plate bodies 20 to rotate 90 degrees around the vertical axis in proper positions and completely open the whole internal space of the frame body 10, each hanging shaft structure comprises a first hanging shaft 31 and a second hanging shaft 32, the first hanging shaft 31 is adjacent to the vertical groove 12 and is positioned at the end part of the top edge of the plate body 20, the second hanging shaft 32 is adjacent to the other plate body 20 (not positioned at the end part of the top edge of the plate body 20, but is arranged at a distance from the end part), and the first hanging shaft 31 and the second hanging shaft 32 are hung in the sliding groove 15 in a slip-proof and sliding manner. The cross section of the first hanging scroll 31 is circular, and the cross section of the second hanging scroll 32 is semicircular. The inner upper wall of the frame 10 is provided with two notch grooves 14 and a circular groove 16, the two notch grooves 14 are respectively adjacent to the two vertical grooves 12, and the notch grooves 14 transversely penetrate through the two sliding grooves 15. The circular groove 16 is positioned in the center of the inner upper wall of the frame body 10, the upward projection of the circular groove 16 covers the two sliding grooves 15, and the circular groove 16 is communicated with the middle parts of the two sliding grooves. When the plate bodies need to be rotated, the inner plate 28 is rotated around the pivot 281 to make the arc-shaped hanging strip 282 hang on the hanging column 235, so that the hanging column 235 is clamped into the arc-shaped channel and forces the flexible strip 23 to deform and contract upwards to separate from the sliding slot, at this time, the bottoms of the two plate bodies 20 are completely released, the two plate bodies 20 are used for moving towards each other to be partially overlapped so that the first hanging shaft 31 on each plate body 20 is aligned with the corresponding notch slot 14 (at this time, the side edges of the two plate bodies 20 are released from the vertical slot 12), the two second hanging shafts 32 enter the circular slot 16 and jointly surround the cylinder 320, and the two plate bodies 20 are used for being forced (for example, by hand) to rotate 90 degrees so that the two plate bodies 20 rotate around the central axis of the cylinder 320, so that the first hanging shaft 31 is disengaged from the corresponding notch slot 14, and the whole space inside the frame body 10 is completely opened. The inner side of the frame body 10 can be completely opened after the rotation, thereby facilitating the entrance of a larger amount of sunlight and cool wind and improving the comfort of the resident.

For example, if closure is desired after full opening, after a 90 degree reverse rotation, inner plate 28 is realigned and flexible strip 23 is released, after which flexible strip 23 prevents rotation of panel 20 about the central axis of cylinder 320. After sliding the plate body 20 along the sliding groove such that the first hanging shaft 31 and the second hanging shaft 32 pass through the notch groove 14 and the circular groove 16, respectively, the plate body 20 can no longer rotate around the vertical axis and cannot be rotated at will. The aluminum alloy door and window provided by the invention can open the upper through groove 25 on one hand and can fully open the space in the frame body 10 on the other hand, is convenient to use, is convenient to ventilate and radiate, and improves the living comfort of residents.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (1)

1. An aluminum alloy door and window is characterized by comprising a frame body and two plate bodies, wherein vertical grooves are respectively concavely arranged on two opposite side walls of the frame body, two parallel sliding grooves are arranged at the bottom of the frame body, two parallel sliding grooves are arranged at the top of the frame body, the tops of the two plate bodies are respectively connected in the two sliding grooves in a sliding manner through a hanging shaft structure so that the two plate bodies are hung on the frame body, the bottoms of the two plate bodies are respectively inserted in the two sliding grooves, the bottom surfaces of the plate bodies and the bottom surfaces of the sliding grooves are arranged at intervals, an upper through groove is arranged on each plate body, an inner plate is rotationally arranged in the upper through groove, a strip-shaped groove is arranged at the upper part of each plate body, the strip-shaped groove is positioned above the upper through groove, the lower end of the inner plate is connected to the lower edge of the upper through groove through a pivot, an arc-shaped hanging strip is formed at the upper part of the inner plate, and is clamped in the strip-shaped groove, the cross section of the arc-shaped hanging strip is C-shaped, an arc-shaped channel is formed in the arc-shaped hanging strip, the arc-shaped channel faces the plate bodies, flexible plate strips are formed on the lower portions of the plate bodies, the lower portions of the flexible plate strips are inserted into the sliding grooves, hanging columns are arranged on the upper portions of the flexible plate strips, the inner plate is further used for rotating around a pivot to enable the arc-shaped hanging strip to be hung on the hanging columns, the hanging columns are clamped into the arc-shaped channel and force the flexible plate strips to deform and shrink upwards to be separated from the sliding grooves, strip-shaped grooves are concavely formed in the flexible plate strips of one plate body and are located on the surface, away from the hanging columns, of one plate body and are used for containing the hanging columns of the other plate body, rectangular containing grooves are concavely formed in each plate body and are located below the through grooves in the upper portions and are adjacent to the pivot, the rectangular containing grooves are located on the surfaces, facing away from the arc-shaped hanging strips, turning covers are rotationally arranged in the rectangular containing grooves, after the inner plate bodies are turned and attached to the lower portions of the plate bodies, the turnover cover is used for being arranged on the pivot and the inner plate in a turnover cover mode, a strip-shaped avoiding groove is concavely arranged on the upper portion of one plate body, the strip-shaped avoiding groove extends in the horizontal direction and is located on one side surface, away from the arc-shaped hanging strip, of the plate body and is used for accommodating the arc-shaped hanging strip of the other plate body, the frame body is made of an aluminum alloy material and is in a rectangular frame shape, the two plate bodies are partially overlapped, the side edges, away from each other, of the two plate bodies are respectively used for being clamped into the two vertical grooves, the arc-shaped hanging strip is made of a metal material, the plate bodies are made of a transparent material, the two opposite ends of the hanging column are respectively fixedly connected onto the flexible lath through connecting strips, the length direction of the hanging column is parallel to the length direction of the flexible lath, and the inner diameter of the cross section of the arc-shaped hanging strip is larger than the diameter of the hanging column;

the top of the flexible lath is formed with a horizontal groove which can thin the flexible lath so that the flexible lath can be pulled upwards to shorten and deform to be separated from the sliding groove, each hanging shaft structure comprises a first hanging shaft and a second hanging shaft, the first hanging shaft is adjacent to the vertical groove and is positioned at the end part of the top edge of the plate body, the second hanging shaft is adjacent to another plate body, the first hanging shaft and the second hanging shaft are hung in the groove in a slip-proof manner, the cross section of the first hanging shaft is circular, the cross section of the second hanging shaft is semicircular, the upper wall of the inner side of the frame body is provided with two notch grooves and a circular groove, the two notch grooves are respectively adjacent to the two vertical grooves, the notch grooves transversely penetrate through the two sliding grooves, the circular groove is positioned at the center of the upper wall of the inner side of the frame body, the upward projection of the circular groove covers the two sliding grooves, the circular groove is communicated with the middle parts of the two sliding grooves, when the plate body needs to rotate, make the inner panel around the pivot rotation so that the arc is hung and is held on hanging establishing the post, make to hang and establish in the post card goes into the arch passageway and force the flexible lath upwards to warp the shrink in order to break away from the spout, two plate bodys are used for moving in opposite directions to the part overlap so that the first peg on every plate body aims at the breach groove that corresponds, two second pegs get into the circular slot and enclose into the cylinder jointly, two plate bodys are used for the rotatory 90 degrees of atress so that two plate bodys rotate around the axis of cylinder, make first peg deviate from the breach groove that corresponds, and then open all spaces of framework inboard completely.

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