CN117627502A - Self-positioning aluminum alloy door and window and self-positioning method - Google Patents

Abstract

The invention discloses a self-positioning aluminum alloy door and window and a self-positioning method, and relates to the technical field of buildings. According to the invention, the second outer frame body is vertically arranged and symmetrically arranged on two sides of the first outer frame body, the second outer frame body is matched with the first outer frame body in a clamping way, the third outer frame body is arranged above the first outer frame body and is arranged in parallel with the first outer frame body, the third outer frame body is matched with the second outer frame body in a clamping way, the cross inner frame body is arranged in an outer frame assembled by the first outer frame body, the second outer frame body and the third outer frame body, a plurality of door and window monomers are arranged between the cross inner frame body and the outer frame body, and each door and window monomer consists of the first inner frame body, the gravity limiting assembly, the second inner frame body and the third inner frame body. According to the invention, through the specific structural design of the door and window single body, the first inner frame body, the second inner frame body and the third inner frame body can be assembled quickly, and compared with the traditional assembly mode of gluing or screwing, the positioning and assembling efficiency of the door and window single body is greatly improved.

Description

Self-positioning aluminum alloy door and window and self-positioning method

Technical Field

The invention belongs to the technical field of buildings, and particularly relates to a self-positioning aluminum alloy door and window and a self-positioning method.

Background

The aluminum alloy door and window is made of aluminum alloy extruded profiles as frames, stiles and leaves, and comprises doors and windows which are made of aluminum alloy as a stressed rod piece base material and are composited with wood and plastic, and the aluminum alloy door and window is the most popular and widely applied door and window in the market at present.

Most of the existing aluminum alloy doors and windows are assembled and fixed on site according to the size of the actual installation position, the installation efficiency is improved to a certain extent, but in the subsequent actual assembly process, especially when the large-area continuous doors and windows are installed, most of the aluminum alloy doors and windows are assembled and fixed in a glue or screw beating mode, so that the assembly process is complex, the actual operation is inconvenient, the rapid assembly is inconvenient, and a large amount of assembly time and manpower and material resources are wasted. Therefore, we provide a self-positioning aluminum alloy door and window and a self-positioning method for solving the above problems.

Disclosure of Invention

The invention aims to provide a self-positioning aluminum alloy door and window and a self-positioning method, which solve the problems in the background art through specific structural designs of a first outer frame body, a second outer frame body, a third outer frame body, a cross inner frame body and a door and window single body.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a self-positioning aluminum alloy door and window, which comprises a first outer frame body, wherein the first outer frame body is horizontally arranged; the second outer frame body is vertically arranged and symmetrically arranged at two sides of the first outer frame body, and the second outer frame body is matched with the first outer frame body in a clamping way; the third outer frame body is arranged above the first outer frame body and is arranged in parallel with the first outer frame body, and the third outer frame body is matched with the second outer frame body in a clamping way; and the cross inner frame is arranged inside an outer frame assembled by the first outer frame body, the second outer frame body and the third outer frame body.

A plurality of door and window monomers are arranged between the cross inner frame and the outer frame, each door and window monomer comprises a first inner frame body, the first inner frame bodies are horizontally arranged, a gravity limiting assembly is arranged in each first inner frame body, and each gravity limiting assembly comprises two first limiting pieces which move in opposite directions; the second inner frame body is vertically arranged and symmetrically arranged at two sides of the first inner frame body, the upper end and the lower end of the second inner frame body are respectively provided with a first limiting cavity, the first limiting parts are in plug-in fit with the corresponding first limiting cavities, two first moving plates which move in opposite directions are arranged in the second inner frame body, and first plug-in connectors which are in joint fit with the corresponding first limiting parts are fixedly arranged on the surfaces of the first moving plates; and the third inner frame body is arranged above the first inner frame body and is arranged in parallel with the first inner frame body, two second limiting pieces which move in opposite directions are arranged inside the third inner frame body, the second limiting pieces are in plug-in connection with the corresponding first limiting cavities, one ends of the second limiting pieces are provided with first positioning magnets, the first positioning magnets attract the first adsorption magnets corresponding to the interiors of the first limiting cavities, and the second limiting pieces are in clamping connection with the corresponding first plug-in connectors.

The invention is further arranged that two end parts of the first inner frame body are arranged at a 45-degree butt joint angle, a first glass cavity is arranged at the top of the first inner frame body, a first inner cavity is arranged in the first inner frame body, a first guide opening communicated with the first inner cavity is arranged at the end part of the first inner frame body, and the first limiting piece is in sliding fit in the corresponding first guide opening; the glass is characterized in that a limiting clamping seat is fixedly arranged at the bottom of the first inner frame body, a first locking opening is formed in the bottom of the first inner frame body, a gravity pressing opening coaxial with the first locking opening is formed in the first glass cavity, and the gravity pressing opening is communicated with the first inner cavity.

The gravity limiting assembly is further arranged to comprise a gravity pushing plate, a gravity pressing column which is in sliding fit with the inside of the gravity pressing opening is fixedly arranged at the top of the gravity pushing plate, and a first elastic piece connected in the first inner cavity is arranged at the bottom of the gravity pushing plate; the first reinforcing plate, the first interior fagging slides and sets up inside the first interior chamber, first locating part is fixed to be set up the one side that the gravity pushed away from the board is pushed away from to first reinforcing plate, first interior fagging with the gravity pushes away from and articulates there is gravity inclined push plate between the board.

The invention is further arranged that two end parts of the second inner frame body are arranged at a 45-degree butt joint angle, one side of the second inner frame body is provided with a second glass cavity, a second inner cavity is arranged in the second inner frame body, and the other side of the second inner frame body is fixedly provided with a positioning sleeve plate; the second inner frame body one side closely rotates and is provided with the rotation control piece, fixed being provided with the location control gear that is arranged in the second internal cavity on the rotation control piece, first movable plate symmetry sets up the upper and lower both sides of location control gear, first movable plate fixed surface is provided with location control rack, location control gear meshes with the location control rack of its both sides.

The invention is further arranged that two end parts of the third inner frame body are arranged at a 45-degree butt joint angle, a third glass cavity is arranged at the bottom of the third inner frame body, a third inner cavity is arranged in the third inner frame body, a second guide opening communicated with the third inner cavity is arranged at the end part of the third inner frame body, and the second limiting piece is in sliding fit in the corresponding second guide opening; the third inner cavity is internally provided with two second reinforcing plates in a symmetrical sliding mode, the third inner cavity is internally provided with second elastic pieces connected to the corresponding second reinforcing plates, and the second limiting pieces are fixedly arranged on one sides, far away from the second elastic pieces, of the corresponding second reinforcing plates.

The invention is further characterized in that two end parts of the first outer frame body are arranged at a 45-degree butt joint angle, a first positioning cavity is formed in the top of the first outer frame body, the first inner frame body and a limiting clamping seat at the bottom of the first inner frame body are tightly matched in the first positioning cavity, a plurality of inner supporting plates are fixedly arranged in the first outer frame body, a third guide opening communicated with the inside of the first outer frame body is formed in the end part of the first outer frame body, a third limiting piece matched in the corresponding third guide opening is slidably arranged in the first outer frame body, a third elastic piece is connected between the third limiting piece and the corresponding inner supporting plate, and a second positioning magnet is arranged at one end of the third limiting piece.

The invention is further arranged that two end parts of the second outer frame body are arranged at a 45-degree butt joint angle, one side of the second outer frame body is provided with a second positioning cavity, the other side of the second outer frame body is provided with a second locking port close to the top, the bottom of the second outer frame body is provided with a positioning channel communicated with the second positioning cavity, the bottom of the second outer frame body is provided with a second limiting cavity in plug-in fit with a corresponding third limiting piece, and a second adsorption magnet magnetically attracted with the second positioning magnet is arranged in the second limiting cavity; the utility model discloses a locating device for the inner frame of the automobile, including a first inner frame body, a second locating cavity, a second locating channel, a second locating plate, a second plug connector, a third locating piece, a second locating cavity and a corresponding second inner frame body, wherein sliding fit is provided between the second locating cavity and the corresponding second inner frame body, the inside fixed backup pad that is provided with of second locating cavity, the locating sleeve plate that the second inner frame body surface is located the below is laminated in the backup pad, the fixed locating lever that is provided with locating sleeve plate sliding fit in backup pad top, the backup pad below is provided with the second movable plate, the fixed deflector that is provided with backup pad sliding fit in second movable plate top, the second movable plate bottom is fixedly provided with the second plug connector with locating channel looks adaptation, second plug connector and corresponding third locating piece joint cooperation.

The invention is further characterized in that a third positioning cavity is formed in the bottom of the third outer frame body, the top of the third inner frame body is tightly matched in the third positioning cavity, a plurality of inner supporting plates are fixedly arranged in the third outer frame body, fastening screws fixed with the corresponding inner supporting plates are symmetrically arranged in the third outer frame body, and fastening pieces inserted in the second locking openings are in threaded connection with the corresponding fastening screws; the cross inner frame comprises a transverse frame body and a vertical frame body which are fixedly connected, guide seats sleeved on the positioning rods are fixedly arranged at two ends of the transverse frame body, a first inserting groove which is tightly matched with the corresponding limiting clamping seat is formed in the top of the transverse frame body, a second inserting groove which is tightly matched with the corresponding third inner frame body is formed in the bottom of the transverse frame body, third inserting grooves are formed in two opposite sides of the vertical frame body, and the second inner frame body and the positioning sleeve plate on the second inner frame body are in sliding fit with the corresponding third inserting groove.

The invention has the following beneficial effects:

according to the invention, through the specific structural design of the door and window single body, after glass is mounted in the first glass cavity on the first inner frame body, the glass is supported on the top of the gravity pressing column, and the gravity pressing column is pressed downwards by virtue of gravity until the top of the gravity pressing column is flush with the inner bottom of the first glass cavity, at the moment, the first elastic piece is compressed under force, the first limiting piece is horizontally inserted into the first limiting cavity, so that the quick positioning between the first inner frame body and the second inner frame body is realized, the rotary control piece is driven to rotate by the cross screwdriver, the two first moving plates are driven to move towards each other under the action of the positioning control gear, and the first inserting piece is controlled to move up and down and be inserted into the positioning hole on the second limiting piece, so that the fastening connection between the first inner frame body and the second inner frame body is realized, and the positioning assembly efficiency of the door and window single body is greatly improved.

After the positioning assembly of the first inner frame body and the second inner frame bodies at the two sides of the first inner frame body is completed, the glass is installed, then the third inner frame body is butted between the second inner frame bodies and matched with the top of the glass, at the moment, the second guide opening is aligned with the first limiting cavity, and under the action of strong magnetic attraction of the first positioning magnet to the first adsorption magnet in the first limiting cavity, the second limiting piece is quickly inserted into the corresponding first limiting cavity, so that the third inner frame body is quickly positioned between the two second inner frame bodies.

After the positioning assembly between the first outer frame body and the second outer frame bodies on two sides of the first outer frame body is completed, the door and window single bodies are installed, then the third outer frame body is butted between the second outer frame bodies and matched with the top of the door and window single bodies, at the moment, the fastening screw rod is aligned with the second locking opening, a fastening piece is inserted into the second locking opening and driven to rotate, and the fastening piece can be tightly screwed on the fastening screw rod, so that the third outer frame body is rapidly positioned and tightly connected between the two second outer frame bodies, and the stable assembly of the whole aluminum alloy door and window is completed.

Of course, it is not necessary for any one product to practice the invention to achieve all of the advantages set forth above at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural view of a self-positioning aluminum alloy door and window.

Fig. 2 is a schematic structural view of the first outer frame in the present invention.

Fig. 3 is a front view of the structure of fig. 2.

Fig. 4 is a schematic structural view of a second outer frame body according to the present invention.

Fig. 5 is a front view of the structure of fig. 4.

Fig. 6 is a schematic view illustrating an internal structure of the second outer frame body according to the present invention.

Fig. 7 is a schematic view illustrating an internal structure of a third outer frame body according to the present invention.

Fig. 8 is a schematic structural view of a cross-shaped inner frame in the present invention.

Fig. 9 is a schematic view of the structure of fig. 8 from the bottom.

Fig. 10 is a schematic structural diagram of a door and window unit according to the present invention.

Fig. 11 is a schematic view showing an internal structure of the first inner frame body of fig. 10.

Fig. 12 is a schematic structural view of a first inner frame body according to the present invention.

Fig. 13 is a schematic view of the structure of fig. 12 from the bottom.

Fig. 14 is a schematic structural view of a gravity limiting assembly according to the present invention.

Fig. 15 is a schematic structural view of a second inner frame body according to the present invention.

Fig. 16 is a schematic view of the structure of fig. 15 at another angle.

Fig. 17 is a schematic view showing the internal structure of the second inner frame body in the present invention.

Fig. 18 is a schematic view showing the internal structure of the third inner frame body in the present invention.

In the drawings, the list of components represented by the various numbers is as follows:

1-first outer frame, 101-third guide opening, 103-third limit piece, 104-third elastic piece, 105-second positioning magnet, 2-second outer frame, 201-second positioning cavity, 202-second locking opening, 203-positioning channel, 204-second limit cavity, 205-supporting plate, 206-positioning rod, 207-second moving plate, 208-guide plate, 209-fourth elastic piece, 210-second plug connector, 3-third outer frame, 301-third positioning cavity, 302-fastening screw, 4-cross inner frame, 401-transverse frame, 402-vertical frame, 403-guide seat, 404-first plug channel, 405-second plug channel, 406-third plug channel 5-first door and window Unit, 6-first inner frame, 602-first inner frame, 603-first guide Port, 604-first locking Port, 606-gravity pressure Port, 701-first limiting Member, 702-gravity pressure Board, 705-first plate, 706-second inner frame, 801-first plate, 803-first plate, 804-second glass Chamber, 805-second inner frame, 806-positioning plate, 807-second control Gear, 809-third inner frame, 901-second spacing piece, 902-first positioning magnet, 903-third glass chamber, 904-third internal cavity, 905-second guiding port, 906-second reinforcing plate, 907-second elastic piece, 10-fastener.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Detailed description of the preferred embodiments

Referring to fig. 1-18, the present invention is a self-positioning aluminum alloy door and window, which includes a first outer frame 1, a second outer frame 2, a third outer frame 3, and a cross-shaped inner frame 4; the first outer frame body 1 is horizontally arranged, the second outer frame body 2 is vertically arranged and symmetrically arranged on two sides of the first outer frame body 1, and the second outer frame body 2 is matched with the first outer frame body 1 in a clamping way; the third outer frame body 3 is arranged above the first outer frame body 1 and is arranged in parallel with the first outer frame body 1, and the third outer frame body 3 is matched with the second outer frame body 2 in a clamping way; the cross inner frame 4 is arranged in the outer frame assembled by the first outer frame 1, the second outer frame 2 and the third outer frame 3, the rapid assembly of the whole aluminum alloy door and window can be realized through the specific structure, and welding or glue close connection or a large number of fasteners are not needed to be used for connection;

a plurality of door and window single bodies 5 are arranged between the cross inner frame 4 and the outer frame, and each door and window single body 5 comprises a first inner frame body 6, a second inner frame body 8 and a third inner frame body 9; the first inner frame body 6 is horizontally arranged and is internally provided with a gravity limiting assembly 7, the gravity limiting assembly 7 comprises two first limiting members 701 which move towards each other, and the horizontal movement of the first limiting members 701 is realized by the gravity of glass mounted on the first inner frame body 6;

the second inner frame body 8 is vertically arranged and symmetrically arranged at two sides of the first inner frame body 6, the upper end and the lower end of the second inner frame body 8 are respectively provided with a first limiting cavity 801, the first limiting parts 701 are in plug-in fit with the corresponding first limiting cavities 801 (the position of the first inner frame body 6 in the vertical direction is limited by the structural arrangement), two first moving plates 802 which move in opposite directions are arranged in the second inner frame body 8, first plug-in parts 803 which are in clamping fit with the corresponding first limiting parts 701 are fixedly arranged on the surfaces of the first moving plates 802 (the position of the second inner frame body 8 in the horizontal direction is limited by the structural arrangement), and the quick positioning and connection between the second inner frame body 8 and the first inner frame body 6 can be realized by the connection mode;

the third inner frame body 9 is arranged above the first inner frame body 6 and is arranged in parallel with the first inner frame body 6, two second limiting pieces 901 which move oppositely are arranged inside the third inner frame body 9, the second limiting pieces 901 are in plug-in fit with the corresponding first limiting cavities 801 (the third inner frame body 9 is limited in the vertical direction through the structural arrangement), one end of each second limiting piece 901 is provided with a first positioning magnet 902, the first positioning magnets 902 attract the first adsorption magnets corresponding to the inner parts of the first limiting cavities 801 (through the structural design, after the positioning assembly between the first inner frame body 6 and the second inner frame bodies 8 on the two sides of the first positioning magnets is completed, the third inner frame body 9 is butted to the top of glass and the first adsorption magnets corresponding to the inner parts of the first limiting cavities 801 are aligned, the second limiting pieces 901 are quickly inserted into the corresponding first limiting cavities 801 under the action of strong magnetic force, the quick positioning magnets 902 are quickly positioned between the two second inner frame bodies 8, the first inner frame bodies 901 are quickly clamped with the corresponding second positioning magnets, the first inner frame bodies 803 are further fixedly inserted into the corresponding first limiting cavities 803 in the horizontal direction, and the first window and door and window openings 803 are further fixedly inserted into the corresponding first limiting cavities 803 after the first inner frame bodies are further positioned and the first inner frame bodies are horizontally inserted into the corresponding limiting cavities 803.

In this embodiment of the present invention, two end portions of the first inner frame 6 are set to a 45 ° butt angle, a first glass cavity 601 is provided at the top of the first inner frame 6, a first inner cavity 602 is provided inside the first inner frame 6, a first guiding opening 603 communicating with the first inner cavity 602 is provided at the end portion of the first inner frame 6, and a first limiting member 701 is slidably fitted inside the corresponding first guiding opening 603; the bottom of the first inner frame body 6 is fixedly provided with a limiting clamping seat 604, the bottom of the first inner frame body 6 is provided with a first locking port 605, a fastener 10 can be installed in the first locking port 605, a gravity pressing port 606 coaxial with the first locking port 605 is arranged in the first glass cavity 601, and the gravity pressing port 606 is communicated with the first inner cavity 602.

In this embodiment of the invention, the gravity limiting assembly 7 further comprises a gravity pushing plate 702 and a first stiffening plate 705; the top of the gravity pressing plate 702 is fixedly provided with a gravity pressing column 703 which is in sliding fit inside the gravity pressing port 606, and the bottom of the gravity pressing plate 702 is provided with a first elastic piece 704 connected in the first inner cavity 602;

the first inner supporting plate 705 is slidably arranged in the first inner cavity 602, the first limiting piece 701 is fixedly arranged on one side of the first reinforcing plate 705 away from the gravity pushing plate 702, and a gravity inclined pushing plate 706 is hinged between the first inner supporting plate 705 and the gravity pushing plate 702; after the glass is mounted in the first glass cavity 601 on the first inner frame body 6, the glass is supported on the top of the gravity pressing column 703, and the gravity pressing column 703 is pressed downwards by gravity until the top of the gravity pressing column 703 is flush with the bottom in the first glass cavity 601, at this time, the first elastic piece 704 is compressed under force, and the first limiting piece 701 is horizontally inserted into the first limiting cavity 801, so that quick positioning between the first inner frame body 6 and the second inner frame body 8 is realized, at this time, the fastening piece 10 is matched to the threaded connection rod at the bottom of the gravity pressing plate 702, and the position fixing of the gravity pressing plate 702 can be realized by rotating the fastening piece 10.

In this embodiment of the present invention, two end portions of the second inner frame body 8 are set to a 45 ° butt angle, one side of the second inner frame body 8 is provided with a second glass cavity 804, one side of glass is tightly matched in the second glass cavity 804, a second inner cavity 805 is arranged inside the second inner frame body 8, and the other side of the second inner frame body 8 is fixedly provided with a positioning sleeve plate 806;

a rotary control member 807 is arranged on one side of the second inner frame body 8 in a tight rotation manner, positioning control gears 808 positioned in a second inner cavity 805 are fixedly arranged on the rotary control member 807, the first moving plate 802 is symmetrically arranged on the upper side and the lower side of the positioning control gears 808, positioning control racks 809 are fixedly arranged on the surface of the first moving plate 802, and the positioning control gears 808 are meshed with the positioning control racks 809 on the two sides of the positioning control gears; after the quick positioning between the first inner frame body 6 and the second inner frame body 8 is realized, the rotary control member 807 is driven to rotate by the cross screw driver, and the two first moving plates 802 are driven to move in opposite directions under the action of the positioning control gear 808, so that the first plug connector 803 is controlled to move up and down and be inserted into the positioning hole on the second limiting member 901, and fastening connection between the first inner frame body 6 and the second inner frame body 8 is realized.

In this embodiment of the present invention, two ends of the third inner frame 9 are set to a 45 ° butt angle, a third glass cavity 903 is provided at the bottom of the third inner frame 9, a third inner cavity 904 is provided inside the third inner frame 9, a second guiding opening 905 communicating with the third inner cavity 904 is provided at the end of the third inner frame 9, and the second limiting member 901 is slidably fitted inside the corresponding second guiding opening 905;

two second reinforcing plates 906 are symmetrically and slidingly arranged in the third inner cavity 904, second elastic members 907 connected to the corresponding second reinforcing plates 906 are arranged in the third inner cavity 904, and second limiting members 901 are fixedly arranged on one side, away from the second elastic members 907, of the corresponding second reinforcing plates 906; after the positioning and assembling between the first inner frame body 6 and the second inner frame bodies 8 on two sides of the first inner frame body 6 are completed, then glass is installed, then the third inner frame body 9 is butted between the second inner frame bodies 8 and matched with the top of the glass, at the moment, the second guide opening 905 is aligned with the first limiting cavity 801, and under the strong magnetic attraction of the first positioning magnet 902 to the first adsorption magnet inside the first limiting cavity 801, the second limiting piece 901 is quickly inserted into the corresponding first limiting cavity 801, so that the quick positioning of the third inner frame body 9 between the two second inner frame bodies 8 is realized.

In this embodiment of the present invention, two ends of the first outer frame 1 are set to a 45 ° butt angle, a first positioning cavity 101 is provided at the top of the first outer frame 1, the first inner frame 6 and a limiting clamping seat 604 at the bottom thereof are tightly matched in the first positioning cavity 101, a plurality of inner supporting plates are fixedly provided in the first outer frame 1, a third guiding opening 102 communicated with the inside is provided at the end of the first outer frame 1, a third limiting member 103 matched in the corresponding third guiding opening 102 is slidably provided in the first outer frame 1, a third elastic member 104 is connected between the third limiting member 103 and the corresponding inner supporting plate, and a second positioning magnet 105 is provided at one end of the third limiting member 103.

The two end parts of the second outer frame body 2 are arranged at a 45-degree butt joint angle, a second positioning cavity 201 is arranged on one side of the second outer frame body 2, a second locking port 202 is arranged on the other side of the second outer frame body 2 close to the top, a positioning channel 203 communicated with the second positioning cavity 201 is arranged at the bottom of the second outer frame body 2, a second limiting cavity 204 in plug-in fit with a corresponding third limiting piece 103 is arranged at the bottom of the second outer frame body 2, and a second adsorption magnet magnetically attracted with the second positioning magnet 105 is arranged in the second limiting cavity 204; after the second outer frame 2 is spliced to the two sides of the first outer frame 1, the second positioning magnet 105 is aligned to the second limiting cavity 204, and at this time, under the action of the magnetic attraction of the second adsorption magnet to the second positioning magnet 105, the third limiting part 103 is driven to be horizontally inserted into the second limiting cavity 204 (at this time, the quick positioning of the second outer frame 2 on the two sides of the first outer frame 1 is realized), so that the position limitation of the first outer frame 1 in the vertical direction is realized.

The second positioning cavity 201 is in sliding fit with the corresponding second inner frame body 8, a supporting plate 205 is fixedly arranged in the second positioning cavity 201, a positioning sleeve plate 806 positioned below the surface of the second inner frame body 8 is attached to the supporting plate 205, a positioning rod 206 in sliding fit with the positioning sleeve plate 806 is fixedly arranged at the top of the supporting plate 205, a second moving plate 207 is arranged below the supporting plate 205, a guide plate 208 in sliding fit with the supporting plate 205 is fixedly arranged at the top of the second moving plate 207, a fourth elastic piece 209 is connected between the second moving plate 207 and the supporting plate 205, a second plug connector 210 matched with the positioning channel 203 is fixedly arranged at the bottom of the second moving plate 207, and the second plug connector 210 is in clamping fit with the corresponding third limiting piece 103; after the third limiting member 103 is horizontally inserted into the second limiting cavity 204, the second inserting member 210 is controlled to move up and down and is inserted into the positioning hole on the third limiting member 103, so that the position of the second outer frame body 2 in the horizontal direction is limited, and stable assembly between the first outer frame body 1 and the second outer frame body 2 is completed.

In the embodiment of the invention, a third positioning cavity 301 is arranged at the bottom of a third outer frame body 3, the top of a third inner frame body 9 is tightly matched in the third positioning cavity 301, a plurality of inner supporting plates are fixedly arranged in the third outer frame body 3, fastening screws 302 fixed with the corresponding inner supporting plates are symmetrically arranged in the third outer frame body 3, and a fastening piece 10 inserted in the second locking port 202 is in threaded connection with the corresponding fastening screw 302; after the positioning assembly between the first outer frame 1 and the second outer frames 2 on two sides of the first outer frame is completed, the door and window single body 5 is installed, then the third outer frame 3 is butted between the second outer frames 2 and matched to the top of the door and window single body 5, at the moment, the fastening screw 302 is aligned with the second locking port 202, one fastening piece 10 is inserted into the second locking port 202 and drives the fastening piece 10 to rotate, and the fastening piece 10 (an internal thread tubular structure) can be tightly screwed on the fastening screw 302, so that the rapid positioning and tight connection of the third outer frame 3 between the two second outer frames 2 are realized, and the stable assembly of the whole aluminum alloy door and window is completed at the moment.

In this embodiment of the present invention, the cross inner frame 4 is composed of a horizontal frame 401 and a vertical frame 402 which are fixedly connected, both ends of the horizontal frame 401 are fixedly provided with guide bases 403 sleeved on the positioning rods 206, the top of the horizontal frame 401 is provided with a first inserting channel 404 tightly matched with a corresponding limit clamping base 604, the bottom of the horizontal frame 401 is provided with a second inserting channel 405 tightly matched with a corresponding third inner frame 9, both opposite sides of the vertical frame 402 are provided with third inserting channels 406, and the second inner frame 8 and a positioning sleeve plate 806 thereon are slidably matched in the corresponding third inserting channels 406; through this structural design, can make a plurality of door and window monomers 5 by firm installation on cross inner frame 4, can accomplish the firm assembly of whole aluminum alloy door and window fast from this.

Second embodiment

The invention also comprises a self-positioning method of the self-positioning aluminum alloy door and window, which comprises the following steps:

s01, firstly abutting the second inner frame body 8 on two sides of the first inner frame body 6 and limiting the positions of the second inner frame body 8, then installing glass into the first glass cavity 601 on the first inner frame body 6 along the second glass cavity 804 on the second inner frame body 8, and pressing the gravity pressing column 703 downwards by means of gravity on the top of the gravity pressing column 703 until the top of the glass is flush with the bottom in the first glass cavity 601, wherein the first elastic piece 704 is compressed under the action of force, and the first limiting piece 701 is horizontally inserted into the first limiting cavity 801, so that quick positioning between the first inner frame body 6 and the second inner frame body 8 is realized;

s02, after the positioning and assembling between the first inner frame body 6 and the second inner frame bodies 8 on two sides of the first inner frame body 6 are completed, the third inner frame body 9 is butted between the second inner frame bodies 8 and matched with the top of glass, at the moment, the second guide opening 905 is aligned to the first limiting cavity 801, and under the strong magnetic attraction of the first positioning magnet 902 to the first adsorption magnet inside the first limiting cavity 801, the second limiting part 901 is quickly inserted into the corresponding first limiting cavity 801, so that the third inner frame body 9 is quickly positioned between the two second inner frame bodies 8;

s03, driving the rotary control member 807 to rotate through a cross screwdriver, driving the two first moving plates 802 to move in opposite directions under the action of the positioning control gear 808, and further controlling the upper first plug 803 to move upwards and insert into the positioning hole on the second limiting member 901, and simultaneously enabling the lower first plug 803 to move downwards and insert into the positioning hole on the first limiting member 701, thereby completing the rapid assembly of the whole door and window unit 5;

s04, after the second outer frame body 2 is spliced to the two sides of the first outer frame body 1, the second positioning magnet 105 is aligned to the second limiting cavity 204, and at the moment, the third limiting piece 103 is driven to be horizontally inserted into the second limiting cavity 204 under the action of the magnetic attraction of the second adsorption magnet to the second positioning magnet 105;

s05, after the third limiting piece 103 is horizontally inserted into the second limiting cavity 204, the positioning sleeve plate 806 pushes the guide plate 208 downwards and is propped against the support plate 205, and at the moment, the second plug connector 210 is just clamped into the positioning hole on the third limiting piece 103, so that stable assembly between the first outer frame 1 and the second outer frame 2 is completed;

s06, after the positioning assembly between the first outer frame 1 and the second outer frames 2 on two sides of the first outer frame is completed, then the door and window single body 5 is installed, then the third outer frame 3 is butted between the second outer frames 2 and matched with the top of the door and window single body 5, at the moment, the fastening screw 302 is aligned with the second locking port 202, one fastening piece 10 is inserted into the second locking port 202 and drives the fastening piece 10 to rotate, so that the fastening piece 10 is tightly screwed on the fastening screw 302, thereby realizing the rapid positioning and tight connection of the third outer frame 3 between the two second outer frames 2, and at the moment, the stable assembly of the whole aluminum alloy door and window is completed.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (10)

1. A self-positioning aluminum alloy door and window, comprising:

the first outer frame body (1), the said first outer frame body (1) is arranged horizontally;

the second outer frame bodies (2) are vertically arranged and symmetrically arranged on two sides of the first outer frame body (1), and the second outer frame bodies (2) are matched with the first outer frame body (1) in a clamping way;

the third outer frame body (3), the third outer frame body (3) is arranged above the first outer frame body (1) and is arranged in parallel with the first outer frame body (1), and the third outer frame body (3) is matched with the second outer frame body (2) in a clamping way;

the cross-shaped inner frame (4) is arranged inside an outer frame assembled by the first outer frame (1), the second outer frame (2) and the third outer frame (3);

a plurality of door and window monomers (5) are installed between the cross inner frame (4) and the outer frame, and the door and window monomers (5) comprise:

the first inner frame body (6), the first inner frame body (6) is horizontally arranged and is internally provided with a gravity limiting assembly (7), and the gravity limiting assembly (7) comprises two first limiting pieces (701) which move in opposite directions;

the second inner frame body (8), the second inner frame body (8) is vertically arranged and symmetrically arranged on two sides of the first inner frame body (6), the upper end and the lower end of the second inner frame body (8) are respectively provided with a first limiting cavity (801), the first limiting parts (701) are in plug-in fit with the corresponding first limiting cavities (801), two first moving plates (802) which move in opposite directions are arranged in the second inner frame body (8), and first plug-in connectors (803) which are in clamping fit with the corresponding first limiting parts (701) are fixedly arranged on the surface of the first moving plates (802);

and the third inner frame body (9), the third inner frame body (9) is arranged above the first inner frame body (6) and is arranged in parallel with the first inner frame body (6), two second limiting pieces (901) which move in opposite directions are arranged inside the third inner frame body (9), the second limiting pieces (901) are in plug-in fit with corresponding first limiting cavities (801), one ends of the second limiting pieces (901) are provided with first positioning magnets (902), the first positioning magnets (902) are magnetically attracted with first adsorption magnets corresponding to the interiors of the first limiting cavities (801), and the second limiting pieces (901) are in plug-in fit with corresponding first plug-in connectors (803).

2. The self-positioning aluminum alloy door and window according to claim 1, wherein two ends of the first inner frame body (6) are arranged at a 45-degree butt joint angle, a first glass cavity (601) is arranged at the top of the first inner frame body (6), a first inner cavity (602) is arranged inside the first inner frame body (6), a first guide opening (603) communicated with the first inner cavity (602) is arranged at the end of the first inner frame body (6), and the first limiting piece (701) is in sliding fit inside the corresponding first guide opening (603);

the glass is characterized in that a limiting clamping seat (604) is fixedly arranged at the bottom of the first inner frame body (6), a first locking port (605) is formed in the bottom of the first inner frame body (6), a gravity pressing port (606) coaxial with the first locking port (605) is formed in the first glass cavity (601), and the gravity pressing port (606) is communicated with the first inner cavity (602).

3. A self-positioning aluminium alloy door and window according to claim 2, characterized in that the gravity limiting assembly (7) further comprises:

the gravity pressing plate (702), a gravity pressing column (703) which is in sliding fit with the interior of the gravity pressing opening (606) is fixedly arranged at the top of the gravity pressing plate (702), and a first elastic piece (704) connected in the first inner cavity (602) is arranged at the bottom of the gravity pressing plate (702);

the first reinforcing plate (705), first interior fagging (705) slip sets up inside first interior dress chamber (602), first locating part (701) are fixed to be set up first reinforcing plate (705) keep away from one side of gravity pushing plate (702), first interior fagging (705) with it has gravity inclined push plate (706) to articulate between gravity pushing plate (702).

4. A self-positioning aluminum alloy door and window according to claim 3, wherein two ends of the second inner frame body (8) are arranged to form a 45-degree butt joint angle, a second glass cavity (804) is arranged on one side of the second inner frame body (8), a second inner cavity (805) is arranged inside the second inner frame body (8), and a positioning sleeve plate (806) is fixedly arranged on the other side of the second inner frame body (8);

the second inner frame body (8) one side closely rotates and is provided with rotary control piece (807), fixed being provided with on rotary control piece (807) are located location control gear (808) in second inner chamber (805), first movable plate (802) symmetry sets up the upper and lower both sides of location control gear (808), first movable plate (802) fixed surface is provided with location control rack (809), location control gear (808) meshes with location control rack (809) of its both sides.

5. The self-positioning aluminum alloy door and window according to claim 4, wherein two ends of the third inner frame body (9) are arranged at a 45-degree butt joint angle, a third glass cavity (903) is arranged at the bottom of the third inner frame body (9), a third inner cavity (904) is arranged inside the third inner frame body (9), a second guide opening (905) communicated with the third inner cavity (904) is arranged at the end of the third inner frame body (9), and the second limiting piece (901) is in sliding fit inside the corresponding second guide opening (905);

the third inner cavity (904) is internally symmetrically provided with two second reinforcing plates (906) in a sliding mode, the third inner cavity (904) is internally provided with second elastic pieces (907) connected to the corresponding second reinforcing plates (906), and the second limiting pieces (901) are fixedly arranged on one sides, far away from the second elastic pieces (907), of the corresponding second reinforcing plates (906).

6. The self-positioning aluminum alloy door and window according to claim 5, wherein two ends of the first outer frame body (1) are set to a 45-degree butt joint angle, a first positioning cavity (101) is formed in the top of the first outer frame body (1), the first inner frame body (6) and a limiting clamping seat (604) at the bottom of the first inner frame body are tightly matched with the inside of the first positioning cavity (101), a plurality of inner supporting plates are fixedly arranged in the first outer frame body (1), a third guide opening (102) communicated with the inside of the first outer frame body is formed in the end of the first outer frame body (1), a third limiting piece (103) matched in the corresponding third guide opening (102) is arranged in the first outer frame body (1) in a sliding mode, a third elastic piece (104) is connected between the third limiting piece (103) and the corresponding inner supporting plates, and one end of the third limiting piece (103) is provided with a second positioning magnet (105).

7. The self-positioning aluminum alloy door and window according to claim 6, wherein two end parts of the second outer frame body (2) are arranged to form a 45-degree butt joint angle, a second positioning cavity (201) is formed in one side of the second outer frame body (2), a second locking port (202) is formed in the position, close to the top, of the other side of the second outer frame body (2), a positioning channel (203) communicated with the second positioning cavity (201) is formed in the bottom of the second outer frame body (2), a second limiting cavity (204) in plug-in fit with a corresponding third limiting piece (103) is formed in the bottom of the second outer frame body (2), and a second adsorption magnet magnetically attracted with the second positioning magnet (105) is arranged in the second limiting cavity (204);

the utility model discloses a locating device for the automobile, including first location cavity (201), second inside casing (8) and locating channel (203), second location cavity (201) and correspond sliding fit between second inside casing (8), second inside casing (201) inside fixed backup pad (205) that is provided with, location sleeve board (806) that second inside casing (8) surface is located the below laminate on backup pad (205), backup pad (205) top is fixed be provided with location sleeve board (806) sliding fit's locating lever (206), backup pad (205) below is provided with second movable plate (207), second movable plate (207) top is fixed be provided with backup pad (205) sliding fit's deflector (208), second movable plate (207) with be connected with fourth elastic component (209) between backup pad (205), second movable plate (207) bottom is fixed be provided with location passageway (203) looks adaptation second plug connector (210), second plug connector (210) and correspond third spacing piece (103) joint cooperation.

8. The self-positioning aluminum alloy door and window according to claim 7, wherein a third positioning cavity (301) is formed in the bottom of the third outer frame body (3), the top of the third inner frame body (9) is tightly matched with the inside of the third positioning cavity (301), a plurality of inner supporting plates are fixedly arranged in the third outer frame body (3), fastening screws (302) fixed with the corresponding inner supporting plates are symmetrically arranged in the third outer frame body (3), and a fastening piece (10) inserted in the second locking opening (202) is in threaded connection with the corresponding fastening screws (302).

9. The self-positioning aluminum alloy door and window according to claim 8, wherein the cross inner frame (4) is composed of a transverse frame body (401) and a vertical frame body (402) which are fixedly connected, guide bases (403) sleeved on positioning rods (206) are fixedly arranged at two ends of the transverse frame body (401), first inserting grooves (404) tightly matched with corresponding limiting clamping bases (604) are formed in the top of the transverse frame body (401), second inserting grooves (405) tightly matched with corresponding third inner frame bodies (9) are formed in the bottom of the transverse frame body (401), third inserting grooves (406) are formed in two opposite sides of the vertical frame body (402), and the second inner frame body (8) and positioning sleeve plates (806) on the second inner frame body are in sliding fit with the corresponding third inserting grooves (406).

10. The self-positioning method of a self-positioning aluminum alloy door and window according to claim 9, comprising the steps of:

s01, firstly abutting the second inner frame body (8) on two sides of the first inner frame body (6) and limiting the positions of the second inner frame body, then installing glass into the first glass cavity (601) on the first inner frame body (6) along the second glass cavity (804) on the second inner frame body (8), and supporting the glass on the top of the gravity pressing column (703) to downwards press the gravity pressing column (703) until the top of the glass is flush with the inner bottom of the first glass cavity (601) by means of gravity, wherein the first elastic piece (704) is stressed and compressed, and the first limiting piece (701) is horizontally inserted into the first limiting cavity (801), so that quick positioning between the first inner frame body (6) and the second inner frame body (8) is realized;

s02, after the positioning and assembling between the first inner frame body (6) and the second inner frame bodies (8) at the two sides of the first inner frame body are completed, the third inner frame body (9) is butted between the second inner frame bodies (8) and matched with the top of glass, at the moment, the second guide opening (905) is aligned with the first limiting cavity (801), and under the strong magnetic attraction of the first positioning magnet (902) to the first adsorption magnet in the first limiting cavity (801), the second limiting piece (901) is quickly inserted into the corresponding first limiting cavity (801), so that the third inner frame body (9) is quickly positioned between the two second inner frame bodies (8);

s03, driving the rotary control member (807) to rotate through a cross screwdriver, driving the two first moving plates (802) to move in opposite directions under the action of a positioning control gear (808), further controlling the first plug-in connector (803) above to move upwards and insert into a positioning hole on the second limiting member (901), and simultaneously enabling the first plug-in connector (803) below to move downwards and insert into the positioning hole on the first limiting member (701), thereby completing the rapid assembly of the whole door and window unit (5);

s04, after the second outer frame body (2) is spliced to the two sides of the first outer frame body (1), the second positioning magnet (105) is aligned to the second limiting cavity (204), and at the moment, the third limiting part (103) is driven to be horizontally inserted into the second limiting cavity (204) under the action of the magnetic attraction of the second adsorption magnet to the second positioning magnet (105);

s05, after the third limiting piece (103) is horizontally inserted into the second limiting cavity (204), the positioning sleeve plate (806) downwards pushes the guide plate (208) and presses against the support plate (205), and at the moment, the second plug connector (210) is just clamped into the positioning hole on the third limiting piece (103), so that stable assembly between the first outer frame body (1) and the second outer frame body (2) is completed;

s06, after the first outer frame body (1) and the second outer frame bodies (2) on the two sides of the first outer frame body are positioned and assembled, door and window single bodies (5) are installed, then the third outer frame body (3) is butted between the second outer frame bodies (2) and matched with the tops of the door and window single bodies (5), at the moment, the fastening screw (302) is aligned with the second locking opening (202), one fastening piece (10) is inserted into the second locking opening (202) and drives the fastening piece (10) to rotate, and therefore the fastening piece (10) can be tightly matched with the fastening screw (302) through threads, quick positioning and tight connection of the third outer frame body (3) between the two second outer frame bodies (2) are achieved, and the whole aluminum alloy door and window is firmly assembled at the moment.