CN110821357A

CN110821357A - Aluminum alloy double-leaf door controlled to be opened by single handle

Info

Publication number: CN110821357A
Application number: CN201810912331.0A
Authority: CN
Inventors: 倪海琼; 袁向东
Original assignee: Hebei Orient Sundar Windows Co Ltd
Current assignee: Hebei Orient Sundar Windows Co Ltd
Priority date: 2018-08-11
Filing date: 2018-08-11
Publication date: 2020-02-21

Abstract

The invention discloses an aluminum alloy double-leaf door controlled to be opened by a single handle, wherein the handle rotates anticlockwise or clockwise to drive a driver, a missteering prevention angle on a driving leaf, a transmission rod, a lower steering angle and a transmission slat of a conversion rod to rotate anticlockwise or clockwise; the mushroom lock point A is matched with the turnover lock seat a to lock or separate the driving fan and the driven fan; the locking point P drives the lock seat P to move, so as to drive the lock seat transmission plate, the driven fan transmission rod and the transmission slat with the lower steering angle to rotate clockwise or anticlockwise; the locking point B, C locks or disengages the lock seats b and c, the locking point X, Y respectively locks or unlocks with the lock seats x1 and x2, and the lock seats y1 and y2, so that the driving fan and the driven fan are in a fully locked state, the driving fan is inverted, the driven fan is closed, and the driving fan and the driven fan are in a flat-open state. The aluminum alloy double-leaf door can realize the opening of the whole leaf, can realize the independent inward falling of the active leaf, and has simple and convenient opening and high locking reliability.

Description

Aluminum alloy double-leaf door controlled to be opened by single handle

Technical Field

The invention belongs to the field of building doors and windows, and relates to an aluminum alloy double-leaf door opened by a single handle.

Background

1. The kitchen is a place needing unilateral isolation, but most high-grade hotels require the kitchen to be open in order to meet the requirements of customers, so that the requirement on the construction of the kitchen is particularly high, and the door and window glass for the kitchen occupies a large area. However, no matter how the kitchen is built, because the existing kitchen door is a whole door and is opened singly, when communicating with the outside or transferring necessary products in the kitchen, the food must enter from an outward push door, thereby causing sanitation hidden trouble. 2. Modern young people pursue fashion and personality, and the opening method of the doors and windows in the existing market is completely new and cannot meet the requirements of the modern young people. 3. In villa houses, the rear garden door is usually opened by a common whole leaf, and because the air of the garden behind the villa is generally fresh, a householder likes to open the rear garden door to increase ventilation, so that certain barrier property cannot be ensured, children cannot be prevented from running out of the door to cause dangerous things, and the door does not have any anti-theft capability.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides the aluminum alloy double-leaf door controlled to be opened by the single handle, the aluminum alloy double-leaf door can realize the opening of the whole leaf and the independent inward opening of the active leaf, and is simple and convenient to open, high in locking reliability, good in anti-theft effect and high in use safety.

In order to achieve the purpose, the technical solution of the invention is as follows: an aluminum alloy double-leaf door controlled to be opened by a single handle comprises a door frame, a lower doorsill, an upper driving leaf, a lower driven leaf, a false mullion fixed on the lower driven leaf, an aluminum pressing line and a hardware system; the door frame comprises an upper transverse door frame, a left vertical door frame, a right vertical door frame, a door frame and a door frame, wherein the upper transverse door frame and the left vertical door frame and the right vertical door frame are respectively composed of an outdoor frame metal section, an indoor frame metal section and a frame heat insulation strip fixed between the outdoor frame metal section and the indoor frame metal section; the false mullion consists of an outdoor false mullion metal section, an indoor false mullion metal section and a false mullion heat insulation strip fixed between the outdoor false mullion metal section and the indoor false mullion metal section; the upper driving fan comprises a left vertical main fan frame, a right vertical main fan frame, an upper transverse main fan frame, a lower transverse main fan frame and glass, and the lower driven fan comprises a left vertical auxiliary fan frame, a right vertical auxiliary fan frame, an upper transverse auxiliary fan frame, a lower transverse auxiliary fan frame and glass; the left and right vertical main sash frames, the upper and lower horizontal main sash frames, the left and right vertical auxiliary sash frames and the upper and lower horizontal auxiliary sash frames are respectively composed of outdoor sash metal profiles, indoor sash metal profiles and sash heat insulation strips fixed between the outdoor sash metal profiles and the indoor sash metal profiles; the lower threshold consists of an outdoor threshold metal section, an indoor threshold metal section and a threshold heat insulation strip fixed between the outdoor threshold metal section and the indoor threshold metal section; the left vertical main fan frame or the right vertical main fan frame is fixed on the left vertical door frame or the right vertical door frame by a diagonal draw bar, and the left vertical auxiliary fan frame or the right vertical auxiliary fan frame is hinged and fixed on the left vertical door frame or the right vertical door frame; the glass of the upper driving fan and the lower driven fan is pressed and fixed by the aluminum pressing line at the indoor side; the lap joint positions of a left vertical main sash frame, a right vertical main sash frame, an upper transverse main sash frame, a left vertical auxiliary sash frame, a right vertical auxiliary sash frame, a lower transverse auxiliary sash frame, a left vertical door frame, a right vertical door frame, an upper transverse door frame, a lower doorsill and a false mullion of the upper active sash are all provided with a plurality of sealing rubber strips; the hardware system comprises an active fan hardware system and a driven fan hardware system;

the driving fan hardware system comprises a diagonal draw bar, a rotating hardware A, a lock seat C, one or more lock seats B, a missteering prevention angle of a driving fan with a lock point C fixed on a transmission slat, a driving fan transmission rod with one or more lock points B fixed on the transmission slat, a driver, a handle, a driving fan lower steering angle with a lock point P fixed on the transmission slat and a conversion rod with a lock point A fixed on the transmission slat; the hinge of the diagonal draw bar hinges the upper end of the vertical main sash frame on the corresponding vertical door frame, the cross bar is fixed in the hardware groove opened on the upper horizontal main sash frame, and the lower end of the vertical main sash frame is hinged on the corresponding vertical door frame by the rotating hardware A; the driver, the anti-misoperation steering angle on the driving fan, the driving fan transmission rod, the lower steering angle of the driving fan and the external fixed strip plate of the conversion rod are respectively fixed in the hardware grooves formed on the upper and lower horizontal main fan frames and the vertical main fan frame which is not hinged and fixed on the vertical door frame; the upper end of a transmission slat of the driver is connected with a transmission slat of an anti-misoperation steering angle on the active fan, and the lower end of the transmission slat of the driver is sequentially connected with a transmission rod of the active fan, a steering angle under the active fan and a transmission slat of a conversion rod; the lock point B, the lock point C and the lock point P are respectively matched with the lock seat B, the lock seat C and the lock seat P, and the lock point A is a mushroom lock point and is matched with the turnover lock seat a; the lock seat c and the lock seat b are fixed in a hardware groove which is not hinged and fixed in the vertical door frame of the vertical main leaf frame; the handle is inserted and fixed in the handle insertion groove of the driver; the handle rotates anticlockwise or clockwise, and the driver, the anti-misoperation steering angle on the driving fan, the driving fan transmission rod, the steering angle under the driving fan and the transmission strip plate of the conversion rod rotate anticlockwise or clockwise;

the driven fan hardware system comprises a rotating hardware B, one or more lock seats X1 and X2, lock seats Y1 and Y2, a turnover lock seat a, a driven fan lower steering angle with a lock point Y fixed on a transmission slat, a driven fan transmission rod with one or more lock points X fixed on the transmission slat and a long draw key steering angle; a vertical slave fan frame is hinged on the corresponding vertical door frame by rotating the hardware B; the long draw key steering angle comprises a steering angle, a pan head screw and a lock seat transmission plate, wherein a lock seat p is fixed at one end part of the lock seat transmission plate; the steering angle comprises an outer fixed slat and an angular transmission plate which can be clamped in the corner of the outer fixed slat in a sliding way; the inner cavity of the transverse wall of the external fixing strip plate of the steering angle is provided with a transverse track matched with the lock seat transmission plate, and the inner cavity of the vertical wall of the external fixing strip plate of the steering angle is provided with a vertical track matched with the transmission strip plate; one end of the lock seat transmission plate, which is far away from the lock seat, is inserted into the transverse track and is connected and fixed at one end of an angular transmission plate of the steering angle; the lock seat P is a U-shaped lock seat with the opening direction consistent with the width direction of the lock seat transmission plate, namely, the lock point P can move in and out along the width direction of the lock seat transmission plate in the lock seat P; one end of a transmission slat of the driven fan transmission rod is inserted into the vertical track and is connected and fixed at the other end of an angular transmission plate of the steering angle through a connecting piece; the lower steering angle of the driven fan, the transmission rod of the driven fan and the external fixed slat of the steering angle of the long pull key are respectively fixed in a hardware groove formed on the vertical fan frame of the vertical door frame; lock point X is used with lock seats X1 and X2, and lock point Y is used with lock seats Y1 and Y2; the lock seats x1 and x2 and the lock seats y1 and y2 are respectively fixed in hardware grooves which are not hinged and fixed in the vertical door frame of the vertical fan frame; two ends of the turnover lock seat a are in locking positions, the middle of the turnover lock seat a is in a turnover position or two adjacent turnover positions are in locking positions, the third turnover position is in a turnover position, and the turnover lock seat a is fixed in a hardware groove transversely formed in the fan frame; the other end of the driving slat of the driven fan driving rod is connected with a driving slat of a driven fan lower steering angle; when the two ends of the turnover lock seat a are in locking positions, the middle of the turnover lock seat a is in locking positions, or two adjacent lock seats are in locking positions, and the third is in turnover positions, no gap exists between the lock seats x1 and x2, and between the lock seats y1 and y2, when the lock point a is in the locking position at one end of the turnover lock seat a, the lock point B, C is locked with the lock seats b and c, the lock point P is in the lock seat P, the lock point X, Y is locked with the lock seats x1 and y1, when the lock point a is in the middle turnover position of the turnover lock seat a, the lock point B, C is separated from the lock seats b and c, the lock point P is in the lock seat P, the lock point X, Y is locked with the lock seats x2 and y2, when the lock point a is in the locking position at the other end of the turnover lock seat a, the lock point B, C is separated from the continued lock seats b and c, the lock point P is in the lock seat P, and the lock point X, Y is separated from the lock seats x1, x2 and y 2; when two of the turnover lock seats a are next to each other to form a locking position, and the third is a turnover position, the gap between the lock seats x1 and x2, and the lock seats y1 and y2 is a transmission distance for the handle to rotate in an opening mode, when the lock point a is located at one end of the turnover lock seat a to form a locking position, the lock point B, C is locked with the lock seats b and c, the lock point P is located in the lock seat P, the lock point X, Y is locked with the lock seats x1 and y1, when the lock point a is located at the second locking position of the turnover lock seat a, the lock point B, C is separated from the lock seats b and c, the lock point P is located in the lock seat P, the lock point X, Y is located in the gap between the lock seats x1 and x2, and the gap between the lock point 1 and y2, when the lock point a is located at the first turnover position of the turnover lock seat a, the lock point B, C is continuously separated from the lock seats b and c, and the lock point P is located in the lock seat P, and the lock point X, Y is located in the lock seat 2.

When the two ends of the turnover lock seat a are in a locking position and the middle is in a turnover position, a gap is not formed between the lock seats x1 and x2 and between the lock seats y1 and y2, the double-leaf door rotates from the closing direction to the opening direction, when the double-leaf door is closed, the lock point B, C is locked with the lock seats b and c, the driving leaf is locked with the frame, the lock point A is located at one end of the turnover lock seat a to be locked, the driving leaf and the driven leaf are locked, the lock point P is located in the lock seat P, the lock point X, Y is locked with the lock seats x1 and y1, and the driving leaf and the driven leaf are all locked with the frame. The handle anticlockwise or clockwise rotation 90 transmission distance, be in the horizontality, lock point C, B breaks away from lock seat c, b, the initiative fan breaks away from with the frame, lock point A is located the upset position of upset lock seat a, lock point P drives lock seat P and moves a transmission distance, lock point X, Y breaks away from lock seat x1, y1, with lock seat x2 and y2 locking, the driven fan is locked with the frame, lock point P does not block along the direction of rotation of the initiative fan in lock seat P, the initiative fan alone falls in. The handle rotates counterclockwise or clockwise for a transmission distance of 90 degrees and is in a vertical state, the lock point C, B is continuously separated from the lock seats c and b, the driving fan is separated from the frame, the lock point A is positioned at the other lock position of the turnover lock seat a, the driving fan and the driven fan are locked, the lock point P drives the lock seat P to move for a transmission distance, the lock point X, Y is completely separated from the lock seats x1, x2, y1 and y2, and the driven fan is separated from the frame; the driving fan and the driven fan are opened horizontally.

When two adjacent turnover lock seats a are in locking positions and the third is in turnover positions, a gap between the lock seats x1 and x2 and between the lock seats y1 and y2 is a transmission distance for rotating the handle in an opening mode, the two-leaf door rotates from the closing direction to the opening direction, when the two-leaf door is closed, the lock point B, C is locked with the lock seats b and c, the driving leaf is locked with the frame, the lock point A is located at one end of the turnover lock seat a and is locked, the driving leaf and the driven leaf are locked, the lock point P is located in the lock seat P, the lock point X, Y is locked with the lock seats x1 and y1, and the driving leaf and the driven leaf are all locked with the frame. The handle rotates 90 degrees counterclockwise or clockwise for a transmission distance and is in a horizontal state, a lock point C, B is separated from lock seats c and b, a driving fan is separated from a frame, a lock point A is positioned in the middle locking position of a turnover lock seat a, the driving fan and a driven fan are locked, a lock point P drives a lock seat P to move for a transmission distance, a lock point X, Y is separated from lock seats x1 and y1, the lock point is positioned in a gap between the lock seats x1 and x2 and a gap between y1 and y2, and the driven fan is separated from the frame; the driving fan and the driven fan are opened horizontally. The handle continues to rotate 90 degrees in a counterclockwise or clockwise mode for a transmission distance and is in a vertical state, the lock point C, B continues to be separated from the lock seats c and b, the active fan is separated from the frame, the lock point A is located at the turning position of the turning lock seat a, the lock point P drives the lock seat P to continue to move for a transmission distance, the lock point X, Y is locked with the lock seats x2 and y2, the driven fan is locked with the frame, the lock point P is not blocked in the lock seat P along the rotation direction of the active fan, and the drive fan is independently turned inwards.

Preferably, the driving fan hardware system further comprises another driving fan transmission rod and another or more than one lock seat, wherein one or more than one lock point B is fixed on the transmission slat, the other lock seat is matched with the lock point B for use, two ends of the transmission slat are respectively and fixedly connected to the upper end of the transmission slat of the driver and the lower end of the driving fan upper anti-missteering angle transmission slat, and the outer fixed slat is fixed in a hardware groove which is not hinged and fixed on the vertical main fan frame of the vertical door frame; the other or more than one lock seat b is fixed in a hardware groove which is not hinged and fixed on the vertical door frame of the vertical main leaf frame.

Further preferably, the locking point C, the locking point P and the locking point Y are cylinder head locking points; the lock point A, the lock point B and the lock point X are sleeved lock heads.

The invention can realize the flat opening of the driving fan and the driven fan together and the locking state of the driving fan and the driven fan. In a word, the invention can realize the opening of the whole fan, can realize the independent inward-falling ventilation of the active fan, is simple and convenient to open, has high locking reliability, good independent inward-falling ventilation effect of the active fan, good anti-theft effect and high use safety; the multifunctional kitchen cabinet is applied to kitchens in places such as houses, hotels, entertainment and the like, can also be used as a rear garden door of villa houses, and can also be used as a house door of people who like personalized doors and windows; in short, it has a very wide range of applications.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view AA in FIG. 1;

FIG. 3 is a cross-sectional view BB of FIG. 1;

FIG. 4 is a cross-sectional view CC of FIG. 1;

FIG. 5 is a schematic structural diagram of a first embodiment of a hardware system according to the present invention;

FIG. 6 is a schematic structural diagram of a second embodiment of the hardware system of the present invention;

FIG. 7 is a schematic perspective view of an anti-missteering angle of a driving fan in the hardware system of the present invention;

FIG. 8 is a front view of an anti-missteering angle of a driving fan in the hardware system of the present invention;

FIG. 9 is a schematic perspective view of a long key steering angle in the hardware system of the present invention;

FIG. 10 is an exploded view of the steering angle of the long draw key in the hardware system of the present invention;

FIG. 11 is a schematic structural diagram of a steering angle of a long key in the hardware system of the present invention;

FIG. 12 is a schematic view of a lock bracket transmission plate in a long key-pulling steering angle in a hardware system according to the present invention;

FIG. 13 is a schematic structural view of the other direction of the transmission plate of the lock bracket in the steering angle of the long draw key in the hardware system of the present invention;

FIG. 14 is a schematic view of the angle drive plate for the steering angle of the long draw key in the hardware system of the present invention;

FIG. 15 is a schematic structural diagram of a connecting member of a steering angle of a long key in the hardware system of the present invention;

FIG. 16 is a schematic structural view of the present invention in a state where the driving fan is turned inside and the driven fan is closed;

FIG. 17 is a schematic structural view of the present invention in a fully flat open position;

fig. 18 is a schematic structural view of the present invention in a fully closed state.

Detailed Description

The invention is further described with reference to the following figures and specific embodiments.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17 and fig. 18, the present embodiment includes a door frame, a lower door sill 344, an upper driving fan, a lower driven fan, a false mullion 371 fixed on the lower driven fan, an aluminum pressing line 40 and a hardware system. The door frame includes an upper cross door frame 343 and left and right

vertical door frames

341, 342, and the upper cross door frame 343 and the left and right

vertical door frames

341, 342 are respectively composed of outdoor

frame metal profiles

3431, 3411, 3421, indoor

frame metal profiles

3433, 3413, 3423, and frame

heat insulating strips

3432, 3412, 3422 fixed therebetween. The muntin 371 is composed of an outdoor muntin metal section 3711, an indoor muntin metal section 3713 and a muntin heat insulating strip 3712 fixed therebetween. The upper driving fan comprises left and right vertical

main fan frames

351 and 352, upper and lower transverse

main fan frames

353 and 354 and glass 39, and the lower driven fan comprises left and right vertical

auxiliary fan frames

361 and 362, upper and lower transverse

auxiliary fan frames

363 and 364 and glass 39. The left and right vertical

main fan frames

351 and 352, the upper and lower horizontal

main fan frames

353 and 354, the left and right vertical

auxiliary fan frames

361 and 362, and the upper and lower horizontal

auxiliary fan frames

363 and 364 are respectively composed of outdoor

fan metal profiles

3511, 3521, 3531, 3541, 3611, 3621, 3631 and 3641, indoor

fan metal profiles

3513, 3523, 3533, 3543, 3613, 3623, 3633 and 3643, and fan

heat insulation strips

3512, 3522, 3532, 3542, 3612, 3622, 3632 and 3642 fixed between the outdoor fan metal profiles and the indoor fan metal profiles. The lower sill 344 is composed of an outdoor sill metal profile 3441, an indoor sill metal profile 3443, and a sill heat insulating strip 3442 fixed therebetween. The left vertical main sash frame 351 (or the right vertical main sash frame 352) is fixed on the left vertical door frame 341 (or the vertical door frame 342) by the diagonal draw bar 14, and the left vertical auxiliary sash frame 361 (or the right vertical auxiliary sash frame 362) is hinged and fixed on the left vertical door frame 341 (or the right vertical door frame 342) by the hinge 24. The glass 39 of the upper driving fan and the lower driven fan is pressed and fixed by an aluminum pressing line 40 at the indoor side. The lap joint positions of the left and right vertical

main fan frames

351 and 352, the upper and lower transverse

main fan frames

353 and 354 of the upper driving fan, the left and right vertical

auxiliary fan frames

361 and 362, the upper and lower transverse

auxiliary fan frames

363 and 364, the two

vertical door frames

341 and 342, the upper transverse door frame 343, the false middle stile 371 and the lower door sill 344 of the lower driven fan are all provided with a plurality of sealing rubber strips. The hardware system comprises an active hardware system and a driven hardware system.

Initiative fan five metals system include diagonal draw bar 14, rotate five metals A, lock seat C2, a lock seat B6, prevent mistake steering angle 1 on the initiative fan that is fixed with lock point C3 on the transmission slat, be fixed with the initiative fan transfer line 5 of a lock point B7 on the transmission slat, driver, handle 4, be fixed with the initiative fan down steering angle 9 of lock point P10 on the transmission slat and be fixed with the change-over bar 11 of lock point A12 on the transmission slat. The hinge of the diagonal draw bar 14 hinges the upper end of the right vertical main sash frame 352 (which may also be a left vertical main sash frame) on the corresponding right vertical door frame 342 (which may also be a left vertical door frame), the cross bar thereof is fixed in the hardware groove opened on the upper horizontal main sash frame 343, and the lower end of the right vertical main sash frame 352 is hinged on the corresponding right vertical door frame 342 by the rotating hardware a (the rotating hardware a of the embodiment is a hinge). The driver, the anti-misoperation steering angle 1 on the driving fan, the driving fan transmission rod 5, the driving fan lower steering angle 9 and the outer fixed strip plate of the conversion rod 11 are respectively fixed in hardware grooves formed in the upper and lower horizontal

main fan frames

353 and 354 and the left vertical main fan frame 351 (if the right vertical auxiliary fan frame is not hinged and fixed on the right vertical door frame, the right vertical auxiliary fan frame)) which are not hinged and fixed on the left vertical door frame 341. The upper end of the transmission slat of the driver is connected with the transmission slat of the anti-missteering angle 1 on the active fan, and the lower end of the transmission slat is sequentially connected with the transmission slat of the active fan transmission rod 5, the active fan lower steering angle 9 and the conversion rod 11. The locking point C3 and the locking point P10 are cylindrical head locking points and are respectively matched with the lock seat C2 and the lock seat P28 for use, the locking point B7 is a sleeved lock head and is matched with the lock seat B6 for use, and the locking point A12 is a mushroom locking point and is matched with the turnover lock seat a 13 for use. The lock seat c 2 and the lock seat b6 are fixed in a hardware groove formed in the left vertical door frame 341 which is not hinged and fixed on the vertical fan frame. The handle 4 is inserted and fixed in the handle insertion groove of the driver. The handle 4 rotates anticlockwise or clockwise, and the driver, the driving fan upper anti-misoperation steering angle 1, the driving fan transmission rod 5, the driving fan lower steering angle 9 and the transmission strip plate of the conversion rod 11 rotate anticlockwise or clockwise. Preferably, when the lengths of the parts of the driving fan hardware system are not enough after connection, another driving fan transmission rod 5 with a locking point B7 fixed on the transmission slat can be connected, two ends of the transmission slat are respectively and fixedly connected to the upper end of the transmission slat of the driver and the lower end of the transmission slat of the anti-missteering angle 1 on the driving fan, and the outer fixed slat is fixed in a hardware groove formed on a left vertical main fan frame 351 which is not hinged and fixed on a vertical door frame; the other lock seat B6 used in cooperation with the lock point B7 on the other driving fan transmission rod 5 is also fixed in a hardware groove formed in the left vertical door frame 341 which is not hinged and fixed on the vertical main fan frame.

The driven fan hardware system comprises a rotating hardware B, a lock seat X116 and X217, a lock seat Y120 and Y221, a turnover lock seat a 13, a driven fan lower steering angle 23 fixed with a lock point Y22 on a transmission slat, a driven fan transmission rod 19 fixed with a lock point X18 on the transmission slat and a long key-pulling steering angle 15. The rotating hardware B of the present embodiment is two hinges 24, and the two hinges 24 hinge the right vertical slave sash frame 362 (which may also be a left vertical slave sash frame) to the corresponding right vertical door frame 342 (which may also be a left vertical door frame). The long-key steering angle 15 includes a steering angle 25, a pan head screw 26, and a latch seat transmission plate 27 having a latch seat p 28 fixed to one end portion thereof. The steering angle 25 comprises an outer fixed slat and an angle-shaped driving plate 36 which is slidably clamped in the corner of the outer fixed slat; and 29 is a mounting hole matched with the pan head screw 26 on the external fixing ribbon. The inner cavity of the transverse wall of the external fixing strip plate of the steering angle 25 is provided with a transverse track 30 matched with the lock seat transmission plate 27, and the inner cavity of the vertical wall of the external fixing strip plate is provided with a vertical track 31 matched with the transmission strip plate; the lock seat P28 is a U-shaped lock seat surrounded by two baffles 33 and 34 fixed on the lock seat transmission plate 27, and the opening direction of the lock seat P28 is consistent with the width direction of the lock seat transmission plate 27, that is, the lock point P10 can move in and out along the width direction of the lock seat transmission plate 27 in the lock seat P28; one or two connecting protrusions 32 are respectively fixed on different end faces of two ends of the lock seat transmission plate 27; one end of the lock seat transmission plate 27 far away from the lock seat p 28 is inserted into the transverse track 30, and is connected and fixed at one end of an angle transmission plate 36 with two connecting holes 37, which is fixed at the steering angle 25; one end of the driving slat of the driven fan driving rod 19 is inserted into the vertical rail 31 and connected to the other end of the angle driving plate 36 fixed to the turning angle 25 via a connecting member 35, which has three connecting holes 38. The driven fan lower steering angle 23, the driven fan transmission rod 19 and the outer fixed strip plate of the long key steering angle 15 are respectively fixed in hardware grooves formed on the upper transverse fan frame 363, the lower transverse fan frame 364 and the left vertical fan frame 361 which is not hinged and fixed on the vertical door frame 341. The locking point X18 is a sleeved locking head and is matched with the locking seats X116 and X217 for use, and the locking point Y22 is a cylinder head locking point and is matched with the locking seats Y120 and Y221 for use. The lock seats x116 and x 217 and the lock seats y120 and y221 are respectively fixed in a hardware groove which is not hinged and fixed in a left vertical door frame 341 of the vertical fan frame. The two ends of the turnover lock seat a 13 are locking positions, and the middle is a turnover position, and the turnover lock seat is fixed in a hardware groove formed in the transverse slave fan frame 363. The other end of the driving slat of the driven fan driving rod 19 is fixedly connected with the driving slat of the driven fan lower steering angle 23. There is no gap between the key receptacles x116 and x 217 and between the key receptacles y120 and y 221. When the lock point a12 is located at the right end of the flip lock seat a 13 for locking, the lock points B7 and C3 are locked with the lock seats B6 and C2, the lock point P10 is located in the lock seat P28, the lock points X18 and Y22 are locked with the lock seats X116 and Y120, when the lock point a12 is located at the middle flip position of the flip lock seat a 13, the lock points B7 and C3 are disengaged from the lock seats B6 and C2, the lock point P10 is located in the lock seat P28, the lock points X18 and Y22 are locked with the lock seats X217 and Y221, when the lock point a12 is located at the left end of the flip lock seat a 13 for locking, the lock points B7 and C3 are disengaged from the continued lock seats B7 and C2, the lock point P10 is located in the lock seat P28, and the lock points X18 and Y22 are disengaged from the lock seats X116, X217, Y120 and Y221.

The double-leaf door rotates from closing to opening, when the double-leaf door is closed, the locking points B7 and C3 are locked with the locking seats B6 and C2, the driving leaf is locked with the frame, the locking point A12 is located at the right end locking position of the turnover locking seat a 13, the driving leaf and the driven leaf are locked, the locking point P10 is located in the locking seat P28, the locking points X18 and Y22 are locked with the locking seats X116 and Y120, and the driving leaf and the driven leaf are all locked with the frame, as shown in FIG. 18. The handle rotates 90 degrees counterclockwise (or clockwise) for a transmission distance, and is in a horizontal state, the locking points C3 and B7 are separated from the locking seats C2 and B6, the active fan is separated from the frame, the locking point A12 is positioned at the turning position of the turning locking seat a 13, the locking point P10 drives the locking seat P28 to move for a transmission distance, the locking points X18 and Y22 are separated from the locking seats X116 and Y120 and are locked with the locking seats X217 and Y221, the driven fan is locked with the frame, the locking point P10 is not blocked in the locking seat P28 along the rotation direction of the active fan, and the active fan independently falls inwards, as shown in figure 16. The handle rotates counterclockwise (or clockwise) for a transmission distance of 90 degrees continuously, the handle is in a vertical state, the locking points C3 and B7 are separated from the locking seats C2 and B6 continuously, the driving fan is separated from the frame, the locking point A12 is positioned at the right end locking position of the turnover locking seat a 13, the driving fan and the driven fan are locked, the locking point P10 drives the locking seat P28 to move for a transmission distance, the locking points X18 and Y22 are separated from the locking seats X116, X217, Y120 and Y221 completely, and the driven fan is separated from the frame; the master and slave fans are opened horizontally together as shown in fig. 17.

As shown in fig. 1, 2, 3, 4, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17 and 18, the embodiment 2 of the present embodiment has the same structure as that of embodiment 1 except that two adjacent turnover lock seats a 13 are in a locking position, the third is in a turnover position, and the gap between the lock seats x116 and x 217 and the lock seats y120 and y221 is the transmission distance for the handle to rotate by one opening mode. When the lock point a12 is located at the right end of the flip lock seat a 13 for locking, the lock points B7 and C3 are locked with the lock seats B6 and C2, the lock point P10 is located in the lock seat P28, the lock points X18 and Y22 are locked with the lock seats X116 and Y120, when the lock point a12 is located at the second locking position of the flip lock seat a 13, the lock points B7 and C3 are disengaged from the lock seats B6 and C2, the lock point P10 is located in the lock seat P28, the lock points X18 and Y22 are respectively located in the gap between the lock seats X116 and X217 and the gap between Y120 and Y221, when the lock point a12 is located at the first flipping position of the flip lock seat a 13, the lock points B7 and C3 are continuously disengaged from the lock seats B6 and C2, the lock point P10 is located in the lock seat P28, and the lock points X18 and Y22 are respectively locked with the lock seats X217 and Y221.

The double-leaf door rotates from closing to opening, when the double-leaf door is closed, the locking points B7 and C3 are locked with the locking seats B6 and C3, the driving leaf is locked with the frame, the locking point A12 is located at the right end locking position of the turnover locking seat a 13, the driving leaf and the driven leaf are locked, the locking point P10 is located in the locking seat P28, the locking points X18 and Y22 are locked with the locking seats X116 and Y120, and the driving leaf and the driven leaf are all locked with the frame, as shown in FIG. 18. The handle rotates 90 degrees counterclockwise or clockwise for a transmission distance, and is in a horizontal state, the locking points C3 and B7 are separated from the locking seats C3 and B6, the driving fan is separated from the frame, the locking point A12 is positioned in the middle locking position of the turnover locking seat a 13, the driving fan and the driven fan are locked, the locking point P10 drives the locking seat P28 to move for a transmission distance, the locking points X18 and Y22 are separated from the locking seats X116 and Y120, the locking points X116 and Y217 are positioned in the gaps between the locking seats X116 and X217, and the gaps between Y120 and Y221, and the driven fan is separated from the frame; the master and slave fans are opened horizontally together as shown in fig. 17. The handle rotates 90 degrees counterclockwise or clockwise for a transmission distance, and is in a vertical state, the lock points C3 and B7 continue to be separated from the lock seats C3 and B6, the active fan is separated from the frame, the lock point a12 is located at the turning position of the turning lock seat a 13, the lock point P10 drives the lock seat P28 to continue to move for a transmission distance, the lock points X18 and Y22 are locked with the lock seats X217 and Y221, the driven fan is locked with the frame, the lock point P10 is not blocked in the lock seat P28 along the rotation direction of the active fan, and the active fan alone falls inwards, as shown in fig. 16.

The above embodiments are preferred and illustrative only, and equivalent technical modifications may be made by those skilled in the art based on the description of the patent, which are within the scope of the patent.

Claims

1. An aluminum alloy double-leaf door controlled to be opened by a single handle comprises a door frame, a lower doorsill, an upper driving leaf, a lower driven leaf, a false mullion fixed on the lower driven leaf, an aluminum pressing line and a hardware system; the door frame comprises an upper transverse door frame, a left vertical door frame, a right vertical door frame, a door frame and a door frame, wherein the upper transverse door frame and the left vertical door frame and the right vertical door frame are respectively composed of an outdoor frame metal section, an indoor frame metal section and a frame heat insulation strip fixed between the outdoor frame metal section and the indoor frame metal section; the false mullion consists of an outdoor false mullion metal section, an indoor false mullion metal section and a false mullion heat insulation strip fixed between the outdoor false mullion metal section and the indoor false mullion metal section; the upper driving fan comprises a left vertical main fan frame, a right vertical main fan frame, an upper transverse main fan frame, a lower transverse main fan frame and glass, and the lower driven fan comprises a left vertical auxiliary fan frame, a right vertical auxiliary fan frame, an upper transverse auxiliary fan frame, a lower transverse auxiliary fan frame and glass; the left and right vertical main sash frames, the upper and lower horizontal main sash frames, the left and right vertical auxiliary sash frames and the upper and lower horizontal auxiliary sash frames are respectively composed of outdoor sash metal profiles, indoor sash metal profiles and sash heat insulation strips fixed between the outdoor sash metal profiles and the indoor sash metal profiles; the lower threshold consists of an outdoor threshold metal section, an indoor threshold metal section and a threshold heat insulation strip fixed between the outdoor threshold metal section and the indoor threshold metal section; the left vertical main fan frame or the right vertical main fan frame is fixed on the left vertical door frame or the right vertical door frame by a diagonal draw bar, and the left vertical auxiliary fan frame or the right vertical auxiliary fan frame is hinged and fixed on the left vertical door frame or the right vertical door frame; the glass of the upper driving fan and the lower driven fan is pressed and fixed by the aluminum pressing line at the indoor side; the lap joint positions of a left vertical main sash frame, a right vertical main sash frame, an upper transverse main sash frame, a left vertical auxiliary sash frame, a right vertical auxiliary sash frame, a lower transverse auxiliary sash frame, a left vertical door frame, a right vertical door frame, an upper transverse door frame, a lower doorsill and a false mullion of the upper active sash are all provided with a plurality of sealing rubber strips; the hardware system comprises an active fan hardware system and a driven fan hardware system; the method is characterized in that:

2. The aluminum alloy double door opened by the control of the single handle as set forth in claim 1, wherein: the driving fan hardware system also comprises another driving fan transmission rod and another or more than one lock seat, wherein one or more than one lock points B are fixed on the transmission strip plate, the other or more than one lock seat B is matched with the lock points B for use, two ends of the transmission strip plate are respectively and fixedly connected with the upper end of the transmission strip plate of the driver and the lower end of the transmission strip plate of the driving fan for preventing the missteering angle, and the outer fixed strip plate is fixed in a hardware groove which is not hinged and fixed on the vertical main fan frame of the vertical door frame; the other or more than one lock seat b is fixed in a hardware groove which is not hinged and fixed on the vertical door frame of the vertical main leaf frame.

3. The aluminum alloy double door with a single handle controlling opening according to claim 1 or 2, wherein: the locking point C, the locking point P and the locking point Y are cylindrical head locking points; the lock point A, the lock point B and the lock point X are sleeved lock heads.