CN213710782U - Full-automatic intelligent window reliable in operation - Google Patents

Abstract

The utility model discloses a fully automatic intelligent window with reliable operation, which comprises a window frame and a window sash, wherein the window frame or the window sash is provided with an opening and closing device and a locking device; the opening and closing device and the locking device at least comprise a driving mechanism, a clutch module, an output module and a switch; the clutch module is respectively connected with the driving mechanism and the output module, and the switch is arranged on one side of the output module and is connected with the driving mechanism; when the driving mechanism sequentially drives the clutch module and the output module, the output module touches the switch to stop the driving mechanism; the output module of the opening and closing device is connected with the window frame or the window sash, and the output module of the lock dropping device is connected with the lock rod. Compared with the traditional mode of controlling by adopting the working time of the motor, the window locking device can avoid the condition of insufficient movement amount or over-travel movement, and can ensure that the locking and opening and closing operation of the window are more reliable; meanwhile, the over-travel condition is avoided, and the lock rod and the rocker arm can be prevented from being damaged due to over-travel movement.

Description

Full-automatic intelligent window reliable in operation

Technical Field

The utility model relates to an intelligence house field technique especially indicates a full-automatic smart window of reliable operation.

Background

The existing full-automatic intelligent window is generally provided with a lock-falling motor and an opening-closing motor so as to realize two working modes of automatic opening, closing and closing of the window; the locking rod is driven to move by connecting the locking motor with the locking rod to complete automatic unlocking and locking, and the opening and closing motor is connected with a rocker arm of a window to complete automatic opening and closing; the moving strokes of the lock rod and the rocker arm are controlled by the working time of the motor, and if the working time of the motor is less than the stroke required by the lock rod or the rocker arm, the lock rod or the rocker arm cannot be locked or the window sash cannot be completely opened or closed due to the small moving stroke of the drive lock rod or the rocker arm; if the working time value of the motor is larger than the maximum stroke of the lock rod or the rocker arm, the lock rod or the rocker arm can be caused to move in an overtravel way, so that the lock rod, the rocker arm and a window are damaged by being collided with the structures connected with the lock rod, the rocker arm and the window, and the motor can be damaged by overloading due to the overtravel condition; therefore, the fully automatic intelligent window is unreliable in use.

In addition, after the existing window lock is provided with a handle, the phenomenon that a motor in the window lock is deviated or inclined easily occurs, and the working performance and the precision of the window lock are influenced.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model discloses to the disappearance that prior art exists, its main objective provides a full-automatic smart window of reliable operation, and its structure sets up rationally, solves current full-automatic smart window effectively and has the insecure problem of operation.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a fully-automatic intelligent window with reliable operation comprises a window frame and a window sash, wherein the window frame or the window sash is provided with a lock rod and a locking position, and the lock rod can be selectively limited to the locking position;

the window frame or the window sash is provided with an opening and closing device and a locking device; the opening and closing device and the locking device at least comprise a driving mechanism, a clutch module, an output module and a switch; the clutch module is respectively connected with the driving mechanism and the output module, and the switch is arranged on one side of the output module and is connected with the driving mechanism; when the driving mechanism sequentially drives the clutch module and the output module, the output module touches the switch to stop the driving mechanism; the output module of the opening and closing device is connected with the window frame or the window sash, and the output module of the lock dropping device is connected with the lock rod.

As a preferred embodiment: the output module of the opening and closing device comprises a first central piece, a first output tooth sheet arranged on the first central piece and a shifting head;

the first central piece is connected with a window frame or a window sash through a rocker arm, the first output tooth piece is connected with the clutch module, and the first output tooth piece can drive the first central piece and the shifting block to rotate through rotation so as to enable the shifting block to be in touch connection with the switch.

As a preferred embodiment: the first central piece is provided with a first square shaft, and the window frame or the window sash is provided with a first moving groove;

one end of the rocker arm is provided with a first square hole for inserting a first square shaft, and the other end of the rocker arm is provided with a first moving block which can move in the first moving groove.

As a preferred embodiment: the lock rod is arranged on the outer side of the window sash and is connected with the drop lock device; the locking position is arranged on the inner side of the window frame, and the locking rod is driven by the lock falling device to move to be limited or separated from the locking position;

or the drop lock device is arranged on the window frame, and the lock rod is arranged on the inner side of the window frame and connected with the drop lock device; the locking position is arranged on the outer side of the window sash, and the lock rod is driven by the lock falling device to move to be limited or separated from the locking position.

As a preferred embodiment: the output module of the lock dropping device comprises a second central piece, a second output tooth sheet, a third output tooth sheet and a connecting piece, and the second central piece is provided with a second square hole for mounting a handle;

the second output tooth plate and the third output tooth plate are arranged on a second central piece, the second output tooth plate is connected with the clutch module, and the third output tooth plate is connected with the connecting piece;

the switch is arranged beside the connecting piece, and the connecting piece can move to selectively contact the switch.

As a preferred embodiment: one end of the connecting piece is provided with a first connecting bump, and one end of the lock rod is provided with a first connecting hole for connecting the first connecting bump;

the other end of the lock rod is provided with a locking convex column, and the locking convex column can be selectively limited to a locking position.

As a preferred embodiment: the opening and closing device and the falling lock device both comprise lock cases, and each lock case comprises a bottom case and an upper cover; the driving mechanism, the clutch module, the output module and the switch are all installed in the lock shell.

As a preferred embodiment: the bottom shell or the upper cover of the drop lock device is provided with an installation cavity, an anti-pulling inclined piece is arranged in the installation cavity, and the anti-pulling inclined piece can move along the axial direction parallel to the handle under the action of external force; the handle is connected to the anti-whiplash.

As a preferred embodiment: the clutch module comprises a positioning piece, a lower tooth plate, an upper tooth plate and a ball, wherein the lower tooth plate and the upper tooth plate are rotatably arranged on the positioning piece; the positioning piece is provided with a first shifting part, and the lower tooth piece is provided with a second shifting part; the ball is limited between the first shifting part and the second shifting part, and the second shifting part can shift the ball to be clamped on the upper tooth sheet by rotating the lower tooth sheet.

As a preferred embodiment: the first shifting part is provided with a moving guide groove and a magnetic part, and the ball is movably arranged in the moving guide groove;

go up the pick and be provided with the restricted concave position that supplies the ball block, this lower pick rotates and to make the second portion of stirring stir the ball and move the card in restricted concave position or provide magnetic attraction by the magnetism part and make the ball retract and move the guide slot.

Compared with the prior art, the utility model obvious advantage and beneficial effect have, particularly, can know by above-mentioned technical scheme: the switch is arranged on one side of the output module, so that when the output module moves to a set displacement, the switch can be touched to stop the motor; the accurate displacement of the locking rod and the rocker arm can be controlled by the movement of the output module only by setting the movement amount of the output module to be consistent with the movement strokes of the locking rod and the rocker arm; compared with the traditional mode of controlling by adopting the working time of the motor, the window locking device can avoid the condition of insufficient movement amount or over-travel movement, and can ensure that the locking and opening and closing operation of the window are more reliable; meanwhile, the over-travel condition is avoided, and the lock rod and the rocker arm can be prevented from being damaged due to over-travel movement.

And, it is through the setting of preventing drawing the piece to one side for behind the installation handle, the window lock especially motor part can not take place the position change, consequently, ensures the drive direction and the position of motor, has effectively solved and has directly passed the window frame or casement with the handle and the screw lock leads to the motor to draw the problem that inclines/draws on the lock shell among the traditional art.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a schematic perspective view of a fully automatic smart window according to a preferred embodiment of the present invention;

fig. 2 is a schematic view of another angle stereo mechanism of the fully automatic smart window according to the preferred embodiment of the present invention;

fig. 3 is a schematic partial structure diagram of a fully automatic smart window according to a preferred embodiment of the present invention;

FIG. 4 is a schematic view of the opening/closing device according to the preferred embodiment of the present invention;

fig. 5 is another specific structural diagram of the opening and closing device according to the preferred embodiment of the present invention;

FIG. 6 is an exploded view of the clutch module according to the preferred embodiment of the present invention;

FIG. 7 is another exploded perspective view of the clutch module according to the preferred embodiment of the present invention;

fig. 8 is a schematic partial structure diagram of a fully automatic smart window according to a preferred embodiment of the present invention;

fig. 9 is a schematic structural diagram of a drop lock device according to a preferred embodiment of the present invention;

fig. 10 is a perspective view of the drop lock device according to the preferred embodiment of the present invention (with anti-tilting members);

FIG. 11 is a schematic view of the detailed structure of FIG. 10;

fig. 12 is a perspective view of the drop lock device according to the preferred embodiment of the present invention (dual link);

fig. 13 is a detailed structural diagram of fig. 12.

The attached drawings indicate the following:

10. window 101, first moving groove

11. Window frame 12 and window sash

13. Lock rod 132 and locking convex column

131. First connecting hole 14, locking position

15. Rocker arm 151, first square hole

16. Handle 17, fastener

20. Opening and closing device 201 and bottom shell

202. Upper cover 203 and mounting cavity

204. Anti-pulling inclined piece 21 and driving mechanism

22. Clutch module 221 and positioning piece

2211. First toggle part 2212 and moving guide groove

2213. Magnetic part 222 and lower tooth sheet

2221. Second toggle part 223, upper tooth sheet

224. Ball 23, output module

231. First center piece 2311, first square shaft

232. First output tooth piece 233 and shifting block

234. Second center piece 235, second output web

236. Third output tooth 237, joint member

2371. First connecting salient point 2372 and output rack

2373. Connecting gear 24 and switch

241. Spring sheet 242 and contact bump

30. And a lock dropping device.

Detailed Description

Referring to fig. 1 to 13, a fully automatic smart window with reliable operation according to a preferred embodiment of the present invention is shown, which includes a window 10, an opening/closing device 20 and a lock-down device 30.

Referring to fig. 1 and 2, the window 10 includes a frame 11 and a sash 12, and in the present embodiment, the sash 12 is mounted to the frame 11 by a hinge; the frame 11 or sash 12 is provided with a locking bar 13 and a locking position 14, and the locking bar 13 can be selectively restricted to the locking position 14. If the locking bar 13 is installed on the window frame 11, the locking position 14 is installed on the window sash 12; if the locking bar 13 is mounted to the sash 12, the locking position 14 is mounted to the frame 11. The locking position is L-shaped, and the other end of the lock rod 13 is provided with a locking protrusion 132, and the locking protrusion 132 is selectively limited in the L-shaped locking position 14 to limit the outward opening of the window sash 12 in the case of falling lock.

Referring to fig. 3, 4 and 5, the opening and closing device 20 and the drop lock device 30 are mounted on the window frame 11 or the window sash 12, and the opening and closing device 20 and the drop lock device 30 at least include a driving mechanism 21, a clutch module 22, an output module 23 and a switch 24; the clutch module 22 is respectively connected to the driving mechanism 21 and the output module 23, and the switch 24 is disposed on one side of the output module 23 and connected to the driving mechanism 21; when the driving mechanism 21 sequentially drives the clutch module 22 and the output module 23, the output module 23 touches the switch 24 to stop the driving mechanism 21; the output module 23 of the opening and closing device 20 is connected with the window frame 11 or the window sash 12, and the output module 23 of the drop lock device 30 is connected with the lock rod 13.

Specifically, the output module 23 of the opening and closing device 20 includes a first center 231, a first output blade 232 mounted on the first center 231, and a shifting block 233; the first center piece 231 is provided with a first square shaft 2311, one end of the swing arm 15 is provided with a first square hole 151, and the first square shaft 2311 is inserted into the first square hole 151; the other end of the swing arm 15 is provided with a first moving block 152, the frame 11 or the sash 12 is provided with a first moving groove 101, and the first moving block 152 is movably limited in the first moving groove 101 to connect the first center piece 231 with the frame 11 or the sash 12, and the sash 12 is driven to open and close with respect to the frame 11 by the opening and closing device 20. First output tooth piece 232, actuating mechanism 21 are connected respectively in separation and reunion module 22, and preferably, this first output tooth piece 232 and actuating mechanism 21 can be through a plurality of reduction gears connection separation and reunion module, utilize reduction gears to increase the whole moment of torsion of device that opens and shuts to can let the dynamics of device that opens and shuts big, the drive casement process of opening and shutting can be more steady, reliable. The first output gear 232 rotates the synchronous transmission shifting block 233 to rotate, the switch 24 in the opening and closing device 20 is provided with an elastic sheet 241, and the driving mechanism 21 can be controlled to stop working by touching the elastic sheet 241 after the shifting block 233 rotates and moves by an angle.

Referring to fig. 8 and 9, the drop lock device 30 is mounted to the window sash 12, and the lock bar 13 is mounted to the outer side of the window sash 12 and connected to the drop lock device 20; the locking position 14 is arranged at the inner side of the window frame 11, and the locking bar 13 is driven by the drop lock device 30 to move to be limited or separated from the locking position 14; or, the drop lock device 30 is installed on the window frame 11, the lock bar 13 is installed on the inner side of the window frame 11 and connected with the drop lock device 30; the locking position 14 is arranged on the outer side of the window sash 12, and the lock rod 13 is driven by the drop lock device 30 to move to be limited or separated from the locking position 14. The frame 11 and the sash 12 are provided with a second moving groove 102 to which the lock lever 13 moves. The drop lock device 30 may be mounted inside the frame of the window frame 11 or the window sash 12, and the drop lock device 30 may be fastened to the outside of the window frame 11 or the window sash 12 by a fastening member 17.

The output module 23 of the drop lock device 30 includes a second center member 234, a second output tooth plate 235, a third output tooth plate 236 and an engagement member 237, wherein the second output tooth plate 235 and the third output tooth plate 236 are mounted on the second center member 234, the second output tooth plate 235 is connected to the clutch module 22, and the third output tooth plate 236 is connected to the engagement member 237. An output rack 2372 is arranged on one side of the connecting piece 237, and the third output toothed plate 236 is directly meshed with the output rack 2372 or is connected with the output rack 2371 through a connecting gear 2373. The switch 24 is disposed beside the link 237, and the link 237 moves to selectively contact the switch 24 to control the driving mechanism 21 to stop working; the switch 24 and the connecting rod 237 may be provided with a contact protrusion 242 or a spring piece 241, and when the connecting rod 237 moves, the contact protrusion 242 or the spring piece 241 of the connecting rod 237 may contact the contact protrusion 242 or the spring piece 241 of the switch 24 to control the operation of the driving mechanism 21. One end of the coupling piece 237 is provided with a first coupling protrusion 2371, one end of the latch lever 13 is provided with a first coupling hole 131, and the coupling piece 237 is inserted into the first coupling hole 131 through the first coupling protrusion 2371 to be coupled with the latch lever 13; when the connecting piece 237 moves, the locking rod 13 can be pulled to move together, and the locking rod is locked up and down.

The second center piece 234 is provided with a second square hole 2341, the handle is provided with a square bar 161, and the square bar 161 is inserted into the second square hole 2341; in the manual locking and unlocking process, the square rod 161 can be directly rotated to drive the second central piece 234, the second output toothed piece 235 and the third output toothed piece 236 to rotate, so as to drive the connecting piece 237 to move, pull the corresponding locking rod 13 to move together, and realize locking and unlocking of the locking rod. Preferably, the two connecting pieces 237 may be oppositely disposed, the two connecting pieces 237 may be engaged with each other through a gear, an output rack 2372 is disposed on any one of the connecting pieces 237, and when the third output rack 236 rotates, the two connecting pieces 237 may be simultaneously driven to move, so as to be conveniently adapted to a window with two lock levers.

Referring to fig. 6 and 7, the clutch module 22 includes a positioning member 221, a lower toothed plate 222, an upper toothed plate 223 and a ball 224, in the embodiment of the present application, the lower toothed plate 222 and the upper toothed plate 223 are rotatably mounted on the positioning member 221, the positioning member 221 is provided with a first toggle portion 2211, and the lower toothed plate 222 is provided with a second toggle portion 2221; the ball 224 is limited between the first toggle part 2211 and the second toggle part 2221, and the rotation of the lower tooth plate 222 can make the second toggle part 2221 toggle the ball 224 to be clamped in the upper tooth plate 223. Specifically, the first toggle part 2211 is provided with a moving guide 2212 and a magnetic member 2213, and the ball 224 is movably provided in the moving guide 2212; the upper rack 223 is provided with a restricted recess 2231 for the ball 224 to engage, and the rotation of the lower rack can make the second toggle part 2221 toggle the ball 224 to move and block in the restricted recess 2231 or make the ball 224 retract into the moving guide 2212 by the magnetic attraction force provided by the magnetic attraction part 2213. Specifically, the upper teeth 223 are connected to the first output teeth 232 and the second output teeth 235, and the lower teeth 222 are connected to the drive mechanism 21. The driving mechanism drives the lower tooth plate to rotate, so that the ball 224 can be shifted, and the lower tooth plate is clamped on the upper tooth plate 223 to drive the upper tooth plate to rotate together, so that the output module 23 is driven to rotate; after the driving mechanism stops working, the ball is sucked back into the moving guide groove by the suction force provided by the magnetic part due to the cancellation of the acting force, and is disconnected from the upper toothed plate 223.

As shown in fig. 10 to 13, the opening and closing device 20 and the drop lock device 30 each include a lock case including a bottom case 201 and an upper cover 202; the driving mechanism 21, the clutch module 22, the output module 23 and the switch 24 are all installed in the lock case. As some preferable solutions, the bottom case 201 or the top cover 202 of the drop lock device is provided with a mounting cavity 203, and an anti-tilting member 204 is arranged in the mounting cavity 203, and under the action of an external force, the anti-tilting member 204 is displaceable along an axial direction parallel to the handle 16; the housing of the handle 16 is connected to the anti-whipstock 204. Specifically, the anti-tilt member 204 may be tightly fitted and positioned in the mounting cavity 203 to achieve relative fixation between the anti-tilt member 204 and the bottom case 201 or the upper cover 202, when the handle 16 is mounted, the handle 16 passes through a mounting frame portion of the window frame 11 or the window sash 12 and is then screwed to the anti-tilt member 204, after locking, the anti-tilt member 204 may slightly shift toward the side of the handle 16, but the anti-tilt member does not affect the bottom case 201 or the upper cover 202, that is, for the main body of the drop lock device, especially for the motor portion, a position change may not occur, thereby ensuring a driving direction and a position of the motor, and effectively solving a problem that the motor is biased/tilted due to the fact that the handle is directly passed through the window frame 11 or the window sash 12 and is screwed on the lock case in the conventional technology. Of course, if the opening and closing device 20 and the drop lock device 30 are not provided with the anti-pulling inclined member 204, the installation cavity 203 can be directly used as a corresponding fixing hole, and the installation of the handle can also be completed by connecting the handle to the fixing hole. When the handle without the base is used, the shell of the handle is connected with the anti-inclined pulling piece for fastening installation; when the handle with the base is used, the shell of the handle is connected to the fixing hole for fastening and installation.

The utility model discloses a design focus lies in: the switch is arranged on one side of the output module, so that when the output module moves to a set displacement, the switch can be touched to stop the motor; the accurate displacement of the locking rod and the rocker arm can be controlled by the movement of the output module only by setting the movement amount of the output module to be consistent with the movement strokes of the locking rod and the rocker arm; compared with the traditional mode of controlling by adopting the working time of the motor, the window locking device can avoid the condition of insufficient movement amount or over-travel movement, and can ensure that the locking and opening and closing operation of the window are more reliable; meanwhile, the over-travel condition is avoided, and the lock rod and the rocker arm can be prevented from being damaged due to over-travel movement.

And, it is through the setting of preventing drawing the piece to one side for behind the installation handle, the window lock especially motor part can not take place the position change, consequently, ensures the drive direction and the position of motor, has effectively solved and has directly passed the window frame or casement with the handle and the screw lock leads to the motor to draw the problem that inclines/draws on the lock shell among the traditional art.

In the description of the present invention, it should be noted that the terms "upper", "lower", "left", "right", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (10)

1. A fully-automatic intelligent window with reliable operation is disclosed, the window (10) comprises a window frame (11) and a window sash (12), the window frame (11) or the window sash (12) is provided with a lock rod (13) and a locking position (14), and the lock rod (13) can be selectively limited to the locking position (14); the method is characterized in that:

the window frame (11) or the window sash (12) is provided with an opening and closing device (20) and a falling lock device (30); the opening and closing device (20) and the locking device (30) at least comprise a driving mechanism (21), a clutch module (22), an output module (23) and a switch (24); the clutch module (22) is respectively connected with the driving mechanism (21) and the output module (23), and the switch (24) is arranged on one side of the output module (23) and is connected with the driving mechanism (21); when the driving mechanism (21) sequentially drives the clutch module (22) and the output module (23), the output module (23) touches the switch (24) to stop the driving mechanism (21); the output module (23) of the opening and closing device (20) is connected with the window frame (11) or the window sash (12), and the output module (23) of the lock dropping device (30) is connected with the lock rod (13).

2. The fully automatic smart window with reliable operation according to claim 1, wherein: the output module (23) of the opening and closing device (20) comprises a first central part (231), a first output toothed sheet (232) arranged on the first central part (231) and a shifting head (233);

the first central piece (231) is connected with the window frame (11) or the window sash (12) through the rocker arm (15), the first output toothed sheet (232) is connected with the clutch module (22), and the first output toothed sheet (232) can drive the first central piece (231) and the shifting block (233) to rotate so that the shifting block (233) is in touch connection with the switch (24).

3. The fully automatic smart window with reliable operation according to claim 2, characterized in that: the first center piece (231) is provided with a first square shaft (2311), and the window frame (11) or the window sash (12) is provided with a first moving groove (101);

one end of the rocker arm (15) is provided with a first square hole (151) for inserting a first square shaft (2311), and the other end of the rocker arm (15) is provided with a first moving block (152) capable of moving in the first moving groove (101).

4. The fully automatic smart window with reliable operation according to claim 1, wherein: the drop lock device (30) is arranged on the window sash (12), and the lock rod (13) is arranged on the outer side of the window sash (12) and is connected with the drop lock device (30); the locking position (14) is arranged on the inner side of the window frame (11), and the locking rod (13) is driven by the lock falling device (30) to move in a limited way or be separated from the locking position (14);

or the drop lock device (30) is arranged on the window frame (11), and the lock rod (13) is arranged on the inner side of the window frame (11) and is connected with the drop lock device (30); the locking position (14) is arranged on the outer side of the window sash (12), and the lock rod (13) is driven by the falling lock device (30) to move in a limited way or be separated from the locking position (14).

5. Fully automatic smart window with reliable operation according to claim 1 or 4, characterized in that: the output module (23) of the lock dropping device (30) comprises a second central piece (234), a second output toothed sheet (235), a third output toothed sheet (236) and a connecting piece (237), wherein the second central piece (234) is provided with a second square hole (2341) for installing a handle (16);

the second output toothed plate (235) and the third output toothed plate (236) are arranged on the second central piece (234), the second output toothed plate (235) is connected with the clutch module (22), and the third output toothed plate (236) is connected with the connecting piece (237);

the switch (24) is disposed laterally of the link (237), and movement of the link (237) selectively contacts the switch (24).

6. The fully automatic smart window with reliable operation according to claim 5, wherein: one end of the connecting piece (237) is provided with a first connecting salient point (2371), and one end of the lock rod (13) is provided with a first connecting hole (131) for connecting the first connecting salient point (2371);

the other end of the lock rod (13) is provided with a locking convex column (132), and the locking convex column (132) can be selectively limited to a locking position (14).

7. The fully automatic smart window with reliable operation according to claim 5, wherein: the opening and closing device (20) and the falling and locking device (30) both comprise a lock shell, and the lock shell comprises a bottom shell (201) and an upper cover (202); the driving mechanism (21), the clutch module (22), the output module (23) and the switch (24) are all installed in the lock shell.

8. The fully automatic smart window with reliable operation according to claim 7, wherein: a bottom shell (201) or an upper cover (202) of the drop lock device is provided with a mounting cavity (203), an anti-inclined pulling piece (204) is arranged in the mounting cavity (203), and the anti-inclined pulling piece (204) can move along the axial direction parallel to the handle (16) under the action of external force; the handle (16) is connected to a whipstock (204).

9. The fully automatic smart window with reliable operation according to claim 1, wherein: the clutch module (22) comprises a positioning piece (221), a lower tooth plate (222), an upper tooth plate (223) and a ball (224), wherein the lower tooth plate (222) and the upper tooth plate (223) are rotatably arranged on the positioning piece (221); the positioning piece (221) is provided with a first toggle part (2211), and the lower tooth piece (222) is provided with a second toggle part (2221); the ball (224) is limited between the first toggle part (2211) and the second toggle part (2221), and the rotation of the lower tooth sheet (222) can make the second toggle part (2221) toggle the ball (224) to be clamped on the upper tooth sheet (223).

10. The fully automatic smart window with reliable operation according to claim 9, wherein: the first toggle part (2211) is provided with a moving guide groove (2212) and a magnetic part (2213), and the ball (224) can be movably arranged on the moving guide groove (2212);

the upper toothed piece (223) is provided with a limited concave position (2231) for the ball (224) to be clamped, and the lower toothed piece rotates to enable the second poking part (2221) to poke the ball (224) to move and clamp the ball in the limited concave position (2231) or enable the magnetic attraction part (2213) to provide magnetic attraction force to enable the ball (224) to retract into the moving guide groove (2212).

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