阅读说明：本技术 一种智能家居用智能窗户及控制方法 (Intelligent window for intelligent home and control method ) 是由 郭海锋 于 2020-07-31 设计创作，主要内容包括：本发明属于智能家居技术领域,尤其是一种智能家居用智能窗户,包括本地服务器和固定箱,本地服务器双向电性连接有物联网关,物联网关双向电性连接有信号转换器,信号转换器双向电性连接有控制器,控制器双向电性连接有执行机构。该智能家居用智能窗户及控制方法,通过设置执行机构和湿度传感器,在使用时,通过湿度传感器检测感应空气中的湿度信息传递到控制器,通过控制器自动控制第一自锁电机和第二自锁电机正转或反转,带动第一钢化玻璃和第二钢化玻璃升起或降下,对通风槽进行关闭或打开,实现自动对室内进行通风或密封,从而解决了现有窗户需要人工手动进行开启和关闭,遇到下雨天气时不能及时关闭窗户的问题。(The invention belongs to the technical field of intelligent home furnishing, and particularly relates to an intelligent window for the intelligent home furnishing, which comprises a local server and a fixed box, wherein the local server is electrically connected with an internet of things gateway in a bidirectional mode, the internet of things gateway is electrically connected with a signal converter in the bidirectional mode, the signal converter is electrically connected with a controller in the bidirectional mode, and the controller is electrically connected with an execution mechanism in the bidirectional mode. This intelligent window and control method for intelligent house, through setting up actuating mechanism and humidity transducer, when using, detect the humidity information transmission to the controller in the response air through humidity transducer, through the first auto-lock motor of controller automatic control and the corotation of second auto-lock motor or reversal, drive first toughened glass and second toughened glass and rise or fall, close or open the ventilation duct, realize automatic ventilating or sealing to indoor, thereby solved current window and needed artifical manual opening and closing, can not in time close the problem of window when meetting rainy weather.)

1. The utility model provides an intelligence smart window for house, includes local server (1) and fixed case (2), its characterized in that: the local server (1) is electrically connected with an internet of things gateway (3) in a bidirectional mode, the internet of things gateway (3) is electrically connected with a signal converter (4) in the bidirectional mode, the signal converter (4) is electrically connected with a controller (5) in the bidirectional mode, the controller (5) is electrically connected with an executing mechanism (6) in the bidirectional mode, the controller (5) is electrically connected with a transmitter (7), the transmitter (7) is electrically connected with a humidity sensor (8), the local server (1) is electrically connected with a wireless network entity (9) in the bidirectional mode, the wireless network entity (9) is electrically connected with a cloud server (10) in the bidirectional mode, and the cloud server (10) is electrically connected with an intelligent mobile terminal (;

fixed frame (12) of fixed case (2) fixed surface fixedly connected with, the inner wall fixedly connected with sealing glass (13) of fixed frame (12), ventilation groove (14), two have been seted up to the fixed surface of fixed case (2) ventilation groove (14) are the symmetric distribution for the center with the axis of fixed case (2), actuating mechanism (6), changer (7), humidity transducer (8), controller (5), signal converter (4) and thing allies oneself with gateway (3) fixed mounting respectively at the inner wall and the surface of fixed case (2).

2. The smart window for smart homes of claim 1, wherein: the actuating mechanism (6) comprises a first self-locking motor (61) and a second self-locking motor (62), and the first automatic motor and the second self-locking motor (62) are electrically connected with the controller (5) through electric wires.

3. The smart window for smart home according to claim 2, wherein: fixed case (2) interior roof is fixed and has been seted up mounting groove (63), four mounting groove (63) is the symmetric distribution with the axis of ventilation groove (14) and fixed case (2) respectively for the center, the inner wall of mounting groove (63) has driven gear roller (64) through bearing fixed mounting, the interior diapire of fixed case (2) is fixedly connected with backup pad (65) and enhancement division board (66) respectively, four backup pad (65) is the symmetric distribution with the axis of ventilation groove (14) and fixed case (2) respectively for the center, strengthen the axis department that division board (66) is located fixed case (2), the surface of backup pad (65) and enhancement division board (66) all has driving gear roller (67), four through bearing fixed mounting driving gear roller (67) respectively with driven gear roller (64) looks adaptation.

4. The smart window for smart homes of claim 3, wherein: the first self-locking motor (61) and the second self-locking motor (62) are both motors with double output shafts, two output shafts of the first automatic motor and the second self-locking motor (62) are both fixedly connected with rotating shafts (68) through couplers, one ends of the four rotating shafts (68) are both fixedly connected with the surface of a driving gear roller (67),

the surface of driving gear roller (67) and driven gear roller (64) all rotates and connects active energy area (69), the surface of active energy area (69) is fixed mounting respectively has first toughened glass (610), first rail guard (611), second toughened glass (612) and second rail guard (613), first toughened glass (610) and second toughened glass (612) are with the axis of first rail guard (611) and second rail guard (613) and are the symmetry crisscross distribution as the center with fixed case (2).

5. The smart home window according to claim 4, wherein: the inner wall fixedly connected with closing plate (614) of ventilation groove (14), two the surface of closing plate (614) is respectively with the inner wall of fixed case (2) and the surface fixed surface who strengthens division board (66) and is connected, spout (615) have been seted up to the fixed surface of closing plate (614), four the inner wall of spout (615) all with the surface sliding connection of function area (69), wherein two the inner wall fixed mounting of spout (615) has silica gel clearance strip (616), the surface of silica gel clearance strip (616) respectively with the surface sliding connection of first toughened glass (610) and second toughened glass (612), humidity transducer (8) fixed mounting is at the upper surface of closing plate (614).

6. The smart home window according to claim 5, wherein: the surface of the first guard rail (611) and the surface of the second guard rail (613) are both fixedly provided with fixing grooves (617), the inner walls of the fixing grooves (617) are hinged with movable guard rails (618), and the surfaces of the movable guard rails (618) are inserted into the inner walls of the fixing grooves (617).

7. The smart home window according to claim 6, wherein: the surface of the first guard rail (611) and the surface of the second guard rail (613) are both fixedly provided with a fixed pipe (619), one end of the fixed pipe (619) extends to the lower surfaces of the first guard rail (611) and the second guard rail (613), and the other end of the fixed pipe (619) is inserted into the lower surface of the movable guard rail (618).

8. The smart home window according to claim 7, wherein: the inner wall fixed mounting of fixed pipe (619) has servo motor (620), the output shaft of servo motor (620) passes through shaft coupling fixedly connected with threaded rod (621), the surperficial threaded connection of threaded rod (621) has screwed pipe (622), the surface of screwed pipe (622) and the inner wall sliding connection of fixed pipe (619), slot (623) have been seted up to the lower fixed surface of activity rail guard (618), and the one end of screwed pipe (622) extends to the inner wall of slot (623), the surface of screwed pipe (622) and the inner wall sliding connection of slot (623).

9. The smart home window according to claim 8, wherein: the inner wall of fixed pipe (619) is fixed and has been seted up stroke control groove (624), two stroke control groove (624) are the symmetric distribution as the center with the axis of fixed pipe (619), the one end of stroke control groove (624) extends to the surface of fixed pipe (619), the inner wall sliding connection of stroke control groove (624) has stopper (625), the fixed surface of stopper (625) and screwed pipe (622) is connected,

fixed surface of fixed pipe (619) installs limit switch (626), two limit switch (626) all through electric wire and servo motor (620) electric connection, the surface of fixed case (2) is fixed mounting respectively has motor corotation switch (627) and motor reversal switch (628), motor corotation switch (627) and motor reversal switch (628) all through electric wire and servo motor (620) electric connection.

10. The control method of a smart home-use smart window according to any one of claims 1 to 9, comprising: the method comprises the specific steps of firstly, writing a control program in advance for a controller (5) according to different user habits;

step two, the controller (5) is electrically connected with the local server (1) through the signal converter (4) and the internet of things gateway (3), the whole intelligent window is connected with the local server (1) in the whole intelligent home ecosystem, then the intelligent window is connected with the cloud server (10) through the wireless network entity (9), control information can be transmitted to the executing mechanism (6) through the intelligent mobile terminal (11) for manual control, the rotating shaft (68) and the driving gear roller (67) are driven to rotate forward and backward through forward and backward rotation of the first self-locking motor (61) and the second self-locking motor (62) in the executing mechanism (6), the power band (69) is driven to move, the power band (69) moves to drive the first toughened glass (610) and the second toughened glass (612) to extend out of the inside of the fixed box (2) to be plugged with the inner wall of the ventilation slot (14) to seal the ventilation slot (14), or the first toughened glass (610) and the second toughened glass (612) are driven to enter the fixed box (2) through the movement of the functional belt (69), meanwhile, the first guard rail (611) and the second guard rail (613) are inserted into the inner wall of the ventilation groove (14), and indoor ventilation is carried out through the ventilation groove (14);

thirdly, under the condition of no manual intervention, the controller (5) arranged in advance automatically controls the first self-locking motor (61) and the second self-locking motor (62) to rotate forwards and backwards according to time, the first self-locking motor (61) and the second self-locking motor (62) drive the rotating shaft (68) to rotate through the coupler, the rotating shaft (68) drives the driving gear roller (67) to rotate to drive the functional belt (69) to move, and the first toughened glass (610) and the second toughened glass (612) are driven to rise or fall, when the first tempered glass (610) and the second tempered glass (612) rise, the first guard rail (611) and the second guard rail (613) descend into the fixing box (2), when the first tempered glass (610) and the second tempered glass (612) are lowered, the first guard rail (611) and the second guard rail (613) are lifted to perform ventilation protection on the ventilation slot (14);

in rainy days, the humidity sensor (8) detects and senses humidity information and then transmits the humidity information to the controller (5) through the transmitter (7), the controller (5) automatically controls the first self-locking motor (61) and the second self-locking motor (62) to rotate, the first toughened glass (610) and the second toughened glass (612) are driven to rise, and the ventilation groove (14) is sealed;

step five, when an emergency situation occurs or the ventilation slot (14) needs to be kept open, only the first self-locking motor (61) and the second self-locking motor (62) need to work, after the first guard rail (611) and the second guard rail (613) are lifted, the servo motor (620) is started to rotate reversely through the motor reverse switch (628), an output shaft of the servo motor (620) drives the threaded rod (621) to rotate, the threaded rod (621) drives the threaded pipe (622) to move through threads, the threaded pipe (622) is contracted into the fixed pipe (619), after the surface of the threaded pipe (622) is separated from the inner wall of the slot (623), the movable protective guard (618) can be opened, and similarly, the servo motor (620) is started to rotate forwards through the motor forward rotation switch (627), the threaded pipe (622) can be driven to extend out of the fixed pipe (619) and be inserted into the inner wall of the slot (623), and the movable protective guard (618) is locked.

Technical Field

The invention relates to the technical field of smart homes, in particular to a smart window for a smart home and a control method.

Background

The intelligent home is characterized in that a home is used as a platform, facilities related to home life are integrated by utilizing a comprehensive wiring technology, a network communication technology, a safety precaution technology, an automatic control technology and an audio and video technology, an efficient management system of home facilities and family schedule affairs is constructed, home safety, convenience, comfortableness and artistry are improved, and an environment-friendly and energy-saving living environment is realized.

A window, architecturally, refers to an opening made in a wall or roof to allow light or air to enter a room.

In most of current intelligent home systems, mainly for carrying out intelligent automatic control to indoor furniture, household electrical appliances, entry door and (window) curtain, still through people manual operation to opening and closing most of window, and in order to guarantee indoor air quality, most of the time window all is in the open mode, often can appear people after going out or after sleeping, the condition that rainy weather window does not close appears, lead to the rainwater to get into indoorly through the window, lead to the condition that the room floor, furniture etc. steeps water and wets, so need an intelligent window machine control method for intelligent house.

Disclosure of Invention

Based on the prior art, the invention provides an intelligent window for an intelligent home and a control method.

The invention provides an intelligent window for an intelligent home and a control method, wherein the intelligent window comprises a local server and a fixed box, the local server is electrically connected with an internet of things gateway in a bidirectional mode, the internet of things gateway is electrically connected with a signal converter in a bidirectional mode, the signal converter is electrically connected with a controller in a bidirectional mode, the controller is electrically connected with an execution mechanism in a bidirectional mode, the controller is electrically connected with a transmitter, the transmitter is electrically connected with a humidity sensor, the local server is electrically connected with a wireless network entity in a bidirectional mode, the wireless network entity is electrically connected with a cloud server in a bidirectional mode, and the cloud server is electrically connected with an intelligent mobile terminal;

the fixed frame of fixed case's fixed surface is connected with, the inner wall fixedly connected with sealing glass of fixed frame, the fixed surface of fixed case has seted up the ventilation groove, two the ventilation groove uses the axis of fixed case to be the symmetric distribution as the center, actuating mechanism, changer, humidity transducer, controller, signal converter and thing allies oneself with gateway fixed mounting respectively at the inner wall and the surface of fixed case.

Preferably, the actuating mechanism comprises a first self-locking motor and a second self-locking motor, and the first automatic motor and the second self-locking motor are both electrically connected with the controller through electric wires.

Preferably, the interior roof of fixed case is fixed and has been seted up the mounting groove, four the mounting groove is the symmetric distribution for the center with the axis of ventilation groove and fixed case respectively, the inner wall of mounting groove has driven gear roller through bearing fixed mounting, the interior diapire of fixed case is fixedly connected with backup pad respectively and strengthens the division board, four the backup pad is the symmetric distribution for the center with the axis of ventilation groove and fixed case respectively, it is located the axis department of fixed case to strengthen the division board, the backup pad all has the driving gear roller, four through bearing fixed mounting with the surface of strengthening the division board driving gear roller respectively with driven gear roller looks adaptation.

Preferably, first self-locking motor and second self-locking motor are dual output shaft motor, two output shafts of first automatic motor and second self-locking motor all are through shaft coupling fixedly connected with pivot, four the one end of pivot all is connected with the fixed surface of driving gear roller, the surface of driving gear roller and driven gear roller is all rotated and is connected the active band, the surface of active band fixed mounting respectively has first toughened glass, first rail guard, second toughened glass and second rail guard, first toughened glass and second toughened glass are the symmetry staggered distribution with the axis of first rail guard and second rail guard with the stationary box as the center.

Preferably, the inner wall fixedly connected with closing plate of ventilation groove, two the surface of closing plate respectively with the inner wall of fixed box with strengthen the surface fixed connection of division board, the fixed surface of closing plate has seted up the spout, four the inner wall of spout all with the surface sliding connection of function area, wherein two the inner wall fixed mounting of spout has silica gel clearance strip, the surface of silica gel clearance strip respectively with first toughened glass and second toughened glass's surface sliding connection, humidity transducer fixed mounting is at the upper surface of closing plate.

Preferably, the surfaces of the first guard rail and the second guard rail are both fixedly provided with fixing grooves, the inner walls of the fixing grooves are hinged with movable guard rails, and the surfaces of the movable guard rails are inserted into the inner walls of the fixing grooves.

Preferably, the fixed tubes are fixedly mounted on the surfaces of the first guard rail and the second guard rail, one ends of the fixed tubes extend to the lower surfaces of the first guard rail and the second guard rail, and the other ends of the fixed tubes are inserted into the lower surfaces of the movable guard rails.

Preferably, the inner wall fixed mounting of fixed pipe has servo motor, servo motor's output shaft passes through shaft coupling fixedly connected with threaded rod, the surface threaded connection of threaded rod has the screwed pipe, the surface of screwed pipe and the inner wall sliding connection of fixed pipe, the slot has been seted up to the lower fixed surface of activity rail guard, and the one end of screwed pipe extends to the inner wall of slot, the surface of screwed pipe and the inner wall sliding connection of slot.

Preferably, the inner wall of fixed pipe is fixed and has been seted up the stroke control groove, two the stroke control groove uses the axis of fixed pipe to be the symmetric distribution as the center, the one end in stroke control groove extends to the surface of fixed pipe, the inner wall sliding connection in stroke control groove has the stopper, the surface of stopper and the fixed surface of screwed pipe are connected, the fixed surface of fixed pipe installs limit switch, two limit switch all passes through electric wire and servo motor electric connection, the surface of fixed case is fixed mounting respectively has motor corotation switch and motor reversal switch, motor corotation switch and motor reversal switch all pass through electric wire and servo motor electric connection.

Preferably, the step one, carry on the control program to compile in advance to the controller according to different users' habits of using;

step two, the controller is electrically connected with the local server through the signal converter and the Internet of things gateway, the whole intelligent window is connected with the local server in the whole intelligent home ecosystem, then after being connected with the cloud server through the wireless network entity, the control information can be transmitted to the execution mechanism through the intelligent mobile terminal for manual control, the first self-locking motor and the second self-locking motor in the actuating mechanism rotate positively and negatively to drive the rotating shaft and the driving gear roller to rotate positively and negatively to drive the functional belt to move, the functional belt moves to drive the first toughened glass and the second toughened glass to extend out of the fixed box and be inserted into the inner wall of the ventilation groove to seal the ventilation groove, or the first toughened glass and the second toughened glass are driven to enter the fixed box through the movement of the functional belt, and meanwhile, the first protective guard and the second protective guard are inserted into the inner wall of the ventilation groove to ventilate the room through the ventilation groove;

under the condition of no manual intervention, a controller arranged in advance automatically controls the first self-locking motor and the second self-locking motor to rotate forwards and backwards according to time, the first self-locking motor and the second self-locking motor both drive a rotating shaft to rotate through a coupler, the rotating shaft drives a driving gear roller to rotate and drive a functional belt to move, so that first tempered glass and second tempered glass are driven to rise or fall, when the first tempered glass and the second tempered glass rise, the first protective guard and the second protective guard fall into a fixed box, and when the first tempered glass and the second tempered glass fall, the first protective guard and the second protective guard rise to ventilate and protect a ventilation slot;

in rainy days, the humidity sensor detects and senses humidity information and then transmits the humidity information to the controller through the transmitter, and the controller automatically controls the first self-locking motor and the second self-locking motor to rotate, so that the first toughened glass and the second toughened glass are driven to rise, and the ventilation slot is sealed;

and step five, when an emergency situation occurs or the ventilation slot needs to be kept open, only the first self-locking motor and the second self-locking motor need to work, after the first protective guard and the second protective guard are lifted, the servo motor is started to rotate reversely through the motor reverse rotation switch, the output shaft of the servo motor drives the threaded rod to rotate, the threaded rod drives the threaded pipe to move, the threaded pipe contracts into the fixed pipe, the movable protective guard can be opened after the surface of the threaded pipe is separated from the inner wall of the slot, and similarly, the servo motor is started to rotate forwardly through the motor forward rotation switch, the threaded pipe can be driven to extend out of the fixed pipe and be inserted into the inner wall of the slot, and the movable protective guard is locked.

The beneficial effects of the invention are as follows:

1. through setting up actuating mechanism and humidity transducer, when using, detect the humidity information transmission to the controller in the response air through humidity transducer, through the first auto-lock motor of controller automatic control and the corotation of second auto-lock motor or reversal, drive first toughened glass and second toughened glass and rise or fall, close or open the air channel, realize automatic ventilating or sealing to indoor, thereby it needs artifical manual opening and closing to have solved current window, can not in time close the problem of window when meetting rainy weather.

2. Through setting up actuating mechanism and intelligent Mobile terminal, when using, send control information through intelligent Mobile terminal and transmit high in the clouds server, transmit information to local server through high in the clouds server and wireless network entity, then body server passes through thing allies oneself with gateway and signal converter and the work of first auto-lock motor and second auto-lock motor in the controller control actuating mechanism to the effect of realizing that the remote control window opens and closes has been reached.

3. Through setting up first rail guard, second rail guard and movable rail guard, when using, when first toughened glass and second toughened glass got into fixed incasement, first rail guard and second rail guard rise in step and carry out safety protection to the ventilation groove, and meet emergency and need flee or need pass through the ventilation groove when article, only need start servo motor reversal, with screwed pipe and slot inner wall separation back, can open movable rail guard to have and be convenient for carry out the effect of promptly fleeing or transmitting article through the ventilation groove.

Drawings

Fig. 1 is a schematic view of an intelligent window for smart home and a control method according to the present invention;

FIG. 2 is a perspective view of a fixed box structure of an intelligent window for smart home and a control method according to the present invention;

FIG. 3 is a sectional view of a fixed box structure of an intelligent window for smart home and a control method according to the present invention;

FIG. 4 is a sectional view of a driving gear roller structure of an intelligent window for smart home and a control method according to the present invention;

FIG. 5 is a top view of a sealing plate structure of an intelligent window for smart home and a control method according to the present invention;

fig. 6 is an enlarged view of a structure a in fig. 3 of the smart window for smart home and the control method according to the present invention.

In the figure: 1. a local server; 2. a fixed box; 3. an Internet of things gateway; 4. a signal converter; 5. a controller; 6. an actuator; 61. a first self-locking motor; 62. a second self-locking motor; 63. mounting grooves; 64. a driven gear roll; 65. a support plate; 66. a reinforced divider plate; 67. a driving gear roll; 68. a rotating shaft; 69. a functional band; 610. first tempered glass; 611. a first guard rail; 612. second tempered glass; 613. a second guard rail; 614. a sealing plate; 615. a chute; 616. cleaning the strips with silica gel; 617. fixing grooves; 618. a movable guard rail; 619. a fixed tube; 620. a servo motor; 621. a threaded rod; 622. a threaded pipe; 623. a slot; 624. a stroke control slot; 625. a limiting block; 626. a limit switch; 627. a motor forward rotation switch; 628. a motor reverse rotation switch; 7. a transmitter; 8. a humidity sensor; 9. a wireless network entity; 10. a cloud server; 11. an intelligent mobile terminal; 12. a fixing frame; 13. sealing glass; 14. and (4) ventilating slots.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

As shown in fig. 1-2, the invention discloses an intelligent window for an intelligent home, which comprises a local server 1 and a fixed box 2, wherein the local server 1 is electrically connected with an internet of things gateway 3 in a bidirectional manner, the internet of things gateway 3 is electrically connected with a signal converter 4 in a bidirectional manner, the signal converter 4 is electrically connected with a controller 5 in a bidirectional manner, the controller 5 is electrically connected with an execution mechanism 6 in a bidirectional manner, the controller 5 is electrically connected with a transmitter 7, the transmitter 7 is electrically connected with a humidity sensor 8, the local server 1 is electrically connected with a wireless network entity 9 in a bidirectional manner, the wireless network entity 9 is electrically connected with a cloud server 10 in a bidirectional manner, and the cloud server 10 is;

further, the wireless network entity 9 performs data transmission through WIFI/4G/5G;

as shown in fig. 1-2, a fixed frame 12 is fixedly connected to the surface of the fixed box 2, a sealing glass 13 is fixedly connected to the inner wall of the fixed frame 12, ventilation slots 14 are fixedly formed in the surface of the fixed box 2, the two ventilation slots 14 are symmetrically distributed with the axis of the fixed box 2 as the center, and the actuator 6, the transmitter 7, the humidity sensor 8, the controller 5, the signal converter 4 and the gateway 3 are respectively and fixedly installed on the inner wall and the surface of the fixed box 2;

by arranging the executing mechanism 6 and the intelligent mobile terminal 11, when the window is used, the intelligent mobile terminal 11 sends control information to be transmitted to the cloud server 10, the cloud server 10 and the wireless network entity 9 transmit the information to the local server 1, and then the body server controls the first self-locking motor 61 and the second self-locking motor 62 in the executing mechanism 6 to work through the internet of things gateway 3, the signal converter 4 and the controller 5, so that the effect of remotely controlling the opening and closing of the window is achieved;

as shown in fig. 2-4, the actuator 6 includes a first self-locking motor 61 and a second self-locking motor 62, the first automatic motor and the second self-locking motor 62 are both electrically connected to the controller 5 through electric wires, an installation groove 63 is fixedly formed on an inner top wall of the fixed box 2, the four installation grooves 63 are respectively symmetrically distributed around the axes of the ventilation groove 14 and the fixed box 2, a driven gear roller 64 is fixedly installed on an inner wall of the installation groove 63 through a bearing, a supporting plate 65 and a reinforcing partition plate 66 are respectively fixedly connected to an inner bottom wall of the fixed box 2, the four supporting plates 65 are respectively symmetrically distributed around the axes of the ventilation groove 14 and the fixed box 2, the reinforcing partition plate 66 is located at the axis of the fixed box 2, driving gear rollers 67 are fixedly installed on the surfaces of the supporting plate 65 and the reinforcing partition plate 66 through bearings, and the four driving gear rollers 67 respectively correspond to the driven gear;

as shown in fig. 2-3, the first and second self-locking motors 61 and 62 are dual-output shaft motors, two output shafts of the first and second automatic motors 62 are fixedly connected with rotating shafts 68 through couplings, one ends of the four rotating shafts 68 are fixedly connected with the surfaces of the driving gear rollers 67, the surfaces of the driving gear rollers 67 and the driven gear rollers 64 are rotatably connected with active belts 69, the surfaces of the active belts 69 are fixedly provided with first tempered glass 610, first guard rails 611, second tempered glass 612 and second guard rails 613 respectively, and the first tempered glass 610 and the second tempered glass 612 and the first guard rails 611 and the second guard rails 613 are symmetrically and alternately distributed with the axis of the fixed box 2 as the center;

further, the forward rotation and reverse rotation of the first self-locking motor 61 and the second self-locking motor 62 drive the movement stroke of the functional belt 69 to be controlled by a program preset by the controller 5, and proximity switches can be arranged on the inner top wall and the inner bottom wall of the fixed box 2 to control the forward rotation stop and reverse rotation stop of the first self-locking motor 61 and the second self-locking motor 62;

as shown in fig. 2-3 and 5, sealing plates 614 are fixedly connected to the inner walls of the ventilation slots 14, the surfaces of the two sealing plates 614 are respectively fixedly connected to the inner walls of the fixed box 2 and the surface of the reinforcing partition plate 66, sliding grooves 615 are fixedly formed in the surfaces of the sealing plates 614, the inner walls of the four sliding grooves 615 are respectively connected to the surfaces of the functional belts 69 in a sliding manner, wherein silica gel cleaning strips 616 are fixedly installed on the inner walls of the two sliding grooves 615, the surfaces of the silica gel cleaning strips 616 are respectively connected to the surfaces of the first toughened glass 610 and the second toughened glass 612 in a sliding manner, and the humidity sensor 8 is fixedly installed on the upper surfaces of the sealing plates 614;

further, the silica gel cleaning strip 616 has the effect of cleaning the surfaces of the first toughened glass 610 and the second toughened glass 612 in the process of moving the first toughened glass 610 and the second toughened glass 612 up and down;

as shown in fig. 2-3 and 6, fixing grooves 617 are fixedly formed in the surfaces of the first guard rail 611 and the second guard rail 613, movable guard rails 618 are hinged to the inner walls of the fixing grooves 617, the surfaces of the movable guard rails 618 are inserted into the inner walls of the fixing grooves 617, fixing pipes 619 are fixedly mounted on the surfaces of the first guard rail 611 and the second guard rail 613, one ends of the fixing pipes 619 extend to the lower surfaces of the first guard rail 611 and the second guard rail 613, the other ends of the fixing pipes 619 are inserted into the lower surfaces of the movable guard rails 618, a servo motor 620 is fixedly mounted on the inner walls of the fixing pipes 619, an output shaft of the servo motor 620 is fixedly connected with a threaded rod 621 through a coupler, a threaded pipe 622 is in threaded connection with the surface of the threaded rod 621, and the surface of the.

The lower fixed slot 623 that has seted up of activity rail guard 618, the one end of screwed pipe 622 extends to the inner wall of slot 623, the surface of screwed pipe 622 and the inner wall sliding connection of slot 623, stroke control groove 624 has been seted up to the inner wall of fixed pipe 619 fixedly, two stroke control grooves 624 are the symmetric distribution with the axis of fixed pipe 619 as the center, the one end of stroke control groove 624 extends to the surface of fixed pipe 619, the inner wall sliding connection of stroke control groove 624 has stopper 625, the surface of stopper 625 and the fixed surface connection of screwed pipe 622.

The surface of the fixed pipe 619 is fixedly provided with limit switches 626, the two limit switches 626 are electrically connected with the servo motor 620 through electric wires, the surface of the fixed box 2 is respectively and fixedly provided with a motor forward rotation switch 627 and a motor reverse rotation switch 628, and the motor forward rotation switch 627 and the motor reverse rotation switch 628 are electrically connected with the servo motor 620 through electric wires;

by arranging the first guard rail 611, the second guard rail 613 and the movable guard rail 618, when the first tempered glass 610 and the second tempered glass enter the fixed box 2 in use, the first guard rail 611 and the second guard rail 613 are synchronously lifted to carry out safety protection on the ventilation slot 14, and when an emergency needs to escape through the ventilation slot 14 or an article needs to be transferred through the ventilation slot 14, the movable guard rail 618 can be opened only by starting the servo motor 620 to rotate reversely and separating the threaded pipe 622 from the inner wall of the slot 623, so that the effect of facilitating emergency escape through the ventilation slot 14 or transferring the article is achieved;

as shown in fig. 1 to 6, the present invention also discloses a control method of the smart window for smart home, which comprises the following specific steps:

firstly, writing a control program in advance for the controller 5 according to the use habits of different users;

step two, the controller 5 is electrically connected with the local server 1 through the signal converter 4 and the internet of things gateway 3, the whole smart window is connected with the local server 1 in the whole smart home ecosystem, then is connected with the cloud server 10 through the wireless network entity 9, control information can be transmitted to the executing mechanism 6 through the smart mobile terminal 11 for manual control, the first self-locking motor 61 and the second self-locking motor 62 in the executing mechanism 6 rotate forward and backward to drive the rotating shaft 68 and the driving gear roller 67 to rotate forward and backward to drive the functional belt 69 to move, the functional belt 69 moves to drive the first toughened glass 610 and the second toughened glass 612 to extend out of the inside of the fixed box 2 to be inserted into the inner wall of the ventilation slot 14 to seal the ventilation slot 14, or the functional belt 69 moves to drive the first toughened glass 610 and the second toughened glass 612 to enter the fixed box 2, meanwhile, the first guard rail 611 and the second guard rail 613 are inserted into the inner wall of the ventilation groove 14, and ventilation is performed indoors through the ventilation groove 14;

thirdly, under the condition of no manual intervention, the controller 5 arranged in advance automatically controls the first self-locking motor 61 and the second self-locking motor 62 to rotate forwards and backwards according to time, the first self-locking motor 61 and the second self-locking motor 62 both drive the rotating shaft 68 to rotate through the coupler, the rotating shaft 68 drives the driving gear roller 67 to rotate and drive the functional belt 69 to move, so that the first tempered glass 610 and the second tempered glass 612 are driven to rise or fall, when the first tempered glass 610 and the second tempered glass 612 rise, the first protective guard 611 and the second protective guard 613 fall into the fixed box 2, and when the first tempered glass 610 and the second tempered glass 612 fall, the first protective guard 611 and the second protective guard 613 rise to ventilate the ventilation slot 14;

in rainy days, the humidity information is detected and sensed by the humidity sensor 8 and then transmitted to the controller 5 through the transmitter 7, the controller 5 automatically controls the first self-locking motor 61 and the second self-locking motor 62 to rotate, the first toughened glass 610 and the second toughened glass 612 are driven to rise, and the ventilation slot 14 is sealed;

step five, when an emergency situation occurs or the ventilation slot 14 needs to be opened, only the first self-locking motor 61 and the second self-locking motor 62 need to work, after the first protective guard 611 and the second protective guard 613 are lifted, the servo motor 620 is started to rotate reversely through the motor reverse rotation switch 628, the output shaft of the servo motor 620 drives the threaded rod 621 to rotate, the threaded rod 621 drives the threaded pipe 622 to move in a threaded manner, the threaded pipe 622 is retracted into the fixed pipe 619, the movable protective guard 618 can be opened after the surface of the threaded pipe 622 is separated from the inner wall of the slot 623, and similarly, the servo motor 620 is started to rotate forwardly through the motor forward rotation switch 627, so that the threaded pipe 622 can be driven to extend out of the fixed pipe 619 to be inserted into the inner wall of the slot 623, and the movable protective guard;

through setting up actuating mechanism 6 and humidity transducer 8, when using, detect humidity information transmission to controller 5 in the response air through humidity transducer 8, through the corotation of the first self-locking motor 61 of controller 5 automatic control and second self-locking motor 62 or reversal, drive first toughened glass 610 and second toughened glass 612 and rise or fall, close or open ventilation duct 14, it is automatic to ventilate or seal indoor to realize, thereby solved current window and needed artifical manual opening and closing, can not in time close the problem of window when meetting rainy weather.

The intelligent window of the intelligent home and the control method thereof can realize the following beneficial effects:

1. through setting up actuating mechanism and humidity transducer, when using, detect the humidity information transmission to the controller in the response air through humidity transducer, through the first auto-lock motor of controller automatic control and the corotation of second auto-lock motor or reversal, drive first toughened glass and second toughened glass and rise or fall, close or open the air channel, realize automatic ventilating or sealing to indoor, thereby it needs artifical manual opening and closing to have solved current window, can not in time close the problem of window when meetting rainy weather.

2. Through setting up actuating mechanism and intelligent Mobile terminal, when using, send control information through intelligent Mobile terminal and transmit high in the clouds server, transmit information to local server through high in the clouds server and wireless network entity, then body server passes through thing allies oneself with gateway and signal converter and the work of first auto-lock motor and second auto-lock motor in the controller control actuating mechanism to the effect of realizing that the remote control window opens and closes has been reached.

3. Through setting up first rail guard, second rail guard and movable rail guard, when using, when first toughened glass and second toughened glass got into fixed incasement, first rail guard and second rail guard rise in step and carry out safety protection to the ventilation groove, and meet emergency and need flee or need pass through the ventilation groove when article, only need start servo motor reversal, with screwed pipe and slot inner wall separation back, can open movable rail guard to have and be convenient for carry out the effect of promptly fleeing or transmitting article through the ventilation groove.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.