CN116677284A - Automatic window opening device for smart home - Google Patents

Abstract

The invention relates to the technical field of intelligent home, and particularly discloses an automatic window opening device for intelligent home, which comprises a window mechanism and a measurement and control mechanism, wherein the window mechanism comprises a supporting frame assembly, the supporting frame assembly comprises an integral supporting frame, an upper supporting plate is horizontally and fixedly arranged in the middle of the integral supporting frame, and an upper window frame is formed by the upper end of the upper supporting plate and a frame body of the integral supporting frame; in the invention, the temperature and humidity inside and outside the room are monitored in real time through the temperature and humidity monitoring module; the carbon dioxide sensor module monitors the concentration of carbon dioxide inside and outside the room in real time; the carbon monoxide detector module monitors the concentration of carbon monoxide in the room and the outside in real time; the noise monitoring module monitors indoor and outdoor noise in real time; the PM2.5 sensor module monitors the concentration of PM2.5 indoors and outdoors in real time; the illumination intensity detection module monitors indoor and outdoor illumination intensity in real time, improves intelligent control monitoring details, and improves user experience on intelligent home.

Description

Automatic window opening device for smart home

Technical Field

The invention relates to the technical field of intelligent home, in particular to an automatic window opening device for intelligent home.

Background

The window is used as a common structure in a building, ventilation of indoor and outdoor air can be realized through the window, lighting is realized, meanwhile, a protection effect is achieved for the indoor space control is generally achieved through a remote control switch, and an intelligent window opening structure in the prior art generally comprises a detection device, an execution device and a sliding window, wherein the detection device comprises a carbon monoxide concentration detection sensor, a controller and a first wireless communication module, the carbon monoxide concentration detection sensor is connected with the controller through a signal line, and the controller is connected with the first wireless communication module through a signal line; the actuating device comprises a second wireless communication module and a windowing mechanism, wherein the windowing mechanism comprises a servo motor, a first traction rope and a second traction rope, the servo motor and the second wireless communication module are connected through signal wires, and the output end of the servo motor is fixedly connected with a first reel and a second reel. The automatic windowing device based on carbon monoxide concentration detection can automatically window and ventilate after detecting that the carbon monoxide concentration exceeds the standard, and the invention can meet the general use requirement, but has the following defects in the actual use process:

1. in the automatic windowing device in the prior art, the data monitoring of windowing control is limited, and automatic adjustment after monitoring of various environmental data cannot be realized, so that the user experience is reduced;

2. the automatic window opening device in the prior art has the advantages that the window opening control mode is single, and the personalized experience of a user is reduced while the intelligent window opening control mode is realized.

Disclosure of Invention

The invention aims to provide an automatic window opening device for intelligent home, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an automatic window opening device for intelligent home use, includes window form mechanism and measurement and control mechanism, window form mechanism includes the carriage subassembly, the carriage subassembly includes whole carriage, and the fixed fagging that is equipped with in the centre level of whole carriage, the inside of going up the fagging is equipped with prevents pressing from both sides the subassembly, go up the fagging and divide into two parts of going up window frame and lower window frame with whole carriage, it is equipped with the window board subassembly to go up the window frame side, the inside symmetry of lower window frame is equipped with down the window board subassembly, the vertical fixed middle supporting shoe that is equipped with in centre of going up the window frame; the measurement and control mechanism comprises a monitoring assembly and a control assembly, wherein the monitoring assembly is respectively and fixedly arranged at the rear end of the middle supporting block and the front end of the upper window plate assembly; the anti-pinch assembly comprises a sliding groove arranged in the upper supporting plate, the sliding groove corresponds to the lower window plate assembly, a sliding plate is connected in the sliding groove in a sliding mode, a rack is fixedly connected to the bottom of the sliding plate, two sides of the sliding plate are fixedly connected with the side wall of the sliding groove through elastic pieces, a telescopic rod is hinged to one side, close to the upper window plate assembly, of the telescopic rod, and one end, far away from the sliding plate, of the telescopic rod is hinged to the bottom of the upper window plate assembly.

Preferably, guide grooves are symmetrically formed in the front side and the rear side of the upper end and the lower end of the lower window frame body, elastic sealing strips are fixedly embedded at the bottoms of the guide grooves, and buffer grooves are symmetrically formed in the front side and the rear side of the inner side surfaces of the left end and the right end of the lower window frame body.

Preferably, the lower window board assembly comprises a lower window frame of a frame body structure, a lower glass board mounting groove is formed in the lower window frame, a lower window glass board is fixedly inserted in the lower glass board mounting groove, elastic sealing plates I are arranged on two sides of the lower window glass board, the elastic sealing plates I are buckled with outer side ports of the lower glass board mounting groove, and the elastic sealing plates I are matched with the buffer groove in a clamping mode.

Preferably, guide blocks which are matched with the guide grooves in a sliding mode are fixedly arranged at the upper end and the lower end of the lower window frame, motor mounting plates are fixedly arranged at the front side and the rear side of the upper end of the lower window frame, a driving motor is fixedly arranged at the outer side of each motor mounting plate, and a gear meshed with a rack is arranged on an output shaft of each driving motor.

Preferably, the front end of the middle support block is provided with a driving groove, the rear end of the middle support block is provided with a rear monitoring mounting groove, and the port of the rear monitoring mounting groove is provided with an upper window sealing plate groove; the upper window plate assembly comprises an upper window frame, a hinge is fixedly arranged at the upper end of the upper window frame, the upper window frame is hinged with the upper end of the upper window frame through the hinge, a middle supporting plate is fixedly arranged in the middle of the rear end of the upper window frame, a lower hinge seat is fixedly arranged at the lower end of the middle supporting plate, a telescopic arm is hinged to the side face of the lower hinge seat, an upper hinge seat is hinged to the upper end of the telescopic arm, and the upper hinge seat is fixedly connected with the bottom of a driving groove.

Preferably, the two sides of the middle supporting plate are symmetrically provided with upper glass plate mounting grooves, an upper window glass plate is inserted in the middle of the upper glass plate mounting grooves, and a sealing plate II is fixedly buckled at the upper end of the upper window glass plate and the upper port of the upper glass plate mounting grooves.

Preferably, the outside of middle fagging has seted up preceding monitoring mounting groove, lower window shrouding groove has been seted up in the outside of preceding monitoring mounting groove, monitoring module includes the monitoring backup pad, the side of monitoring backup pad is equipped with shrouding III, fixed mounting has humiture monitoring module, carbon dioxide sensor module, carbon monoxide detector module, noise monitoring module, PM2.5 sensor module and illumination intensity detection module between monitoring backup pad and the shrouding III, monitoring backup pad fixed mounting is in the tank bottom of preceding monitoring mounting groove and actuating groove respectively, shrouding III detains respectively and establishes in the tank body of lower window shrouding groove and back monitoring mounting groove.

Preferably, the control assembly comprises a control mounting bottom plate, a control mounting seat is fixedly arranged on the side face of the control mounting bottom plate, a touch panel mounting groove is formed in the front end face of the control mounting seat, and a touch panel is fixedly arranged in the touch panel mounting groove.

Preferably, the lower extreme of touch panel mounting groove and offered the voice control module mounting groove on the preceding terminal surface of control mount pad, the shrouding groove has been offered to the tip in voice control module mounting groove, voice control module mounting inslot fixed mounting has the voice control module, shrouding inslot is detained and is equipped with shrouding IV.

Preferably, the gear is a helical gear, and helical racks which are distributed in an array and meshed with the gear are arranged on the racks.

Compared with the prior art, the invention has the beneficial effects that: the invention has reasonable structure and strong functionality and has the following advantages:

1. according to the indoor and outdoor temperature and humidity monitoring system, the temperature and humidity monitoring module monitors indoor and outdoor temperature and humidity in real time by arranging the monitoring assembly and the control assembly; the carbon dioxide sensor module monitors the concentration of carbon dioxide inside and outside the room in real time; the carbon monoxide detector module monitors the concentration of carbon monoxide in the room and the outside in real time; the noise monitoring module monitors indoor and outdoor noise in real time; PM. sensor module monitors PM. concentration in real time indoors and outdoors; the illumination intensity detection module is used for monitoring the illumination intensity indoors and outdoors in real time, providing various environment monitoring data for the touch panel, improving the monitoring details of intelligent control and improving the user experience on intelligent home; the touch panel is used for realizing automatic intelligent control, the voice control is realized through the voice control module, and the personalized experience of a user is improved.

2. According to the invention, the extrusion assembly and the upper window plate assembly are arranged, so that on one hand, when the control system detects that the torque of the output shaft is larger than the torque output under normal conditions, the control system controls the upper window frame to rotate, and the upper window frame extrudes the sliding plate through the telescopic rod, so that the sliding plate drives the rack to extrude the gear, and the gear moves along the guide groove through the driving motor and the lower window frame, so that a human hand clamped between the lower window frame and the lower window frame is pulled out; on the other hand when meetting the conflagration, manually exert pulling force or thrust to the stiff end of telescopic link for the telescopic link extrudees the slide, and then makes the slide drive the rack and remove, makes the distance between the outside limit of lower window frame and the inboard limit of lower window frame obtain changing, and then enlarges the exit of fleing, increases the probability of fleing.

Drawings

FIG. 1 is an isometric view of the overall structure of the present invention;

FIG. 2 is an isometric exploded view of the overall structure of the present invention;

FIG. 3 is a front view of the overall structure of the present invention;

FIG. 4 is an isometric view of the cross-sectional structure of FIG. 3 at A-A;

FIG. 5 is an isometric view of the cross-sectional structure of FIG. 3 at C-C;

FIG. 6 is an isometric view of the cross-sectional structure of FIG. 3 at B-B;

FIG. 7 is an enlarged schematic view of the partial structure of FIG. 6 at D;

FIG. 8 is an isometric view of the overall structure of a support frame in accordance with the present invention;

FIG. 9 is an axial side half sectional view of the overall structure of the support frame of the present invention;

FIG. 10 is an isometric view of the overall structure of the lower louver assembly of the present invention;

FIG. 11 is a front view of the overall structure of the lower louver assembly of the present invention;

FIG. 12 is an isometric view of the cross-sectional structure of FIG. 11 at G-G;

FIG. 13 is an isometric view of the overall structure of the upper louver assembly of the present invention;

FIG. 14 is a front view of the overall structure of the upper louver assembly of the present invention;

FIG. 15 is an isometric view of the cross-sectional structure of FIG. 14 at E-E;

FIG. 16 is an isometric view of the cross-sectional structure of FIG. 14 at F-F;

FIG. 17 is an isometric view of the overall structure of the monitoring assembly of the present invention;

FIG. 18 is an axial side half sectional view of the overall structure of the monitoring assembly of the present invention;

FIG. 19 is an isometric view of the overall structure of the control assembly of the present invention;

FIG. 20 is an axial side half sectional view of the overall structure of the control assembly of the present invention.

FIG. 21 is a schematic view of the structure of the extrusion assembly of the present invention.

FIG. 22 is a schematic view of a skateboard according to the present invention.

Fig. 23 is a tooth profile of a rack in accordance with the present invention.

In the figure: 1. a support frame assembly; 2. a lower louver assembly; 3. an upper louver assembly; 4. a monitoring component; 5. a control assembly; 101. an integral support frame; 102. an upper supporting plate; 103. an upper window frame; 104. a lower window frame; 105. a middle support block; 106. a driving groove; 107. monitoring the mounting groove; 108. a window closing plate groove; 109. a guide groove; 110. an elastic sealing strip; 111. a buffer tank; 201. a lower window frame; 202. a lower glass plate mounting groove; 203. a lower glazing panel; 204. an elastic sealing plate I; 205. a guide block; 206. a motor mounting plate; 207. a driving motor; 208. a gear; 301. a window frame is arranged; 302. a middle supporting plate; 303. a lower hinge seat; 304. an upper hinging seat; 305. a telescoping arm; 306. front monitoring mounting slots; 307. a lower window closing plate groove; 308. an upper glass plate mounting groove; 309. a glazing pane; 310. sealing plate II; 311. a hinge; 401. monitoring the support plate; 402. a temperature and humidity monitoring module; 403. a carbon dioxide sensor module; 404. a carbon monoxide detector module; 405. a noise monitoring module; 406. a PM2.5 sensor module; 407. an illumination intensity detection module; 408. sealing plate III; 501. controlling the mounting bottom plate; 502. controlling the mounting seat; 503. a touch panel mounting groove; 504. a touch panel; 505. a voice control module mounting groove; 506. a seal plate groove; 507. a voice control module; 508. sealing plate IV; 6. an anti-pinch assembly; 601. a chute; 602. a slide plate; 603. a rack; 604. an elastic member; 605. a telescopic rod.

Detailed Description

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

Referring to fig. 1 to 20, the present invention provides a technical solution: the utility model provides an automatic window opening device for intelligent home, including window form mechanism and measurement and control mechanism, window form mechanism includes supporting frame subassembly 1, supporting frame subassembly 1 includes whole supporting frame 101, and the fixed upper stay plate 102 that is equipped with of centre level at whole supporting frame 101, upper end and the framework of whole supporting frame 101 of upper stay plate 102 constitute upper window frame 103, the lower extreme of upper stay plate 102 constitutes lower window frame 104 with the framework of whole supporting frame 101, and be equipped with upper window board subassembly 3 at the side of upper window frame 103, the front and back both ends bilateral symmetry in the middle of lower window frame 104 is equipped with lower window board subassembly 2, the vertical fixed middle supporting piece 105 that is equipped with in the middle of upper window frame 103; the measurement and control mechanism comprises a monitoring component 4 and a control component 5, wherein the monitoring component 4 is respectively and fixedly arranged at the rear end of the middle supporting block 105 and the front end of the upper window plate component 3. Wherein, the supporting frame component 1 plays a supporting role relative to the lower window plate component 2, the upper window plate component 3 and the monitoring component 4, the upper window frame 103 plays a side supporting role relative to the upper window plate component 3 with the middle supporting block 105, the lower window frame 104 plays a guiding supporting role relative to the lower window plate component 2, the monitoring component 4 plays a data monitoring role, the control component 5 plays a data receiving role relative to the monitoring component 4, and the control component 5 plays a driving control role relative to the lower window plate component 2 and the upper window plate component 3.

Specifically, guide grooves 109 are symmetrically formed on the front and rear sides of the upper and lower ends of the lower window frame 104, elastic sealing strips 110 are fixedly embedded at the bottoms of the guide grooves 109, and buffer grooves 111 are symmetrically formed on the inner sides of the left and right ends of the lower window frame 104. Wherein the guide groove 109 plays a guiding role relative to the guide block 205, and the elastic sealing strip 110 plays a damping and sealing role relative to the guide block 205.

Specifically, the lower window plate assembly 2 comprises a lower window frame 201 with a frame body structure, a lower glass plate mounting groove 202 is formed in the lower window frame 201, a lower glass plate 203 is fixedly inserted into the lower glass plate mounting groove 202, elastic sealing plates I204 are arranged on two sides of the lower glass plate 203, the elastic sealing plates I204 are buckled with outer side ports of the lower glass plate mounting groove 202, and the elastic sealing plates I204 are matched with the buffer groove 111 in a clamping mode. Wherein, this structure of the lower glass pane mounting groove 202 and the lower glass pane 203 facilitates replacement of the lower glass pane 203, and the elastic sealing plate I204 plays a role of buffering and sealing against the buffering groove 111 at both left and right ends of the lower window frame 201 when the lower window frame 201 moves to one side of the frame body of the lower window frame 104 along the guide.

Specifically, guide blocks 205 which are matched with the guide grooves 109 in a sliding manner are fixedly arranged at the upper end and the lower end of the lower window frame 201, motor mounting plates 206 are fixedly arranged at the front side and the rear side of the upper end of the lower window frame 201, a driving motor 207 is fixedly arranged at the outer side of the motor mounting plates 206, and a gear 208 meshed with a rack 603 is arranged on an output shaft of the driving motor 207. The driving motor 207 is electrically connected to the touch panel 504, and the touch panel 504 can control the driving motor 207 to drive the gear 208 and the rack 603 to engage and drive, so that the lower window board assembly 2 moves left and right in the lower window frame 104 along the guiding groove 109.

Specifically, the front end of the middle support block 105 is provided with a driving groove 106, the rear end of the middle support block 105 is provided with a rear monitoring mounting groove 107, and the port of the rear monitoring mounting groove 107 is provided with an upper window sealing plate groove 108; the upper window plate assembly 3 comprises an upper window frame 301, a hinge 311 is fixedly arranged at the upper end of the upper window frame 301, the upper window frame 301 is hinged with the upper end of the upper window frame 103 through the hinge 311, a middle supporting plate 302 is fixedly arranged in the middle of the rear end of the upper window frame 301, a lower hinge seat 303 is fixedly arranged at the lower end of the middle supporting plate 302, a telescopic arm 305 is hinged to the side face of the lower hinge seat 303, the telescopic arm 305 is electrically connected with a touch panel 504, the telescopic arm 305 is controlled to stretch and retract through the touch panel 504, and then the upper hinge seat 304 is hinged to the upper end of the telescopic arm 305 in the opening and closing action of the front end of the upper window frame 103, and the upper hinge seat 304 is fixedly connected with the bottom of the driving groove 106. The telescopic arm 305 is electrically connected to the touch panel 504, and the telescopic arm 305 is controlled to extend and retract by the touch panel 504, so that the upper window frame 301 is opened and closed at the front end of the upper window frame 103.

Specifically, the upper glass plate mounting grooves 308 are symmetrically formed on both sides of the middle supporting plate 302, an upper window glass plate 309 is inserted in the middle of the upper glass plate mounting grooves 308, and a sealing plate II310 is fixedly fastened at the upper end of the upper window glass plate 309 and the upper port of the upper glass plate mounting groove 308. Wherein such a structure of the upper glass plate mounting groove 308 and the upper glass plate 309 facilitates replacement of the upper glass plate mounting groove 308.

Specifically, front monitoring mounting groove 306 has been seted up in the outside of middle fagging 302, lower window shrouding groove 307 has been seted up in the outside of front monitoring mounting groove 306, monitor assembly 4 is equipped with shrouding III408 including monitor backup pad 401, monitor backup pad 401 and shrouding III408 between fixed mounting have humiture monitoring module 402 between the side of monitor backup pad 401, carbon dioxide sensor module 403, carbon monoxide detector module 404, noise monitoring module 405, PM2.5 sensor module 406 and illumination intensity detection module 407, monitor backup pad 401 fixed mounting is in the tank bottom of front monitoring mounting groove 306 and drive groove 106 respectively, shrouding III408 is detained respectively and is established in the tank body of lower window shrouding groove 307 and rear monitoring mounting groove 107. The temperature and humidity monitoring module 402 monitors indoor and outdoor temperature and humidity in real time; the carbon dioxide sensor module 403 monitors the concentration of carbon dioxide in the indoor and outdoor environment in real time; the carbon monoxide detector module 404 monitors the concentration of carbon monoxide in the indoor and outdoor environment in real time; the noise monitoring module 405 monitors indoor and outdoor noise in real time; the PM2.5 sensor module 406 monitors PM2.5 concentration in real time both indoors and outdoors; the illumination intensity detection module 407 is used for monitoring the illumination intensity indoors and outdoors in real time, and the temperature and humidity monitoring module 402, the carbon dioxide sensor module 403, the carbon monoxide detector module 404, the noise monitoring module 405, the PM2.5 sensor module 406 and the illumination intensity detection module 407 are respectively and electrically connected with the touch panel 504, so that the data monitored by the temperature and humidity monitoring module 402, the carbon dioxide sensor module 403, the carbon monoxide detector module 404, the noise monitoring module 405, the PM2.5 sensor module 406 and the illumination intensity detection module 407 can be uploaded into the touch panel 504 in real time to provide data support for intelligent control of the touch panel 504.

Specifically, the control assembly 5 includes a control mounting base 501, a control mounting base 502 is fixedly mounted on a side surface of the control mounting base 501, a touch panel mounting groove 503 is formed in a front end surface of the control mounting base 502, and a touch panel 504 is fixedly mounted in the touch panel mounting groove 503. The touch panel 504 is electrically connected to electrical components of the whole device, and the touch panel 504 controls a driving element on the whole device to perform corresponding action according to a set program.

Specifically, the lower extreme of touch panel mounting groove 503 has offered voice control module mounting groove 505 on the preceding terminal surface of control mount pad 502, and shrouding groove 506 has been seted up to the tip of voice control module mounting groove 505, and voice control module mounting groove 505 internally fixed mounting has voice control module 507, and shrouding groove 506 is interior to be detained and is equipped with shrouding IV508. Here, the voice control module 507 is electrically connected to the touch panel 504, and the voice control module 507 can control the touch panel 504 by voice so that the corresponding execution command is output to the execution element, thereby achieving the purpose of controlling the window opening and closing at intervals.

When the indoor and outdoor humiture monitoring device works, the humiture monitoring module 402 monitors indoor and outdoor humiture in real time, when the indoor or outdoor humiture reaches a certain value, the touch panel 504 controls the telescopic arm 305 to open and close the front end of the upper window frame 103 through the touch panel 504, and meanwhile controls the driving motor 207 to drive the lower window plate assembly 2 to move left and right in the lower window frame 104; the carbon dioxide sensor module 403 monitors the indoor and outdoor carbon dioxide concentration in real time, when the indoor carbon dioxide concentration reaches a certain value, the touch panel 504 can control the telescopic arm 305 to open the upper window plate assembly 3 at a certain angle at the front end of the upper window frame 103, and simultaneously control the driving motor 207 to drive the lower window plate assembly 2 to move left and right in the lower window frame 104, so that the lower window frame 104 is opened for a certain width, the indoor air and the outdoor air are exchanged, and the oxygen content of the indoor air is ensured; the carbon monoxide detector module 404 monitors the indoor and outdoor carbon monoxide concentration in real time, when the indoor carbon monoxide concentration reaches a certain value, the touch panel 504 controls the telescopic arm 305 to enable the upper window plate assembly 3 to be completely opened at the front end of the upper window frame 103, and simultaneously controls the driving motor 207 to drive the lower window plate assembly 2 to move left and right in the lower window frame 104, so that the lower window frame 104 is opened to the maximum width, indoor air and outdoor air are exchanged, the oxygen content of the indoor air is ensured, and carbon monoxide poisoning is avoided; the noise monitoring module 405 monitors indoor and outdoor noise in real time, when the touch panel 504 is set to reach a certain value, the telescopic arm 305 is controlled by the touch panel 504 to enable the upper window plate assembly 3 to be closed at the front end of the upper window frame 103, and meanwhile, the driving motor 207 is controlled to drive the lower window plate assembly 2 to move left and right in the lower window frame 104, so that the lower window frame 104 is closed by the lower window plate assembly 2, and the influence of noise on the indoor space is reduced; the PM2.5 sensor module 406 monitors the indoor and outdoor PM2.5 concentration in real time, and can control the telescopic arm 305 to enable the upper window plate assembly 3 to be completely or closed at the front end of the upper window frame 103 through the touch panel 504 when the indoor and outdoor PM2.5 reaches a certain value, and simultaneously control the driving motor 207 to drive the lower window plate assembly 2 to move left and right in the lower window frame 104, so that the lower window frame 104 is opened or closed to the maximum width, when the indoor PM2.5 is higher than the outdoor PM, the upper window plate assembly 3 is completely opened, and simultaneously the lower window frame 104 is opened to the maximum width, so that the indoor air and the outdoor air are exchanged, and when the outdoor PM2.5 is too high, the upper window plate assembly 3 is completely closed, and simultaneously the lower window frame 104 is closed, so that outdoor dust is prevented from spreading indoors; the illumination intensity detection module 407 monitors the illumination intensity of the indoor and outdoor environment in real time, when the touch panel 504 is set according to the illumination requirement of a user, and when the illumination intensity of the indoor and outdoor environment reaches a certain value, the telescopic arm 305 is controlled by the touch panel 504 to enable the upper window plate assembly 3 to be completely opened or closed at the front end of the upper window frame 103, and meanwhile, the driving motor 207 is controlled to drive the lower window plate assembly 2 to move left and right in the lower window frame 104, so that the lower window frame 104 is opened to the maximum width or closed, and the indoor illumination condition is changed.

Example two

Based on the above embodiment, although the above embodiment can control the opening and closing movement of the upper louver assembly 3 and the lower louver assembly 2 separately or simultaneously for different situations monitored by the monitoring assembly 4, when the lower louver assembly 2 automatically opens and closes the window glass by the motor, a pinching accident may be caused if the palm of the person or the neck of the person extends between the window glass and the window frame. In view of this, an improvement is made on the basis of the first embodiment, and the technical solution after improvement is as follows.

Referring to fig. 20 to 23, the present invention provides a technical solution: the utility model provides an automatic window opening device for intelligent home use, including window form mechanism and measurement and control mechanism, window form mechanism includes supporting frame subassembly 1, supporting frame subassembly 1 includes whole supporting frame 101, and the fixed upper stay plate 102 that is equipped with of centre level in whole supporting frame 101, the inside of upper stay plate 102 is equipped with prevents pressing from both sides subassembly 6, upper stay plate 102 divide whole supporting frame 101 into upper window frame 103 and lower window frame 104 two parts, upper window frame 103 side is equipped with upper window plate subassembly 3, lower window frame 104 inside symmetry is equipped with lower window plate subassembly 2, the vertical fixed middle supporting block 105 that is equipped with in centre of upper window frame 103; the measurement and control mechanism comprises a monitoring component 4 and a control component 5, wherein the monitoring component 4 is respectively and fixedly arranged at the rear end of the middle supporting block 105 and the front end of the upper window plate component 3; the anti-pinch assembly 6 comprises a sliding groove 601 formed in the upper supporting plate 102, the sliding groove 601 corresponds to the lower window plate assembly 2, a sliding plate 602 is slidably connected in the sliding groove 601, a rack 603 is fixedly connected to the bottom of the sliding plate 602, two sides of the sliding plate 602 are fixedly connected with the side wall of the sliding groove 601 through elastic pieces 604, a telescopic rod 605 is hinged to one side, close to the upper window plate assembly 3, of the telescopic rod 605, and one end, away from the sliding plate 602, of the telescopic rod 605 is hinged to the bottom of the upper window plate assembly 3.

Specifically, the gear 208 is a helical gear 208, and the rack 603 is provided with helical racks 603 which are distributed in an array and meshed with the gear 208.

The connection part of the extending end and the fixed end of the telescopic rod 605 is provided with a locking component, the locking component is an electromagnetic bolt, the inside of the control panel is provided with a control system, the control system can control electric elements in the device, and in an initial state, the electromagnetic bolt pops out, so that the extending end and the fixed end of the telescopic rod 605 are in a locking state;

during normal use, the control system controls the electromagnetic bolt to shrink so that the extending end and the fixed end of the telescopic rod 605 are in an unlocked state; the control system controls the driving motor 207 to operate, so that an output shaft of the driving motor 207 drives the gear 208 to rotate, and as the gear 208 is meshed with the rack 603, the guide groove 109 and the buffer groove 111 limit the guide block 205 on the lower window frame 201, meanwhile, a sliding plate 602 on the rack 603 is in sliding connection with the sliding groove 601, and the sliding plate 602 is fixed in the sliding groove 601 through an elastic piece 604, when the driving motor 207 drives the gear 208 and the rack 603 to move, the gear 208 cannot deflect in the running process due to the limit of the guide groove 109 and the buffer groove 111 on the guide block 205 on the lower window frame 201; because the elastic piece 604 in the chute 601 limits the sliding plate 602, the gear 208 does not deflect when the gear 208 runs on the rack 603.

Because the upper window frame 301 is connected with the upper window frame 103 through the hinge 311, when the control system controls the telescopic arm 305 to stretch, the telescopic arm 305 pushes the upper window frame 301 to rotate around the pin shaft in the middle of the hinge 311 as a circle center, so that the upper window frame 103 and the upper window frame 301 are opened and closed; because one end of the telescopic rod 605 is hinged with the bottom of the upper window frame 301, the other end of the telescopic rod 605 is hinged with the sliding plate 602, and the extending end and the fixed end of the telescopic rod 605 are in an unlocked state, so that when the upper window frame 301 rotates around the pin shaft in the middle of the hinge 311 as the circle center, the upper window frame 301 can drive the telescopic rod 605 to stretch and rotate around the hinged position of the telescopic rod 605 and the sliding plate 602.

When the control system detects that the torque of the output shaft of the driving motor 207 is larger than the torque output under normal conditions, the lower window frame 201 can be clamped between the lower window frame 201 and the lower window frame 104; secondly, foreign matters exist between the guide block 205 on the lower window frame 201 and the guide groove 109 on the lower window frame 104, no matter what is, the control system can give an alarm, and meanwhile, the control system controls the output shaft of the driving motor 207 to lock, then controls the electromagnetic bolt to pop out, so that the telescopic end and the fixed end of the telescopic rod 605 are in a locking state, and then the control system controls the telescopic arm 305 to shrink or stretch, so that the telescopic arm 305 can push the upper window frame 301 to rotate around the pin shaft in the middle of the hinge 311 as a circle center; taking fig. 23 as an example, when the driving motor 207 drives the lower window frame 201 to move rightward along the guiding slot 109, the control system detects that the torque of the output shaft is greater than the torque output under normal conditions, at this time, the control system controls the output shaft of the driving motor 207 to lock, that is, the gear 208 is locked at the position on the rack 603, the control system controls the electromagnetic latch to pop out, so that the telescopic end and the fixed end of the telescopic rod 605 are in a locking state, then the control system controls the telescopic arm 305 to retract, so that the telescopic arm 305 moves upward around the pin shaft in the middle of the hinge 311 towards the telescopic arm 305, because the telescopic end and the fixed end of the telescopic rod 605 are in a locking state, when the upper window frame 301 rotates in the direction of the telescopic arm 305, the upper window frame 301 extrudes the sliding plate 602 through the telescopic rod 605, so that the sliding plate 602 moves away from the upper window frame 301, and the gear 208 are fixedly connected with the gear 603, and the gear 208 is the bevel gear 208, so that the gear 603 is synchronously driven to move away from the upper window frame 301 when the sliding plate 602 moves, the bevel gear 208 moves, the upper window frame 205 is pushed by the bevel gear 208, the lower window frame 201 is pushed by the control system, so that the upper window frame 201 moves close to the lower window frame 201, and the upper window frame 201 is pulled out from the upper window frame 301, or the lower window frame 201 is pulled out, and the upper window frame 201 is pulled down by the upper window frame 201, and the upper window frame 201 is accordingly, and the upper window frame is pulled down, and the lower window frame is pulled down by the upper window frame and the lower window frame 201.

When the driving motor 207 drives the lower window frame 201 to move leftwards along the guide slot 109, the control system detects that the torque of the output shaft is greater than the torque output under normal conditions, and the telescopic arm 305 is changed from contraction to extension in the same manner.

When a fire disaster occurs, the electric element on the device stops running due to overheat, especially the driving motor 207 is locked due to overheat, so that the gear 208 is locked at the position on the rack 603, at the moment, a pulling force or pushing force is manually applied to the fixed end of the telescopic rod 605, so that the telescopic rod 605 extrudes the sliding plate 602, the sliding plate 602 drives the rack 603 to move, at the moment, the moving distance of the rack 603 is greater than the moving distance of the rack 603 in the driving state of the control system, in the moving process of the rack 603, the helical teeth on the rack 603 extrude the helical teeth on the gear 208, so that the guide block 205 on the lower window frame 201 moves along the guide groove 109, and the distance between the outer side edge of the lower window frame 201 and the inner side edge of the lower window frame 104 is changed, so that the escape exit is enlarged, and the escape probability is increased.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. An automatic device of windowing that intelligence house was used which characterized in that: the device comprises a window body mechanism and a measurement and control mechanism, wherein the window body mechanism comprises a supporting frame assembly, the supporting frame assembly comprises an integral supporting frame, an upper supporting plate is horizontally and fixedly arranged in the middle of the integral supporting frame, an anti-clamping assembly is arranged in the upper supporting plate, the integral supporting frame is divided into an upper window frame and a lower window frame by the upper supporting plate, an upper window plate assembly is arranged on the side face of the upper window frame, a lower window plate assembly is symmetrically arranged in the lower window frame, and a middle supporting block is vertically and fixedly arranged in the middle of the upper window frame; the measurement and control mechanism comprises a monitoring assembly and a control assembly, wherein the monitoring assembly is respectively and fixedly arranged at the rear end of the middle supporting block and the front end of the upper window plate assembly; the anti-pinch assembly comprises a sliding groove arranged in the upper supporting plate, the sliding groove corresponds to the lower window plate assembly, a sliding plate is connected in the sliding groove in a sliding mode, a rack is fixedly connected to the bottom of the sliding plate, two sides of the sliding plate are fixedly connected with the side wall of the sliding groove through elastic pieces, a telescopic rod is hinged to one side, close to the upper window plate assembly, of the telescopic rod, and one end, far away from the sliding plate, of the telescopic rod is hinged to the bottom of the upper window plate assembly.

2. The automatic window opening device for smart home according to claim 1, wherein: guide grooves are symmetrically formed in the front side and the rear side of the upper end and the lower end of the lower window frame body, elastic sealing strips are fixedly embedded at the bottoms of the guide grooves, and buffer grooves are symmetrically formed in the front side and the rear side of the inner side surfaces of the left end and the right end of the lower window frame body.

3. The automatic window opening device for smart home according to claim 2, wherein: the lower window board assembly comprises a lower window frame of a frame body structure, a lower glass board mounting groove is formed in the lower window frame, a lower window glass board is fixedly inserted in the lower glass board mounting groove, elastic sealing plates I are arranged on two sides of the lower window glass board, the elastic sealing plates I are buckled with outer side ports of the lower glass board mounting groove, and the elastic sealing plates I are buckled with the buffer groove.

4. An automatic window opening device for smart home as claimed in claim 3, wherein: the upper end and the lower end of the lower window frame are fixedly provided with guide blocks which are matched with the guide grooves in a sliding mode, the front side and the rear side of the upper end of the lower window frame are fixedly provided with motor mounting plates, the outer sides of the motor mounting plates are fixedly provided with driving motors, and the output shafts of the driving motors are provided with gears meshed with racks.

5. The automatic window opening device for smart home according to claim 1, wherein: the front end of the middle supporting block is provided with a driving groove, the rear end of the middle supporting block is provided with a rear monitoring mounting groove, and the port of the rear monitoring mounting groove is provided with an upper window sealing plate groove; the upper window plate assembly comprises an upper window frame, a hinge is fixedly arranged at the upper end of the upper window frame, the upper window frame is hinged with the upper end of the upper window frame through the hinge, a middle supporting plate is fixedly arranged in the middle of the rear end of the upper window frame, a lower hinge seat is fixedly arranged at the lower end of the middle supporting plate, a telescopic arm is hinged to the side face of the lower hinge seat, an upper hinge seat is hinged to the upper end of the telescopic arm, and the upper hinge seat is fixedly connected with the bottom of a driving groove.

6. The automatic window opening device for smart home of claim 5, wherein: the two sides of the middle supporting plate are symmetrically provided with an upper glass plate mounting groove, an upper window glass plate is inserted in the middle of the upper glass plate mounting groove, and a sealing plate II is fixedly buckled at the upper end of the upper window glass plate and the upper port of the upper glass plate mounting groove.

7. The automatic window opening device for smart home of claim 5, wherein: the utility model discloses a solar energy monitoring device, including middle fagging, preceding monitoring mounting groove has been seted up in the outside of middle fagging, lower window shrouding groove has been seted up in the outside of preceding monitoring mounting groove, monitoring assembly includes the monitoring backup pad, the side of monitoring backup pad is equipped with shrouding III, fixed mounting has humiture monitoring module, carbon dioxide sensor module, carbon monoxide detector module, noise monitoring module, PM2.5 sensor module and illumination intensity detection module between monitoring backup pad and the shrouding III, monitoring backup pad respectively fixed mounting is in the tank bottom of preceding monitoring mounting groove and drive groove, shrouding III detains respectively and establishes in the tank body of lower window shrouding groove and rear monitoring mounting groove.

8. The automatic window opening device for smart home according to claim 1, wherein: the control assembly comprises a control mounting bottom plate, a control mounting seat is fixedly arranged on the side face of the control mounting bottom plate, a touch panel mounting groove is formed in the front end face of the control mounting seat, and a touch panel is fixedly arranged in the touch panel mounting groove.

9. The automatic window opening device for smart home as claimed in claim 8, wherein: the lower extreme of touch panel mounting groove and offered the voice control module mounting groove on the preceding terminal surface of control mount pad, the shrouding groove has been offered to the tip in voice control module mounting groove, voice control module mounting inslot fixed mounting has the voice control module, shrouding inslot is detained and is equipped with shrouding IV.

10. The automatic window opening device for smart home as claimed in claim 8, wherein: the gear is a helical gear, and helical racks which are distributed in an array and meshed with the gear are arranged on the racks.