CN113384125B

CN113384125B - Prevent wind type and intelligent security curtain that intensity is high

Info

Publication number: CN113384125B
Application number: CN202110775427.9A
Authority: CN
Inventors: 李镇江; 黄珊珊; 陈巧云
Original assignee: Individual
Current assignee: Chen Yan
Priority date: 2021-07-08
Filing date: 2021-07-08
Publication date: 2023-01-17
Anticipated expiration: 2041-07-08
Also published as: CN113384125A

Abstract

The invention discloses a windproof intelligent security curtain with high strength, which comprises a louver guiding device arranged outdoors and a noise reduction sealing device arranged indoors, wherein the louver guiding device comprises a mounting rack, a plurality of louver plates arranged in the mounting rack, a louver plate overturning driving part arranged on the outer wall of the mounting rack, wind discharging parts arranged on two sides of the mounting rack and a wind power detection part arranged at the top of the mounting rack; the noise reduction sealing device comprises a fixed box, a plurality of horizontal moving parts arranged on the inner wall of the fixed box, a translation plate arranged at an execution end of the horizontal moving parts, a sealed air bag part arranged on one side of the translation plate, an air pressure part arranged on the other side of the translation plate, a noise reduction cover plate arranged on the outer wall of the fixed box, an air entraining part arranged on one side of the noise reduction cover plate and an electric curtain cloth part arranged on the indoor wall. The intelligent security curtain has good shading property and windproof effect, is convenient to keep the indoor quiet in strong wind weather and is convenient to ventilate the indoor in abnormal weather.

Description

Prevent wind type and intelligent security curtain that intensity is high

Technical Field

The invention mainly relates to the technical field of curtains, in particular to a windproof intelligent security curtain with high strength.

Background

The curtain has the functions of shading, insulating heat and adjusting indoor light, and the curtain can be used when the curtain swings with wind in strong wind.

According to the intelligent light-operated curtain that patent document with application number CN201922236784.9 provided that prevent wind ability is strong can know, this product includes electric window curtain track, first (window) curtain, the inductor, second (window) curtain and electro-magnet, electric window curtain track's inboard is provided with first slip track, this product is convenient for adjust indoor luminance, can respond to the inward wind-force of blowing of window through the inductor, the inductor sends signal to the electro-magnet, the electro-magnet has magnetism after the start-up, can see through the (window) curtain and carry out magnetism with the powerful magnet on the wall and inhale, thereby fix the (window) curtain in the bottom, make when strong wind, avoid the (window) curtain to wave with the wind, make service environment more quiet.

The product in the above-mentioned patent can use the electro-magnet to inhale the (window) curtain magnetism on the wall, avoids the (window) curtain to wave along with the wind for service environment is quieter, but the shading nature is relatively poor, is not convenient for keep indoor quiet at the strong wind weather, and is not convenient for take a breath indoor when unusual weather.

Disclosure of Invention

The invention mainly provides a windproof and high-strength intelligent security curtain, which is used for solving the technical problems in the background technology.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the intelligent security curtain comprises a louver flow guide device arranged outdoors and a noise reduction sealing device arranged indoors, wherein the louver flow guide device comprises a mounting frame arranged on an outdoor wall, a plurality of louver plates vertically arranged in the mounting frame and hinged to the inner wall of the mounting frame at two ends, louver plate overturning driving parts arranged on the outer wall of the mounting frame and provided with execution ends extending into the mounting frame, air discharging parts symmetrically arranged on two sides of the mounting frame and a wind force detection part arranged at the top of the mounting frame;

the noise reduction sealing device comprises a fixed box which is arranged indoors and symmetrically distributed on two sides of a window, a plurality of horizontal moving parts which are arranged on the inner wall of the fixed box, a translation plate which is arranged at an execution end of the horizontal moving parts, a sealed air bag part which is arranged on one side of the translation plate close to the louver flow guide device, a plurality of air pressure parts which are arranged on the other side of the translation plate and are used for conveying air into the sealed air bag part, a noise reduction cover plate which is connected with the outer wall of the fixed box in a sliding mode and is connected with the side wall of the translation plate, an air guide part which is arranged on one side of the translation plate far away from the noise reduction cover plate, and an electric curtain cloth part which is arranged on the indoor wall and is positioned on the upper portion of the noise reduction cover plate.

Preferably, shutter plate upset driver part is including locating every the annular frame at shutter plate top wears to locate the connecting rod of mounting bracket is located a plurality of actuating levers of connecting rod outer wall and slip joint annular frame inner wall, and locate the mounting bracket outer wall just is used for driving connecting rod horizontal migration's actuating cylinder, every the actuating lever all corresponds with one of them annular frame position. In the preferred embodiment, the blind slats are tilt-adjusted by means of a slat tilt drive member.

Preferably, the air discharging component comprises an L-shaped air discharging plate which is connected with the side wall of the mounting frame in a sliding manner, and a telescopic cylinder which is arranged on the outdoor wall and is connected with the outer wall of the L-shaped air discharging plate at the execution end. In this preferred embodiment, through unloading the wind part and being convenient for unload the window with the air current, avoid the air current to blow the shutter plate and cause the shutter plate to damage, avoid the shutter plate vibrations collision to produce the noise.

Preferably, the wind power detection component comprises a wind speed and wind direction integrated sensor arranged at the top of the mounting frame, the PLC receives wind speed and wind direction data of the wind speed and wind direction integrated sensor, and the PLC triggers the louver turnover driving component when the wind speed data are larger than a set value so as to adjust the turnover angle of the louver. In the preferred embodiment, the PLC receives wind speed and direction data of the wind speed and direction integrated sensor and triggers the louver turnover driving component when the wind speed data is larger than a set value so as to adjust the turnover angle of the louver, and the louver can buffer and guide airflow.

Preferably, the horizontal moving part comprises first linear guide rails symmetrically arranged at the top and the bottom of the inner wall of the fixed box, and the execution ends of the first linear guide rails are connected with the translation plate. In the present preferred embodiment, the stable movement of the translation plate is achieved by a horizontal moving member.

Preferably, the sealing air bag component comprises an elastic air bag arranged on the side wall of the translation plate, and the elastic air bag is internally divided into a plurality of air chambers through bonding rods. In the preferred embodiment, the window is sealed by the sealing airbag part and the air flow can be guided for the second time so as to be discharged through the air discharging part.

Preferably, the air pressure component comprises an air cylinder plate arranged on the side wall of the translation plate and communicated with the elastic air bag, a piston plate connected with the inner wall of the air cylinder plate in a sliding manner, and an electric cylinder arranged on the side wall of the translation plate and used for driving the piston plate to move, and each air pressure component corresponds to one of the air chambers. In the preferred embodiment, the pneumatic components facilitate the delivery of gas into the chamber, and the plurality of pneumatic components cooperate to present different shapes to the flexible bladder.

Preferably, a noise reduction interlayer is arranged in the noise reduction cover plate, and a plurality of sound absorption sponge blocks are arranged in the noise reduction interlayer. In the preferred embodiment, the sound absorption sponge block in the noise reduction interlayer in the noise reduction hood plate can absorb sound to keep the room quiet.

Preferably, the electric curtain component comprises a second linear guide rail arranged on the indoor wall, a curtain rod arranged on the side wall of the second linear guide rail, and a curtain cloth arranged on the curtain rod in a penetrating manner, wherein one side of the curtain cloth is connected with the execution end of the second linear guide rail. In the preferred embodiment, the motorized shade element effects automatic closing or opening of the window covering.

Preferably, the bleed part is including locating the oxygen concentration detector at fixed box top locates the fixed plate of the cover plate lateral wall of making an uproar falls, locates fixed plate lateral wall and execution end run through the fixed plate and connect a plurality of cylinders of the cover plate lateral wall of making an uproar falls, and locate the fixed plate lateral wall just runs through a plurality of bleed pipes of the cover plate of making an uproar falls, and the PLC controller receives the oxygen concentration data of oxygen concentration detector survey to trigger the cylinder when oxygen concentration data is less than the setting value, so that the bleed pipe removes and carries out the bleed. In the preferred embodiment, the PLC receives the oxygen concentration data measured by the oxygen concentration detector, and triggers the air cylinder when the oxygen concentration data is lower than a set value, so that the air guide pipe moves and air guide is carried out, and the indoor air can be kept fresh through the air guide part.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, good shading performance is realized through the shutter guide device and the noise reduction sealing device, the noise reduction sealing device is convenient for keeping the indoor quiet in strong wind weather, and the air introducing component is convenient for ventilating the indoor in abnormal weather;

a PLC controller in the louver flow guiding device receives wind speed and direction data of a wind speed and direction integrated sensor, and triggers a louver turnover driving part when the wind speed data is larger than a set value so as to adjust the turnover angle of a louver, the louver can buffer and guide airflow, the airflow can be conveniently unloaded from a window through a wind unloading part so as to avoid the damage of the louver caused by the fact that the airflow blows the louver, the noise generated by vibration and collision of the louver is avoided, the noise reduction sealing device realizes the stable movement of a translation plate through a horizontal moving part, the window is sealed through a sealing air bag part and can conduct secondary flow guiding on the airflow, so that the airflow is conveniently discharged through the wind unloading part, an air pressure part is convenient for conveying gas into an air chamber, a plurality of air pressure parts are matched so that an elastic air bag presents different shapes, sound absorption sponge blocks in a noise reduction interlayer in the noise reduction cover plate can absorb sound so as to keep the indoor quiet, an electric curtain part realizes the automatic closing or opening of a curtain, the PLC controller receives oxygen concentration data measured by an oxygen concentration detector, and triggers an air cylinder when the oxygen concentration data is lower than the set value so as to enable an air guide pipe to move, and the indoor air can be kept fresh through an air guide part.

The present invention will be explained in detail below with reference to the drawings and specific embodiments.

Drawings

FIG. 1 is an isometric view of the structure of a louvered deflector of the present invention;

FIG. 2 is an isometric view of a noise reducing enclosure structure of the present invention;

FIG. 3 is an exploded view of the overall results of the present invention;

FIG. 4 is an exploded view of the structure of the louvered deflector of the present invention;

FIG. 5 is an exploded view of the noise reducing enclosure structure of the present invention;

FIG. 6 is a bottom view of the overall structure of the present invention;

FIG. 7 is a top view of the overall structure of the present invention;

fig. 8 is a sectional view of the overall structure of the present invention.

Description of the drawings: 10. a shutter flow guide device; 11. a mounting frame; 12. a louver board; 13. a louver board turnover driving component; 131. an annular frame; 132. a connecting rod; 133. a drive rod; 134. a driving cylinder; 14. a wind discharging part; 141. an L-shaped air discharge plate; 142. a telescopic cylinder; 15. a wind power detection component; 151. a wind speed and direction integrated sensor; 20. a noise reduction containment device; 21. a fixing box; 22. a horizontally moving member; 221. a first linear guide rail; 23. a translation plate; 24. a sealed airbag component; 241. an elastic air bag; 242. a bonding rod; 243. an air chamber; 25. an air pressure member; 251. a gas cylinder plate; 252. a piston plate; 253. an electric cylinder; 26. a noise reduction cover plate; 261. a noise reduction interlayer; 262. a sound absorbing sponge block; 27. an air-entraining member; 271. an oxygen concentration detector; 272. a fixing plate; 273. a cylinder; 274. a bleed pipe; 28. an electric cord fabric member; 281. a second linear guide; 282. a curtain rod; 283. a curtain cloth.

Detailed Description

In order to facilitate an understanding of the invention, the invention will now be described more fully hereinafter with reference to the accompanying drawings, in which several embodiments of the invention are shown, but which may be embodied in different forms and not limited to the embodiments described herein, but which are provided so as to provide a more thorough and complete disclosure of the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, as the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the knowledge of the terms used herein in the specification of the present invention is for the purpose of describing particular embodiments and is not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Please refer to fig. 1, 3, 4, and 7, in a preferred embodiment of the present invention, the windproof intelligent security curtain includes a louver guiding device 10 disposed outdoors and a noise reduction sealing device 20 disposed indoors, wherein the louver guiding device 10 includes a mounting bracket 11 disposed on an outdoor wall, a plurality of louvers 12 vertically disposed in the mounting bracket 11 and having two ends hinged to an inner wall of the mounting bracket 11, a louver overturning driving member 13 disposed on an outer wall of the mounting bracket 11 and having an executing end extending into the mounting bracket 11, wind discharging members 14 symmetrically disposed on two sides of the mounting bracket 11, and a wind detecting member 15 disposed on a top of the mounting bracket 11; louver board upset driver part 13 is including locating every the annular frame 131 at louver board 12 top wears to locate connecting rod 132 of mounting bracket 11 locates connecting rod 132 outer wall and a plurality of actuating levers 133 of slip connection annular frame 131 inner wall, and locate mounting bracket 11 outer wall just is used for driving connecting rod 132 horizontal migration's actuating cylinder 134, every actuating lever 133 all corresponds with one of them annular frame 131 position, it unloads aerofoil 141 including the L shape of slip connection mounting bracket 11 lateral wall to unload wind part 14 to and locate outdoor wall and execution end and connect the telescopic cylinder 142 that L shape unloaded aerofoil 141 outer wall, wind detection part 15 is including the integrative sensor 151 of wind speed wind direction at mounting bracket 11 top, and the PLC controller receives the wind speed wind direction data of the integrative sensor 151 of wind speed wind direction to trigger louver board upset driver part 13 when wind speed data is greater than the setting value, in order to carry out the rotation angle regulation to louver board 12.

In this embodiment, the PLC receives the wind speed and direction data of the wind speed and direction integral sensor 151, and triggers the louver turnover driving component 13 when the wind speed data is greater than a set value, so as to adjust the turnover angle of the louver 12, where the turnover angle and direction can be obtained by calculating the wind direction data, the louver 12 can buffer and guide the airflow, and the buffered airflow is discharged from the mounting rack 11 through the air discharging component 14 after being secondarily guided by the sealed air bag component 24;

further, when the blind slat overturning driving component 13 works, the driving cylinder 134 drives the connecting rod 132 to move, the connecting rod 132 drives the driving rod 133 to slide in the annular frame 131, and the annular frame 131 drives the blind slats 12 to rotate around the hinged positions;

further, when the air discharging part 14 is operated, the telescopic cylinder 142 drives the L-shaped air discharging plate 141 to move so as to form an air discharging opening.

With particular reference to fig. 2, 3, 5 and 8, in another preferred embodiment of the present invention, the noise reduction sealing device 20 includes a fixed box 21 disposed in a chamber and symmetrically distributed on both sides of a window, a plurality of horizontal moving members 22 disposed on an inner wall of the fixed box 21, a translation plate 23 disposed at an executing end of the horizontal moving member 22, a sealed air bag member 24 disposed on one side of the translation plate 23 close to the louver guide device 10, a plurality of air pressure members 25 disposed on the other side for delivering air into the sealed air bag member 24, a noise reduction cover plate 26 slidably connected to an outer wall of the fixed box 21 and connected to a side wall of the translation plate 23, when windy weather occurs, the sealed air bag member 24 seals the window and secondarily guides air flow to discharge the air flow through the air discharge member 14, the horizontal moving member 22 includes first linear guide rails 221 symmetrically disposed on a top and a bottom of the inner wall of the fixed box 21, the executing end of the first linear guide rails 221 is connected to the translation plate 23, the sealed air bag member 24 includes an elastic air bag 241 disposed on a side wall of the translation air bag plate 241, the elastic air bag 241 is divided into a plurality of air pressure chambers 242 by an adhesive pad 261, and a plurality of piston plates 261 disposed in the interlayer 23, and a plurality of piston plates for driving piston plates 252, and a plurality of piston plates 252 are disposed in the interlayer 23.

It should be noted that, in this embodiment, when extreme weather, such as strong wind, occurs, the first linear guide rail 221 in the two fixed boxes 21 drives the translation plate 23 to move, so that the two translation plates 23 contact to close the window, and the PLC controller triggers the plurality of air pressure components 25 to operate according to the wind speed and direction data, so that the elastic airbag 241 forms a desired shape to seal the window and perform secondary airflow diversion, and when the translation plate 23 moves, the noise reduction cover plate 26 is driven to move, and the sound absorption sponge blocks 262 in the noise reduction interlayer 261 in the noise reduction cover plate 26 can absorb sound, so as to keep the room quiet;

further, when the air pressure unit 25 is operated, the electric cylinder 253 drives the piston plate 252 to move in the air cylinder plate 251 to inflate or inhale the air chambers 243, and the air pressure states of the air chambers 243 are different to form the elastic air bags 241 with different shapes.

Referring to fig. 2, 5, 6 and 7 again, in another preferred embodiment of the present invention, the air-introducing member 27 is disposed on a side of the noise reduction cover plate 26 away from the translation plate 23, and the electric curtain member 28 is disposed on a room wall and above the noise reduction cover plate 26, the electric curtain member 28 includes a second linear guide 281 disposed on the room wall, a curtain rod 282 disposed on a side wall of the second linear guide 281, and a curtain cloth 283 disposed on the curtain rod 282, one side of the curtain cloth 283 is connected to a second linear guide execution end, the air-introducing member 27 includes an oxygen concentration detector 271 disposed on a top of the fixing box 21, a fixing plate 272 disposed on a side wall of the noise reduction cover plate 26, a plurality of air cylinders 273 disposed on a side wall of the fixing plate 272 and having execution ends penetrating through the fixing plate 272 and connected to a side wall of the noise reduction cover plate 26, and a plurality of air-introducing pipes 274 disposed on a side wall of the fixing plate 272 and penetrating through the noise reduction cover plate 26, the plc controller receives oxygen concentration data measured by the oxygen concentration detector 271, and triggers the air cylinders 273 when the oxygen concentration data is lower than a set value to move the pipes 274 and introduce air.

It should be noted that, in this embodiment, when the translation plate 23 moves, the execution end of the second linear guide 281 drives the curtain cloth 283 to move, so as to pull and extend the curtain cloth 283;

further, the PLC controller receives oxygen concentration data measured by the oxygen concentration detector 271, and triggers the air cylinder 273 when the oxygen concentration data is lower than a set value, an execution end of the air cylinder 273 drives the fixing plate 272 and the bleed air pipe 274 to move outward, and the bleed air pipe 274 performs bleed air work until the oxygen concentration data reaches the set value and the air cylinder 273 is reset.

The specific process of the invention is as follows:

the model of the PLC controller is 'KL-4 AD', and the model of the wind speed and direction integrated sensor 151 is 'NHFSX 48'.

When extreme weather, such as strong wind, the PLC receives wind speed and wind direction data of the wind speed and wind direction integrated sensor 151, and triggers the louver turnover driving part 13 when the wind speed data is larger than a set value so as to adjust the turnover angle of the louver 12, the turnover angle and the direction can be obtained by calculating the wind direction data, the louver 12 can buffer and guide the air flow, and the buffered air flow is discharged out of the mounting rack 11 through the air discharging part 14 after being secondarily guided by the sealed air bag part 24;

when the louver board overturning driving part 13 works, the driving cylinder 134 drives the connecting rod 132 to move, the connecting rod 132 drives the driving rod 133 to slide in the annular frame 131, and the annular frame 131 drives the louver board 12 to rotate around the hinged position;

when the air discharging part 14 works, the telescopic cylinder 142 drives the L-shaped air discharging plate 141 to move so as to form an air discharging opening;

the first linear guide rails 221 in the two fixed boxes 21 drive the translation plates 23 to move so that the two translation plates 23 are in contact with each other to close the window, meanwhile, the PLC triggers the plurality of air pressure components 25 to work according to the wind speed and wind direction data so that the elastic air bags 241 form a required shape to seal the window and conduct secondary air flow diversion, the translation plates 23 drive the noise reduction cover plate 26 to move when moving, and the sound absorption sponge blocks 262 in the noise reduction interlayer 261 in the noise reduction cover plate 26 can absorb sound to keep the indoor quiet;

when the air pressure component 25 works, the electric cylinder 253 drives the piston plate 252 to move in the air cylinder plate 251 so as to inflate or inhale the air chambers 243, and the air pressure states of the air chambers 243 are different so as to form the elastic air bags 241 with different shapes;

when the translation plate 23 moves, the execution end of the second linear guide 281 drives the curtain cloth 283 to move, so as to pull and extend the curtain cloth 283;

the PLC receives oxygen concentration data measured by the oxygen concentration detector 271, and triggers the air cylinder 273 when the oxygen concentration data is lower than a set value, the execution end of the air cylinder 273 drives the fixing plate 272 and the air entraining pipe 274 to move outwards, and the air entraining pipe 274 carries out air entraining work until the oxygen concentration data reaches the set value and then the air cylinder 273 resets.

The invention is described above with reference to the accompanying drawings, it is obvious that the invention is not limited to the above-described embodiments, and it is within the scope of the invention to adopt such insubstantial modifications of the inventive method concept and solution, or to apply the inventive concept and solution directly to other applications without modification.

Claims

1. The intelligent security curtain is characterized in that the louver flow guide device (10) comprises a mounting frame (11) arranged on an outdoor wall, a plurality of louver plates (12) vertically arranged in the mounting frame (11) and hinged to the inner wall of the mounting frame (11) at two ends, louver plate turning driving parts (13) arranged on the outer wall of the mounting frame (11) and provided with execution ends extending into the mounting frame (11), air discharging parts (14) symmetrically arranged on two sides of the mounting frame (11), and a wind power detection part (15) arranged at the top of the mounting frame (11);

the noise reduction sealing device (20) comprises fixed boxes (21) which are arranged indoors and symmetrically distributed on two sides of a window, a plurality of horizontal moving components (22) which are arranged on the inner wall of the fixed boxes (21), a translation plate (23) which is arranged at the execution end of the horizontal moving components (22), a sealed air bag component (24) which is arranged on one side, close to the louver guide device (10), of the translation plate (23), a plurality of air pressure components (25) which are arranged on the other side and are used for conveying air into the sealed air bag component (24), a noise reduction cover plate (26) which is connected with the outer wall of the fixed box (21) in a sliding mode and is connected with the side wall of the translation plate (23), an air entraining component (27) which is arranged on one side, far away from the translation plate (23) of the noise reduction cover plate (26), and an electric curtain cloth component (28) which is arranged on the indoor wall and is positioned on the upper portion of the noise reduction cover plate (26), wherein when windy weather occurs, the sealed air bag component (24) seals the window and conducts secondary flow guide on the air flow, so that the air flow is discharged through the air discharging component (14);

louver board upset driver part (13) is including locating every annular frame (131) at louver board (12) top are worn to locate connecting rod (132) of mounting bracket (11) are located connecting rod (132) outer wall and a plurality of actuating levers (133) of slip connection annular frame (131) inner wall, and are located mounting bracket (11) outer wall just is used for driving actuating cylinder (134) of connecting rod (132) horizontal migration, every actuating lever (133) all correspond with one of them annular frame (131) position.

2. The windproof and high-strength intelligent security curtain according to claim 1, wherein the wind-discharging component (14) comprises an L-shaped wind-discharging plate (141) slidably connected with the side wall of the mounting frame (11), and a telescopic cylinder (142) arranged on the outdoor wall and having an execution end connected with the outer wall of the L-shaped wind-discharging plate (141).

3. The intelligent security curtain of the windproof type and high strength according to claim 1, wherein the wind detection component (15) comprises a wind speed and direction integrated sensor (151) arranged at the top of the mounting frame (11), and the PLC receives wind speed and direction data of the wind speed and direction integrated sensor (151) and triggers the louver board overturning driving component (13) when the wind speed data is greater than a set value so as to adjust the overturning angle of the louver board (12).

4. The windproof and high-strength intelligent security curtain according to claim 1, wherein the horizontal moving component (22) comprises first linear guide rails (221) symmetrically arranged at the top and the bottom of the inner wall of the fixed box (21), and the execution end of the first linear guide rail (221) is connected with the translation plate (23).

5. The windproof and high-strength intelligent security curtain according to claim 1, wherein the air bag sealing member (24) comprises an elastic air bag (241) arranged on the side wall of the translation plate (23), and the interior of the elastic air bag (241) is divided into a plurality of air chambers (243) by an adhesive rod (242).

6. The windproof and high-strength intelligent security curtain according to claim 5, wherein the air pressure component (25) comprises an air cylinder plate (251) arranged on the side wall of the translation plate (23) and communicated with the elastic air bag (241), a piston plate (252) connected with the inner wall of the air cylinder plate (251) in a sliding manner, and an electric cylinder (253) arranged on the side wall of the translation plate (23) and used for driving the piston plate (252) to move, and each air pressure component (25) corresponds to one air chamber (243) in position.

7. The windproof and high-strength intelligent security curtain according to claim 1, wherein a noise reduction interlayer (261) is arranged in the noise reduction cover plate (26), and a plurality of sound absorption sponge blocks (262) are arranged in the noise reduction interlayer (261).

8. The intelligent security curtain of the windproof type and high strength according to claim 1, wherein the electric curtain component (28) comprises a second linear guide rail (281) arranged on the indoor wall, a curtain rod (282) arranged on the side wall of the second linear guide rail (281), and a curtain cloth (283) arranged on the curtain rod (282) in a penetrating manner, and one side of the curtain cloth (283) is connected with an execution end of the second linear guide rail (281).

9. The intelligent security curtain with the wind prevention and high strength according to claim 1, wherein the air-entraining member (27) comprises an oxygen concentration detector (271) arranged at the top of the fixing box (21), a fixing plate (272) arranged on the side wall of the noise reduction cover plate (26), a plurality of air cylinders (273) arranged on the side wall of the fixing plate (272) and having an execution end penetrating through the fixing plate (272) to connect with the side wall of the noise reduction cover plate (26), and a plurality of air-entraining pipes (274) arranged on the side wall of the fixing plate (272) and penetrating through the noise reduction cover plate (26), wherein the PLC controller receives oxygen concentration data measured by the oxygen concentration detector (271) and triggers the air cylinders (273) when the oxygen concentration data is lower than a set value, so that the air-entraining pipes (274) move and entrain air.