CN112360319A

CN112360319A - Wingspan type intelligent typhoon-resistant window protection device

Info

Publication number: CN112360319A
Application number: CN202011273647.3A
Authority: CN
Inventors: 王良; 李清清; 何一民; 袁文波; 张乾丰; 杨时钰
Original assignee: Hunan University of Arts and Science
Current assignee: Hunan University of Arts and Science
Priority date: 2020-11-14
Filing date: 2020-11-14
Publication date: 2021-02-12

Abstract

The invention discloses a wingspan type intelligent typhoon-resistant window protection device which comprises a signal detection unit, a controller and a mechanical execution mechanism. The signal detection unit comprises wind power detection and rainfall detection for typhoon and detection for complete unfolding of the device; the controller controls the unfolding or folding of the device according to the wind power and rainfall signals analyzed and detected; the mechanical actuator includes a drive assembly, a span transmission assembly, a wing plate, and a locking assembly. The device is arranged on a window frame outside the glass window, and wing plates are folded when the device is not in use, so that the device can play a role of a canopy; when the typhoon comes, the wing plates are automatically unfolded, and the closing information of the device is fed back to the user in a short message mode after the action is finished, so that the situation that the user does not get at home or does not close the window in time can be avoided, window glass is smashed by foreign matters rolled up by the typhoon, personal injury and property loss of personnel are caused, and intelligent typhoon-resistant protection of the window is realized.

Description

Wingspan type intelligent typhoon-resistant window protection device

Technical Field

The invention relates to the technical field of intelligent home furnishing, in particular to a wingspan type intelligent typhoon-resistant window protection device.

Background

To glass window, when the typhoon reaches certain progression, the foreign matter that is rolled up by the typhoon easily breaks into pieces, can cause resident's bodily injury and loss of property, and to some buildings, more serious is when glass window breakage back, and during the great wind-force, wind gets into indoor can produce lift to the roof from the opening in a wall or a wall, can lift the roof even when serious. The existing typhoon prevention devices are all of structures utilizing sliding rails or sliding grooves, so that the devices occupy large area and are not easy to install. For example, patent No. 201420209139.2, which discloses a typhoon-resistant window for protecting a window by a slidable protective window cover, the window cover is composed of at least one folding vane, and a manual sliding vane slides in a groove to fold and unfold the window cover; the patent No. 201911301132.7 discloses a window device for protecting a window by a retractable wind screen, which requires sliding rails mounted on both sides of a window frame, is complicated in unfolding action, and cannot be intelligently controlled; patent number is "202010303544.0" discloses a prevent typhoon window of window is protected through the curtain, and the curtain goes up and down along the curtain spout, realizes the release of curtain, though adopted the remote control switch window, but the curtain shelters from the impact force that can only make the hard thing that the typhoon blown up and obtain alleviating, does not have rigid pterygoid lamina resistance strong, and does not have automatic triggering device, can not realize the intelligent protection of window.

Disclosure of Invention

The invention mainly aims at the problem of window safety in regions affected by typhoon along the sea, and aims to intelligently control and protect glass windows when typhoon comes, and avoid personal injury and property loss of people caused by smashing glass by scattered foreign matters rolled up by typhoon.

In order to achieve the purpose, the invention provides the following technical scheme: a wingspan type intelligent typhoon-resistant window protection device comprises a signal detection unit, a controller and a mechanical execution mechanism, wherein the signal detection unit comprises a rainfall sensor, a wind sensor and a device full-expansion detection sensor, the wind sensor and the rainfall sensor are installed on a support, and the device full-expansion detection sensor is embedded in a bottom window frame;

further, the controller is arranged on the bracket, the controller is adjacent to the motor, when typhoon comes, the signal detection unit transmits an air volume and rainfall detection signal to the controller, the controller analyzes and judges whether the wingspan panel is unfolded or not, if the wingspan panel is required to be unfolded, a wingspan panel unfolding instruction is sent to the mechanical execution mechanism, and after the wingspan panel is unfolded, the controller receives a device complete unfolding signal and sends a feedback short message that the device is unfolded and the window is protected to a user;

the mechanical actuating mechanism comprises a driving assembly, a wingspan panel and a locking assembly, wherein the driving assembly comprises a motor, a synchronous belt, a rotating shaft, a rotating pin I and a rotating pin II, the support is fixed at the upper end of a side window frame through a screw, the motor is installed on the support, a synchronous belt pulley I is installed on an output shaft of the motor and is connected with a synchronous belt pulley II through the synchronous belt, the synchronous belt pulley II is installed in the middle of the rotating shaft, the left end of the rotating shaft is fixedly connected with the rotating pin I through a coupling I, one end of the rotating pin I is installed in a matched mode with the bearing seat I, the other end of the rotating pin I is in interference fit with the gear I, the right end of the rotating shaft is fixedly connected with the rotating pin II through a coupling II, the rotating pin II is installed in a matched mode with the bearing seat II, the other end of the rotating pin is in;

the wingspan type panel is connected with a support through a cylindrical pin I and comprises a wingspan transmission assembly and wing plates, the wingspan transmission assembly is formed by combining a plurality of groups of parallelogram mechanisms and gear mechanisms, one end of a connecting rod I is hinged with the support through the cylindrical pin I, the other end of the connecting rod I is hinged through a cylindrical pin II and a four-hole connecting plate I, the connecting rod I, the support, the wing plates I and the four-hole connecting plate I form a first group of parallelogram mechanisms, the four-hole connecting plate I, the wing plates II, the connecting rod II and the four-hole connecting plate II form a second group of parallelogram mechanisms, each group of parallelogram mechanisms adopt a second group of parallelogram mechanism forming mode, and each group of parallelogram mechanisms are connected through gear sets in a meshing mode; the wing plates are all provided with a plurality of blocks, the two sides of each wing plate I are connected with the support through a rotating pin I and a rotating pin II, and the other wing plates are connected through wingspan transmission components on the two sides.

Furthermore, the locking device comprises an electromagnet which is arranged at the bottom of the side window frame, and the panel is electrified and fastened after being unfolded.

Preferably, the wingspan panel consists of a plurality of wing plates, the unfolding and folding are realized by utilizing parallelogram mechanisms, and each group of parallelogram mechanisms are meshed and connected through a gear set;

preferably, two control modes are provided, the first mode is manual control, and a user directly carries out manual control through folding and unfolding control buttons; the second is intelligent control, and the device is through feeling wind-force and rainfall, and whether automatic judgement expandes span formula panel, realizes the intelligent protection of window.

Preferably, after the intelligent control wingspan panel is unfolded, the device sends a feedback message to the user that the device is unfolded and the window is protected.

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

1. by adopting the connecting rod-gear combination mechanism, the device can be folded, the space is saved, the influence on indoor lighting is reduced, and the device can play a role of a rain shed when not used at ordinary times;

2. the device adopts a wind sensor and a rainfall sensor, and can realize automatic control by monitoring temporary wind power and rainfall of typhoon.

3. The control system of the device is provided with a short message receiving and sending module, and when the device realizes the unfolding of the wingspan panel through intelligent control, the device can send a feedback short message that the device is unfolded and the window is protected to a user.

Drawings

FIG. 1 is a schematic view of a device mounted to a sash-type panel in an expanded configuration;

FIG. 2 is a schematic view of a device mounted to a window frame for folding a wing-span panel

FIG. 3 is a front view of the device mounted to a wingspan panel of a window frame in an expanded configuration;

FIG. 4 is a schematic view of a mechanical actuator drive portion of the device;

FIG. 5 is a schematic view of a wingspan drive assembly of the device;

FIG. 6 is a schematic view of a first set of parallelograms of the apparatus;

fig. 7 is a schematic view of the remaining set of parallelograms of the device.

In the figure: 1-a rainfall sensor; 2-a wind sensor; 3-a scaffold; 401-side window frame; 402-bottom window frame; 5-device fully deployed detection sensor; 6-wingspan panels; 601-pterygoid lamina I; 602-wing II; 701-synchronous pulley I; 702-synchronous pulley ii; 801-bearing seat I; 802-bearing seat ii; 901-rotating pin I; 902-rotating pin II; 101-coupling I; 102-coupling II; 11-a rotating shaft; 12-a synchronous belt; 13-a motor; 14-a controller; 15-a first set of parallelogram mechanisms; 16-a second set of parallelogram mechanisms; 17-a third set of parallelogram mechanisms; 181-gear I; 182-gear ii; 183-Gear III; 191-a cylindrical pin I; 192-cylindrical pin II; 201-connecting rod I; 202 a connecting rod II; 211-four-hole connecting plate I; 212-four-hole connecting plate II; 22-an electromagnet; 23-screw.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: the utility model provides an anti typhoon window protection device of span formula intelligence, includes signal detection unit, controller and mechanical actuating mechanism, its characterized in that: the signal detection unit comprises a rainfall sensor 1, a wind sensor 2 and a device full-expansion detection sensor 5, wherein the wind sensor 2 and the rainfall sensor 1 are arranged on a bracket 3, and the device full-expansion detection sensor 5 is embedded in a bottom window frame 402;

further, the controller 14 is mounted on the bracket 3, the controller 14 is adjacent to the motor 13, when a typhoon comes, the signal detection unit transmits an air volume and rainfall detection signal to the controller 14, the controller 14 analyzes and judges whether the wing span panel 6 is unfolded, if the wing span panel 6 needs to be unfolded, a unfolding instruction of the wing span panel 6 is sent to the mechanical execution mechanism, and after the wing span panel 6 is unfolded, the controller 14 receives a device complete unfolding signal and sends a feedback short message that the device is unfolded and the window is protected to a user;

further, the mechanical actuating mechanism comprises a driving assembly, a wingspan panel and a locking assembly, the driving assembly comprises a motor 13, a synchronous belt 12, a rotating shaft 11, a rotating pin I901 and a rotating pin II 902, the support 3 is fixed at the upper end of the side window frame 401 through a screw 23, the motor 13 is installed on the support 3, a synchronous belt pulley I701 is installed on an output shaft of the motor 13, the synchronous belt pulley I701 is connected with a synchronous belt pulley II 702 through the synchronous belt 12, the synchronous belt pulley II 702 is installed in the middle of the rotating shaft 11, the left end of the rotating shaft 11 is fixedly connected with the rotating pin I901 through a coupling I101, one end of the rotating pin I901 is installed in a matched manner with the bearing seat I801, the other end of the rotating pin I is in interference fit with the gear I181, the right end of the rotating shaft 11 is fixedly connected with the rotating pin II 902 through a coupling II 102, one end of the rotating pin 902 is installed in a matched manner with the bearing, the bearing seat I801 and the bearing seat II 802 are fixed on the bracket 3;

further, the wingspan type panel 6 is connected with the support 3 through a cylindrical pin I191 and comprises a wingspan transmission assembly and wing plates, the wingspan transmission assembly is formed by combining a plurality of groups of parallelogram mechanisms and gear mechanisms, one end of a connecting rod I201 is hinged with the support 3 through the cylindrical pin I191, the other end of the connecting rod I201 is hinged with a four-hole connecting plate I211 through a cylindrical pin II 192, the connecting rod I201, the support 3, the wing plates I601 and the four-hole connecting plate I211 form a first group of parallelogram mechanisms 15, the four-hole connecting plate I211, the wing plates II 602, the connecting rod II 202 and the four-hole connecting plate II 212 form a second group of parallelogram mechanisms 16, each group of parallelogram mechanisms adopts a mode of the second group of parallelogram mechanisms 16, and each group of parallelogram mechanisms are connected through gear sets in a meshed; the wing plates are multiple in number, two sides of the wing plate I601 are connected with the support 3 through a rotating pin I901 and a rotating pin II 902, and the other wing plates are connected through wingspan transmission components on the two sides.

Further, the locking device comprises an electromagnet 22 which is arranged at the bottom of the side window frame 401, and the electromagnet 22 is electrified to fasten the panel after the panel is unfolded.

Preferably, the wingspan panel 6 consists of a plurality of wing plates, the unfolding and folding are realized by utilizing parallelogram mechanisms, and each group of parallelogram mechanisms are meshed and connected through a gear set;

preferably, two control modes are provided, the first mode is manual control, and a user directly carries out manual control through folding and unfolding control buttons; the second is intelligent control, and the device is through feeling wind-force and rainfall, and whether automatic judgement expandes span formula panel 6, realizes the intelligent protection of window.

Preferably, after deployment of the smart control spanwise panel 6, the device sends a feedback message to the user that the device has been deployed and the window has been protected.

The working principle is as follows:

a span formula intelligence anti typhoon window protection device, the anti typhoon protection window of accessible span formula panel 6 expansion, the course of operation is as follows:

the bracket 3 of the device is arranged in a window frame outside the glass window, and the temporary wingspan type panel 6 of the typhoon is in a folded state and is positioned at the top end of the window frame, so that the effect of a rain shed can be achieved.

When typhoon comes, the wind sensor 2 and the rainfall sensor 1 transmit detected external wind power and rainfall information to the controller 14, the controller 14 sends an action command to the driving motor 13 by analyzing signals detected by the wind power and the rainfall, the motor 13 drives the synchronous pulley I701 connected with the motor to rotate, the synchronous pulley I701 transmits the motion to the synchronous pulley II 702 through the synchronous belt 12, the synchronous pulley II 702 drives the rotating shaft 11 connected with the synchronous pulley II to rotate, the rotating shaft 11 is connected with the wing plate I601 through the rotating pin I901 and the rotating pin II 902, so that the wing plate I601 is driven to be unfolded downwards, and when the wing plate I601 is unfolded, the remaining wing plates are driven to be respectively unfolded downwards through gear meshing transmission on the wing span transmission components at two sides. When the signal detection unit detects that the device is normally and completely unfolded, the electromagnet 22 arranged on the bottom window frame 402 is electrified to fasten the wingspan type panel 6, the overall wind resistance strength of the device is enhanced, the panel is prevented from shaking due to the influence of airflow, and a feedback short message that the device is unfolded and the window is protected is sent to a user after the device is operated.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. A span formula intelligence anti typhoon window protection device, includes signal detection unit, controller (14) and mechanical actuator, its characterized in that: the signal detection unit comprises a rainfall sensor (1), a wind sensor (2) and a device full-expansion detection sensor (5), wherein the wind sensor (2) and the rainfall sensor (1) are arranged on the bracket (3), and the device full-expansion detection sensor (5) is embedded in the bottom window frame (402);

the controller (14) is arranged on the bracket (3), the controller (14) is adjacent to the motor (13), when typhoon comes, the signal detection unit transmits an air volume and rainfall detection signal to the controller (14), the controller (14) analyzes and judges whether the span panel (6) is unfolded, if the span panel (6) needs to be unfolded, a span panel (6) unfolding instruction is sent to the mechanical execution mechanism, and after the span panel (6) is unfolded, the controller (14) receives a device complete unfolding signal, sends a feedback short message that the device is unfolded and the window is protected to a user;

the mechanical actuating mechanism comprises a driving assembly, a wingspan panel (6), a support (3) and a locking assembly, wherein the driving assembly comprises a motor (13), a synchronous belt (12), a rotating shaft (11), a rotating pin I (901) and a rotating pin II (902), the support (3) is fixed at the upper end of a side window frame (401) through a screw (23), the motor (13) is installed on the support (3), a synchronous belt wheel I (701) is installed on an output shaft of the motor (13), the synchronous belt wheel I (701) is connected with the synchronous belt wheel II (702) through the synchronous belt (12), the synchronous belt wheel II (702) is installed in the middle of the rotating shaft (11), the left end of the rotating shaft (11) is fixedly connected with the rotating pin I (901) through a coupling I (101), one end of the rotating pin I (901) is installed in an interference fit with a bearing seat I (801), the other end of the rotating pin I (181) is matched with a gear I (181), and the right end of the rotating shaft (11) is, the rotating pin II (902) is installed in a matched mode with the bearing seat II (802), the other end of the rotating pin II is in interference fit with the gear II (182), the motor (13) rotates to drive the gear I (181) and the gear II (182) to synchronously rotate, and the bearing seat I (801) and the bearing seat II (802) are fixed on the support (3);

the wingspan type panel (6) is connected with the support (3) through a cylindrical pin I (191), the wingspan type panel (6) comprises a wingspan transmission assembly and wing plates, the wingspan transmission assembly is formed by combining a plurality of groups of parallelogram mechanisms and gear mechanisms, one end of a connecting rod I (201) is hinged with the support (3) through the cylindrical pin I (191), and the other end of the connecting rod I (201) is hinged with a four-hole connecting plate I (211) through a cylindrical pin II (192); the connecting rod I (201), the support (3), the wing plate I (601) and the four-hole connecting plate I (211) form a first group of parallelogram mechanisms (15); the four-hole connecting plate I (211), the wing plate II (602), the connecting rod II (202) and the four-hole connecting plate II (212) form a second group of parallelogram mechanisms (16); then each group of parallelogram mechanisms adopts a second group of parallelogram mechanisms (16) to form a mode, and each group of parallelogram mechanisms are meshed and connected through a gear set; the wing plates are multiple in number, two sides of the wing plate I (601) are connected with the support (3) through a rotating pin I (901) and a rotating pin II (902), and the other wing plates are connected through wing span transmission components on the two sides.

The locking device comprises an electromagnet (22) which is arranged at the bottom of the side window frame (401), and the electromagnet (22) is electrified to fasten the panel after the panel is unfolded.

2. The wingspan intelligent typhoon-resistant window protection device of claim 1, characterized in that: the wingspan type panel (6) is composed of a plurality of wing plates, the unfolding and the folding are realized by utilizing parallelogram mechanisms, and each group of parallelogram mechanisms are meshed and connected through a gear set.

3. The wingspan intelligent typhoon-resistant window protection device of claim 1, characterized in that: the first control mode is manual control, and a user directly performs manual control through folding and unfolding control buttons; the second is intelligent control, and the device is through feeling wind-force and rainfall, whether automatic judgement expandes span formula panel (6), realizes the intelligent protection of window.