阅读说明：本技术 一种智能自动关闭窗户 (Intelligent automatic closing window ) 是由 潘明强 于 2019-10-22 设计创作，主要内容包括：本发明涉及智能家居领域,具体涉及一种智能自动关闭窗户,包括窗框、旋转窗体、双滑块角度开合机构、连接转轴组件和检测风轮装置,所述窗框右侧设有所述连接转轴组件,所述旋转窗体通过连接转轴组件转动连接在所述窗框的右侧,所述窗框的底部与旋转窗体的底部之间连接有双滑块角度开合机构,所述旋转窗体的外侧底部设有水槽,所述水槽的右端设有量雨器,所述旋转窗体的左端设有外伸式的检测风轮装置,所述检测风轮装置包括叶轮、连接柱、外伸支架和底座。本发明通过双滑块驱动的方式,实现了驱动连杆对窗框和旋转窗体的运动支撑效果,并且角度控制灵敏,角度控制范围大,可靠性高,结构巧妙。(The invention relates to the field of intelligent home furnishing, in particular to an intelligent automatic closing window, which comprises a window frame, a rotating window body, a double-slider angle opening and closing mechanism, a connecting rotating shaft assembly and a wind wheel detection device, wherein the connecting rotating shaft assembly is arranged on the right side of the window frame, the rotating window body is rotatably connected to the right side of the window frame through the connecting rotating shaft assembly, the double-slider angle opening and closing mechanism is connected between the bottom of the window frame and the bottom of the rotating window body, a water tank is arranged at the bottom of the outer side of the rotating window body, a rain measurer is arranged at the right end of the water tank, an overhanging type wind wheel detection device is arranged at the left end of the rotating window body, and the wind. The invention realizes the motion supporting effect of the driving connecting rod on the window frame and the rotating window body in a double-slider driving mode, and has the advantages of sensitive angle control, large angle control range, high reliability and ingenious structure.)

1. The utility model provides an intelligence self-closing window which characterized in that: the window comprises a window frame, a rotating window body, a double-slider angle opening and closing mechanism, a connecting rotating shaft assembly and a detecting wind wheel device, wherein the connecting rotating shaft assembly is arranged on the right side of the window frame, the rotating window body is rotatably connected to the right side of the window frame through the connecting rotating shaft assembly, the double-slider angle opening and closing mechanism is connected between the bottom of the window frame and the bottom of the rotating window body, a water tank is arranged at the bottom of the outer side of the rotating window body, a rain measuring device is arranged at the right end of the water tank, an overhanging type detecting wind wheel device is arranged at the left end of the rotating window body, the detecting wind wheel device comprises an impeller, a connecting column, an overhanging bracket and a base, the base is fixedly connected with the bottom of the rotating window body, the overhanging bracket is L-shaped and is fixedly connected onto the base, the top of spliced pole is installed the impeller, install the detection motor on the shaft of impeller, the afterbody of impeller is equipped with the water conservancy diversion fin.

2. The intelligent self-closing window of claim 1, wherein: the window is characterized in that a first sealing pressing strip is arranged on the outer side edge of the window frame, a second sealing pressing strip is arranged on the inner side edge of the rotary window body, and the first sealing pressing strip and the second sealing pressing strip are arranged oppositely.

3. The intelligent self-closing window of claim 1, wherein: and a window angle sensor is arranged on the connecting rotating shaft assembly.

4. The intelligent self-closing window of claim 1, wherein: the double-slider angle opening and closing mechanism comprises a first motor driving device, a first slider assembly, a driving connecting rod, a screw rod driving mechanism, a second motor driving device and a second slider assembly, wherein the first motor driving device and the second motor driving device are fixedly installed at the bottom of a window frame and the bottom of a rotating window body respectively, the screw rod driving mechanism is transversely installed at the bottom of the window frame and the bottom of the rotating window body, the first slider assembly is installed on the screw rod driving mechanism at the bottom of the window frame, the second slider assembly is installed on the screw rod driving mechanism at the bottom of the rotating window body, and two ends of the driving connecting rod are rotatably connected with the first slider assembly and the second slider assembly respectively.

5. The intelligent automatic closing window according to claim 4, wherein: and the first sliding block assembly and the second sliding block assembly are respectively installed at the bottom of the window frame and the bottom of the rotating window body in a sliding mode through sliding connection mechanisms.

6. The intelligent self-closing window of claim 1, wherein: the bottom of the water tank is provided with a water guide inclined plane, the right end of the water guide inclined plane is connected with a rain measurer, and a rainfall rate measuring device is arranged in the rain measurer.

7. The intelligent self-closing window of claim 1, wherein: the wind wheel detection device is characterized in that a concave holding cabin is arranged on the outer side of the left end of the window frame, an electric locking device is arranged on the outer edge of the holding cabin, and the base of the wind wheel detection device can be locked in the holding cabin by rotating the locking hole device.

8. The intelligent self-closing window of claim 1, wherein: and an angle detection device is arranged on the rotating disc.

9. The intelligent self-closing window of claim 1, wherein: the double-slider angle opening and closing mechanism comprises a displacement and angle opening and closing conversion algorithm control module.

10. The intelligent self-closing window of claim 1, wherein: the window frame comprises a control device, and the control device comprises a precipitation and wind power logic judgment switch control module.

Technical Field

The invention relates to the field of smart homes, in particular to an intelligent automatic closing window.

Background

The window is an important research object for the development of household building materials, almost all houses are provided with various windows which are an essential part of the houses, and the quality of the windows is directly related to the living experience of people. The function of current window mainly lies in ventilation and daylighting, when people go out, generally manually close the window, just so can avoid rainwater and dust to get into indoorly in order to avoid causing indoor environment to destroy through the window, but under most circumstances, need ventilate to indoorly, can not be closed the window always, consequently need a window that can self-closing, in order to realize the self-closing at emergency, and have the autonomous control effect, just so can realize intelligent house control and also can satisfy specific crowd's operation requirement.

Chinese invention patent (CN106014080A) discloses an automatic closing window in windy weather, wherein a pressure sensor is arranged on the glass, a voltage signal generated by the pressure sensor is in direct proportion to the wind power, when the wind power is increased, the voltage signal transmitted to a control chip by the pressure sensor exceeds the design critical point, a servo motor is controlled to start rotating to drive a rotary lead screw, the rotary lead screw rotates along a track with threads, and therefore a support rod is pulled to close the window slowly. Therefore, the control mode of the invention is simple, and the logical control of opening and closing of a window with a larger angle and opening and closing of the window cannot be realized.

The Chinese patent (CN109138724A) discloses a window capable of being automatically closed under strong wind, which comprises glass and a window frame, wherein the glass is rotatably installed in the window frame, the two sides of the lower end of the glass are symmetrically and rotatably connected with second movable shafts, one end, far away from the glass, of each second movable shaft is rotatably connected with a first movable shaft, the two first movable shafts are rotatably connected with the window frame, driving mechanisms are symmetrically installed at the bottom of the window frame and comprise a fan and a guide rod, a rotating groove corresponding to the fan is formed in the window frame, the fan is rotatably installed in the rotating groove, and the guide rod is also rotatably installed in the window frame and is positioned on one side of the rotating groove. The invention utilizes the wind action in strong wind to drive the fan to rotate, converts the mechanical energy of the wind rotation into electric energy according to the electromagnetic induction phenomenon, and pushes the L-shaped shaft while matching with the inherent property of the electrorheological fluid, the volume change of the electrorheological fluid is in direct proportion to the current, thereby achieving the purpose of closing the window.

Disclosure of Invention

The invention aims to solve the technical problem of providing an intelligent automatic closing window aiming at the defects in the prior art.

The invention discloses an intelligent automatic closing window, which comprises a window frame, a rotating window body, a double-slider angle opening and closing mechanism, a connecting rotating shaft assembly and a wind wheel detecting device, wherein the connecting rotating shaft assembly is arranged on the right side of the window frame, the rotating window body is rotatably connected to the right side of the window frame through the connecting rotating shaft assembly, the double-slider angle opening and closing mechanism is connected between the bottom of the window frame and the bottom of the rotating window body, a water tank is arranged at the bottom of the outer side of the rotating window body, a rain measurer is arranged at the right end of the water tank, the wind wheel detecting device in an overhanging type is arranged at the left end of the rotating window body, the wind wheel detecting device comprises an impeller, a connecting column, an overhanging bracket and a base, the base is fixedly connected with the bottom of the rotating window body, the overhanging bracket is in an L shape, and is fixedly connected, the top end of the outrigger is connected with a rotating disk, the connecting column is rotatably connected with the outrigger through the rotating disk, an impeller is installed at the top of the connecting column, a detection motor is installed on a wheel shaft of the impeller, and a flow guide tail wing is arranged at the tail of the impeller.

Furthermore, the outer side edge of the window frame is provided with a first sealing pressing strip, the inner side edge of the rotary window body is provided with a second sealing pressing strip, and the first sealing pressing strip and the second sealing pressing strip are arranged oppositely.

Further, a window angle sensor is arranged on the connecting rotating shaft assembly.

Further, double slide block angle mechanism that opens and shuts includes first motor drive, first slider subassembly, drive connecting rod, lead screw actuating mechanism, second motor drive and second slider subassembly, first motor drive and second motor drive respectively fixed mounting in window frame bottom and rotatory window form bottom, window frame bottom and rotatory window form bottom all transversely install lead screw actuating mechanism, first slider subassembly is installed on the lead screw actuating mechanism of window frame bottom, second slider subassembly is installed on the lead screw actuating mechanism of rotatory window form bottom, the both ends of drive connecting rod rotate with first slider subassembly and second slider subassembly respectively and are connected.

Furthermore, the first sliding block assembly and the second sliding block assembly are respectively installed at the bottom of the window frame and the bottom of the rotating window body in a sliding mode through sliding connection mechanisms.

Further, a water guide inclined plane is arranged at the bottom of the water tank, the right end of the water guide inclined plane is connected with a rain measurer, and a rainfall rate measuring device is arranged inside the rain measurer.

Furthermore, a concave holding cabin is arranged on the outer side of the left end of the window frame, an electric locking device is arranged on the outer edge of the holding cabin, and the base of the wind wheel detection device can be locked in the holding cabin by rotating the locking hole device.

Further, an angle detection device is arranged on the rotating disc.

Furthermore, the double-slider angle opening and closing mechanism comprises a displacement and angle opening and closing conversion algorithm control module.

Further, the window frame comprises a control device, and the control device comprises a precipitation and wind power logic judgment switch control module.

Compared with the prior art, the invention has the following advantages:

(1) the invention realizes the motion supporting effect of the driving connecting rod on the window frame and the rotating window body in a double-slider driving mode, and has the advantages of sensitive angle control, large angle control range, high reliability and ingenious structure;

(2) the set wind wheel detection device and the rain gauge can provide control parameters in a cooperative manner, and the control device can realize the opening and closing control of a window in real time by depending on the known parameters of wind direction and precipitation rate of wind power, so that the sensitivity effect of the control process is good;

(3) the invention can provide motion feedback for a double-slider driving mode through the window angle sensor, is convenient to realize closed-loop control of a control process, improves the control sensitivity and has the characteristic of high reliability of intelligent control.

Drawings

FIG. 1 is a schematic top view of the overall structure of the present invention;

fig. 2 is a schematic structural view of a detecting wind wheel device 5 of the present invention;

FIG. 3 is a side schematic view of FIG. 2 of the present invention;

1-window frame, 11-first sealing bead, 12-cabin, 2-rotating window body, 21-second sealing bead, 22-water tank, 23-rain gauge, 3-double-slider angle opening and closing mechanism, 31-first motor driving device, 32-first slider component, 33-driving connecting rod, 34-screw rod driving mechanism, 35-second motor driving device, 36-second slider component, 37-sliding connecting mechanism, 4-connecting rotating shaft component, 41-window angle sensor, 5-detecting wind wheel device, 51-impeller, 52-detecting motor, 53-guiding tail wing, 54-connecting column, 55-rotating disk, 56-outrigger and 57-base.

Detailed Description

As shown in fig. 1-3, the intelligent automatic closing window disclosed by the invention comprises a window frame 1, a rotating window body 2, a double-slider angle opening and closing mechanism 3, a connecting rotating shaft assembly 4 and a wind wheel detection device 5, wherein the connecting rotating shaft assembly 4 is arranged on the right side of the window frame 1, a window angle sensor 41 is arranged on the connecting rotating shaft assembly 4 and is used for detecting the real-time position of the rotating window body 2, the rotating window body 2 is rotatably connected to the right side of the window frame 1 through the connecting rotating shaft assembly 4, the double-slider angle opening and closing mechanism 3 is connected between the bottom of the window frame 1 and the bottom of the rotating window body 2, the double-slider angle opening and closing mechanism 3 comprises a first motor driving device 31, a first slider assembly 32, a driving connecting rod 33, a lead screw driving mechanism 34, a second motor driving device 35 and a second slider assembly 36, the first motor driving device 31 and the second motor driving device 35 are respectively and fixedly installed at the bottom of the window The part, lead screw actuating mechanism 34 is all transversely installed to window frame 1 bottom and rotatory window body 2 bottom, first slider component 32 is installed on the lead screw actuating mechanism 34 of window frame 1 bottom, second slider component 36 is installed on the lead screw actuating mechanism 34 of rotatory window body 2 bottom, the both ends of drive connecting rod 33 rotate with first slider component 32 and second slider component 36 respectively and are connected, through the removal of controlling first slider component 32 and second slider component 36, can make rotatory window body 2 produce relative rotation and realize the angle control of rotatory window body 2 relative to window frame 1. The outside bottom of rotatory window form 2 is equipped with basin 22, the right-hand member of basin 22 is equipped with rain gauge 23, the left end of rotatory window form 2 is equipped with overhanging detection wind wheel device 5, it includes impeller 51, spliced pole 54, outrigger 56 and base 57 to detect wind wheel device 5, base 57 with rotatory window form 2 bottom fixed connection, outrigger 56 is L shape, outrigger 56 fixed connection is on base 57, outrigger 56's top is connected with rotary disk 55, be equipped with angle detection device on the rotary disk 55, spliced pole 54 through rotary disk 55 with outrigger 56 rotates and connects, impeller 51 is installed at the top of spliced pole 54, impeller 51's the epaxial detection motor 52 of installing of wheel, impeller 51's afterbody is equipped with water conservancy diversion fin 53. In order to achieve a better sealing effect, a first sealing bead 11 is arranged on the outer side edge of the window frame 1, a second sealing bead 21 is arranged on the inner side edge of the rotating window body 2, and the first sealing bead 11 and the second sealing bead 21 are arranged oppositely.

The first slider assembly 32 and the second slider assembly 36 are slidably mounted on the bottom of the window frame 1 and the bottom of the rotating window 2 through a sliding connection mechanism 37. The bottom of the water tank 22 is provided with a water guide inclined plane, the right end of the water guide inclined plane is connected with a rain measuring device 23, and a rainfall rate measuring device is arranged in the rain measuring device 23, so that the measuring sensitivity is improved. The left end of the window frame 1 is provided with a concave holding cabin 12, the outer edge of the holding cabin 12 is provided with an electric locking device, and the base 57 of the detection wind wheel device 5 can be locked in the holding cabin 12 by rotating the locking device.

The double-slider angle opening and closing mechanism 3 comprises a displacement and angle opening and closing conversion algorithm control module, and the rotary window body 2 is driven to rotate by the movement of the two slider components, so that the corresponding parameter relation between displacement control and angle control can be set in a control system, an angle instruction sent by a control device can be converted into a position instruction, and the indirect control process of window closing is realized. The window frame 1 comprises a control device, the control device comprises a precipitation and wind power logic judgment switch control module, a control mode can be selected during actual use, the window is closed if raining, if only wind and no rainfall exist, the system selects a proper opening and closing angle according to the wind direction or the wind power, if wind is small and no rain exists, the remote control of the control device can realize the autonomous control ventilation and the autonomous selection of the opening and closing angle of the window, and the intelligent autonomous control mode is realized.

In practical application, the control device can receive wind power and wind direction signals from the wind wheel detection device 5 and rainfall conditions measured by the rainfall measuring device 23, according to the parameters, a user can set control parameters in a parameter setting module of the control device, and the automatic control of window closing is realized through a rainfall and wind power logic judgment switch control module in the control device, so that intelligent full-automatic control is realized, the indoor ventilation requirement under necessary conditions can be ensured, the window can be closed in time under special conditions, and the influence of strong wind and strong rain on the indoor environment is avoided. Certainly, for those skilled in the art, the window can be automatically controlled to be closed or opened by the remote control device, the wind power, the wind direction and the rainfall condition can be transmitted to the outworkers in real time through the communication system, so that the outworkers can automatically refer to the outdoor environment condition, the outworkers can conveniently open or close the window, and the optimal autonomous control is realized.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.