CN108457553B

CN108457553B - Smart window system

Info

Publication number: CN108457553B
Application number: CN201810081870.4A
Authority: CN
Inventors: 姚平
Original assignee: Yangtze University
Current assignee: Yangtze University
Priority date: 2018-01-29
Filing date: 2018-01-29
Publication date: 2024-03-22
Anticipated expiration: 2038-01-29
Also published as: CN108457553A

Abstract

The invention discloses an intelligent window system, which comprises a central control module; a wind sensor and a raindrop sensor; an air outlet window arranged on the window frame; the second driving motor drives the air outlet window to rotate; and a first driving motor for driving the window sash to rotate; and each electric component is electrically connected with the central control module. Whether rain is outside the sensing chamber through the raindrop sensor to when sensing rain, thereby the central controller is through wind-force size grade that wind-force sensor gathered, thereby realize that the casement keeps the open state when wind-force size is not greater than wind-force threshold value scope maximum value, the second driving motor drives the window of air-out and outwards set up, and when wind-force size is greater than wind-force threshold value scope maximum value, control first driving motor drives the casement and closes, simultaneously control second driving motor drives the window of air-out upset to the indoor angle of orientation, adjust indoor air current, keep fresh air convection, thereby build more comfortable indoor environment.

Description

Smart window system

Technical Field

The invention relates to an intelligent home system, in particular to an intelligent window system.

Background

Weather change is unusual, when suddenly touch rainy day and people are not at home, if the window in home is not closed in time, then the rainwater easily floats into the room, and indoor environment and article are drenched and then damage is caused, if the person just at home, but can close the window in time, the indoor is stuffy and hot again after closing the window, fresh air is not felt, and people feel worry. When the current automatic window closing system detects rain, the window can be closed immediately, after the window is closed, indoor and outdoor air cannot be convected, so that indoor people feel suffocation, and the user feel worse.

Disclosure of Invention

The invention aims at the problems existing in the prior art, and provides an intelligent window system which can close windows in time and can keep fresh air convection.

To solve the above technical problems, the present invention provides a smart window system, which includes

A central control module;

the integrated sensing component is arranged on the outdoor wall of the window and is electrically connected with the central control module; the integrated sensing assembly comprises a wind sensor and a raindrop sensor;

the two-end bearings are arranged on the window frame, one end of the two-end bearings penetrate through the side edge of the window frame and are fixedly connected with a power output shaft of a fixedly arranged second driving motor, the air outlet window is connected with an air flow output port of an air pump through an air pipe, and the second driving motor and the air pump are respectively and electrically connected with the integrated sensing assembly through a central control module;

and the first driving motor is coaxially and fixedly connected with the window sash hinge rotating shaft through the power output shaft, and the first driving electrode is electrically connected with the integrated sensing assembly through the central control module.

Preferably, the left support rod and the right support rod extend outwards coaxially at two ends of the air outlet window, the left support rod and the right support rod are respectively sleeved on two side edges of the window frame through bearings, and one end support rod penetrates through the side edge of the window frame and is fixedly connected with a power output shaft of a fixedly arranged second driving motor.

Preferably, the integrated sensing assembly further comprises a temperature sensor and a barometric pressure sensor.

Preferably, the smart window system further comprises a control key, and the control key is electrically connected with the central control module.

Preferably, the control key comprises a one-key window opening and closing key electrically connected with the first driving motor through the central control module; and a one-key ventilation key electrically connected with the air pump through the central control module.

According to the intelligent window system, whether the outdoor is rained or not is sensed by the raindrop sensor, when the outdoor is rained or not, the central controller controls the working modes of the first driving motor and the second driving motor through the wind power level collected by the wind sensor, when the wind power level is not larger than the maximum value of the wind power threshold range, the window sash is kept in an open state, the freshness of indoor air is guaranteed, the second driving motor drives the air outlet window to be arranged outwards, the air flow blown out of the air outlet window forms an air curtain for blocking rainwater, and when the wind power level is larger than the maximum value of the wind power threshold range, namely, the rainwater can float into the window under the driving of wind power, the first driving motor is controlled to drive the window sash to be closed, and meanwhile, the second driving motor is controlled to drive the air outlet window to turn to an indoor angle, the indoor air flow is regulated, and the fresh air convection is kept, so that a more comfortable indoor environment is created.

Drawings

FIG. 1 is a schematic view of a smart window system according to the present invention;

fig. 2 is a block diagram of the electrical module control of the smart window system of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

The invention provides an intelligent window system, which is shown in fig. 1 and 2, and comprises a central control module 1, an integrated sensing assembly 2, an air outlet window 3, an air pump 4, a first driving motor 5 and a second driving motor 6.

The integrated sensor assembly 2 is disposed on a window outdoor wall and electrically connected to the central control module 1, and specifically, the integrated sensor assembly 2 includes a wind sensor 21, a raindrop sensor 22, a temperature sensor 23, and an air pressure sensor 24.

The two end bearings of the strip-shaped air outlet window 3 are arranged on the window frame 7, the length of the strip-shaped air outlet window is consistent with the horizontal width of the window sash 8, the strip-shaped air outlet window is connected with an air flow output port of the air pump 4 through an air pipe, and the air pump 4 is electrically connected with the integrated sensing assembly 2 through the central control module 1. Specifically, the left and right support rods coaxially extend outwards from two ends of the air outlet window 3, the left and right support rods are respectively sleeved on two sides of the window frame 7 in a bearing manner, one end of the left and right support rods penetrates through the side of the window frame 7 and is fixedly connected with a power output shaft of the second driving motor 6 which is fixedly arranged, and the second driving motor 6 is electrically connected with the integrated sensing assembly 2 through the central control module 1. Meanwhile, an air inlet of the air pump 4 is communicated with the outside, and the opening direction of the air inlet is vertically downward.

The first driving motor 5 is fixedly connected with a hinge rotating shaft of the window sash 8 through a power output shaft in a coaxial mode and is electrically connected with the integrated sensing assembly 2 through the central control module 1.

The central control module 1 is preset with a plurality of rotation modes of the second driving motor 6, and each rotation mode corresponds to a corresponding triggering condition. Specifically, four rotation modes of the second driving motor 6 are preset in the central control module 1, namely, the first rotation mode is that when the raindrop sensor 22 senses that the window is raining, but the wind force sensed by the wind sensor 21 is smaller than the minimum value of the wind force threshold range, the central control module 1 controls the second driving motor 6 to drive the air outlet window 3 to rotate to an angle set horizontally and outwards, so that the air flow blown out by the air pump 4 is vertically set in the falling direction of the rainwater, a relatively stable air curtain is formed, the effect of blocking the rainwater is achieved, and meanwhile, the outdoor air can enter the room through the window, and the freshness of the air is maintained.

The second rotation mode is that when the raindrop sensor 22 senses that the outside of the window is raining and the wind force sensed by the wind sensor 21 falls within the wind force threshold value range, because the wind force is large at this time, the rainwater possibly floats into the window from the lower edge of the window frame 7 under the drive of the wind force, so the central control module 1 controls the second driving motor 6 to drive the air outlet window 3 to overturn downwards to form an inclined air curtain, so that the rainwater is prevented from drifting into the window from the lower edge of the window frame 7; specifically, the second driving motor 6 drives the angle of rotation of the air outlet window 3 to change along with the change of the wind power sensed by the wind sensor 21, the larger the wind power value sensed by the wind sensor 21 is, the larger the angle of downward turning of the angle of rotation of the second driving motor 6 drives the air outlet window 3 from the horizontal angle is, and the air outlet window 3 reaches the maximum turning angle, namely the vertical setting is downward until the wind power sensed by the wind sensor 21 is the maximum value of the wind power threshold range.

The third rotation mode is that when the wind force magnitude sensed by the wind sensor 21 is greater than the maximum value of the wind force threshold range, at this time, whether the raindrop sensor 22 senses that the window is raining or not, in order to avoid the damage of indoor articles caused by overlarge wind force in the outdoor environment, the central control module 1 controls the second driving motor 6 to drive the air outlet window 3 to turn over to an indoor angle, regulates indoor airflow, maintains fresh air convection, and simultaneously controls the first driving motor 5 to drive the window sash 8 to rotate and close.

The fourth rotation mode is that when the raindrop sensor 22 does not sense that the window is raining, the wind force sensed by the wind sensor 21 is smaller than the minimum value of the wind force threshold range, the temperature sensor 23 senses that the outdoor temperature is higher than the temperature threshold range, and the air pressure sensor 24 senses that the outdoor air pressure is lower than the lowest pressure, the central control module 1 judges that the weather at the moment is sultry, and then controls the second driving motor 6 to drive the air outlet window 3 to overturn to an indoor angle, so that the indoor air flow is regulated, and the convection of fresh air is maintained.

The intelligent window system further comprises a control key 9, wherein the control key 9 is electrically connected with the central control module 1, and the control key 9 comprises a one-key window opening and closing key electrically connected with the first driving motor 5 through the central control module 1; and a one-key ventilation key electrically connected with the air pump 4 through the central control module 1. When a user presses a one-key window opening and closing button, the central control module 1 controls the first driving motor 5 to rotate clockwise or anticlockwise so as to control the closed window to be opened or the opened window to be closed, and when the user presses a one-key ventilation button, the central control module 1 directly controls the air pump 4 to start working so as to pump outdoor air into a room to perform internal and external ventilation.

According to the intelligent window system, whether the outdoor is rainy or not is sensed by the raindrop sensor 22, when the rainy is sensed, the central controller controls the working modes of the first driving motor 5 and the second driving motor 6 according to the wind power level acquired by the wind sensor 21, when the wind power level is not greater than the maximum value of the wind power threshold range, the window sashes 8 are kept in an open state, the freshness of indoor air is ensured, the second driving motor 6 drives the air outlet window 3 to be arranged outwards, the blown air flow forms an air curtain for blocking rainwater, and when the wind power level is greater than the maximum value of the wind power threshold range, namely, the rainwater can float into the window under the driving of wind power, the first driving motor 5 is controlled to drive the window sashes 8 to be closed, and meanwhile, the second driving motor 6 is controlled to drive the air outlet window 3 to be overturned to an indoor angle, the indoor air flow is regulated, and the fresh air convection is kept, so that a more comfortable indoor environment is created.

The above-described embodiments of the present invention do not limit the scope of the present invention. Any other corresponding changes and modifications made in accordance with the technical idea of the present invention shall be included in the scope of the claims of the present invention.

Claims

1. A smart window system, comprising

A central control module (1);

the integrated sensing component (2) is arranged on the outdoor wall of the window and is electrically connected with the central control module (1); the integrated sensing assembly (2) comprises a wind sensor (21) and a rain sensor (22);

the two-end bearings are arranged on the window frame (7), one end of the two-end bearing penetrates through the side edge of the window frame (7) and is fixedly connected with a power output shaft of a fixedly arranged second driving motor (5), the air output window (3) is connected with an air flow output port of an air pump (4) through an air pipe, and the second driving motor (5) and the air pump (4) are respectively and electrically connected with the integrated sensing assembly (2) through a central control module (1);

the first driving motor (6) is coaxially and fixedly connected with a hinge rotating shaft of the window sash (8) through a power output shaft, and the first driving motor (6) is electrically connected with the integrated sensing assembly (2) through the central control module (1);

the integrated sensing assembly (2) further comprises a temperature sensor (23) and a barometric pressure sensor (24);

the intelligent window system further comprises a control key (9), wherein the control key (9) is electrically connected with the central control module (1);

the control key (9) comprises a one-key window opening and closing key which is electrically connected with the first driving motor (6) through the central control module (1); and a one-key ventilation key electrically connected with the air pump (4) through the central control module (1);

an air inlet of the air pump (4) is communicated with the outside, and the opening direction of the air inlet is vertically downward;

the central control module (1) is internally preset with the following four rotation modes of the second driving motor (5):

first kind: when the raindrop sensor (22) senses that the outside of the window is raining, but the wind force sensed by the wind sensor (21) is smaller than the minimum value of the wind force threshold range, the central control module (1) controls the second driving motor (5) to drive the air outlet window (3) to rotate to a horizontally and outwards arranged angle;

second kind: when the raindrop sensor (22) senses that the outside of the window is raining and the wind force sensed by the wind sensor (21) falls into the wind force threshold range, the central control module (1) controls the second driving motor (5) to drive the air outlet window (3) to overturn downwards from a horizontal angle;

third kind: when the wind power sensed by the wind sensor (21) is greater than the maximum value of the wind power threshold range, the central control module (1) controls the second driving motor (5) to drive the air outlet window (3) to turn over to an indoor angle;

fourth kind: when the raindrop sensor (22) does not sense that the window is raining, the wind power sensed by the wind sensor (21) is smaller than the minimum value of the wind power threshold range, the temperature sensor (23) senses that the outdoor temperature is higher than the temperature threshold range, and the air pressure sensor (24) senses that the outdoor air pressure is lower than the lowest pressure, the central control module controls the second driving motor (5) to drive the air outlet window (3) to overturn to an indoor-oriented angle.

2. The intelligent window system according to claim 1, wherein the two ends of the air outlet window (3) are extended out coaxially to form left and right support rods, the left and right support rods are respectively sleeved on two side edges of the window frame (7) in a bearing manner, and one end of the support rod penetrates through the side edge of the window frame (7) and is fixedly connected with a power output shaft of the fixedly arranged first driving motor (6).