CN110567071B

CN110567071B - Intelligent indoor air conditioning integrated system based on automatic window

Info

Publication number: CN110567071B
Application number: CN201810570964.8A
Authority: CN
Inventors: 魏星; 李秀竹; 季鑫霖; 毛国祯; 赵伟龙
Original assignee: East China Jiaotong University
Current assignee: East China Jiaotong University
Priority date: 2018-06-05
Filing date: 2018-06-05
Publication date: 2024-02-06
Anticipated expiration: 2038-06-05
Also published as: CN110567071A

Abstract

The invention relates to an intelligent indoor air conditioning integrated system based on an automatic window, which consists of a solar power generation panel, a storage battery, a control module, a mobile terminal, a wireless communication module, a learning module, a storage module, a timing module, a detection module I, a detection module II, an automatic window, an automatic curtain, an air conditioner, a humidifier, a sweeping and dragging robot and a manual control keyboard. The solar power generation panel supplies power to the control module through the storage battery, the detection module I and the detection module II detect indoor and outdoor air parameters, and the control module adjusts the working states of the automatic window, the automatic curtain, the air conditioner, the humidifier and the sweeping and dragging integrated robot through the comparison result of the parameters. The learning module and the storage module provide an adjusting scheme for the whole system, and the experience of a user is improved. The user can also adjust the combination and working state of the whole system through the mobile terminal or the manual control keyboard, the intelligent degree is high, and the application range is wide.

Description

Intelligent indoor air conditioning integrated system based on automatic window

Technical Field

The invention relates to the technical field of air conditioning equipment, in particular to an intelligent indoor air conditioning integrated system based on an automatic window.

Background

In recent years, with the improvement of the living standard of people and the rapid development of scientific technology, the use of home appliances such as air conditioners, humidifiers, sweeping and dragging robots, automatic windows and the like is becoming more and more common. However, at present, the use and operation of the household devices are independent, the functions are relatively single, and the comprehensive management and control of various devices are inconvenient.

When people adopt automatic windows to adjust indoor environments, parameters such as indoor temperature and humidity are consistent with outdoor, but in hot summer or cold winter, the single adjustment cannot meet the requirements of people on comfort, and meanwhile, dust on indoor ground can be caused by opening the windows.

Therefore, it is important to design a set of integrated system capable of reasonably adjusting the indoor environment according to the habit and experience of the user based on the unified indoor and outdoor environments.

Disclosure of Invention

In order to overcome the defects of the background technology and meet the requirements of intelligence, practicability, energy conservation and environmental protection, the patent provides an intelligent indoor air conditioning integrated system based on an automatic window. The initial use process of the system is a learning and training process, can be divided into a host mode and a guest mode according to the difference of the individuals of the user, and is automatically adjusted by learning to acquire or autonomously set the favorite or habit environmental parameters of the user, so that the experience of the user is improved. The system detects indoor and outdoor air parameters through the detection module I and the detection module II which are respectively arranged on the inner surface and the outer surface of the automatic window, and the control module adjusts the indoor environment in real time through the comparison result of the parameters. The system is provided with a timing module which can adjust indoor air to the most comfortable state of the user before the user goes home from work. In addition, the user can also adjust the working state of the whole system through the mobile terminal or a manual control keyboard.

The technical scheme adopted by the invention for solving the technical problems comprises the following steps: an intelligent indoor air conditioning integrated system based on an automatic window comprises a solar power generation panel, a storage battery, a control module, a mobile terminal, a wireless communication module, a learning module, a storage module, a timing module, a detection module I, a detection module II, the automatic window, an automatic curtain, an air conditioner, a humidifier, a sweeping and dragging integrated robot and a manual control keyboard. The method is basically characterized in that: an empty groove (25) is formed in the upper surface of a fixed frame (24) of the automatic window (12), and a storage battery (2), a control module (3), a timing module (4), a learning module (5) and a storage module (6) are placed in the empty groove (25); the detection module I (7) is embedded on the outer surface of the fixed frame (24) through welding; the detection module II (8) is embedded on the inner surface of the fixed frame (24) through welding; the solar power generation plate (1) is welded at the upper part of a fixed frame (24) of the automatic window (12); the solar power generation panel (1) is connected with the storage battery (2) through the photovoltaic charge controller; the control module (3) is connected with the storage battery (2) through a wire; the timing module (4), the learning module (5), the storage module (6) and the manual control keyboard (18) are respectively and electrically connected with the control module (3); the automatic curtain (11), the automatic window (12), the air conditioner (13), the humidifier (14) and the sweeping and dragging integrated robot (15) are respectively in communication connection with the control module (3) through the wireless communication module (16). The upper surface of the bottom of the fixed frame (24) of the automatic window (12) is connected with a driving module I (9) through an elastic wheel II (39), and the driving module I (9) is electrically connected with the control module (3); the automatic curtain (11) is connected with the driving module II (10) through the elastic wheel I (38), and the driving module II (10) is electrically connected with the control module (3). An illumination sensor (26), a humidity sensor (27), a temperature sensor (28), a wind speed sensor (29), a reducing gas sensor (30) and a combustible gas sensor (31) are welded on the detection module I (7), and all the sensors are electrically connected with the detection module I (7); an illumination sensor (32), a humidity sensor (33), a temperature sensor (34), a wind speed sensor (35), a reducing gas sensor (36) and a combustible gas sensor (37) are welded on the detection module II (8), and all the sensors are electrically connected with the detection module II (8); the detection module I (7) and the detection module II (8) are electrically connected with the control module (3). The mobile terminal (17) is connected with the control module (3) through the wireless communication module (16). A main switch button (19), a window connecting gate (20), an air conditioner connecting gate (21), a humidifier connecting gate (22) and a sweeping and dragging integrated robot connecting gate (23) are arranged on the manual control keyboard (18).

Compared with the background technology, the invention has the following beneficial effects:

(1) The automatic window, the air conditioner, the humidifier and the sweeping and dragging robot are integrated into one adjusting system, so that parameters such as humidity and temperature of indoor air can be effectively adjusted, and cleanliness of indoor environment is maintained.

(2) The control module can extract expected data acquired by the learning module from the storage module, and adjust the expected data according to the data, so that the experience of a user can be improved, and the indoor environment is more close to the ideal environment of the user.

(3) The system generates power through the solar power generation panel, and charges the storage battery through the photovoltaic charging controller, so that the whole system can adjust indoor air parameters even in overcast and rainy days or at night, the experience of a user is guaranteed in real time, and the system is more energy-saving and environment-friendly.

(4) The timing module is additionally arranged in the system, and after the set time is reached, the control module can control the matched equipment in the whole system to perform corresponding operation. Moreover, the timing control can more reasonably utilize resources, and waste is avoided.

Drawings

Fig. 1 is an exterior view of an automatic window according to the present invention.

Fig. 2 is a view of the inner surface of the automatic window of the present invention.

Fig. 3 is a diagram of the kit of the present invention.

Fig. 4 is a system block diagram of the present invention.

Detailed Description

The invention is further illustrated by the following examples in conjunction with the accompanying drawings:

fig. 1 is an exterior view of an automatic window according to the present invention, and mainly includes a solar power panel (1), a battery (2), a control module (3), a timing module (4), a learning module (5), a storage module (6), a detection module I (7), a driving module I (9), a driving module II (10), an automatic window (12), a fixing frame (24), a hollow groove (25), an illumination sensor (26), a humidity sensor (27), a temperature sensor (28), a wind speed sensor (29), a reducing gas sensor (30), and a combustible gas sensor (31).

Fig. 2 is an inner surface view of the automatic window, which mainly comprises a storage battery (2), a control module (3), a timing module (4), a learning module (5), a storage module (6), a detection module II (8), a driving module I (9), a driving module II (10), an automatic curtain (11), an automatic window (12), a manual control keyboard (18), a main switch button (19), a window connecting gate (20), an air conditioner connecting gate (21), a humidifier connecting gate (22), a sweeping and dragging integrated robot connecting gate (23), an empty slot (25), an illumination sensor (32), a humidity sensor (33), a temperature sensor (34), a wind speed sensor (35), a reducing gas sensor (36), a combustible gas sensor (37), an elastic wheel I (38) and an elastic wheel II (39).

Fig. 3 is a diagram of the matched equipment of the invention, which mainly comprises an automatic curtain (11), an automatic window (12), an air conditioner (13), a humidifier (14), a sweeping and dragging robot (15), a wireless communication module (16) and a mobile terminal (17).

Fig. 4 is a system block diagram of the present invention, which operates: the solar power generation panel (1) converts solar energy into electric energy, and the electric energy is stored in the storage battery (2) through the photovoltaic charging controller to supply power for the control module (3) and auxiliary modules of the whole system. The detection module I (7) monitors the illumination intensity, humidity, temperature, wind speed, concentration of the reducing gas and concentration of the combustible gas in the outdoor environment, and the detection module II (8) monitors the illumination intensity, humidity, temperature, wind speed, concentration of the reducing gas and concentration of the combustible gas in the indoor environment. The detection module I (7) and the detection module II (8) transmit the monitored data to the control module (3), and the control module (3) adjusts the working states of the automatic curtain (11), the automatic window (12), the air conditioner (13), the humidifier (14) and the sweeping and dragging integrated robot (15) according to parameters. The learning module (5) learns and obtains illumination intensity, humidity, temperature, wind speed and the like which are liked or used by a user so as to improve the experience of the user, the learned expected data are continuously corrected along with the operation of the user, and the learned expected data are stored in the storage module (6) through the control module (3) to serve as an adjustment scheme, so that the control module (3) can control each device to work when working next time. The user can remotely control the states of all devices in the system through the mobile terminal (17), so that the system is convenient and flexible, and the indoor environment can reach the state desired by the user before the user arrives at the room. The timing module (4) can perform corresponding operation in a designated time under the control of the control module (3), and can adjust the indoor environment to the most comfortable state before the user reaches the indoor. The user can also control the composition of the whole integrated system through a manual control keyboard (18).

The principle of the invention is as follows:

the invention connects common household electrical equipment into a set of indoor air conditioning system, and realizes intelligent control based on internet information transmission. In an initial working state, the solar power generation panel (1) converts solar energy into electric energy, and the electric energy is stored in the storage battery (2) through the photovoltaic charging controller to supply power for the control module (3) and auxiliary modules of the whole system. Meanwhile, the whole set of adjusting system is convenient to work in the night or in the rainy days. The detection module I (7) monitors the illumination intensity, humidity, temperature, wind speed, concentration of the reducing gas and concentration of the combustible gas in the outdoor environment, and the detection module II (8) monitors the illumination intensity, humidity, temperature, wind speed, concentration of the reducing gas and concentration of the combustible gas in the indoor environment. The detection module I (7) and the detection module II (8) transmit the monitored data to the control module (3), and the control module (3) automatically sets working states according to the indoor and outdoor air parameters detected by the detection module I (7) and the detection module II (8). When the indoor and outdoor environment parameters meet the set requirements, the control module (3) controls the driving module I (9) to work, so that the automatic window (12) is automatically opened to perform preliminary air conditioning; when the outdoor light intensity is too strong, the control module (3) controls the driving module II (10) to work, so that the automatic curtain (11) adjusts the on-off state according to the light intensity. After the open air conditioning process reaches a dynamic balance state, the control module (3) controls the driving module I (9) to work, so that the automatic window (12) is closed. The control module (3) controls the air conditioner (13) and the humidifier (14) to work through the wireless communication module (16) and adjusts the humidity and the temperature of indoor air to a state with the highest user experience degree; meanwhile, the control module (3) controls the sweeping and dragging integrated robot (15) to work through the wireless communication module (16) so as to clean the indoor ground.

The initial use process of the system is a learning and training process, and the requirements on the ambient air are different according to the individual users. Therefore, a learning module (5) is arranged in the system, and the illumination intensity, humidity, temperature, wind speed and the like which are liked or used by the user are learned and acquired, so that the experience of the user is improved. The learning module (5) is divided into two modes, a host mode and a guest mode. The learning module (5) in the host room learns according to the operation record and the operation feedback record of the user, and the learning module (5) in the guest room mainly records the parameters set by the guest. The expected data learned by the learning module (5) is continuously corrected along with the operation of a user, and the expected data is stored in the storage module (6) through the control module (3) to serve as an adjustment scheme, so that the control module (3) can control each device to work when working next time.

In the whole system, the mobile terminal (17) is connected with the control module (3) through the wireless communication module (16), and a user can remotely control the states of all devices in the system through the mobile terminal (17), so that the system is convenient and flexible, and the indoor environment can reach the state desired by the user before the user reaches a room. The system is also provided with the timing module (4), the timing module (4) can perform corresponding operation in a designated time under the control of the control module (3), and the indoor environment can be adjusted to the most comfortable state before a user achieves an indoor state.

A manual control keyboard (18) is arranged indoors, and a main switch button (19) is electrically connected to the manual control keyboard, so that the power supply of the control module (3) can be turned off, and the devices in the whole system are in mutually independent states. In addition, a window connecting gate (20), an air conditioner connecting gate (21), a humidifier connecting gate (22) and a sweeping and dragging integrated robot connecting gate (23) are further connected to the manual control keyboard (18), and can control one device of the automatic window (12), the air conditioner (13), the humidifier (14) and the sweeping and dragging integrated robot (15) to be separated from the control of the control module (3) respectively, so that the composition of the whole set of integrated system is adjusted according to the needs of a user.

Claims

1. An intelligent indoor air conditioning integrated system based on an automatic window comprises a solar power generation panel, a storage battery, a control module, a mobile terminal, a wireless communication module, a learning module, a storage module, a timing module, a detection module I, a detection module II, the automatic window, an automatic curtain, an air conditioner, a humidifier, a sweeping and dragging integrated robot and a manual control keyboard; the method is basically characterized in that: an empty groove (25) is formed in the upper surface of a fixed frame (24) of the automatic window (12), and a storage battery (2), a control module (3), a timing module (4), a learning module (5) and a storage module (6) are placed in the empty groove (25); the detection module I (7) is embedded on the outer surface of the fixed frame (24) through welding; the detection module II (8) is embedded on the inner surface of the fixed frame (24) through welding; the solar power generation plate (1) is welded at the upper part of a fixed frame (24) of the automatic window (12); the solar power generation panel (1) is connected with the storage battery (2) through the photovoltaic charge controller; the control module (3) is connected with the storage battery (2) through a wire; the timing module (4), the learning module (5), the storage module (6) and the manual control keyboard (18) are respectively and electrically connected with the control module (3); the automatic curtain (11), the automatic window (12), the air conditioner (13), the humidifier (14) and the sweeping and dragging integrated robot (15) are respectively in communication connection with the control module (3) through the wireless communication module (16);

the learning module (5) learns and acquires the illumination intensity, humidity, temperature and wind speed which are liked or used by a user so as to improve the experience of the user, the learning module (5) is divided into two modes, namely a host mode and a guest mode, the learning module (5) in a host room learns according to the operation record and the operation feedback record of the user, the learning module (5) in the guest room mainly records the parameters set by the guest, expected data learned by the learning module (5) are continuously corrected along with the operation of the user, and the expected data are stored in the storage module (6) through the control module (3) as an adjustment scheme so as to facilitate the control module (3) to control each device to work in the next working;

when the solar energy power generation device is in an initial working state, the solar energy power generation panel (1) converts solar energy into electric energy, the electric energy is stored in the storage battery (2) through the photovoltaic charging controller, power is supplied to the control module (3) and auxiliary modules of the whole system, the detection module I (7) monitors illumination intensity, humidity, temperature, wind speed, concentration of reducing gas and concentration of combustible gas in an outdoor environment, the detection module II (8) monitors illumination intensity, humidity, temperature, wind speed, concentration of reducing gas and concentration of combustible gas in an indoor environment, the detection module I (7) and the detection module II (8) transmit monitored data to the control module (3), and the control module (3) automatically sets the working state according to indoor and outdoor air parameters detected by the detection module I (7) and the detection module II (8); when the indoor and outdoor environment parameters meet the set requirements, the control module (3) controls the driving module I (9) to work, so that the automatic window (12) is automatically opened to perform preliminary air conditioning; when outdoor light intensity is too strong, the control module (3) controls the driving module II (10) to work, so that the automatic curtain (11) is controlled to be in a dynamic balance state according to the light intensity regulation switch state, after the open air regulation process reaches the dynamic balance state, the control module (3) controls the driving module I (9) to work, so that the automatic window (12) is closed, the control module (3) controls the air conditioner (13) and the humidifier (14) to work through the wireless communication module (16), the humidity and the temperature of indoor air are regulated to the state with the highest user experience degree, and meanwhile, the control module (3) controls the sweeping and dragging integrated robot (15) to work through the wireless communication module (16) so as to clean the indoor ground.

2. An intelligent indoor air conditioning integrated system based on an automatic window as set forth in claim 1, wherein: the upper surface of the bottom of the fixed frame (24) of the automatic window (12) is connected with a driving module I (9) through an elastic wheel II (39), and the driving module I (9) is electrically connected with the control module (3); the automatic curtain (11) is connected with the driving module II (10) through the elastic wheel I (38), and the driving module II (10) is electrically connected with the control module (3).

3. An intelligent indoor air conditioning integrated system based on an automatic window as set forth in claim 1, wherein: an illumination sensor (26), a humidity sensor (27), a temperature sensor (28), a wind speed sensor (29), a reducing gas sensor (30) and a combustible gas sensor (31) are welded on the detection module I (7), and all the sensors are electrically connected with the detection module I (7); an illumination sensor (32), a humidity sensor (33), a temperature sensor (34), a wind speed sensor (35), a reducing gas sensor (36) and a combustible gas sensor (37) are welded on the detection module II (8), and all the sensors are electrically connected with the detection module II (8); the detection module I (7) and the detection module II (8) are electrically connected with the control module (3).

4. An intelligent indoor air conditioning integrated system based on an automatic window as set forth in claim 1, wherein: the mobile terminal (17) is connected with the control module (3) through the wireless communication module (16).

5. An intelligent indoor air conditioning integrated system based on an automatic window as set forth in claim 1, wherein: a main switch button (19), a window connecting gate (20), an air conditioner connecting gate (21), a humidifier connecting gate (22) and a sweeping and dragging integrated robot connecting gate (23) are arranged on the manual control keyboard (18).