CN206563408U - A kind of indoor temperature and humidity control system - Google Patents

Abstract

The utility model discloses an indoor temperature and humidity control system, which is provided with a temperature and humidity detection module, a rainwater detection module, a controller module, a wireless transmission module, an air conditioner controller with a built-in wireless transmission sub-module, an air conditioner, a linkage, and doors and windows. Or during the heating process, the timing switch or the air conditioner is switched on when the set temperature is reached to maintain the indoor temperature and humidity. The signals of external temperature and humidity and the amount of rainwater are sent to the air-conditioning controller with built-in wireless transmission sub-module through the wireless transmission module to further adjust the switch of the air conditioner, cooling and heating, and in the process of adjusting the indoor temperature and humidity, through the control linkage The door and window can be opened or closed by the device to properly improve the indoor and outdoor air circulation, further improve the indoor temperature and humidity, and increase the comfort of the user.

Description

An indoor temperature and humidity control system

technical field

The utility model relates to a temperature and humidity control system, in particular to an indoor temperature and humidity control system.

Background technique

Air conditioners are one of the electrical appliances commonly used in people's daily life. They are used to deal with the temperature, humidity, purity and airflow velocity of the air to meet people's production and living needs.

The performance of the air conditioner is constantly improving, such as setting the temperature, automatic switching of the air conditioner, timing switch of the air conditioner, automatic wind change and so on. However, in actual application, there are still many problems: after the user closes the doors and windows and starts the air conditioner, the air conditioner will keep cooling or heating. During sleep, the user wakes up and turns off the air conditioner because it is too cold, too hot or too dry; After closing the doors and windows and starting the air conditioner, set a timer to turn off the air conditioner. After the timer expires, the air conditioner will be turned off. However, after a certain period of time, the indoor temperature will gradually return to normal temperature. However, if the doors and windows are closed, the indoor environment will be hot or cold, and the user will Get up and turn on the air conditioner. Both of these situations are caused by the fact that the actual performance of the air conditioner cannot meet the actual application, which will not only affect the sleep of the user, but also cause physical discomfort due to the change of the temperature difference. Therefore, a system for indoor temperature and humidity control based on the existing air conditioner and satisfying the user's comfort needs to be proposed.

Utility model content

The utility model provides an indoor temperature and humidity control system, which solves the problem that the existing air-conditioning application has poor temperature and humidity adjustment performance in the life of users, which leads to the problem of affecting the user's comfort.

The utility model solves the above problems through the following technical solutions:

An indoor temperature and humidity control system, including a temperature and humidity detection module, a rain detection module, a controller module, a wireless transmission module, an air-conditioning controller with a built-in wireless transmission sub-module, an air conditioner, a linkage, and doors and windows;

The temperature and humidity detection module is composed of at least one first temperature and humidity detection submodule and at least one second temperature and humidity detection submodule; each of the first temperature and humidity detection submodules is installed outdoors to collect outdoor temperature and humidity; the first temperature and humidity detection submodule is installed outdoors; The second temperature and humidity detection sub-module is installed indoors to collect indoor temperature and humidity; the rain detection module is installed outdoors to detect the amount of outdoor rain;

The output ends of each of the first temperature and humidity detection submodules are connected to the controller module; the output ends of each of the second temperature and humidity detection submodules are connected to the controller module; the output ends of the rain detection module are connected to the controller module connected; the controller module is connected to the air conditioner controller with the built-in wireless transmission sub-module through the wireless transmission module; the air conditioner controller with the built-in wireless transmission module is connected to the air conditioner; the control terminal of the linkage is connected to the controller module; The linkage opens or closes the doors and windows under the control of the controller module.

Further, the wireless transmission module is WiFi; the air conditioner controller with built-in wireless transmission sub-module is an air conditioner controller with built-in WiFi.

Further, the first temperature and humidity detection submodule and the second temperature and humidity detection submodule are both temperature and humidity sensors, and the temperature and humidity sensors are mainly composed of a temperature measuring element, a humidity measuring element, a microcontroller and a serial interface; The temperature measuring element measures temperature, and the humidity measuring element measures humidity. The temperature signal and humidity signal are input to the microcontroller and output to the controller module through the serial interface.

Further, the rain detection module is a rain detection sensor, and the rain detection sensor is mainly composed of a detection sub-module, a reference voltage sub-module, a comparator, a controller and a heating wire;

The output terminal of the detection submodule is connected to the reverse terminal of the comparator, the reference voltage submodule is connected to the same direction terminal of the comparator, the output terminal of the comparator is connected to the heating wire through the controller, and the heating wire The wire is installed at the bottom of the detection sub-module to supply heat to the detection sub-module.

Further, the linkage mainly includes a motor drive sub-module, a motor and a lever; the motor drive sub-module receives the control signal from the controller module, and drives the motor to drive the lever to open or close the doors and windows.

Compared with the prior art, it has the following characteristics:

A temperature and humidity detection module, a rain detection module, a controller module, a wireless transmission module, an air conditioner controller with a built-in wireless transmission sub-module, an air conditioner, a linkage, and doors and windows are set, wherein the temperature and humidity detection module is composed of at least one first temperature and humidity The detection module is composed of at least one second temperature and humidity detection module. The first temperature and humidity detection modules are installed outdoors to collect outdoor temperature and humidity; the second temperature and humidity are installed indoors to collect indoor temperature and humidity; Or during the heating process, the timing switch or the air conditioner is switched on when the set temperature is reached to maintain the indoor temperature and humidity. The signals of external temperature and humidity and the amount of rainwater are sent to the air-conditioning controller with built-in wireless transmission sub-module through the wireless transmission module to further adjust the switch of the air conditioner, cooling and heating, and in the process of adjusting the indoor temperature and humidity, through the control linkage The door and window can be opened or closed by the device to properly improve the indoor and outdoor air circulation, further improve the indoor temperature and humidity, and increase the comfort of the user.

Description of drawings

Fig. 1 is a structural principle block diagram of the utility model.

detailed description

The utility model will be further described below in conjunction with the examples, but the utility model is not limited to these examples.

An indoor temperature and humidity control system, comprising a temperature and humidity detection module, a rainwater detection module, a controller module, a wireless transmission module, an air conditioner controller with a built-in wireless transmission sub-module, an air conditioner, a linkage, and doors and windows; the temperature and humidity detection module consists of At least one first temperature and humidity detection submodule and at least one second temperature and humidity detection submodule; each of the first temperature and humidity detection submodules is installed outdoors to collect outdoor temperature and humidity; each of the second temperature and humidity detection submodules Installed indoors to collect indoor temperature and humidity; the rain detection module is installed outdoors to detect the amount of outdoor rain; the output terminals of each of the first temperature and humidity detection sub-modules are connected to the controller module; the second temperature and humidity detection sub-modules The output end of the module is connected with the controller module; the output end of the rain detection module is connected with the controller module; the controller module is connected with the air conditioner controller of the built-in wireless transmission sub-module through the wireless transmission module; the built-in wireless transmission The air conditioner controller of the module is connected with the air conditioner; the control end of the linkage is connected with the controller module; the linkage opens or closes the doors and windows under the control of the controller module.

In the application of the existing air conditioner, the user sets the time and temperature on the air conditioner controller, and the air conditioner judges by itself and automatically turns on or off the air conditioner. Since its performance cannot reach the expected effect and affects the comfort of the user, it is installed at least indoors and outdoors. A temperature and humidity detection sub-module is used to detect indoor and outdoor temperature and humidity respectively. The data is used to provide further data basis for the opening and closing, cooling and heating of the air conditioner, so that the air conditioner can also be based on the indoor and outdoor temperature and humidity. Changes, further opening or closing, cooling or heating, or as a data basis for whether to open doors and windows.

The controller module records the indoor and outdoor temperature and humidity data when the air conditioner is started. The air conditioner adjusts the indoor temperature and humidity according to the received preset temperature and humidity by starting or shutting down, cooling or heating, and combining the door and window opening and closing of the linkage. After reaching the preset temperature and humidity, after the air conditioner is turned off or on standby, when the controller module detects that the indoor temperature and humidity is close to the outdoor temperature and humidity, it starts to improve the indoor temperature and humidity by starting or closing, cooling or heating, and opening and closing doors and windows, until the indoor The temperature and humidity reach the preset temperature and humidity value again. As for how close the indoor temperature and humidity are to the outdoor temperature and humidity, the indoor temperature and humidity can be readjusted at the beginning. The user can set it through a device with WiFi function, such as a mobile phone, and the set data is transmitted to the controller module and finally to the air conditioner.

Furthermore, the first temperature and humidity detection sub-module and the second temperature and humidity detection sub-module are both temperature and humidity sensors, and the temperature and humidity sensors are mainly composed of a temperature measuring element, a humidity measuring element, a microcontroller and a serial interface The temperature measuring element measures temperature, the humidity measuring element measures humidity, and the temperature signal and humidity signal are input to the microcontroller and output to the controller module through the serial interface.

It is further equipped with a rainwater detection module. Due to the existence of rainwater, it will affect the outdoor temperature and humidity. Therefore, while detecting the outdoor temperature and humidity, outdoor rainwater detection is also performed to further improve the accuracy of the data. Based on the temperature and humidity sensor data and the data given by the rain detection, the controller module serves as the basis for switching on and off the air conditioner, cooling and heating, and whether to open the doors and windows.

Furthermore, the rain detection module is a rain detection sensor, and the rain detection sensor is mainly composed of a detection sub-module, a reference voltage sub-module, a comparator, a controller and a heating wire; the output terminal of the detection sub-module is compared with connected to the reverse terminal of the comparator, the reference voltage sub-module is connected to the same direction terminal of the comparator, the output terminal of the comparator is connected to the heating wire through the controller, and the heating wire is installed at the bottom of the detection sub-module, giving Detect sub-module heat supply. When it rains outside, it will affect the outdoor humidity. The second temperature and humidity detection sub-module will transmit the detected data to the controller module, and the controller module will open and close the doors and windows through the linkage to further adjust the indoor humidity.

The wireless transmission module is used to connect to the air-conditioning controller with the built-in wireless transmission sub-module. After the user sets the timing or temperature, the set data will be sent to the air-conditioning controller with the built-in wireless transmission sub-module through the wireless transmission module. Turn on the switch, cool or heat. Furthermore, the wireless transmission module is WiFi; the air conditioner controller with built-in wireless transmission sub-module is an air conditioner controller with built-in WiFi.

There is a linkage for opening or closing doors and windows. The air convection performance of the existing air conditioner itself is not very good. Usually, after continuous heating or cooling, the temperature is higher or higher than the preset value. Convection of air is achieved, improving user comfort. Furthermore, the linkage mainly includes a motor drive sub-module, a motor, and a lever; the motor drive sub-module receives the control signal from the controller module, and drives the motor to drive the lever to open or close the doors and windows.

The working process of the present utility model is:

The user can set the preset temperature through a device with WiFi function, such as a mobile phone, and the set temperature information is input to the air conditioner controller with a built-in wireless transmission sub-module through the wireless transmission module. After the air conditioner is turned on, it can automatically set the preset temperature Adjust the time and cooling and heating; at the same time, each temperature and humidity sensor detects the indoor and outdoor temperature and humidity, and each rain detection sensor detects the amount of outdoor rainwater, and the indoor and outdoor temperature and humidity and outdoor rainwater amount information are input to the controller module In the process, the controller module further adjusts the opening and closing, cooling and heating of the air conditioner according to the data, and adjusts the opening and closing of doors and windows to enhance indoor and outdoor air convection.

The computer programs involved in the utility model are all existing and known programs without improvement.

Claims (5)

1. a kind of indoor temperature and humidity control system, it is characterised in that：

Including Temperature and Humidity module, rainwater detection module, controller module, wireless transport module, built-in it is wirelessly transferred submodule Air-conditioner controller, air-conditioning, clutch and the door and window of block；

The Temperature and Humidity module is by least one first Temperature and Humidity submodule and at least one second Temperature and Humidity Submodule is constituted；Each first Temperature and Humidity submodule is installed outdoors, gathers outdoor temperature humidity；Described each second is warm and humid Spend detection sub-module to install indoors, gather indoor temperature and humidity；The rainwater detection module is installed outdoors, detects outdoor rain Amount；

The output end of each first Temperature and Humidity submodule is connected with controller module；The second Temperature and Humidity submodule The output end of block is connected with controller module；The output end of the rainwater detection module is connected with controller module；The control Device module is connected through wireless transport module with the built-in air-conditioner controller for being wirelessly transferred submodule；The built-in wireless transport module Air-conditioner controller be connected with air-conditioning；The control end of the clutch is connected with controller module；The clutch is in controller Under the control of module, door and window is opened or closed.

2. a kind of indoor temperature and humidity control system according to claim 1, it is characterised in that：

The wireless transport module is WiFi；The air-conditioning that the built-in air-conditioner controller for being wirelessly transferred submodule is built-in WiFi Controller.

3. a kind of indoor temperature and humidity control system according to claim 1, it is characterised in that：

The first Temperature and Humidity submodule and the second Temperature and Humidity submodule are Temperature Humidity Sensor, the humiture Sensor main will be made up of temperature element, hygrometric element, microcontroller and serial line interface；The temperature element measurement temperature, The hygrometric element measures humidity, and the temperature signal and moisture signal are inputted to microcontroller, and through serial line interface export to Controller module.

4. a kind of indoor temperature and humidity control system according to claim 1, it is characterised in that：

The rainwater detection module is rain detecting sensor, and the rain detecting sensor is main by detection sub-module, benchmark Voltage submodule, comparator, controller and heating wire composition；

The backward end of the output end of the detection sub-module and comparator is connected, the reference voltage submodule and comparator it is same To end connection, the output end via controller of the comparator is connected with heating wire, and the heating wire is arranged on detection sub-module Bottom, gives detection sub-module heat supply.

5. a kind of indoor temperature and humidity control system according to claim 1, it is characterised in that：

The clutch mainly includes motor drive module, motor and driving lever；The motor drive module receives control The control signal of device module, motor drives driving lever action, opens door and window or closes the doors and windows.