WO2024021587A1 - Scene point-control apparatus and air-conditioning control system - Google Patents

Abstract

Disclosed in the present application are a scene point-control apparatus and an air-conditioning control system. The scene point-control apparatus provided in the present application comprises: an input module, which is used for generating a scene mode trigger instruction in response to a single input operation; a control module, which is connected to the input module, wherein the control module is used for generating an air conditioning instruction, which is triggered correspondingly to the scene mode triggering instruction; and a communication module, which is connected to the control module, establishes a communication link with an air conditioning device, and sends the air conditioning instruction to the air conditioning device, so as to control the air conditioning device to run the triggered scene mode.

Description

Scenario point control device and air conditioning control system

This application claims priority to the Chinese patent application with application number 202210913438.3 filed on July 29, 2022, the entire content of which is incorporated into this application by reference.

Technical field

This application relates to the field of intelligent control technology, especially to scene point control devices and air conditioning control systems.

Background technique

As people pay more attention to the quality of living standards, air conditioners with air purification functions have gradually attracted attention from manufacturers and the public. The air conditioner can adjust the temperature, humidity, cleanliness and freshness of the air. Existing air conditioners generally set the air parameters such as temperature, humidity, cleanliness or freshness required by the user through a remote control. However, there are many air parameters involved in air conditioners, such as temperature, humidity and wind speed. Users need to manually adjust them in order to achieve the desired air parameter values. This is very cumbersome and seriously reduces the control efficiency of air conditioning equipment.

technical problem

The main purpose of this application is to provide a scene point control device and an air conditioning control system, aiming to solve the technical problem of low control efficiency of air conditioning equipment.

Technical solutions

In order to achieve the above purpose, this application provides a scenario point control device, which includes:
The input module is used to generate scenario mode triggering instructions in response to a single input operation;
A control module, connected to the input module, and the control module is used to generate air conditioning instructions triggered corresponding to the scene mode trigger instructions;
A communication module is connected to the control module, establishes a communication link with the air conditioning equipment, and sends the air conditioning instructions to the air conditioning equipment to control the scenario mode triggered by the operation of the air conditioning equipment.

In one embodiment, the scene point control device includes:
A sensor module, connected to the control module, is used to obtain the current indoor environmental parameter information according to the control of the control module. The current environmental parameter information includes current air environment information and current human body characteristic information, and obtains the obtained The current environmental parameter information is transmitted to the control module;
The control module generates an air conditioning instruction corresponding to the scene mode trigger instruction according to the current environmental parameter information.

In one embodiment, the scene point control device further includes:
A data sharing module, connected to the communication module, is used to determine the demand environment parameter information required when the triggered scenario mode is run, and detect whether the sensor module can collect all the demand environment parameter information. When the sensor module cannot collect all the required environment parameter information, it determines the target scene point control device from other scene point control devices communicating with the scene point control device, wherein the target scene point control device has the A scenario point control device for the required environmental parameter information that cannot be collected by the sensor module;
The communication module is also used to obtain the required environment parameter information that cannot be collected from the target scene point control device.

In one embodiment, the scene point control device further includes:
A pairing connection module, connected to the communication module, used to receive a pairing broadcast request sent by the air conditioning device through the communication link established by the communication module and the air conditioning device, and obtain the pairing broadcast request in response to the pairing broadcast request sent by the air conditioning device. The unique identity identification of the scene point control device; sending the unique identity identification to the air conditioning equipment through the communication module, and receiving the pairing request response returned by the air conditioning equipment in response to the unique identity identification, and The air conditioning device establishes a pairing connection.

In one embodiment, the scene point control device further includes a data synchronization module, and the data synchronization module is also connected to the input module and the communication module respectively,
The input module is also used to generate scenario data synchronization instructions in response to input operations;
The data synchronization module is used to generate a polling request signal according to the scene data synchronization instruction, and poll other nearby scene point control devices through the communication module; from the polled scene point control devices, Determine the scene point control devices with the same scene mode as the scene point control devices to be synchronized, and then establish a pairing connection with the determined scene point control device to be synchronized through the communication module to perform scene control with the paired scene point control devices. data synchronization.

In one embodiment, the scenario data includes scenario modes to be synchronized and target air conditioning instructions associated with the scenario modes to be synchronized,
The input module is also used to generate data transmission instructions in response to input operations;
The data synchronization module is used to generate the scene data according to the data transmission instruction, and send the scene data to the paired scene point control device through the communication module for scene data synchronization.

In one embodiment, the scenario data includes scenario modes to be synchronized and target air conditioning instructions associated with the scenario modes to be synchronized,
The communication module is also used to receive the scenario data sent by the paired scenario point control device;
The data synchronization module is also used to synchronize the target air conditioning instruction in the scene data with the current air conditioning instruction associated with the scene mode to be synchronized in the system for scene data synchronization.

In one embodiment, the scene point control device further includes a storage module, and the storage module is connected to the control module,
A scenario mode operation mapping table is stored in the storage module, and the scenario mode operation mapping table includes multiple scenario modes and air conditioning instructions associated with each scenario mode;
The control module is used to determine that the scenario mode triggering instruction corresponds to the triggered scenario mode, and query the air conditioning instructions associated with the triggered scenario mode from the scenario mode operation mapping table, and convert the associated air conditioning instructions to The scene mode triggering instruction corresponds to the air conditioning instruction triggered.

In one embodiment, the scene point control device includes:
The point control device body includes the input module, the control module and the communication module;
Patch piece, the patch piece is fixedly connected to the point control device body, and the patch piece is used to attach the point control device body to the surface of the object to be attached, wherein the patch piece It is a magnetic adsorption patch, an adhesive adsorption patch or an air pressure adsorption patch.

In addition, this application also provides an air conditioning control system, which includes air conditioning equipment and a scene point control device as described in any of the above items.

beneficial effects

This application obtains the scenario mode trigger instructions generated by user input operations by setting the input module as a physical button module and/or a touch screen module, and connects the control module with the input module to facilitate the generation of the scenario mode trigger. The instruction corresponds to the air conditioning instruction of the triggered scene mode, and then the communication module is connected to the control module and a communication link is established with the air conditioning equipment, thereby facilitating the sending of the air conditioning instruction to the air conditioning equipment to control the operation of the air conditioning equipment The triggered scene mode allows the user to directly adjust all air parameter values of the air conditioning equipment through the triggered scene mode, allowing the user to realize personalized customized scene mode control with one click through the scene point control device, which is more convenient and intelligent, and improves the efficiency of air conditioning. Compared with the existing technology, users need to manually adjust air parameters such as temperature, humidity and wind speed involved in the air conditioner in sequence, which reduces the tedious operation and improves the efficiency of air conditioning. Equipment control efficiency.

Description of drawings

Figure 1 is a schematic structural diagram of the first embodiment of the scene point control device of the present application;
Figure 2 is a schematic structural diagram of the second embodiment of the scene point control device of the present application;
Figure 3 is a schematic structural diagram of the third embodiment of the scene point control device of the present application;
Figure 4 is a schematic diagram of a connection scenario of an embodiment of the air conditioning control system of the present application.

The realization of the purpose, functional features and advantages of the present application will be further described with reference to the embodiments and the accompanying drawings.

Embodiments of the invention

It should be understood that the specific embodiments described here are only used to explain the present application and are not used to limit the present application.

At present, existing air conditioners generally use remote controls to set air parameters such as temperature, humidity, cleanliness or freshness required by the user. However, there are many air parameters involved in air conditioners, such as temperature, humidity and wind speed. Etc., the user needs to manually adjust in order to achieve the desired air parameter value, which is very cumbersome and seriously reduces the control efficiency of the air conditioning equipment.

Based on this, please refer to Figures 1 to 3. An embodiment of the present application provides a scenario point control device 100. The scenario point control device 100 includes:
Input module 1 is used to generate scenario mode trigger instructions in response to a single input operation;
The control module 2 is connected to the input module 1. The control module 2 is used to generate air conditioning instructions triggered corresponding to the scene mode trigger instructions;
The communication module 3 is connected to the control module 2, establishes a communication link with the air-conditioning equipment, and sends air-conditioning instructions to the air-conditioning equipment to control the scenario mode triggered by the operation of the air-conditioning equipment.

In this embodiment, the air conditioning equipment sent by the air conditioning instruction can be an air conditioner, a humidifier, a fresh air blower, a purifier, an electric heater, etc., and can be operated by one or more air conditioning equipment to realize the corresponding scenario. model. The air conditioning command can actually be sent directly by the scenario point control device 100 to each associated air conditioning device, or it can be first sent by the scenario point control device 100 to a central device, such as air conditioning device A, and then forwarded by the air conditioning device A to Other associated air-conditioning equipment can also be sent to the server by the scene point control device 100 (or through an associated air-conditioning equipment such as air-conditioning equipment B), and then sent to the server (or by the associated air-conditioning equipment B). All associated air conditioning equipment.

In this embodiment, the single input operation refers to a single touch operation on a physical button or a touch screen button, where the single touch operation includes but is not limited to a single click operation, a double click operation, and a single touch operation. Long press operation (for example, long press operation is 3 seconds), etc.

Among them, the scenario point control device 100 is a device that implements operation control of a personalized scenario mode for an air conditioner. The air conditioning equipment controlled can be a wall-mounted air conditioner, a cabinet air conditioner, a window air conditioner, a multi-split air conditioner, or a ceiling-mounted air conditioner. Any type of air conditioning equipment with indoor and outdoor units, such as air conditioners.

The scene point control device 100 of this embodiment is a mobile control device that carries scene control of specific air conditioning equipment. It is a hardware button device that can be independently used and powered by an independent device to support wireless communication. It can be pasted or magnetically attracted or placed in the room. various locations in.

In this embodiment, for example, the communication module 3 may be at least one of a Bluetooth module, a ZigBee module, a WIFE (Wireless-Fidelity, wireless broadband) module, and a LIFI (Light Fidelity, visible light wireless communication) module. kind.

In this embodiment, different types of scenario point control devices 100 often support air conditioning control in different scenario modes. Users can trigger corresponding scenario modes according to specific application scenarios. The types of scenario modes include but are not limited to energy-saving mode, comfort mode, health mode, children's mode, elderly mode, pregnant woman mode, home mode, away from home mode, sleep mode and Sport mode. It is understandable that the parameter control information corresponding to the air conditioning instructions associated with different scenario modes is often different. The types of parameter control information include but are not limited to temperature control information, humidity control information, wind speed control information, cleanliness control information and freshness control information. Among them, cleanliness is mainly judged based on indoor PM2.5 concentration, while freshness is mainly judged based on indoor carbon dioxide concentration. Parameter control information is related to the attributes of each scene mode. For example, when the scene mode is a health scene, the requirements for cleanliness value and freshness value will be higher. For example, when the scene mode is children's mode or elderly mode, the air conditioner needs to operate more gently. Compared with middle-aged people (non-pregnant people), the temperature is often higher and the wind speed is lower. For example, when the scene mode is a sleeping scene, you can refer to the sleep curve to set the operating parameter control values. The parameter control value can be a specific value, a range value, or of course a curve formed by a series of values.

As an example, the input module 1 is a physical key module and/or a touch screen module. Those skilled in the art know that input operations may include key press operations and touch screen operations. For example, the user's key pressing operation on the physical key module can be detected to generate a scenario mode triggering instruction corresponding to the key pressing operation. Among them, different key pressing operations correspond to different scene mode triggering instructions, and different scene mode triggering instructions correspond to triggering different scene modes. At the same time, different scene modes correspond to different air conditioning instructions to control the air conditioning equipment according to the triggered Scenario mode runs. Alternatively, the user's touch screen operation on the touch screen module can be obtained to generate a scenario mode triggering instruction corresponding to the touch screen operation. Among them, different touch screen operations correspond to different scene mode triggering instructions, and different scene mode triggering instructions correspond to triggering different scene modes. At the same time, different scene modes are often associated with different air conditioning instructions, and the air conditioning instructions associated with the triggered scene modes are Sent to the air-conditioning equipment to control the air-conditioning equipment to operate according to the target parameters corresponding to the triggered scenario mode.

In one embodiment, a single input operation includes a first user touch operation and a second user touch operation, and the input module 1 includes:
The switch function button is used to generate a scene mode triggering instruction or a scene mode closing instruction when detecting the first user's touch operation. The first user touch operation is a user touch operation performed by the user on the switch function button;
The switching function button is used to switch from multiple scene modes to the scene mode corresponding to the second user's touch operation when the second user's touch operation is detected, wherein the second user's touch operation is the user's touch operation. User touch operation performed by switching function keys.

In this embodiment, it can be understood that the user touch operation may include a single click operation, a double-click operation, a long press operation (for example, the long press operation is a long press for 3 seconds), etc.

In this embodiment, the user can switch the current operating state of the scene point control device 100 to the working state or the sleep state by performing a user touch operation on the switch function button. In one embodiment, by pressing the switch function button once, the current operating state of the scene point control device 100 is switched from the sleep state to the working state. At this time, the function of the scene point control device 100 is turned on, and the air corresponding to the triggered scene mode is switched. The adjustment instruction is sent to the air-conditioning equipment to control the air-conditioning equipment to operate according to the triggered scenario mode. Then press the switch function button again, and the current operating state of the scene point control device 100 switches from the working state to the sleep state. At this time, the function of the scene point control device 100 is turned off, and the air conditioning instructions corresponding to the triggered scene mode are stopped. Air conditioning equipment to de-control the air conditioning equipment. If the switch function button is pressed again, the current operating state of the scene point control device 100 switches from the sleep state to the working state, and the cycle repeats.

In another embodiment, by pressing the switch function button once, the current operating state of the scene point control device 100 is switched from the sleep state to the working state. At this time, the function of the scene point control device 100 is turned on, and the air conditioning corresponding to the triggered scene mode is switched on. The command is sent to the server, and the server then sends the air conditioning command to the air conditioning equipment to control the air conditioning equipment to operate according to the triggered scenario mode. Then press the switch function button again, and the current operating state of the scene point control device 100 switches from the working state to the sleep state. At this time, the function of the scene point control device 100 is turned off, and the air conditioning instructions corresponding to the triggered scene mode are stopped. Server, through which the air conditioning equipment can be de-controlled. If the switch function button is pressed again, the current operating state of the scene point control device 100 switches from the sleep state to the working state, and the cycle repeats.

In this embodiment, the user can also switch from multiple scene modes to the scene mode triggered by the user's intention and demand by performing a user touch operation on the switching function button. For example, the current scene modes that the scene point control device 100 can support for air conditioning operation control are energy saving mode, comfort mode and health mode. The currently running target scenario mode is the energy-saving mode. The user presses the switching function button once, and at this time, the target scenario mode triggered by the scenario point control device 100 switches from the energy-saving mode to the comfort mode. The user presses the switching function button again, and at this time, the target scene mode triggered by the scene point control device 100 switches from the comfort mode to the health mode. The user presses the switching function button again, and at this time, the target scene mode triggered by the scene point control device 100 switches from the health mode back to the comfort mode, and the cycle repeats. That is to say, through the scene point control device 100, not only the air conditioning control of a certain scene mode can be realized, but also the air conditioning control of switching between multiple scene modes can be realized, thereby meeting the different needs of users for the types of scene modes at different times, and the different needs of different users. Different requirements for scenario mode types enrich the scenario mode operation types that a single scenario point control device 100 can support, and improve the user's experience of using the scenario point control device 100.

In this embodiment, the input module 1 configured as a physical button module and/or a touch screen module is used to obtain the scenario mode triggering instructions generated by the user's input operation, and the control module 2 is connected to the input module 1 to facilitate the generation The scenario mode triggering command corresponds to the air conditioning command of the triggered scenario mode, and then the communication module 3 is connected to the control module 2 and a communication link is established with the air conditioning device, thereby facilitating the sending of the air conditioning command to the air conditioning device. Controlling the scenario mode triggered by the operation of the air-conditioning equipment allows the user to directly adjust all air parameter values of the air-conditioning equipment through the triggered scenario mode, allowing the user to control the personalized customized scenario mode with one click through the scenario point control device 100. It is more convenient and intelligent, and improves the user's experience of using air conditioning equipment. Compared with the existing technology, the user needs to manually adjust the air parameters such as temperature, humidity and wind speed involved in the air conditioner in sequence, which reduces the cumbersome operation. This further improves the control efficiency of air conditioning equipment.

In one implementation, the scene point control device 100 further includes:
The sensor module 4 is connected to the control module 2 and is used to obtain the current indoor environmental parameter information according to the control of the control module 2. The current environmental parameter information includes current air environment information and current human body characteristic information, and obtains the current environmental parameter information. Parameter information is transmitted to control module 2;
The control module 2 generates air conditioning instructions corresponding to the scenario mode trigger instructions based on the current environmental parameter information.

In this embodiment, the sensor module 4 is electrically connected to the control module 2, and the sensor module 4 is used to monitor the current environmental parameter information in the room. Specifically, the control module 2 can also monitor the current environmental parameter information detected by the sensor module 4. Trigger the parameter control information (or air conditioning parameter control information) associated with the scenario mode for adaptive adjustment, and generate the latest air conditioning instructions based on the adaptively adjusted parameter control information, and use the latest air conditioning instructions as the scenario mode The trigger command corresponds to the triggered air conditioning command.

In this embodiment, the sensor module 4 may be at least one of a temperature sensor, a humidity sensor, a carbon dioxide concentration sensor, a PM2.5 concentration sensor, an infrared sensor, a camera, and a millimeter wave radar. That is to say, the current environmental parameter information monitored by the sensor module 4 may be at least one of ambient temperature, ambient wind speed, ambient humidity, freshness, cleanliness and human body status. Among them, the human body state may include sleep state, exercise state, etc. Specifically, both the sleep state and the motion state can be detected through at least one of an infrared sensor, a camera, and a millimeter wave radar. For example, an infrared sensor can emit infrared rays to the human body at a preset frequency, and detect the human body's heartbeat, breathing and movements based on the wavelength of the infrared rays reflected back, thereby identifying the human body's status. For another example, millimeter wave radar emits millimeter waves to the human body at a preset frequency, and detects the human body's heartbeat, breathing and movements based on the wavelength reflected by the millimeter waves, and then identifies the human body's status. For example, a camera is used to capture an image of the environment where the human body is currently located, and the state of the human body is recognized based on the environmental image combined with a preset image recognition algorithm. The image recognition algorithm is an existing technology and will not be described again here.

Further, when it is determined that the state of the human body is a sleep state, at least one of an infrared sensor and a millimeter wave radar can be used to detect which sleep stage the human body is in (for example, light sleep stage, deep sleep stage). That is, it determines the current sleep stage of the human body by detecting the human body's heartbeat frequency and breathing frequency, and adaptively adjusts the parameter control information of the air conditioner according to the current sleep stage, and generates the latest air conditioner based on the adaptively adjusted parameter control information. Adjustment instructions are sent to the air conditioning equipment to adjust the current real-time operating parameters of the air conditioning equipment. In this embodiment, by introducing the sensor module 4, it is possible to adaptively adjust the parameter control information associated with the scenario mode when the air conditioning equipment is in a scenario mode triggered by operation. Through the "sensing plus control" method, it can be intuitively sensed Human body status, air effects (air parameters such as temperature, humidity, and wind speed), etc., are implemented to achieve closed-loop adjustment, thereby dynamically optimizing and adjusting the current operating parameters of the air conditioner, so that the air conditioner operates more closely to the operating environment corresponding to the triggered scenario mode.

In one embodiment, the current human body characteristic information includes breathing rate and/or heartbeat rate,
The control module 2 is used to determine the user's current sleep stage based on the breathing rate and/or heartbeat rate, and determine the air conditioning instruction associated with the current sleep stage, and use the air conditioning instruction as the air conditioning instruction triggered corresponding to the scene mode triggering instruction.

This embodiment can determine the current sleep stage of the human body by detecting the heartbeat frequency and respiratory rate of the human body, and adaptively adjusts the parameter control information of the air conditioner according to the current sleep stage, and generates based on the adaptively adjusted parameter control information. The latest air conditioning command is sent to the air conditioning equipment to adjust the current real-time operating parameters of the air conditioning equipment.

As another example, the control module 2 is also used to obtain the standard air environment information corresponding to the triggered scenario mode, and compare the current air environment information with the standard air environment information to obtain the air parameter deviation information. According to the air parameter deviation information, Generate an air conditioning operation adjustment instruction that adaptively adjusts the current air environment information, and use the air conditioning operation adjustment instruction as an air conditioning instruction triggered corresponding to the scene mode trigger instruction.

In this embodiment, a preset mapping relationship table between each scenario mode and standard air environment information can be pre-stored in the system, and then when the triggered scenario mode is determined, the preset mapping relationship table can be queried to obtain Standard air environment information corresponding to the triggered scenario mode. It is understandable that the standard air environment information corresponding to different scenario models is different.

The standard air environment information may include at least one of standard ambient temperature, standard ambient humidity, standard ambient wind speed, standard ambient freshness, and standard ambient cleanliness.

For example, in one embodiment, the standard air environment information associated with the energy-saving mode may be: the standard ambient temperature is 24°C to 26°C, the standard ambient humidity is 25%PH to 45%PH, and the standard ambient wind speed is 25 to 30°C. Gear wind speed.

In another embodiment, the standard air environment information associated with the comfort mode may be: the standard ambient temperature is 22°C to 24°C, the standard ambient cleanliness is below 45 μg/m³, and the standard ambient freshness is below 800PPM.

In another embodiment, the standard air environment information associated with the health mode may be: the standard ambient temperature is 22°C to 24°C, the standard ambient humidity is 45% PH to 65% PH, and the standard environmental cleanliness is 35 μg/m³ or less. , and the standard environmental freshness is below 600PPM.

In yet another embodiment, the standard air environment information associated with the light sleep stage in the sleep mode may be: the standard ambient temperature is 25 to 27°C, and the standard ambient wind speed is 40 degrees wind speed. The standard air environment information associated with the deep sleep stage in the sleep mode can be: the standard ambient temperature is 26°C to 28°C, and the standard ambient wind speed is 15 to 25 wind speeds.

It can be understood that the current air environment information detected when the scenario mode to be triggered is running may include at least one of current ambient temperature, current ambient humidity, current ambient wind speed, current ambient freshness, and current ambient cleanliness. Correspondingly, the air parameter deviation information may include at least one of a temperature deviation value, a humidity deviation value, a wind speed deviation value, a freshness deviation value and a cleanliness deviation value.

In this embodiment, based on the current air environment information and the standard air environment information, the current air environment information belonging to the same air parameter category can be compared with the standard air environment information to obtain air parameter deviation information. For example, in an air conditioning operation scenario, the standard air environment information includes standard ambient temperature and standard ambient wind speed. Among them, the standard ambient temperature is 24°C to 26°C, and the standard ambient wind speed is 15 to 25 wind speeds. At the same time, the temperature sensor detects that the current ambient temperature is 28°C, and the wind speed sensor detects that the current ambient wind speed is 22 wind speeds. At this time, the air parameter deviation includes the temperature deviation value and the wind speed deviation value, and the temperature deviation value is equal to 3℃ (28℃-25℃=3℃), and the wind speed deviation value is equal to 0 (the standard ambient wind speed falls within the range of the standard ambient wind speed) .

For example, in one embodiment, if the temperature deviation value in the air parameter deviation is equal to 3°C, and the wind speed deviation value is equal to -5 windshields, the air conditioner operation adjustment instructions can be obtained to adjust the air conditioner upward by 3°C, and adjust the windshield downward by 5 windshields. The air conditioning operation adjustment command is sent to the air conditioning equipment as the air conditioning command triggered corresponding to the scene mode trigger command.

It is easy to understand that the parameter control information often refers to the air parameters at the outlet position of the air conditioning equipment. For example, the temperature control information is an air conditioner temperature setting of 25°C, which often means that the temperature at the outlet of the air conditioning equipment is adjusted to 25°C. The humidity control information is the 35% PH humidification setting, which often means that the humidity at the outlet of the air conditioning equipment is adjusted to 35% PH. The wind speed control information is set to 30 wind speeds, which often means that the wind speed at the outlet of the air conditioning equipment is 30 wind speeds. The actual air parameters perceived by the user indoors are not necessarily equivalent to the air parameters at the outlet position of the air conditioning equipment. Therefore, the scenario point control device 100 of this embodiment needs to sense the current indoor air parameters through the sensor module 4, and then Compare the perceived actual air parameters (i.e., the current air environment information of this embodiment) with the target air parameters corresponding to the triggered scenario mode (i.e., the standard air environment information of this embodiment). Based on the real-time comparison of air parameter deviation information, Dynamically adaptively adjust the parameter control information of the air conditioning equipment, and generate the latest air conditioning instruction based on the adaptively adjusted parameter control information, and use the latest air conditioning instruction as the air conditioner triggered corresponding to the scenario mode trigger instruction. The adjustment instructions are sent to the air conditioning equipment to adaptively control the operating parameters corresponding to the triggered scenario mode. Through the "perception plus control" method, the air effect (current air parameters such as temperature, humidity, and wind speed) can be intuitively perceived, based on The current air parameters sensed by the sensor module 4 determine the operating capacity of the air conditioning equipment, that is, determine whether the air conditioning equipment has reached the current operating capacity that it should theoretically achieve, and then adjust the operating control amount when the operating capacity is insufficient, thereby avoiding failure to meet user expectations. The target environment realizes closed-loop adjustment. Compared with the control method of entering a simple operating mode, the current operating parameters of the air conditioner can be dynamically optimized and adjusted so that the air conditioner operates more closely to the operating environment corresponding to the triggered scenario mode and improves air quality. Adjust equipment to adjust the adaptability of the environment.

In a possible implementation, the scene point control device 100 further includes:
The data sharing module 5 is connected to the communication module 3 and is used to determine the demand environment parameter information required when the triggered scenario mode is run, and to detect whether the sensor module 4 can collect all the demand environment parameter information. If it is determined that the sensor module 4 cannot collect When all environmental parameter information is required, the target scenario point control device is determined from other scenario point control devices communicating with the scenario point control device 100, where the target scenario point control device is one that has required environmental parameter information that cannot be collected by the sensor module 4. Situation point control device;
The communication module 3 is also used to obtain demand environment parameter information that cannot be collected from the target scene point control device.

As an example, the c scene point control device 100 supports comfort mode air conditioning control and is equipped with a temperature sensor, a humidity sensor and a carbon dioxide concentration sensor. The temperature sensor, humidity sensor and carbon dioxide sensor are its own sensor module 4. However, if the c-scenario point control device 100 pre-stores the air conditioning control program corresponding to the clean mode, and the required environmental parameter information required when running the clean mode is environmental cleanliness information and environmental humidity information, and when the clean mode is triggered by an input operation Mode, c scenario point control device 100 cannot detect the air parameters (ie, current environmental cleanliness) collected by the PM2.5 concentration sensor. And another d scene point control device that supports health mode is equipped with a wind speed sensor, PM2.5 concentration sensor and carbon dioxide concentration. At this time, the c scene point control device 100 can use the d scene point control device 100 as the target scene point control. The device communicates with the d scene point control device, and obtains the required environmental parameter information of the current environmental cleanliness from the d scene point control device, so that the PM2.5 concentration sensor in the d scene point control device can be used to indirectly detect the current indoor cleanliness. Environmental cleanliness.

As another example, the d scene point control device 100 supports air conditioning control in energy saving mode and is equipped with a wind speed sensor and a temperature sensor. The temperature sensor and wind speed sensor are its own sensors. However, if the d scene point control device 100 pre-stores the air conditioning control program corresponding to the health mode, and the required environmental parameter information required when running the health mode is environmental wind speed, environmental cleanliness and environmental freshness, and when triggered by an input operation In this health mode, the d scene point control device 100 cannot detect the air parameters of the current environmental freshness and current environmental cleanliness, while the other e scene point control device supporting the clean mode is equipped with a PM2.5 concentration sensor and humidity sensor. Another f-scenario point control device that supports comfort mode, it is equipped with a temperature sensor, humidity sensor and carbon dioxide concentration sensor. At this time, the d scene point control device 100 can use the e scene point control device and the f scene point control device as target scene point control devices, communicate with the e scene point control device and the f scene point control device, and obtain the data from the e scene point control device. The required environmental parameter information of the current environmental cleanliness, and the required environmental parameter information of the current environmental freshness are obtained from the f scene point control device, so that the PM2.5 concentration sensor in the e scene point control device and the f scene point control device can be used The carbon dioxide concentration sensor in the system is used to indirectly obtain the required environmental parameter information required to run the health mode.

In this embodiment, when it is determined that the sensor module 4 cannot collect all required environmental parameter information, the target scenario point control device is determined from other scenario point control devices that communicate with the scenario point control device 100, where the target scenario point control device has The scenario point control device 100 that requires environmental parameter information that cannot be collected by the sensor module 4 obtains the required environmental parameter information that cannot be collected from the target scenario point control device, thereby realizing the sharing of air parameter information collected by multiple scenario point control devices. , obtain the required environmental parameter information required for the operation of the scenario mode to be triggered, so that the scenario point control device 100 supports air conditioning operation control of more types of scenario modes, without the need to purchase a high-end version of the scenario point control device with higher sensor hardware configuration. 100, thereby reducing the hardware implementation cost of intelligent air-conditioning control for users' personalized customized scenario modes.

In an implementable manner, the step of determining the target scene point control device from other scene point control devices communicating with the scene point control device 100 includes:
The scene point control device 100 broadcasts an information sharing request, and the information sharing request includes demand environment parameter information that cannot be collected by the scene point control device;
Receive unique identity identifiers returned by other scene point control devices communicating with the scene point control device 100 in response to the information sharing request;
Determine the target point control device based on the unique identity identifier.

In this embodiment, it is easy to understand that each scene point control device 100 has a unique identity identifier, and the unique identity identifier is unique identity identification information characterizing the scene point control device 100 .

It is easy to understand that the scene point control device 100 can broadcast the information sharing request through communication methods such as Bluetooth communication, Zifeng communication, WIFE communication, and LIFI (Light Fidelity, visible light wireless communication) communication.

In this embodiment, the broadcast information sharing request carries the required environment parameter information that cannot be collected from the scene point control device 100, thereby receiving responses from other scene point control devices communicating with the scene point control device 100 in response to the information sharing request. The unique identity identification is then determined based on the unique identity identification of the target point control device, which further improves the accuracy of obtaining the required environmental parameter information from multiple scenario point control devices communicating with it.

In a possible implementation, the scene point control device 100 further includes:
The pairing connection module 6 is connected to the communication module 3 and is used to receive the pairing broadcast request sent by the air conditioning device through the communication link established by the communication module 3 and the air conditioning device, and obtain information in response to the pairing broadcast request sent by the air conditioning device. The unique identity of the scenic spot control device 100; sends the unique identity to the air conditioning device through the communication module 3, receives the pairing request response returned by the air conditioning device in response to the unique identity, and establishes a pairing connection with the air conditioning device.

In this embodiment, after the scene point control device 100 is powered on and used, it automatically enters the pairing state, or the scene point control device 100 enters the pairing state after the user performs a preset operation on the scene point control device 100 . After the scene point control device 100 is in the pairing state, it periodically polls to receive pairing broadcast requests broadcast by the air conditioning equipment.

After receiving the pairing broadcast request broadcast by the air conditioning device in the pairing state, the pairing broadcast request is responded to. The unique identity identifying the scene point control device 100 is sent to the air conditioning equipment through Bluetooth communication or WIFI communication. The unique identity identification can also be sent to the air conditioning equipment through infrared, sound waves, etc. Correspondingly, the air conditioning equipment will receive the preset The unique identifier of the data format. It is easy to understand that each scene point control device 100 has a unique identity identifier, and the unique identity identifier is unique identity identification information that characterizes the scene point control device 100 .

The control process using conventional control methods such as remote control or mobile phone APP still requires users to spend a long time. When multiple modes need to be set, the parameters set by the user may not be reasonable enough; when multiple modes need to be adjusted, the operation is cumbersome and complex, and the control operation efficiency is low. At the same time, mode setting and switching adjustments require the user to find the remote control or mobile phone to complete, which is not convenient and easy to use.

However, using the button form control of the scene point control device 100 does not require cumbersome control steps, and only requires preset operations. The operation steps are easy to understand, simple and convenient, and the learning cost is low. For example, users can blindly operate with their eyes closed while resting, maximizing the convenience of control. For example, users can also use the control instructions of the scene-to-point control device in the server to realize remote remote control of indoor air-conditioning equipment outdoors, in advance. Turn on the air conditioning in your home.

Correspond each scene mode of the air-conditioning equipment to the scene point control device 100, send a pairing broadcast request after the pairing function of the air-conditioning device is triggered, and establish a pairing connection with the air-conditioning device after the scene point control device 100 responds to the pairing broadcast request. Finally, the user only needs to trigger the scene point control device 100 to make the air conditioning equipment run in the scene mode corresponding to the point control device, achieving the effect of one-key control, thereby eliminating the need for the user to configure specific parameters of each air conditioning equipment mode. When controlling the air-conditioning equipment and switching the operating mode of the air-conditioning equipment, the user does not need to operate on existing control devices such as remote controls, mobile APP (Application, Application) or air-conditioning equipment display panels. They only need to operate at the scene point. The air conditioning equipment can be controlled by performing a simple triggering operation on the control device 100. By controlling the air conditioning equipment through the scene point control device 100, the operation steps are easy to understand, simple and convenient, and the learning cost is low.

In a possible implementation, the scene point control device 100 also includes a data synchronization module 7, which is also connected to the input module 1 and the communication module 3 respectively.
The input module 1 is also used to generate scenario data synchronization instructions in response to input operations;
The data synchronization module 7 is used to generate a polling request signal according to the scene data synchronization instruction, and poll other nearby scene point control devices through the communication module 3; from the polled scene point control devices, it is determined that the scene modes are the same The scene point control device is the scene point control device to be synchronized, and then establishes a pairing connection with the determined scene point control device to be synchronized through the communication module 3 to synchronize scene data with the paired scene point control device.

In this embodiment, specifically, the data synchronization module 7 can generate a polling request signal according to the scenario data synchronization instruction, and broadcast the polling request signal to other nearby scenario point control devices through the communication module 3, and receive responses to The polling request response is returned by the polling request signal. Then, the data synchronization module 7 identifies other nearby scene point control devices based on the polling request response, determines the polled scene point control device, and generates the scene. The mode recognition request signal is sent to the polled scene point control device through the communication module 3, and the scene mode recognition response returned in response to the scene mode recognition request signal is received. Then, the data is synchronized According to the scene mode recognition response, the module 7 determines the scene point control device with the same scene mode as the scene point control device to be synchronized from the polled scene point control devices, and communicates with the scene point control device to be synchronized through the communication module 3 The device establishes a pairing connection to synchronize scene data with the paired scene point control device.

In this embodiment, the user can input the scene data synchronization instruction by pressing physical buttons or touch screen buttons of the scene point control device 100, or input the scene data synchronization instruction through voice recognition. For example, the user's key pressing operation on the physical button can be obtained to generate the scene data synchronization instruction corresponding to the key pressing operation. Alternatively, the user's touch screen operation on the touch screen button can be obtained to generate a scenario data synchronization instruction corresponding to the touch screen operation. Alternatively, the user's voice can be picked up through the microphone in the scene point control device 100, and speech recognition can be performed on the voice to generate a scene data synchronization instruction corresponding to the voice.

It is easy to understand that the method of pairing and connecting the scene point control device 100 in this embodiment with the scene point control device to be synchronized includes but is not limited to Bluetooth communication, Zifeng communication, WIFE (Wireless-Fidelity, wireless broadband) communication and LIFI (Light) communication. Fidelity, visible light wireless communication) communication.

In this embodiment, during the synchronization of scene data between the scene point control device 100 and the scene point control device to be synchronized, the scene point control device 100 of this embodiment may be the scene point control device 100 of this embodiment. The execution subject of the control method of the scene point control device in the embodiment) sends scene data associated with the same type of scene mode to the scene point control device to be synchronized for scene data synchronization, or can also send the scene data of the same type to the scene point control device to be synchronized. The scene data associated with the scene mode is sent to the scene point control device 100 in this embodiment for scene data synchronization.

It should be noted that in order to prevent information synchronization in the wrong direction, for example, it is originally necessary to send the scene data corresponding to the same type of scene mode of the scene point control device a to be synchronized to the scene point control device 100 of this embodiment b for scene data synchronization. However, However, the scene data corresponding to the same type of scene mode of the b scene point control device 100 is sent to the a scene point control device for scene data synchronization. Therefore, the user can control the a scene point control by triggering the specific operation control on the a scene point control device. The scene data corresponding to the same type of scene mode of the device is sent to the b scene point control device 100 for scene data synchronization. When the user triggers a specific operation control on the b scene point control device 100, the scene data corresponding to the same type of scene mode of the b scene point control device 100 is sent to the a scene point control device for scene data synchronization. That is, which device the user triggers the data transmission instruction through a preset input operation, synchronizes the scene data from that device to another device to prevent direction errors.

Since different users have different requirements for the indoor environment, the parameter control information corresponding to the scene mode of the scene point control device 100 is often continuously optimized and adjusted during the user's actual use to be more relevant to the user's personal needs. Personalized requirements for indoor environment. For example, during use, the user can customize the parameter control information associated with the scenario mode according to the current needs based on the actual air conditioning effect when the air-conditioning equipment runs the scenario mode, thereby making the scenario mode run by the air-conditioning device more precise. Tailored to user needs. However, when the frequently used scene point control device 100 needs to be replaced, or a scene point control device 100 needs to be added for use in another room, all air conditioning parameter control information corresponding to the newly used scene point control device 100 needs to be sequentially processed again. Setting adjustment is very cumbersome and reduces the user experience.

Based on this, this embodiment sets the data synchronization module 7 in the scene point control device 100. The data synchronization module 7 performs a pairing connection with the scene point control device to be synchronized according to the scene data synchronization instruction. After the pairing connection is successful, the data synchronization module 7 performs a pairing connection with the scene point control device to be synchronized. The paired scene point control devices perform scene data synchronization, so that the scene point control device 100 and the scene point control device that need information synchronization can be brought together to complete the corresponding parameter control information of the same type of scene mode (wherein, The parameter control information is associated with the air conditioning instructions (when the parameter control information changes, the air conditioning instructions also change correspondingly), the user's convenience of using the scene point control device 100 is improved, thereby avoiding the situation of frequent use. When the scenic spot control device 100 needs to be replaced, or a scene point control device 100 is added for use in another room, all parameter control information corresponding to the newly used scene point control device 100 needs to be set and adjusted in sequence, so that this embodiment reduces the cost The tedious operation of parameter setting improves the efficiency of setting and adjusting the scene parameters of the newly used scene point control device 100 .

In an implementable manner, the scenario data includes the scenario mode to be synchronized, and the target air conditioning instruction associated with the scenario mode to be synchronized,
The input module 1 is also used to generate data transmission instructions in response to input operations;
The data synchronization module 7 is used to generate scene data according to the data transmission instructions, and send the scene data to the paired scene point control device through the communication module 3 for scene data synchronization.

In one embodiment, in another implementable manner, the scenario data includes the scenario mode to be synchronized, and the target air conditioning instruction associated with the scenario mode to be synchronized,
The communication module 3 is also used to receive scene data sent by the paired scene point control device;
The data synchronization module 7 is also used to synchronize the scenario data by overwriting the current air conditioning command associated with the scenario mode to be synchronized in the system with the target air conditioning command in the scenario data.

In this embodiment, in order to avoid information synchronization in the wrong direction, the user can input the data transmission instruction by triggering a specific button on the scene point control device to be synchronized, and then set the scene point control device to be synchronized to the same type of scene mode. The scenario data is sent to the scenario point control device 100 of the execution subject of this embodiment for scenario data synchronization. When the user triggers a specific button on the scene point control device 100 of the execution subject, the scene data corresponding to the same type of scene mode of the scene point control device 100 (the execution subject of this embodiment) is sent to the scene point control device to be synchronized. Scenario data synchronization. That is, whichever device the user triggers the data transmission command on, the information will be synchronized from that device to another device to prevent direction errors.

In a possible implementation, the scene point control device 100 also includes a storage module 8, and the storage module 8 is connected to the control module 2,
A scenario mode operation mapping table is stored in the storage module 8. The scenario mode operation mapping table includes multiple scenario modes and air conditioning instructions associated with each scenario mode;
The control module 2 is used to determine that the scenario mode triggering instruction corresponds to the triggered scenario mode, and to query the air conditioning instructions associated with the triggered scenario mode from the scenario mode operation mapping table, and use the associated air conditioning instructions as the scenario mode triggering instructions. Corresponding to the triggered air conditioning command.

In this embodiment, different air conditioning instructions are associated with different parameter control information. The types of parameter control information include but are not limited to temperature control information, humidity control information, wind speed control information, cleanliness control information and freshness control information. The information in the scenario mode operation mapping table may be pre-stored in the storage module 8 before leaving the factory, or may be input by the user independently after the scenario point control device 100 leaves the factory.

This embodiment pre-stores the mapping relationship between each scenario mode and the air conditioning command, thereby accurately determining that the scenario mode to be triggered corresponds to the parameter control information required during operation, thereby allowing the air conditioning equipment to adjust the ambient air parameters to the triggered scenario mode. Corresponding air conditioning operating environment.

In one implementation, the scene point control device 100 further includes:
The power module is electrically connected to the input module 1, the control module 2 and the communication module 3 respectively.

In this embodiment, the power module is, for example, a lithium battery or a lead-acid battery. In this embodiment, the power module is electrically connected to the control module 2, and based on the connection relationship in which the control module 2 is electrically connected to the input module 1 and the communication module 3, the power module can be indirectly connected to the input module 1 and the communication module 3. Electrical connection, thereby supplying power to the scene point control device 100 including the input module 1, the control module 2 and the communication module 3, so that each hardware unit in the scene point control device 100 can work normally.

As an example, in this embodiment, the scene point control device 100 includes:
The point control device body 10 includes an input module 1, a control module 2 and a communication module 3;
The patch piece 20 is fixedly connected to the point control device body 10. The patch piece 20 is used to attach the point control device body 10 to the surface of the object to be attached. The patch piece 20 is a magnetic adsorption type. Patch, adhesive patch or air pressure adsorption patch.

In this embodiment, it should be noted that the objects to be attached may include human bodies, walls, wooden objects (such as desks, cabinets or doors), glass bodies, plastic bodies, etc. This embodiment does not make specific limitations. .

In this embodiment, the scene point control device 100 is configured as a point control device body 10 and a patch piece 20, and the patch piece 20 is fixedly connected to the point control device body 10, thereby facilitating the point control device body 10 to be attached to the user. It needs to be fixed in a specific position, which is convenient for disassembly and installation. It can also be carried around with you. It is light and compact, which improves the convenience of users using the scene point control device 100.

In addition, please refer to FIG. 4 , an embodiment of the present application also proposes an air conditioning control system. The air conditioning control system includes air conditioning equipment and any of the above scene point control devices 100 .

The above are only preferred embodiments of the present application, and are not intended to limit the patent scope of the present application. Any equivalent structure or equivalent process transformation made using the contents of the description and drawings of the present application may be directly or indirectly used in other related technical fields. , are all equally included in the patent protection scope of this application.

Claims (10)

1. A scene point control device, wherein the scene point control device includes:

   The input module is used to generate scenario mode triggering instructions in response to a single input operation;

   A control module, connected to the input module, and the control module is used to generate air conditioning instructions triggered corresponding to the scene mode trigger instructions;

   A communication module is connected to the control module, establishes a communication link with the air conditioning equipment, and sends the air conditioning instructions to the air conditioning equipment to control the scenario mode triggered by the operation of the air conditioning equipment.
2. The scene point control device according to claim 1, wherein the scene point control device includes:

   A sensor module, connected to the control module, is used to obtain the current indoor environmental parameter information according to the control of the control module. The current environmental parameter information includes current air environment information and current human body characteristic information, and obtains the obtained The current environmental parameter information is transmitted to the control module;

   The control module generates an air conditioning instruction corresponding to the scene mode trigger instruction according to the current environmental parameter information.
3. The scene point control device according to claim 2, wherein the scene point control device further includes:

   A data sharing module, connected to the communication module, is used to determine the demand environment parameter information required when the triggered scenario mode is run, and detect whether the sensor module can collect all the demand environment parameter information. When the sensor module cannot collect all the required environmental parameter information, it determines the target scene point control device from other scene point control devices communicating with the scene point control device, wherein the target scene point control device has the A scenario point control device for the required environmental parameter information that cannot be collected by the sensor module;

   The communication module is also used to obtain the required environment parameter information that cannot be collected from the target scene point control device.
4. The scene point control device according to claim 1, wherein the scene point control device further includes:

   A pairing connection module, connected to the communication module, used to receive a pairing broadcast request sent by the air conditioning device through the communication link established by the communication module and the air conditioning device, and obtain the pairing broadcast request in response to the pairing broadcast request sent by the air conditioning device. The unique identity identification of the scene point control device; sending the unique identity identification to the air conditioning equipment through the communication module, and receiving the pairing request response returned by the air conditioning equipment in response to the unique identity identification, and The air conditioning device establishes a pairing connection.
5. The scene point control device according to claim 1, wherein the scene point control device further includes a data synchronization module, and the data synchronization module is also connected to the input module and the communication module respectively,

   The input module is also used to generate scenario data synchronization instructions in response to input operations;

   The data synchronization module is used to generate a polling request signal according to the scene data synchronization instruction, and poll other nearby scene point control devices through the communication module; from the polled scene point control devices, Determine the scene point control devices with the same scene mode as the scene point control devices to be synchronized, and then establish a pairing connection with the determined scene point control device to be synchronized through the communication module to perform scene control with the paired scene point control devices. data synchronization.
6. The scene point control device according to claim 5, wherein the scene data includes scene modes to be synchronized, and target air conditioning instructions associated with the scene modes to be synchronized,

   The input module is also used to generate data transmission instructions in response to input operations;

   The data synchronization module is used to generate the scene data according to the data transmission instruction, and send the scene data to the paired scene point control device through the communication module for scene data synchronization.
7. The scene point control device according to claim 5, wherein the scene data includes scene modes to be synchronized, and target air conditioning instructions associated with the scene modes to be synchronized,

   The communication module is also used to receive the scenario data sent by the paired scenario point control device;

   The data synchronization module is also used to synchronize the target air conditioning instruction in the scene data with the current air conditioning instruction associated with the scene mode to be synchronized in the system for scene data synchronization.
8. The scene point control device according to claim 1, wherein the scene point control device further includes a storage module, and the storage module is connected to the control module,

   A scenario mode operation mapping table is stored in the storage module, and the scenario mode operation mapping table includes multiple scenario modes and air conditioning instructions associated with each scenario mode;

   The control module is used to determine that the scenario mode triggering instruction corresponds to the triggered scenario mode, and query the air conditioning instructions associated with the triggered scenario mode from the scenario mode operation mapping table, and convert the associated air conditioning instructions to The scene mode triggering instruction corresponds to the air conditioning instruction triggered.
9. The scene point control device according to claim 1, wherein the scene point control device includes:

   The point control device body includes the input module, the control module and the communication module;

   Patch piece, the patch piece is fixedly connected to the point control device body, and the patch piece is used to attach the point control device body to the surface of the object to be attached, wherein the patch piece It is a magnetic adsorption patch, an adhesive adsorption patch or an air pressure adsorption patch.
10. An air conditioning control system, which includes air conditioning equipment and the scene point control device according to any one of claims 1 to 9.