CN111754753B - Digital display and control method - Google Patents

Abstract

The present invention discloses a digital display and a control method, the digital display comprises a host and a supporting base supporting the host, the host comprises a first BLE module, a storage module and an infrared remote control module, the supporting base comprises a second BLE module and a WIFI module, the first BLE module is used to connect with the second BLE module, and the first BLE module is also used to connect with a mobile terminal; the first BLE module is used to receive a selection signal and transmit the information of the selection signal to the second BLE module; the WIFI module is used to obtain infrared remote control data corresponding to the information; the second BLE module is used to send the infrared remote control data to the first BLE module; the storage module is used to store the infrared remote control data; the infrared remote control module is used to send a control signal to an electrical appliance. The digital display of the present application is convenient to view and use, and can collect environmental information and control air-conditioning equipment.

Description

Digital display and control method

Technical Field

The invention relates to a digital display and a control method.

Background

The digital display includes an electronic clock, a thermostat, a thermometer and a hygrometer, which can provide convenience in life to the user.

Taking an air conditioner temperature controller as an example, a user can check the temperature and the preset temperature of a room by using the air conditioner temperature controller and control an air conditioner by using the air conditioner temperature controller.

The existing digital display has the defects of inconvenient use and single function.

Disclosure of Invention

The invention aims to overcome the defects that a host computer and a base of a digital display are connected and communicated in a wired way, the use is inconvenient and the function is single in the prior art, and provides the digital display which is convenient to check and use, can collect environmental information and control air conditioning equipment and is intelligent in the existing home appliances.

The invention solves the technical problems by the following technical scheme:

A digital display is characterized in that the digital display comprises a host and a supporting base for supporting the host, the host comprises a first BLE module, a storage module and an infrared remote control module, the supporting base comprises a second BLE module and a WIFI module,

The first BLE module is used for being connected with the second BLE module through Bluetooth signals, and the first BLE module is also used for being connected with the mobile terminal through Bluetooth signals;

The first BLE module is configured to receive a selection signal transmitted by a mobile terminal, and transmit information of the selection signal to the second BLE module;

The WIFI module is used for accessing the server and acquiring infrared remote control data corresponding to the information;

The second BLE module is configured to send the infrared remote control data to the first BLE module;

The storage module is used for storing the infrared remote control data;

The infrared remote control module is used for sending control signals to the electric appliances corresponding to the selection signals by utilizing the infrared remote control data.

In the invention, the electric appliance can be a set top box, a liquid crystal television, an air conditioner, a DVD, a fresh air machine and a humidifier.

Preferably, the method comprises the steps of,

The WIFI module is further used for receiving a control instruction initiated by the mobile terminal and transmitting the control instruction to the first BLE module through the second BLE module;

the infrared remote control module is used for calling the infrared remote control data in the storage module according to the control instruction and sending a control signal to the electric appliance.

Preferably, the host further comprises a judging module,

The judging module is used for judging whether target infrared remote control data in the control instruction exist in the storage module, if yes, the infrared remote control module is called to send a control signal to an electric appliance, if not, a selection instruction with information of the target infrared remote control data is transmitted to the second BLE module, the WIFI module accesses the server and acquires the infrared remote control data corresponding to the selection instruction, the first BLE module receives the infrared remote control data corresponding to the selection instruction sent by the second BLE module, the storage module stores the infrared remote control data corresponding to the selection instruction, and the infrared remote control module sends the control signal to the electric appliance corresponding to the selection signal by utilizing the infrared remote control data corresponding to the selection instruction.

Preferably, the host also comprises a processing module and a hygrothermograph module, the electric appliance is an air conditioner,

The processing module is used for reading the actual temperature value of the hygrothermograph module and the control temperature value contained in the last control signal;

the processing module is used for judging whether the difference value between the actual temperature value and the control temperature value is larger than a preset value at a preset moment, if so, an adjusting instruction is sent to the infrared remote control module according to the difference value, and the infrared remote control module is used for calling infrared remote control data in the storage module to send a control signal to an electric appliance according to the adjusting instruction;

the preset time is a time when a preset time period passes after the time when the control signal is sent last time.

Preferably, the regulating command comprises regulating quantity, the unit regulating value of the regulating quantity is first gear wind speed, N gear wind speed is equal to one degree of temperature, for a target regulating quantity, the target regulating quantity comprises temperature regulating quantity and wind speed regulating quantity smaller than N gear, the temperature regulating quantity is larger than or equal to zero,

The processing module is also used for judging whether a control instruction is received after the adjustment instruction is sent, if yes, judging whether the difference value is increased after the electric appliance is adjusted according to the control instruction, if so, increasing the adjustment amount in the next adjustment instruction, and if not, decreasing the adjustment amount in the next adjustment instruction.

Preferably, the host also comprises a processing module and a hygrothermograph module, the electric appliance is an air conditioner,

The processing module is used for reading the actual temperature value of the hygrothermograph module and the control temperature value contained in the last control signal;

The processing module is used for judging whether a first difference value of the actual temperature value and the control temperature value is smaller than a target value at a preset moment, if yes, judging whether a second difference value of the actual temperature value and the control temperature value is identical to the first difference value after a first preset time, and if not, modifying the control temperature value of the last time according to the first difference value and the second difference value to enable the difference value of the actual temperature value and the control temperature value to be equal to the first difference value.

Preferably, the method comprises the steps of,

The first BLE module is used for receiving a control instruction initiated by the mobile terminal;

the infrared remote control module is used for calling the infrared remote control data in the storage module according to the control instruction and sending a control signal to the electric appliance.

The invention also provides a digital display which is characterized by comprising a BLE module, a storage module and an infrared remote control module,

The BLE module is used for being connected with the mobile terminal through Bluetooth signals;

the mobile terminal acquires a selection signal, accesses a server and acquires infrared remote control data corresponding to the information;

the BLE module is used for receiving the infrared remote control data sent by the mobile terminal;

The storage module is used for storing the infrared remote control data;

The infrared remote control module is used for sending control signals to the electric appliances corresponding to the selection signals by utilizing the infrared remote control data.

Preferably, the BLE module is configured to receive a control instruction initiated by the mobile terminal;

the infrared remote control module is used for calling the infrared remote control data in the storage module according to the control instruction and sending a control signal to the electric appliance.

The invention also provides a control method which is characterized in that the control method utilizes the digital display to control the electric appliance.

On the basis of conforming to the common knowledge in the field, the above preferred conditions can be arbitrarily combined to obtain the preferred examples of the invention.

The invention has the positive progress effects that:

The digital display is convenient to check and use, and can collect environment information and control air conditioning equipment.

Drawings

Fig. 1 is a schematic structural diagram of a digital display according to embodiment 1 of the present invention.

Detailed Description

The invention is further illustrated by means of the following examples, which are not intended to limit the scope of the invention.

Example 1

The present embodiment provides a digital display, which includes a host 11 and a support base 12 for supporting the host.

The host comprises a first BLE module, a display screen 13, a storage module, a hygrothermograph module and an infrared remote control module.

The support base comprises a second BLE module and a WIFI module.

The first BLE (Bluetooth low energy) module is used for being connected with the second BLE module through Bluetooth signals, and the first BLE module is also used for being connected with the mobile terminal through Bluetooth signals;

The first BLE module is configured to receive a selection signal transmitted by a mobile terminal, and transmit information of the selection signal to the second BLE module;

The WIFI module is used for accessing the server and acquiring infrared remote control data corresponding to the information;

The second BLE module is configured to send the infrared remote control data to the first BLE module;

The storage module is used for storing the infrared remote control data;

The infrared remote control module is used for sending control signals to the electric appliances corresponding to the selection signals by utilizing the infrared remote control data.

According to the invention, the host and the supporting base are arranged separately, the stand-by time of the host can be greatly prolonged by singly using BLE, and the WIFI model has high power consumption and is borne by the base.

The host computer stores the infrared remote control data of a plurality of household appliances, and the mobile phone can be used for controlling the household appliances after being connected with the host computer.

The WIFI module is further used for receiving a control instruction initiated by the mobile terminal and transmitting the control instruction to the first BLE module through the second BLE module;

the infrared remote control module is used for calling the infrared remote control data in the storage module according to the control instruction and sending a control signal to the electric appliance.

When the mobile phone is in an outdoor condition, the supporting base can be connected through a wireless network, and the host is called through the supporting base to control the indoor household appliances.

Further, the host also comprises a judging module.

The judging module is used for judging whether target infrared remote control data in the control instruction exist in the storage module, if yes, the infrared remote control module is called to send a control signal to an electric appliance, if not, a selection instruction with information of the target infrared remote control data is transmitted to the second BLE module, the WIFI module accesses the server and acquires the infrared remote control data corresponding to the selection instruction, the first BLE module receives the infrared remote control data corresponding to the selection instruction sent by the second BLE module, the storage module stores the infrared remote control data corresponding to the selection instruction, and the infrared remote control module sends the control signal to the electric appliance corresponding to the selection signal by utilizing the infrared remote control data corresponding to the selection instruction.

Further, the host also comprises a first processing module, the electric appliance is an air conditioner,

The first processing module is used for reading the actual temperature value of the hygrothermograph module and the control temperature value contained in the last control signal;

The first processing module is used for judging whether the difference value between the actual temperature value and the control temperature value is larger than a preset value at a preset moment, if so, an adjusting instruction is sent to the infrared remote control module according to the difference value, and the infrared remote control module is used for calling infrared remote control data in the storage module to send a control signal to an electric appliance according to the adjusting instruction;

the preset time is a time when a preset time period passes after the time when the control signal is sent last time.

The temperature and humidity meter module of the host machine can judge whether the room temperature is at a comfortable temperature or not, and automatically adjusts the indoor temperature.

The regulating command comprises regulating quantity, the unit regulating value of the regulating quantity is first gear wind speed, N gear wind speed is equal to one degree of temperature, for a target regulating quantity, the target regulating quantity comprises temperature regulating quantity and wind speed regulating quantity smaller than N gear, the temperature regulating quantity is larger than or equal to zero,

The first processing module is further configured to determine whether a control instruction is received after the adjustment instruction is sent, if yes, determine whether the difference value is increased after the electric appliance is adjusted according to the control instruction, if the difference value is increased, increase the adjustment amount in the next adjustment instruction, and if the difference value is decreased, decrease the adjustment amount in the next adjustment instruction.

In this embodiment, the host machine adjusts the electric appliance by an adjustment amount, and the adjustment amount takes the first-gear wind speed as the adjustment amount.

In this embodiment, the 3-speed wind speed is equal to one-degree temperature, the preset value is 2, that is, when the difference between the room temperature and the set temperature is larger, for example, the set temperature is 25, but the set temperature is 28 degrees, the difference is 3, the adjustment amount is two-speed wind speed, the host machine automatically controls the air conditioner to increase the two-speed wind speed, for example, the set temperature is 23, but the set temperature is 28 degrees, the difference is 5, the adjustment amount is four-speed wind speed, the 3-speed wind speed is equal to one-degree temperature, and the host machine automatically controls the air conditioner to increase the 1-speed wind speed to set the set temperature to 22.

If the air conditioner is at the full grid wind speed when automatically controlling, the temperature of the air conditioner is reduced according to the proportion that the 3-gear wind speed is equal to the one-degree temperature.

Further, this embodiment further provides an adaptive adjustment means, where the first processing module is further configured to determine whether a control instruction is received after the adjustment instruction is sent, if yes, determine whether the difference value is increased after the electrical appliance is adjusted according to the control instruction, if so, increase an adjustment amount in a next adjustment instruction, and if not, decrease an adjustment amount in the next adjustment instruction. If the difference value is increased, the automatic control quantity is insufficient, and the adjustment quantity is enhanced. If the difference is reduced, the adjustment force is too large, and the adjustment amount is required to be weakened.

Further, the embodiment also provides a method for synchronizing the temperature value of the host with the actual value of the air conditioner.

The host also comprises a second processing module, the electric appliance is an air conditioner,

The second processing module is used for reading the actual temperature value of the hygrothermograph module and the control temperature value contained in the last control signal;

The second processing module is used for judging whether a first difference value of the actual temperature value and the control temperature value is smaller than a target value at a preset moment, if yes, judging whether a second difference value of the actual temperature value and the control temperature value is identical to the first difference value after a first preset time, and if not, modifying the last control temperature value according to the first difference value and the second difference value to enable the difference value of the actual temperature value and the control temperature value to be equal to the first difference value.

Thereby synchronizing the value of the electric appliance and the control temperature value after the user controls the electric appliance by using the remote controller of the electric appliance.

Further, the first BLE module is configured to receive a control instruction initiated by the mobile terminal;

the infrared remote control module is used for calling the infrared remote control data in the storage module according to the control instruction and sending a control signal to the electric appliance.

With the digital display, the present embodiment further provides a control method, including:

the first BLE module is connected with the second BLE module through Bluetooth signals, and the first BLE module is also connected with the mobile terminal through Bluetooth signals;

the first BLE module receives a selection signal transmitted by the mobile terminal and transmits information of the selection signal to the second BLE module;

the WIFI module accesses the server and acquires infrared remote control data corresponding to the information;

the second BLE module sends the infrared remote control data to the first BLE module;

the storage module stores the infrared remote control data;

And the infrared remote control module sends a control signal to an electric appliance corresponding to the selection signal by utilizing the infrared remote control data.

The control method further includes:

The WIFI module receives a control instruction initiated by the mobile terminal and transmits the control instruction to the first BLE module through the second BLE module;

and the infrared remote control module calls infrared remote control data in the storage module according to the control instruction to send a control signal to the electric appliance.

Further, the control method further includes:

The judging module judges whether target infrared remote control data in the control instruction exist in the storage module, if yes, the infrared remote control module is called to send a control signal to an electric appliance, if not, a selection instruction with information of the target infrared remote control data is transmitted to the second BLE module, the WIFI module accesses the server and acquires the infrared remote control data corresponding to the selection instruction, the first BLE module receives the infrared remote control data corresponding to the selection instruction sent by the second BLE module, the storage module stores the infrared remote control data corresponding to the selection instruction, and the infrared remote control module sends the control signal to the electric appliance corresponding to the selection signal by utilizing the infrared remote control data corresponding to the selection instruction.

The control method further includes:

the processing module reads the actual temperature value of the hygrothermograph module and the control temperature value contained in the last control signal;

the processing module judges whether the difference value between the actual temperature value and the control temperature value is larger than a preset value at a preset moment, if so, an adjusting instruction is sent to the infrared remote control module according to the difference value, and the infrared remote control module calls infrared remote control data in the storage module to send a control signal to an electric appliance according to the adjusting instruction;

the preset time is a time when a preset time period passes after the time when the control signal is sent last time.

The regulating command comprises regulating quantity, the unit regulating value of the regulating quantity is first gear wind speed, N gear wind speed is equal to one degree of temperature, for a target regulating quantity, the target regulating quantity comprises temperature regulating quantity and wind speed regulating quantity smaller than N gear, the temperature regulating quantity is larger than or equal to zero,

The control method further includes:

and the processing module judges whether a control instruction is received after sending the adjusting instruction, if so, judges whether the difference value is increased after adjusting the electric appliance according to the control instruction, if so, the adjusting amount in the next adjusting instruction is increased, and if so, the adjusting amount in the next adjusting instruction is reduced.

The control method further includes:

the processing module reads the actual temperature value of the hygrothermograph module and the control temperature value contained in the last control signal;

And the processing module judges whether the first difference value of the actual temperature value and the control temperature value is smaller than the target value at the preset moment, if so, judges whether the second difference value of the actual temperature value and the control temperature value is identical to the first difference value after the first preset time, and if not, modifies the last control temperature value according to the first difference value and the second difference value so that the difference value of the actual temperature value and the control temperature value is equal to the first difference value.

The control method further includes:

the first BLE module receives a control instruction initiated by the mobile terminal;

and the infrared remote control module calls infrared remote control data in the storage module according to the control instruction to send a control signal to the electric appliance.

Example 2

The embodiment provides a digital display, which comprises a BLE module, a storage module, a hygrothermograph module and an infrared remote control module,

The BLE module is used for being connected with the mobile terminal through Bluetooth signals;

the mobile terminal acquires a selection signal, accesses a server and acquires infrared remote control data corresponding to the information;

the BLE module is used for receiving the infrared remote control data sent by the mobile terminal;

The storage module is used for storing the infrared remote control data;

The infrared remote control module is used for sending control signals to the electric appliances corresponding to the selection signals by utilizing the infrared remote control data.

The BLE module is used for receiving a control instruction initiated by the mobile terminal;

the infrared remote control module is used for calling the infrared remote control data in the storage module according to the control instruction and sending a control signal to the electric appliance.

With the digital display, the present embodiment provides a control method, including:

the BLE module is connected with the mobile terminal through a Bluetooth signal;

the mobile terminal acquires a selection signal, accesses a server and acquires infrared remote control data corresponding to the information;

The BLE module receives the infrared remote control data sent by the mobile terminal;

the storage module stores the infrared remote control data;

And the infrared remote control module sends a control signal to an electric appliance corresponding to the selection signal by utilizing the infrared remote control data.

The control method further includes:

The BLE module receives a control instruction initiated by the mobile terminal;

and the infrared remote control module calls infrared remote control data in the storage module according to the control instruction to send a control signal to the electric appliance.

While specific embodiments of the invention have been described above, it will be appreciated by those skilled in the art that these are by way of example only, and the scope of the invention is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the principles and spirit of the invention, but such changes and modifications fall within the scope of the invention.

Claims (6)

1. A digital display, characterized in that the digital display comprises a host and a supporting base supporting the host, the host comprises a first BLE module, a storage module and an infrared remote control module, the supporting base comprises a second BLE module and a WIFI module, The first BLE module is used to connect to the second BLE module via a Bluetooth signal, and the first BLE module is also used to connect to the mobile terminal via a Bluetooth signal; The first BLE module is used to receive a selection signal transmitted by a mobile terminal, and transmit information of the selection signal to the second BLE module; The WIFI module is used to access the server and obtain infrared remote control data corresponding to the information; The second BLE module is used to send the infrared remote control data to the first BLE module; The storage module is used to store the infrared remote control data; The infrared remote control module is used to send a control signal to the electrical appliance corresponding to the selection signal using the infrared remote control data; The WIFI module is also used to receive a control instruction initiated by a mobile terminal, and transmit the control instruction to the first BLE module through the second BLE module; The infrared remote control module is used to call the infrared remote control data in the storage module according to the control instruction to send a control signal to the electrical appliance; The host also includes a judgment module. The judgment module is used to judge whether the storage module stores the target infrared remote control data in the control instruction. If so, the infrared remote control module is called to send a control signal to the electrical appliance. Otherwise, a selection instruction with information of the target infrared remote control data is transmitted to the second BLE module. The WIFI module accesses the server and obtains the infrared remote control data corresponding to the selection instruction. The first BLE module receives the infrared remote control data corresponding to the selection instruction sent by the second BLE module. The storage module stores the infrared remote control data corresponding to the selection instruction and the infrared remote control module uses the infrared remote control data corresponding to the selection instruction to send a control signal to the electrical appliance corresponding to the selection signal. 2. The digital display according to claim 1, wherein the host further comprises a processing module and a thermometer and hygrometer module, and the electrical appliance is an air conditioner. The processing module is used to read the actual temperature value of the thermo-hygrometer module and the control temperature value contained in the most recent control signal; The processing module is used to determine whether the difference between the actual temperature value and the control temperature value is greater than a preset value at a preset time, and if so, to send an adjustment instruction to the infrared remote control module according to the difference, and the infrared remote control module is used to call the infrared remote control data in the storage module according to the adjustment instruction to send a control signal to the electrical appliance; The preset time is a time after a preset time period has passed since the time when the control signal was last sent. 3. The digital display according to claim 2, characterized in that the adjustment instruction includes an adjustment amount, the unit adjustment value of the adjustment amount is one wind speed, N wind speeds are equal to one degree of temperature, for a target adjustment amount, the target adjustment amount includes a temperature adjustment amount and a wind speed adjustment amount less than N wind speeds, the temperature adjustment amount is greater than or equal to zero, The processing module is also used to determine whether a control instruction is received after sending the adjustment instruction. If so, it is used to determine whether the difference increases after adjusting the electrical appliance according to the control instruction. If it increases, the adjustment amount in the next adjustment instruction is increased; if it decreases, the adjustment amount in the next adjustment instruction is reduced. 4. The digital display according to claim 1, wherein the host further comprises a processing module and a thermometer and hygrometer module, and the electrical appliance is an air conditioner. The processing module is used to read the actual temperature value of the thermo-hygrometer module and the control temperature value contained in the most recent control signal; The processing module is used to determine whether the first difference between the actual temperature value and the control temperature value is less than the target value at a preset time. If so, determine whether the second difference between the actual temperature value and the control temperature value is the same as the first difference after a first preset time period. If different, modify the most recent control temperature value according to the first difference and the second difference so that the difference between the actual temperature value and the control temperature value is equal to the first difference. 5. The digital display according to claim 1, characterized in that: The first BLE module is used to receive a control instruction initiated by a mobile terminal; The infrared remote control module is used to call the infrared remote control data in the storage module according to the control instruction to send a control signal to the electrical appliance. 6. A control method, characterized in that the control method uses the digital display according to any one of claims 1 to 5 to control an electrical appliance.