TWM536782U - Pairing learning system - Google Patents

Description

Learning pairing system

The present invention relates to a system, and more particularly to a learning pairing system.

With the advancement of the times, the design of products has gradually evolved to be the first priority for user convenience. Therefore, most electronic devices such as televisions or electric fans are currently provided with remote controls to facilitate users. Access to these electronic devices is capable of remotely controlling the operation of such electronic devices for a convenient life.

The remote controllers of the above-mentioned electronic devices often have a problem of insufficient life due to excessive use, so that the user must separately purchase a learning remote controller to replace the original remote controller when it is used. The remote control of the electronic device can be continued remotely when the remote control of the factory is completely damaged.

However, the setting process of the initial setting used by the existing learning type remote controller is quite cumbersome. Here is an example. When a learning type remote controller learns the original remote controller of a television set, the original factory The remote control itself has about 30~40 buttons. Therefore, the user needs to operate the learning remote controller to learn one by one for each button of the original remote controller, that is, the user needs to repeatedly operate the learning process up to 30~40. Secondly, obviously, the process of learning setting is not only tedious but also quite time consuming, especially when the original remote control is a cold air remote control, since the air conditioner remote control itself has only about 10 buttons, and each button of the air conditioner remote controller Different signals are transmitted in different operation modes, and generally each button of the learning type remote controller can only learn and transmit a signal, so that the learning type remote controller is not enough, and the learning type remote controller can For various electronic devices of different brands and different models, manufacturers must first obtain relevant information of various electronic devices of different brands and different models (such as these The frequency data of each button of the electronic device is stored in the learning type remote controller. Therefore, the learning type remote controller must have a relatively large storage memory space, and the learning process is more cumbersome and time consuming.

Therefore, the purpose of the present invention is to provide a learning pairing system that can be easily and quickly learned.

Therefore, the novel learning pairing system is applicable to a plurality of original remote controllers, and each original remote controller transmits a frequency signal having a frequency value, and the learning pairing system includes a pairing device and a handheld device.

The pairing device stores a database, and the database has a plurality of different frequency values, a plurality of different codes, and a plurality of different setting parameters, the plurality of codes respectively corresponding to the plurality of frequency values, the plurality of settings The parameters correspond to multiple codes.

The handheld device stores an application associated with the paired device.

One of the plurality of original remote controllers transmits the frequency signal, and the pairing device receives the frequency signal and compares the code and the setting related to the frequency value from the database according to the frequency value of the frequency signal. a parameter, and generating a pairing signal indicating the code of one of the original remote controllers and the setting parameter corresponding to the code, the handheld device simulating the original corresponding to the setting parameter according to the setting parameter of the pairing signal The function of the factory remote control.

A second object of the present invention is to provide a learning pairing system that can be easily and quickly learned.

Thus, the learning pairing system of the present invention is applicable to a plurality of original remote controllers, and each of the original remote controllers transmits a frequency signal having a frequency value, and the learning pairing system includes a pairing device and a handheld device.

The pairing device stores a code data table having the code data table having a plurality of different frequency values and a plurality of different codes respectively corresponding to the plurality of frequency values.

The handheld device stores an application associated with the pairing device, and the application stores a setting data table having a plurality of different codes and a plurality of setting parameters respectively corresponding to the codes.

One of the plurality of original remote controllers transmits the frequency signal, and the pairing device compares the code associated with the frequency value from the code data table of the pairing device according to the frequency value of the frequency signal, and generates a code signal indicating the code of one of the original remote controllers, the handheld device obtaining the corresponding setting parameter from the setting data table according to the code of the code signal, and simulating the setting parameter according to the setting parameter Corresponding to the function of the original remote control.

Before the present invention is described in detail, it should be noted that in the following description, similar elements are denoted by the same reference numerals.

Referring to FIG. 1, a first embodiment of the novel learning pairing system is applicable to a plurality of original remote controllers 3, and each original remote controller 3 transmits a frequency signal having a frequency value, and the learning pairing system includes a The handheld device 1 and a pairing device 2 are learned and paired with each other by the handheld device 1, the pairing device 2 and the plurality of original remote controllers 3, so that the handheld device 1 can replace the plurality of original remote controllers 3 And in turn, the handheld device 1 can be used to control a plurality of different electronic products 4 corresponding to the plurality of original remote controllers 3.

The plurality of original remote controllers 3, such as a TV remote controller or a cold air remote controller, etc., can be used to control the corresponding electronic products 4, such as a television set or an air conditioner, so that each original remote controller 3 can emit different The frequency signal of the frequency value is used to control the corresponding electronic product 4, and has a power button, and a plurality of function buttons (not shown), and the power button and the plurality of function buttons are combined into a plurality of buttons.

The handheld device 1 is an electronic device such as a smart phone or a tablet computer, and at least one application (not shown) associated with the pairing device 2 is stored.

The pairing device 2 has an indicator light 21 and a memory memory 22. The indicator light 21 and the memory memory 22 are electrically connected to a circuit board (not shown) in the pairing device 2, and refer to the following table. The memory memory 22 stores a database having a plurality of different frequency values, a plurality of different codes, and a plurality of different setting parameters, and the plurality of codes respectively correspond to the plurality of frequency values, and the plurality of codes respectively correspond to the plurality of frequency values. Multiple setting parameters correspond to multiple codes.         <TABLE border="1" borderColor="#000000" width="_0001"><TBODY><tr><td> Library</td></tr><tr><td> Frequency value</td> <td> Code</td><td> Setting parameters</td></tr><tr><td> f0 </td><td> Z0 </td><td> S0 </td></ Tr><tr><td> f1 </td><td> Z1 </td><td> S1 </td></tr><tr><td> f2 </td><td> Z2 </ Td><td> S2 </td></tr></TBODY></TABLE> Table 1       

Referring to FIG. 2, the learning pairing method of the learning pairing system of the present invention performs learning pairing for one original remote controller 3 at a time. For convenience of description, the embodiment first describes one of the plurality of original remote controllers 3, and One of the original remote controllers 3 is a cold air remote controller, and the electronic product 4 controlled by the air conditioner remote controller is an air conditioner. The execution of the learning pairing method of the learning pairing system is as follows.

Step (A0) The application is executed by the handheld device 1.

Step (A1) The handheld device 1 is used to generate a connection request via the application.

Step (A2) The pairing device 2 is used to receive the connection request.

Step (A3) The pairing device 2 is used to establish a pairing connection according to the connection request.

Step (A4) When the handheld device 1 and the pairing device 2 establish a pairing connection on a communication network, the indicator light 21 of the pairing device 2 starts to blink, wherein the communication network includes a wireless area network (Wi-Fi) ).

At the same time, step (A) is performed by pressing the power button of the cold air remote controller to transmit the frequency signal.

Step (B) using the pairing device 2 to compare a code associated with the frequency value from the database stored in the pairing device 2 according to the frequency value of the frequency signal, and according to the code from the database ratio A setting parameter is selected, wherein the setting parameter is related to a plurality of button setting values of the original remote controller 3 corresponding to the code.

Step (C) uses the pairing device 2 to generate a pairing signal indicating the code of the cold air remote controller and the setting parameter corresponding to the code.

The step (D) simulates the function of the cold air remote controller corresponding to the setting parameter according to the setting parameter indicated by the received pairing signal by using the application stored by the handheld device 1 with respect to the pairing device 2.

Wherein, the step (D) comprises the following sub-step (D1) and sub-step (D2).

The sub-step (D1) generates a control signal by using the application stored by the handheld device 1 with respect to the pairing device 2 according to the received setting parameter indicated by the pairing signal.

The sub-step (D2) uses the pairing device 2 to generate a remote control signal according to the control signal to control the air conditioner corresponding to the cold air remote controller.

Here, step (D) and sub-steps (D1) and (D2) are illustrated by way of example, when a user touches a control key displayed by the application via the application to generate an indication to lower the temperature of the air conditioner. The control signal is received by the pairing device 2, and the pairing device 2 controls the air conditioner to reduce the temperature of the air conditioner according to the control signal to generate the remote control signal.

Step (E) When the application is executed, if the user cannot control the electronic product 4 (air conditioner) through the interface of the application, the user generates an indication that the pairing has failed via the input operation of the application. The warning message is returned to step (A) and steps (A) to (D) are repeated.

When the application generates the warning message, it indicates that when performing step (B), the pairing device 2 compares the wrong code, causing the learning pairing system to fail pairing, for example, when there is a second air conditioner remote controller such as A The frequency value of the frequency signal emitted by the brand's air-conditioner remote control and the B brand's air-conditioner remote control is too close. When learning pairing for the A-brand air-conditioner remote control, it may be because of the A brand when performing step (B). The frequency value of the frequency signal sent by the air conditioner remote controller is too close to the B brand air conditioner remote controller, causing the pairing device 2 to misunderstand and compare the code of the frequency value of the corresponding B brand air conditioner remote controller, so that the comparison is performed. The setting parameter is the button setting value related to the B brand air conditioner remote controller, so the pairing signal received by the handheld device 1 in the subsequent step (D) will also be related to the code of the B brand air conditioner remote controller and Setting the parameters, therefore, the user cannot take advantage of the handheld device 1 and replace the air conditioner corresponding to the A brand air conditioner remote control via the application program. The learning pairing of the learning pairing system must be re-executed by the user.

After completing the learning pairing of the above steps, the other one of the plurality of original remote controllers 3, such as a television remote controller or a sweeping robot remote controller, may be further learned and matched, so that the user can directly With the handheld device 1, the plurality of original remote controllers 3 are replaced by the application to control more electronic products, such as a television set or a sweeping robot.

In addition, it should be noted that the frequency signal, the pairing signal, and the remote control signal each include an infrared (Infrared ray, IR), a radio frequency (RF), a Bluetooth, etc., and the control signal Includes wireless area network (Wi-Fi).

Referring to FIG. 3, Table 2 and Table 3, a second embodiment of the learning pairing method of the learning pairing system of the present invention is similar to the first embodiment, except that the pairing device 2 includes a a matcher 23, and a cloud server 24, the indicator light 21 is electrically connected to the circuit board of the pairer 23, and the database includes a code having the plurality of different frequency values and the plurality of different codes a data table, and a setting data table having the plurality of different codes and the plurality of different setting parameters respectively corresponding to the plurality of frequency values, the plurality of setting parameters respectively corresponding to the plurality of codes.         <TABLE border="1" borderColor="#000000" width="_0002"><TBODY><tr><td> Code Data Sheet</td></tr><tr><td> Frequency Value</td ><td> Code</td></tr><tr><td> f0 </td><td> Z0 </td></tr><tr><td> f1 </td><td> Z1 </td></tr><tr><td> f2 </td><td> Z2 </td></tr></TBODY></TABLE>         <TABLE border="1" borderColor="#000000" width="85%"><TBODY><tr><td> Setting the data sheet</td></tr><tr><td> code</td ><td> Setting parameters</td></tr><tr><td> Z0 </td><td> S0 </td></tr><tr><td> Z1 </td><td > S1 </td></tr><tr><td> Z2 </td><td> S2 </td></tr></TBODY></TABLE> Table 3       

It is worth noting that this step (C) includes the following sub-steps.

Sub-step (C1) uses the matcher 23 of the pairing device 2 to generate a code signal indicating the code based on the frequency signal and the code data table stored in the matcher 23.

Sub-step (C2) receives the code signal using the handheld device 1.

Sub-step (C3) utilizes the handheld device 1 to generate a request signal associated with the code based on the code signal.

Sub-step (C4) utilizes the cloud server 24 to receive the request signal via the communication network.

The sub-step (C5) uses the cloud server 24 to generate a setting signal indicating the setting parameter to the handheld device 1 according to the request signal and the setting data table stored in the cloud server 24, wherein the code signal and the The set signal is combined into the paired signal.

Referring to FIG. 5 and FIG. 6 , a third embodiment of a learning pairing method for a learning pairing system according to the present invention is similar to the first embodiment, except that the step (C) is performed. The pairing method further includes a step (C0) between the step (C) and the step (D), because the application in the embodiment has stored the setting data table, and therefore, in the step (C) The pairing device only needs to generate a code signal indicating the code of the cold air remote controller, and the step (C0) reuses the application stored by the handheld device 1 with respect to the pairing device 2 according to the code signal from the application program. The stored configuration data sheet obtains the setting parameters.

It should be additionally added that the handheld device 1 of the above-mentioned first to third embodiments is more capable of editing the schedule of each electronic product 4 via the application, and the schedule is related to each of the schedules. An electronic product subscription start, function adjustment or shutdown setting.

In summary, the learning pairing method of the learning pairing system of the present invention only needs to use the pairing device 2 to learn to pair any handheld device 1 such as a smart phone or a tablet with the original remote controller 3 instead of The original remote controller 3, in turn, controls the electronic products 4 to achieve a learning and matching method of simple and fast learning, so that the object of the present invention can be achieved.

However, the above is only the embodiment of the present invention, and when it is not possible to limit the scope of the present invention, all the simple equivalent changes and modifications according to the scope of the patent application and the contents of the patent specification are still This new patent covers the scope.

1‧‧‧Handheld device
23‧‧‧ Pairing device
2‧‧‧ Pairing device
24‧‧‧Cloud Server
21‧‧‧ indicator lights
3‧‧‧Original remote control
22‧‧‧ memory memory
4‧‧‧Electronic products

Other features and effects of the present invention will be apparent from the following description of the drawings. FIG. 1 is a schematic diagram illustrating a first embodiment of the learning pairing method of the learning pairing system of the present invention; A flow chart illustrating the operation of the first embodiment of the learning pairing method of the learning pairing system of the present invention; FIG. 3 is a schematic diagram showing a second embodiment of the learning pairing method of the learning pairing system of the present invention; The flowchart illustrates the operation of the second embodiment of the learning pairing method of the learning pairing system of the present invention; FIG. 5 is a schematic diagram showing a third embodiment of the learning pairing method of the learning pairing system of the present invention; and FIG. 6 is a A flow chart illustrating the operation of the third embodiment of the learning pairing method of the learning pairing system of the present invention.

1‧‧‧Handheld device

2‧‧‧ Pairing device

21‧‧‧ indicator lights

22‧‧‧ memory memory

3‧‧‧Original remote control

4‧‧‧Electronic products

Claims (12)

A learning pairing system is applicable to a plurality of original remote controllers, and each original remote controller transmits a frequency signal having a frequency value, the learning pairing system comprising: a pairing device, storing a database, and the database Having a plurality of different frequency values, a plurality of different codes, and a plurality of different setting parameters, the plurality of codes respectively corresponding to the plurality of frequency values, the plurality of setting parameters respectively corresponding to the plurality of codes; and a handheld device Storing an application associated with the pairing device; wherein one of the plurality of original remote controllers transmits the frequency signal, the pairing device receives the frequency signal and the data is based on the frequency value of the frequency signal The library compares the code associated with the frequency value with the set parameter and generates a pairing signal indicating the code of one of the original remote controllers and the setting parameter corresponding to the code, the handheld device according to the The setting parameter of the pairing signal simulates the function of the original remote controller corresponding to the setting parameter. The learning pairing system according to claim 1, wherein the plurality of original remote controllers are configured to respectively transmit a plurality of frequency signals, and are respectively used to control a plurality of different electronic products, the plurality of frequency signals respectively having different frequency values, The plurality of original remote controllers respectively correspond to a plurality of different codes, wherein the setting parameters are related to a plurality of key setting values of the original remote controller corresponding to the code. The learning pairing system of claim 1, wherein the application stored by the handheld device with respect to the pairing device generates a control signal according to the setting parameter, and the pairing device generates a remote control signal according to the control signal. Operate an electronic product corresponding to one of the original remote controls. The learning pairing system of claim 1, wherein when a user cannot input an operation via the application, an alert message indicating that the pairing failed is generated. The learning pairing system of claim 1, wherein the database comprises a code data table having a plurality of different frequency values and a plurality of different codes, and a plurality of different codes and a plurality of different settings The parameter setting data table, the plurality of codes respectively correspond to a plurality of frequency values, and the plurality of setting parameters respectively correspond to the plurality of codes. The learning pairing system of claim 5, wherein the pairing device includes a pairer that stores a code data table of the database, and the pairer generates a code indicating the code according to the frequency signal and the code data table. a signal, and a cloud server, storing a setting data table of the database, and the cloud server receives a request signal and generates a setting signal indicating the setting parameter according to the request signal and the setting data table, wherein the code The signal and the set signal are combined into the pairing signal, wherein the handheld device receives the code signal and accordingly generates the request signal associated with the code. The learning pairing system of claim 1, wherein the pairing device has an indicator light, and when the handheld device executes the application and generates a connection request via the application, the pairing device receives the connection Requesting, and establishing a pairing connection with the handheld device, at which point the indicator of the pairing device begins to flash. A learning pairing system is applicable to a plurality of original remote controllers, and each original remote controller transmits a frequency signal having a frequency value, the learning pairing system comprising: a pairing device, storing a code data table, and the code The data table has a plurality of different frequency values, and a plurality of different codes respectively corresponding to the plurality of frequency values; and a handheld device storing the application associated with the pairing device, and the application Storing a setting data table having a plurality of different codes and a plurality of setting parameters respectively corresponding to the codes; wherein one of the plurality of original remote controllers transmits the frequency signal, the pairing device And comparing the frequency value of the frequency signal from the code data table of the pairing device to the code associated with the frequency value, and generating a code signal indicating the code of one of the original remote controllers, the handheld signal The device obtains the corresponding setting parameter from the setting data table according to the code of the code signal, and simulates the setting parameter according to the setting parameter. Original remote control function. The learning pairing system according to claim 8, wherein the plurality of original remote controllers are respectively configured to respectively transmit a plurality of frequency signals, and are respectively used to control a plurality of different electronic products, the plurality of frequency signals respectively having different frequency values, The setting parameter is related to a plurality of button setting values of the original remote controller corresponding to the code. The learning pairing system of claim 8, wherein the application stored by the handheld device generates a control signal according to the setting parameter, and the pairing device generates a remote control signal according to the control signal to control one of the original An electronic product corresponding to the remote control of the factory. The learning pairing system of claim 8, wherein when a user cannot input an operation via the application, an alert message indicating that the pairing failed is generated. The learning pairing system of claim 8, the pairing device has an indicator light, and when the handheld device executes the application and generates a connection request via the application, the pairing device receives the connection request, And establishing a pairing connection with the handheld device, and at this time, the indicator light of the pairing device starts to blink.