CN213241470U - Intelligent remote controller with display screen - Google Patents

Abstract

The embodiment of the application discloses take intelligent remote controller of display screen includes: the device comprises a processing chip, a display screen, a key module, an infrared control module, a Bluetooth module and a storage module; the display screen, the key module, the infrared control module, the Bluetooth module and the storage module are electrically connected with the processing chip, the storage module is used for storing control instructions of a plurality of controlled devices, the key module is used for triggering control switching of the controlled devices, the processing chip is used for carrying out signal transmission with the controlled devices through the infrared control module or the Bluetooth module, and the display screen is used for displaying the controlled devices communicated with the remote controller; according to the scheme of the embodiment of the application, one remote controller can integrate control instructions of a plurality of controlled devices, the use frequency of the remote controller is increased, the current controlled devices are displayed through the display screen, the time for debugging and aligning by a user is shortened, and the use experience of the user is improved.

Description

Intelligent remote controller with display screen

Technical Field

The embodiment of the application relates to the technical field of electronic devices, in particular to an intelligent remote controller with a display screen.

Background

At present, the existing remote controllers are generally mainly used for realizing remote control of corresponding equipment, and the remote controllers and controlled equipment are generally in one-to-one correspondence relationship; in this case, when there are multiple kinds of electric appliances in the home of the user, such as an air conditioner, a television, a refrigerator, a washing machine, etc., multiple remote controllers need to be corresponded, so that when there are multiple remote controllers, the user often does not know that it takes some time to select, and when there is no power supply to the remote controllers, there is no spare battery in the home, and the battery needs to be taken down from another remote controller to be used by another remote controller, which also increases the use burden of the user. Therefore, designing an intelligent remote controller that can be used conveniently by a user becomes a technical problem that those skilled in the art need to solve urgently.

SUMMERY OF THE UTILITY MODEL

The application provides an intelligent remote controller with a display screen, wherein a storage module is arranged to store control instructions of a plurality of control devices, and a current control target is displayed through the display screen; the number of the household remote controllers is reduced through the scheme, and the use by a user is facilitated.

The embodiment of the application provides an intelligent remote controller with a display screen, which comprises a processing chip, the display screen, a key module, an infrared control module, a Bluetooth module and a storage module;

display screen, button module, infrared control module, bluetooth module and storage module all with processing chip electric connection, storage module is used for saving the control command of a plurality of controlled equipment, button module is used for triggering the control that carries out controlled equipment and switches, processing chip is used for carrying out signal transmission through infrared control module or bluetooth module and controlled equipment, the display screen is used for showing the controlled equipment that carries out communication with the remote controller.

Furthermore, the infrared control module comprises an infrared emission learning module, and the infrared emission learning module is used for receiving an infrared control signal sent by an external remote control device and storing the infrared control signal; and the processing chip sends a corresponding infrared instruction signal to the controlled equipment according to the control signal stored by the infrared emission learning module.

Furthermore, the device also comprises a power supply module electrically connected with the processing chip, wherein the power supply module comprises a rechargeable power supply.

Further, the charging management module is connected with the rechargeable power supply and used for outputting stable current to charge the rechargeable power supply.

Furthermore, the device also comprises a battery voltage detection module of the rechargeable power supply, wherein the battery voltage detection module is used for detecting the battery voltage.

Furthermore, the remote controller further comprises a voltage reduction module electrically connected with the processing chip, and the voltage reduction module is used for providing output voltage lower than the power supply voltage.

Further, the voltage reduction module comprises a resistor R49, a capacitor C30, a capacitor C29 and a voltage reduction chip U3;

the output end of the voltage reduction chip U3 is electrically connected with the processing chip through a resistor R49, and the output end of the voltage reduction chip U3 is grounded through a capacitor C30; the input end of the voltage reduction chip U3 is connected with the power supply module, the enable end of the voltage reduction chip U3 is grounded through a capacitor C29, and the enable end of the voltage reduction chip U3 is connected with the input end of the voltage reduction chip U3.

Further, the buck chip in the buck module includes an SGM 2040.

Further, still include with processing chip electric connection's pronunciation collection module, pronunciation collection module is used for transmitting the sound signal who gathers to processing chip, processing chip is according to the corresponding control command of sound signal output is to controlled equipment.

Further, the voice acquisition module comprises a resistor R2, a resistor R7, a resistor R30, a resistor R31, a resistor R28, a resistor R29, a capacitor C7, a capacitor C11, a capacitor C12, a capacitor C13, a capacitor C24, a capacitor C26, a capacitor C20, a capacitor C25, a capacitor C27 and a connector J2;

the MICN end of the processing chip is connected with the 1 st end of a connector J2 through a capacitor C13, the MICN end of the processing chip is grounded through a resistor R31, the MICP end of the processing chip is grounded through a resistor R30, the MICP end of the processing chip is connected with the 2 nd end of a connector J2 through a capacitor C12, one end of a capacitor C7 is connected with the 1 st end of a connector J2, and the other end of the capacitor C7 is connected with the 2 nd end of a connector J2; the 2 nd end of the connector J2 is grounded through a capacitor C20, the 1 st end of the connector J2 is grounded through a capacitor C27, the 1 st end of the connector J2 is grounded through a resistor R29 and a resistor R2 in sequence, the 2 nd end of the connector J2 is connected with the MIC _ BIAS of the processing chip through a resistor R7 and a resistor R28 in sequence, the 2 nd end of the connector J2 is grounded through a resistor R7 and a capacitor C24 in sequence, and the 2 nd end of the connector J2 is connected with the connection point of the resistor R2 and the resistor R29 through a resistor R7 and a capacitor C25 in sequence; the capacitor C26 and the resistor R2 are connected in parallel, the MIC _ BIAS of the processing chip is grounded through the capacitor C11, and the connector J2 is used for being connected with the microphone.

Has the advantages that: according to the scheme of the embodiment of the application, the storage module is arranged to store control instructions of different controlled devices, and when a control switching signal triggered by the key module is received, the remote controller is in communication association with the corresponding controlled device; and displays the current controlled device through the display screen. According to the scheme of the embodiment of the application, one remote controller can integrate control instructions of a plurality of controlled devices, the use frequency of the remote controller is increased, the current controlled devices are displayed through the display screen, the time for debugging and aligning by a user is shortened, and the use experience of the user is improved.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

FIG. 1 is a schematic circuit block diagram of an intelligent remote controller with a display screen according to an embodiment of the present disclosure;

FIG. 2 is a schematic diagram of a peripheral circuit of a processing chip according to an embodiment of the present disclosure;

fig. 3 is a schematic circuit diagram of a battery module according to an embodiment of the present disclosure;

fig. 4 is a schematic circuit diagram of a charging management module according to an embodiment of the present disclosure;

fig. 5 is a schematic circuit diagram of a battery voltage detection module and a charging detection module according to an embodiment of the present disclosure;

FIG. 6 is a schematic block circuit diagram of a voltage reduction module according to an embodiment of the present disclosure;

fig. 7 is a schematic block circuit diagram of a voice collecting module according to an embodiment of the present application;

FIG. 8 is a schematic block circuit diagram of a display screen provided in an embodiment of the present application;

FIG. 9 is a schematic block diagram of a circuit of a key module according to an embodiment of the present disclosure;

FIG. 10 is a circuit schematic diagram of a reset module provided in an embodiment of the present application;

FIG. 11 is a schematic circuit diagram of a program burning point according to an embodiment of the present disclosure;

fig. 12 is a schematic circuit diagram of an indicator light module according to an embodiment of the present application.

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are for purposes of illustration and not limitation. It should be further noted that, for the convenience of description, only some of the structures related to the present application are shown in the drawings, not all of the structures.

Fig. 1 is a schematic circuit block diagram of an intelligent remote controller with a display screen according to an embodiment of the present disclosure, and as shown in fig. 1, an intelligent remote controller with a display screen according to an embodiment of the present disclosure includes a processing chip, a display screen, a key module, an infrared control module, a bluetooth module, and a storage module;

display screen, button module, infrared control module, bluetooth module and storage module all with processing chip electric connection, storage module is used for saving the control command of a plurality of controlled equipment, button module is used for triggering the control that carries out controlled equipment and switches, processing chip is used for carrying out signal transmission through infrared control module or bluetooth module and controlled equipment, the display screen is used for showing the controlled equipment that carries out communication with the remote controller.

As the storage module stores control instructions corresponding to a plurality of controlled devices, such as a control instruction of a television, a control instruction of an air conditioner, a control instruction of a washing machine, and the like; when a user needs to use the corresponding remote controller as a television remote controller, the corresponding remote controller is switched to a television control mode through the key module, at the moment, the processing chip controls the corresponding television by extracting a television control instruction in the storage module, and the current controlled equipment is displayed as the television on the display screen.

Specifically, fig. 2 is a schematic diagram of a peripheral circuit of a processing chip provided in the embodiment of the present disclosure, and as shown in fig. 2, the embodiment of the present disclosure provides an image of each pin of the processing chip and a connection schematic diagram of a corresponding peripheral circuit, and in the embodiment of the present disclosure, other modules are electrically connected to the processing chip in fig. 2 through corresponding pins.

Furthermore, the infrared control module comprises an infrared emission learning module, and the infrared emission learning module is used for receiving an infrared control signal sent by an external remote control device and storing the infrared control signal; and the processing chip sends a corresponding infrared instruction signal to the controlled equipment according to the control signal stored by the infrared emission learning module. The infrared emission learning module can learn the control instructions and modes of various remote controllers, and the applicability of the intelligent remote controller is greatly improved.

Further, fig. 3 is a schematic circuit diagram of a battery module according to an embodiment of the present disclosure, and as shown in fig. 3, the battery module further includes a power module electrically connected to the processing chip, where the power module includes a rechargeable power source. In the embodiment of the application, the rechargeable power supply is adopted to improve the convenience of the intelligent remote controller, the intelligent remote controller is set to be rechargeable, so that the intelligent remote controller is used for a longer time, and the battery does not need to be purchased and replaced.

Further, fig. 4 is a schematic circuit diagram of a charging management module provided in an embodiment of the present application, and as shown in fig. 4, the charging management module further includes a charging management module associated with the rechargeable power supply, where the charging management module is configured to output a stable current to charge the rechargeable power supply. Specifically, the BAT terminal of the charge management chip is connected with the BAT terminal of the battery module, and the VBUS terminal of the charge management chip is connected with the VBUS terminal of the USB INPUT, so as to realize the charge management of the power module.

Further, fig. 5 is a schematic circuit diagram of a battery voltage detection module and a charging detection module provided in an embodiment of the present application, and as shown in fig. 5, the battery voltage detection module further includes a battery voltage detection module associated with the rechargeable power supply, where the battery voltage detection module is configured to detect a battery voltage. The left circuit in fig. 5 is a charging detection module and is used for detecting whether to charge, and the right circuit in fig. 5 is a battery voltage detection module for detecting the voltage state of the battery and further detecting the state of the battery.

Further, fig. 6 is a schematic circuit block diagram of a voltage reduction module provided in an embodiment of the present application, and as shown in fig. 6, the remote controller further includes a voltage reduction module electrically connected to the processing chip, and the voltage reduction module is configured to provide an output voltage lower than a supply voltage. Specifically, the voltage reduction module comprises a resistor R49, a capacitor C30, a capacitor C29 and a voltage reduction chip U3; the output end of the voltage reduction chip U3 is electrically connected with the processing chip through a resistor R49, and the output end of the voltage reduction chip U3 is grounded through a capacitor C30; the input end of the voltage reduction chip U3 is connected with the power supply module, the enable end of the voltage reduction chip U3 is grounded through a capacitor C29, and the enable end of the voltage reduction chip U3 is connected with the input end of the voltage reduction chip U3. Furthermore, the voltage reduction chip in the voltage reduction module comprises an SGM 2040.

Further, fig. 7 is a schematic circuit block diagram of the voice collecting module provided in the embodiment of the present application, and as shown in fig. 7, the voice collecting module further includes a voice collecting module electrically connected to the processing chip, the voice collecting module is configured to transmit the collected sound signal to the processing chip, and the processing chip outputs a corresponding control instruction to the controlled device according to the sound signal.

Specifically, the voice acquisition module comprises a resistor R2, a resistor R7, a resistor R30, a resistor R31, a resistor R28, a resistor R29, a capacitor C7, a capacitor C11, a capacitor C12, a capacitor C13, a capacitor C24, a capacitor C26, a capacitor C20, a capacitor C25, a capacitor C27 and a connector J2;

the MICN end of the processing chip is connected with the 1 st end of a connector J2 through a capacitor C13, the MICN end of the processing chip is grounded through a resistor R31, the MICP end of the processing chip is grounded through a resistor R30, the MICP end of the processing chip is connected with the 2 nd end of a connector J2 through a capacitor C12, one end of a capacitor C7 is connected with the 1 st end of a connector J2, and the other end of the capacitor C7 is connected with the 2 nd end of a connector J2; the 2 nd end of the connector J2 is grounded through a capacitor C20, the 1 st end of the connector J2 is grounded through a capacitor C27, the 1 st end of the connector J2 is grounded through a resistor R29 and a resistor R2 in sequence, the 2 nd end of the connector J2 is connected with the MIC _ BIAS of the processing chip through a resistor R7 and a resistor R28 in sequence, the 2 nd end of the connector J2 is grounded through a resistor R7 and a capacitor C24 in sequence, and the 2 nd end of the connector J2 is connected with the connection point of the resistor R2 and the resistor R29 through a resistor R7 and a capacitor C25 in sequence; the capacitor C26 and the resistor R2 are connected in parallel, the MIC _ BIAS of the processing chip is grounded through the capacitor C11, and the connector J2 is used for being connected with the microphone. The MIC _ BIAS end of the voice acquisition module is connected with the MIC _ BIAS end (pin 29) of the processing chip U1, the MICP end of the voice acquisition module is connected with the MICP (pin 25) of the processing chip U1, the MICN of the voice acquisition module is connected with the MICN (pin 26) of the processing chip U1, signal transmission between the voice acquisition module and the processing chip is realized through the connection of the pins, when corresponding voice signals are acquired through the voice acquisition module, the corresponding voice signals are converted into corresponding signal instructions to the processing chip, and finally, corresponding control signals are output through the processing chip to realize the voice interaction between the voice acquisition module and the outside. And during specific implementation, the collected sound signals are transmitted to the processing chip through the microphone and transmitted to the television through the communication module.

More preferably, fig. 8 is a schematic circuit block diagram of a display screen provided in an embodiment of the present application; as shown in fig. 8, the currently controlled device is displayed through the display screen. FIG. 9 is a schematic block diagram of a circuit of a key module according to an embodiment of the present disclosure; the corresponding function control and the switching of the controlled equipment are realized through the keys. FIG. 10 is a circuit schematic diagram of a reset module provided in an embodiment of the present application; the setting module is connected with the RS _ TN end of the processing chip through the RS _ TN, and when the resetting is needed, the resetting operation of the processing chip is carried out through the resetting module. FIG. 11 is a schematic circuit diagram of a program burning point according to an embodiment of the present disclosure; as shown in fig. 10, the user can enrich the overall remote control interactive control by entering the corresponding function program through the burning point. Fig. 12 is a schematic circuit diagram of an indicator light module according to an embodiment of the present application, where whether a remote controller is currently in an on state is displayed by the indicator light module of fig. 12.

When a user holds the intelligent remote controller and opens the intelligent remote controller, the display screen of the intelligent remote controller displays that the current remote controller is connected with controlled equipment (household electrical appliance), and if the remote controller is a television, characters like the television can be displayed on the corresponding display screen. However, if the user needs to use the remote controller to control the air conditioner, the intelligent remote controller cannot control the air conditioner to operate even if the corresponding control key is pressed because the intelligent remote controller is currently in the control mode of the television. At the moment, equipment switching is carried out by pressing an equipment switching key, when the current control equipment is displayed on the display screen and is an air conditioner, the equipment switching is stopped, and the processing chip is switched to an air conditioner control mode by calling a control instruction of the air conditioner stored in the storage module, so that various keys at the intelligent remote controller can control corresponding functions of the air conditioner, such as controlling the air conditioner to be turned on or off, adjusting the temperature, swinging fan blades and the like.

According to the scheme of the embodiment of the application, the storage module is arranged to store control instructions of different controlled devices, and when a control switching signal triggered by the key module is received, the remote controller is in communication association with the corresponding controlled device; and displays the current controlled device through the display screen. According to the scheme of the embodiment of the application, one remote controller can integrate control instructions of a plurality of controlled devices, the use frequency of the remote controller is increased, the current controlled devices are displayed through the display screen, the time for debugging and aligning by a user is shortened, and the use experience of the user is improved.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present application and the technical principles employed. It will be understood by those skilled in the art that the present application is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the application. Therefore, although the present application has been described in more detail with reference to the above embodiments, the present application is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present application, and the scope of the present application is determined by the scope of the appended claims.

Claims (10)

1. An intelligent remote controller with a display screen is characterized by comprising a processing chip, the display screen, a key module, an infrared control module, a Bluetooth module and a storage module;

display screen, button module, infrared control module, bluetooth module and storage module all with processing chip electric connection, storage module is used for saving the control command of a plurality of controlled equipment, button module is used for triggering the control that carries out controlled equipment and switches, processing chip is used for carrying out signal transmission through infrared control module or bluetooth module and controlled equipment, the display screen is used for showing the controlled equipment that carries out communication with the remote controller.

2. The intelligent remote controller with a display screen of claim 1, wherein the infrared control module comprises an infrared emission learning module, and the infrared emission learning module is used for receiving an infrared control signal sent by an external remote control device and storing the infrared control signal; and the processing chip sends a corresponding infrared instruction signal to the controlled equipment according to the control signal stored by the infrared emission learning module.

3. The intelligent remote control with a display screen of claim 1, further comprising a power module electrically connected to the processing chip, wherein the power module comprises a rechargeable power source.

4. The intelligent remote controller with display screen of claim 3, further comprising a charging management module connected to the rechargeable power supply, the charging management module being configured to output a stable current to charge the rechargeable power supply.

5. The intelligent remote control with display screen of claim 3, further comprising a battery voltage detection module connected to the rechargeable power supply, the battery voltage detection module being used for detecting the battery voltage.

6. The intelligent remote controller with a display screen of any one of claims 1-5, wherein the remote controller further comprises a voltage reduction module electrically connected to the processing chip, the voltage reduction module being configured to provide an output voltage lower than the supply voltage.

7. The intelligent remote controller with a display screen of claim 6, wherein the voltage-reducing module comprises a resistor R49, a capacitor C30, a capacitor C29 and a voltage-reducing chip U3;

the output end of the voltage reduction chip U3 is electrically connected with the processing chip through a resistor R49, and the output end of the voltage reduction chip U3 is grounded through a capacitor C30; the input end of the voltage reduction chip U3 is connected with the power supply module, the enable end of the voltage reduction chip U3 is grounded through a capacitor C29, and the enable end of the voltage reduction chip U3 is connected with the input end of the voltage reduction chip U3.

8. The intelligent remote controller with display screen of claim 7, wherein the voltage-reducing chip in the voltage-reducing module comprises SGM 2040.

9. The intelligent remote controller with the display screen according to any one of claims 1 to 5, further comprising a voice acquisition module electrically connected to the processing chip, wherein the voice acquisition module is configured to transmit the acquired voice signal to the processing chip, and the processing chip outputs a corresponding control instruction to the controlled device according to the voice signal.

10. The intelligent remote controller with a display screen of claim 9, wherein the voice acquisition module comprises a resistor R2, a resistor R7, a resistor R30, a resistor R31, a resistor R28, a resistor R29, a capacitor C7, a capacitor C11, a capacitor C12, a capacitor C13, a capacitor C24, a capacitor C26, a capacitor C20, a capacitor C25, a capacitor C27 and a connector J2;

the MICN end of the processing chip is connected with the 1 st end of a connector J2 through a capacitor C13, the MICN end of the processing chip is grounded through a resistor R31, the MICP end of the processing chip is grounded through a resistor R30, the MICP end of the processing chip is connected with the 2 nd end of a connector J2 through a capacitor C12, one end of a capacitor C7 is connected with the 1 st end of a connector J2, and the other end of the capacitor C7 is connected with the 2 nd end of a connector J2; the 2 nd end of the connector J2 is grounded through a capacitor C20, the 1 st end of the connector J2 is grounded through a capacitor C27, the 1 st end of the connector J2 is grounded through a resistor R29 and a resistor R2 in sequence, the 2 nd end of the connector J2 is connected with the MIC _ BIAS of the processing chip through a resistor R7 and a resistor R28 in sequence, the 2 nd end of the connector J2 is grounded through a resistor R7 and a capacitor C24 in sequence, and the 2 nd end of the connector J2 is connected with the connection point of the resistor R2 and the resistor R29 through a resistor R7 and a capacitor C25 in sequence; the capacitor C26 and the resistor R2 are connected in parallel, the MIC _ BIAS of the processing chip is grounded through the capacitor C11, and the connector J2 is used for being connected with the microphone.

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