阅读说明：本技术 基于紫外光波段的控制方法的移动终端 (Mobile terminal based on control method of ultraviolet light wave band ) 是由 涂小兵 蒲金蓉 于 2020-06-01 设计创作，主要内容包括：本发明属于紫外光波段的控制方法的技术领域,本发明提供一种基于紫外光波段的控制方法及移动终端,在移动终端上设置接收波段开启信号,再依据波段开启信号,判断需要开启的目标波段开启指令,并用于发出对目标波段开启指令进行开启的开启信号,以开启紫外光发生装置对目标波段开启指令的生成。通过在移动设备上增加紫外光发生装置,能够实现通过移动终端来消毒、凝固或者照射的其中任一一项功能。(The invention belongs to the technical field of control methods of ultraviolet light wave bands, and provides a control method based on an ultraviolet light wave band and a mobile terminal. By adding the ultraviolet light generating device on the mobile equipment, any one of functions of disinfection, solidification or irradiation through the mobile terminal can be realized.)

1. A control method of ultraviolet light waveband is characterized by comprising the following steps:

receiving a waveband opening signal;

judging whether a target waveband opening instruction exists or not according to the waveband opening signal;

and if the target waveband opening instruction exists, sending a trigger signal for opening the target waveband so as to control an ultraviolet light generating device installed on the mobile terminal to generate the target waveband.

2. The control method according to claim 1, further comprising:

receiving a band closing signal;

judging whether a target waveband closing instruction exists or not according to the waveband closing signal;

and if the target waveband closing instruction exists, sending a trigger signal for closing the target waveband so as to control an ultraviolet light generating device installed on the terminal to close the target waveband.

3. The control method of claim 1, wherein the step of receiving a band on signal comprises:

receiving a control touch signal;

judging whether the control touch signal is a waveband opening signal or not;

and if so, receiving the band starting signal.

4. A storage medium storing a computer program, characterized in that the computer program is executed in a processor to implement the method of any of claims 1-3.

5. A control device for the ultraviolet light band, comprising:

the receiving module is used for receiving a waveband starting signal;

the judging module is used for judging whether a target waveband opening instruction exists or not according to the waveband opening signal;

and the generating module is used for sending a trigger signal for starting the target waveband so as to control an ultraviolet light generating device arranged on the mobile terminal to generate the target waveband.

6. A mobile terminal is characterized by comprising an ultraviolet light generating device arranged on the mobile terminal; the mobile terminal is used for receiving a waveband starting signal, judging a target waveband starting instruction needing to be started according to the waveband starting signal, and sending a starting signal for starting the target waveband starting instruction so as to start the generation of the target waveband starting instruction by the ultraviolet light generating device.

7. The control method according to claim 1, characterized by comprising:

receiving a band starting signal for selectively starting at least two bands;

judging whether a first band opening instruction exists or not according to the band opening signal;

and if the first waveband opening instruction exists, sending a trigger signal for opening the first waveband so as to control an ultraviolet light generating device installed on the mobile terminal to generate the first waveband.

8. The control method of claim 7, wherein the step of receiving a band on signal for selective on for at least two bands comprises:

and receiving a control touch signal, wherein the control touch signal is used for selectively starting at least two wave bands.

9. The control method of claim 7, wherein the step of receiving a band on signal for selective on for at least two bands comprises:

and receiving a voice control signal, wherein the voice control signal is used for selectively starting at least two wave bands.

10. The mobile terminal of claim 6, wherein the mobile terminal is configured to receive a band-on signal for selectively turning on at least two bands, determine whether a first band-on command exists according to the band-on signal, and send a turn-on signal for turning on the first band to turn on the generation of the first band by the ultraviolet light generating device.

Technical Field

The invention belongs to the technical field of control methods of ultraviolet light wave bands, and particularly relates to a control method based on an ultraviolet light wave band and a mobile terminal.

Background

The ultraviolet light includes an A band (315-400 nm), a B band (280-315 nm) and a C band (200-280 nm).

Disclosure of Invention

In summary, conventional mobile devices do not have the function of solidifying and/or irradiating and/or sterilizing.

The invention provides a control method of an ultraviolet light waveband, which comprises the following steps: receiving a waveband opening signal; judging whether a target waveband opening instruction exists or not according to the waveband opening signal; and if the target waveband opening instruction exists, sending a trigger signal for opening the target waveband so as to control an ultraviolet light generating device installed on the mobile terminal to generate the target waveband.

Specifically, the method further comprises the following steps: receiving a band closing signal; judging whether a target waveband closing instruction exists or not according to the waveband closing signal; and if the target waveband closing instruction exists, sending a trigger signal for closing the target waveband so as to control an ultraviolet light generating device arranged on the terminal to close the target waveband.

Specifically, the step of receiving the band on signal includes: receiving a control touch signal; judging whether the control touch signal is a waveband opening signal or not; if so, a band on signal is received.

A storage medium storing a computer program which is executed in a processor to implement any of the methods described above.

A control device for an ultraviolet light band, comprising: the receiving module is used for receiving a waveband starting signal; the judging module is used for judging whether a target waveband opening instruction exists or not according to the waveband opening signal; and the generating module is used for sending a trigger signal for starting the target waveband so as to control the ultraviolet light generating device arranged on the mobile terminal to generate the target waveband.

A mobile terminal comprises an ultraviolet light generating device arranged on the mobile terminal; and the mobile terminal is used for receiving the waveband starting signal, judging a target waveband starting instruction needing to be started according to the waveband starting signal, and sending a starting signal for starting the target waveband starting instruction so as to start the generation of the target waveband starting instruction by the ultraviolet light generating device.

Specifically, the method comprises the following steps: receiving a band starting signal for selectively starting at least two bands; judging whether a first band opening instruction exists or not according to the band opening signal; and if the first waveband opening instruction exists, sending a trigger signal for opening the first waveband so as to control an ultraviolet light generating device installed on the mobile terminal to generate the first waveband.

Specifically, the step of receiving a band on signal for selectively turning on at least two bands includes: and receiving a control touch signal, wherein the control touch signal is used for selectively starting at least two wave bands.

Specifically, the step of receiving a band on signal for selectively turning on at least two bands includes: and receiving a voice control signal, wherein the voice control signal is used for selectively starting at least two wave bands.

Specifically, the mobile terminal is configured to receive a band start signal for selectively starting at least two bands, determine whether a first band start instruction exists according to the band start signal, and send a start signal for starting the first band, so as to start generation of the first band by the ultraviolet light generation device.

The invention belongs to the technical field of control methods of ultraviolet light wave bands, and provides a mobile terminal based on the control method of the ultraviolet light wave bands. By adding the ultraviolet light generating device on the mobile equipment, one of the solutions of disinfecting, solidifying or irradiating through the mobile terminal can be realized.

Drawings

Fig. 1 is a schematic diagram illustrating steps of a method for band-up of a mobile terminal according to an embodiment;

fig. 2 is a schematic diagram illustrating steps of a method for band shutdown of a mobile terminal according to an embodiment;

FIG. 3 is a block diagram illustrating an embodiment of a process for receiving a band on signal;

FIG. 4 is a block diagram of a control device according to an embodiment;

fig. 5 is a schematic structural diagram of a mobile terminal device according to an embodiment;

fig. 6 is a schematic structural diagram of the ultraviolet light generating device in fig. 5.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that in the description of the present invention, unless otherwise explicitly specified or limited, the term "storage medium" may be various media that can store a computer program, such as ROM, RAM, a magnetic or optical disk, or the like. The term "processor" may be a chip or a circuit having a data processing function, such as a CPLD (Complex Programmable Logic Device), an FPGA (Field-Programmable Gate Array), an MCU (micro Controller Unit), a PLC (Programmable Logic Controller), and a CPU (central processing Unit). The term "electronic device" may be any device having data processing and storage functions and may generally include fixed and mobile terminals. Fixed terminals such as desktop computers and the like. Mobile terminals such as mobile phones, PADs (called palmtop computers), power banks, mobile robots, etc. Furthermore, the technical features mentioned in the different embodiments of the invention described later can be combined with each other as long as they do not conflict with each other.

In the following, the present invention is presented in conjunction with the prior art in a number of preferred embodiments to teach those skilled in the art to practice the invention. The implementation of the method steps in the preferred embodiment may be performed by using a robot system as an execution subject.

The invention provides a control method of an ultraviolet light waveband, which comprises the following steps: receiving a waveband opening signal; judging whether a target waveband opening instruction exists or not according to the waveband opening signal; and if the target waveband opening instruction exists, sending a trigger signal for opening the target waveband so as to control an ultraviolet light generating device installed on the mobile terminal to generate the target waveband.

It should be noted that, the mobile terminal is an electronic device that can be operated manually and can directly perform wired (or wireless) data communication with other devices.

As shown in fig. 1, an embodiment is provided, which is directed to a target band turning-on method of a mobile terminal:

s1: receiving a waveband opening signal;

s2: judging whether a target waveband opening instruction exists or not according to the waveband opening signal;

s3: and if the target waveband opening instruction exists, sending a trigger signal for opening the target waveband so as to control an ultraviolet light generating device installed on the mobile terminal to generate the target waveband.

It should be further explained that, the present invention provides a method for controlling ultraviolet light band, comprising: receiving a waveband opening signal; judging whether a target waveband opening instruction exists or not according to the waveband opening signal; and if the target waveband opening instruction exists, sending a trigger signal for opening the target waveband so as to control an ultraviolet light generating device installed on the mobile terminal to generate the target waveband. The method realizes the generation of the target wave band at the mobile terminal, and simultaneously can control the generation of any wave band.

Specifically, the method further comprises the following steps: receiving a band closing signal; judging whether a target waveband closing instruction exists or not according to the waveband closing signal; and if the target waveband closing instruction exists, sending a trigger signal for closing the target waveband so as to control an ultraviolet light generating device arranged on the terminal to close the target waveband.

As shown in fig. 2, an embodiment is provided, which is directed to a target band closing method of a mobile terminal:

s4: receiving a band closing signal;

s5: judging whether a target waveband closing instruction exists or not according to the waveband closing signal;

s6: and if the target waveband closing instruction exists, sending a trigger signal for closing the target waveband so as to control an ultraviolet light generating device arranged on the terminal to close the target waveband.

Specifically, the step of receiving the band on signal includes: receiving a control touch signal; judging whether the control touch signal is a waveband opening signal or not; if so, a band on signal is received.

As shown in fig. 3, an embodiment is provided, wherein the step of receiving the band on signal comprises:

s7: receiving a control touch signal;

s8: judging whether the control touch signal is a waveband opening signal or not;

s9: if so, a band on signal is received.

A storage medium storing a computer program which is executed in a processor to implement any of the methods described above.

A control device for an ultraviolet light band, comprising: the receiving module is used for receiving a waveband starting signal; the judging module is used for judging whether a target waveband opening instruction exists or not according to the waveband opening signal; and the generating module is used for sending a trigger signal for starting the target waveband so as to control the ultraviolet light generating device arranged on the mobile terminal to generate the target waveband.

As shown in fig. 4, the control device 1 includes a receiving module 4, a judging module 3, and a generating module 2.

The receiving module 4 is used for receiving a waveband starting signal; the judging module 3 is used for judging whether a target waveband opening instruction exists or not according to the waveband opening signal; and the generating module 2 is used for sending a trigger signal for starting the target waveband so as to control the ultraviolet light generating device installed on the mobile terminal to generate the target waveband.

A mobile terminal comprises an ultraviolet light generating device arranged on the mobile terminal; and the mobile terminal is used for receiving the waveband starting signal, judging a target waveband starting instruction needing to be started according to the waveband starting signal, and sending a starting signal for starting the target waveband starting instruction so as to start the generation of the target waveband starting instruction by the ultraviolet light generating device.

As shown in fig. 5, the mobile terminal 5 includes a receiving device 8, a determining device 7, and an ultraviolet light generating device 6.

A mobile terminal 5 comprises an ultraviolet light generating device 6 arranged on the mobile terminal 5; the mobile terminal 5 receives the band start signal through the receiving device 8, and determines a target band start instruction to be started through the determining device 7 according to the band start signal, and sends a start signal for starting the target band start instruction to start the generation of the target band start instruction by the ultraviolet light generating device 6.

It should be noted that, a receiving band starting signal is set on the mobile terminal, and then a target band starting instruction needing to be started is determined according to the band starting signal, and is used for sending a starting signal for starting the target band starting instruction, so as to start the generation of the target band starting instruction by the ultraviolet light generating device. By adding the ultraviolet light generating device on the mobile equipment, one of the solutions of disinfecting, solidifying or irradiating through the mobile terminal can be realized.

Specifically, the control method comprises the following steps: receiving a band starting signal for selectively starting at least two bands; judging whether a first band opening instruction exists or not according to the band opening signal; and if the first waveband opening instruction exists, sending a trigger signal for opening the first waveband so as to control an ultraviolet light generating device installed on the mobile terminal to generate the first waveband.

By setting at least two band starting instructions, the corresponding selection terminal ultraviolet light generating device generates the band which accords with the specific application scene, and the specific application requirements of users on different bands of ultraviolet light can be met.

For example, the solidification is performed in the A band (315-400 nm), the irradiation is performed in the B band (280-315 nm), and the sterilization is performed in the C band (200-280 nm).

Specifically, the step of receiving a band on signal for selectively turning on at least two bands includes: and receiving a control touch signal, wherein the control touch signal is used for selectively starting at least two wave bands.

The embodiment is provided, the APP can be set, the plurality of controls are set in the APP, each control corresponds to one wave band starting instruction, and then the ultraviolet light wave band which needs to be used in a specific application scene can be started correspondingly, so that various requirements of a user are met. For example, three controls may be set to correspond to the first band-on command, the second band-on command, and the third band-on command, respectively. Wherein, if the first band is set as the A band (315-400 nm), the second band selects other bands.

Specifically, the step of receiving a band on signal for selectively turning on at least two bands includes: and receiving a voice control signal, wherein the voice control signal is used for selectively starting at least two wave bands.

Providing an embodiment, a person sends out different voice signals and respectively corresponds to the wave band starting signals of different wave bands for selecting starting; after receiving different voice signals, the ultraviolet light generating device generates different wave bands.

The embodiment is provided, a voice recognition module can be arranged to receive different voice signals, each voice signal corresponds to a band starting instruction, and then an ultraviolet band which needs to be used in a specific application scene can be started correspondingly, so that various requirements of users are met. For example, a voice signal of "turn on the first band" corresponds to a first band-on command, a voice signal of "turn on the second band" corresponds to a second band-on command, and a voice signal of "turn on the third band" corresponds to a third band-on command. Wherein, if the first band is set as the A band (315-400 nm), the second band selects other bands.

It should be noted that the voice recognition module may be encrypted to recognize only a user with a specific voice feature, thereby ensuring the security of the terminal.

Specifically, the step of receiving a band on signal for selectively turning on at least two bands includes: a facial recognition signal is received, the facial recognition signal being for selective switching on for at least two bands.

The embodiment is provided, a facial recognition module can be arranged to receive different facial expression signals, each facial expression signal corresponds to a band starting instruction, and then an ultraviolet band which needs to be used in a specific application scene can be started correspondingly, so that various requirements of a user are met. For example, a facial expression signal of "smile" corresponds to a first band on command, a facial expression signal of "open mouth" corresponds to a second band on command, and a facial expression signal of "blink" corresponds to a third band on command. Wherein, if the first band is set as the A band (315-400 nm), the second band selects other bands.

It should be noted that the face recognition module may be encrypted to recognize only users with specific facial features, thereby ensuring the security of the terminal.

Specifically, the step of receiving a band on signal for selectively turning on at least two bands includes: receiving a fingerprint identification signal, wherein the fingerprint identification signal is used for selectively turning on aiming at least two wave bands.

The embodiment is provided, the fingerprint identification module can be arranged to receive different fingerprint signals, each fingerprint signal corresponds to a band opening instruction, and then the ultraviolet band which needs to be used in a specific application scene can be opened correspondingly, so that various requirements of users are met. For example, the fingerprint signal of the "thumb" corresponds to the first band on command, the fingerprint signal of the "middle finger" corresponds to the second band on command, and the fingerprint signal of the "little finger" corresponds to the third band on command. Wherein, if the first band is set as the A band (315-400 nm), the second band selects other bands.

Specifically, the mobile terminal is configured to receive a band start signal for selectively starting at least two bands, determine whether a first band start instruction exists according to the band start signal, and send a start signal for starting the first band, so as to start generation of the first band by the ultraviolet light generation device.

The first band may be any one of the A band (315-400 nm), the B band (280-315 nm) and the C band (200-280 nm).

It should be further noted that at least two band starting instructions are set, and the band which meets the specific application scene is generated by correspondingly selecting the terminal ultraviolet light generating device, so that the specific application requirements of users on different bands of ultraviolet light can be met.

For example, the solidification is performed in the A band (315-400 nm), the irradiation is performed in the B band (280-315 nm), and the sterilization is performed in the C band (200-280 nm).

According to an embodiment, the mobile terminal 5 includes a receiving device 8, configured to receive a band-on signal for selectively turning on at least two bands, and according to the band-on signal, the determining module 7 determines whether a first band-on command exists, and sends a turn-on signal for turning on the first band, so as to turn on the generation of the first band by the ultraviolet light generating device 6.

Providing a graphic embodiment of the mobile terminal, wherein the ultraviolet light generating device comprises a switch module and an LED lamp; the switch module receives a starting signal for starting the first waveband so as to start the generation of the LED lamp on the first waveband.

The first band may be any one of the A band (315-400 nm), the B band (280-315 nm) and the C band (200-280 nm).

It should be further noted that at least two band starting instructions are set, and the band which meets the specific application scene is generated by correspondingly selecting the terminal ultraviolet light generating device, so that the specific application requirements of users on different bands of ultraviolet light can be met.

For example, the solidification is performed in the A band (315-400 nm), the irradiation is performed in the B band (280-315 nm), and the sterilization is performed in the C band (200-280 nm).

As shown in fig. 6, according to an embodiment, the switch module 61 sends a first band on signal to the LED lamp 60, and then the LED lamp 60 sends a first band.