CN110703928B

CN110703928B - Processing method and electronic equipment

Info

Publication number: CN110703928B
Application number: CN201910923776.3A
Authority: CN
Inventors: 叶松; 孙荣阁; 张丹; 李常富
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2019-09-27
Filing date: 2019-09-27
Publication date: 2021-04-13
Anticipated expiration: 2039-09-27
Also published as: CN110703928A

Abstract

The application discloses a processing method and electronic equipment, wherein current is generated in first equipment through first contact action of the first equipment provided with an inductance coil and second equipment capable of generating magnetic induction lines, the first contact action is continuous action of inputting in the second equipment through the first equipment, and a device capable of generating the magnetic induction lines is arranged on a touch unit of the second equipment and provides electric energy for the first equipment through the current. This scheme is through first equipment and second equipment when having first contact action, this first contact action can be by first equipment carry out the input in the second equipment, through the magnetic induction line that inductance coils on the first equipment generated of cutting the second equipment, thereby produce electric current, for first equipment provides the electric energy, realized producing electric current in the daily operation in-process of first equipment, for self provide the electric energy, avoided frequently charging and the problem of changing the battery for first equipment, user experience has been improved.

Description

Processing method and electronic equipment

Technical Field

The present application relates to the field of devices, and in particular, to a processing method and an electronic device.

Background

At present, the functions of the active capacitance pen are more and more, the power consumption of the active capacitance pen is more and more, the cruising ability is more and more low, the problem of frequent charging or battery replacement can exist, and the use experience of a user is influenced.

Disclosure of Invention

In view of the above, the present application provides a processing method and an electronic device, and the specific scheme is as follows:

a method of processing, comprising:

generating a current in a first device by a first contact action of the first device provided with an inductance coil and a second device capable of generating a magnetic induction line, wherein the first contact action is a continuous action of inputting on the second device through the first device;

the device capable of generating the magnetic induction lines is arranged on a touch display device of the second equipment, and the second equipment is in contact with the first equipment through the touch display device;

providing electrical energy to the first device via the electrical current.

Further, the supplying the first device with the electric current includes:

charging a battery of the first device through the current to ensure the electric quantity of the battery;

or the like, or, alternatively,

and providing electric energy for the input of the first device on the second device through the first contact action through the current.

Further, the second device capable of generating a magnetic induction line includes:

magnetic induction devices are respectively arranged on two sides of the touch display device of the second equipment, and the magnetic induction devices respectively arranged on the two sides can generate magnetic induction lines which are used for enabling the first equipment to generate current when the first equipment performs the first contact action.

Further, the first device provided with the inductance coil includes:

a first portion of an inductive coil of the first device generates the current through a first contact action with the second device;

a second portion of the inductive coil of the first device detects a tilt angle of the first device.

Further, the first device provided with the inductance coil includes:

the inductance coil of the first device is arranged in a first range of a top end portion of the first device, which is in contact with the touch display device of the second device.

An electronic device, comprising: inductance coil and treater, wherein:

the inductance coil is used for cutting a magnetic induction line generated by a second device through a first contact action to generate a current, the first contact action is a continuous action of inputting on the second device through the electronic device, a device capable of generating the magnetic induction line in the second device is arranged on a touch display device of the second device, and the second device is in contact with the electronic device through the touch display device;

the processor is used for providing electric energy for the electronic equipment through the current.

Further, the processor provides power for the electronic device through the current, and includes:

the processor provides electric energy for the input of the electronic device on the second device through the first contact action through the current.

Further, the method also comprises the following steps: a battery pack having a plurality of batteries,

the processor charges the battery through the current so as to ensure the electric quantity of the battery.

Further, the method also comprises the following steps: a top portion of the shaft,

the inductance coil is arranged in a first range of the top end part.

An electronic device, comprising: touch display device and magnetic induction device, wherein:

the magnetic induction devices are respectively arranged on two sides of the touch display device, and the magnetic induction devices respectively arranged on the two sides can generate magnetic induction lines and are used for enabling the first equipment to generate current when the first equipment performs a first contact action;

the touch display device is used for contacting with the first equipment when the first equipment performs a first contact action.

According to the processing method and the electronic device disclosed by the application, the current is generated in the first device through the first contact action of the first device provided with the inductance coil and the second device capable of generating the magnetic induction line, the first contact action is the continuous action of inputting in the second device through the first device, the device capable of generating the magnetic induction line is arranged on the touch unit of the second device, the second device is in contact with the first device through the touch unit, and the electric energy is provided for the first device through the current. This scheme is through first equipment and second equipment when having first contact action, this first contact action can be by first equipment carry out the input in the second equipment, through the magnetic induction line that inductance coils on the first equipment generated of cutting the second equipment, thereby produce electric current, for first equipment provides the electric energy, realized producing electric current in the daily operation in-process of first equipment, for self provide the electric energy, avoided frequently charging and the problem of changing the battery for first equipment, user experience has been improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a flow chart of a processing method disclosed in an embodiment of the present application;

FIG. 2 is a flow chart of a processing method disclosed in an embodiment of the present application;

FIG. 3 is a top view of a second apparatus disclosed in embodiments of the present application;

FIG. 4 is a front view of a second apparatus disclosed in an embodiment of the present application;

FIG. 5 is a flow chart of a processing method disclosed in an embodiment of the present application;

FIG. 6 is a schematic structural diagram of a first apparatus disclosed in an embodiment of the present application;

fig. 7 is a schematic structural diagram of an electronic device disclosed in an embodiment of the present application;

fig. 8 is a schematic structural diagram of an electronic device disclosed in an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The application discloses a processing method, a flow chart of which is shown in fig. 1, comprising the following steps:

step S11, generating a current in a first device by a first contact operation between the first device provided with an inductance coil and a second device capable of generating a magnetic induction line, the first contact operation being a continuous operation for inputting on the second device by the first device, the device capable of generating a magnetic induction line being provided on a touch display device of the second device, the second device being in contact with the first device via the touch display device;

and step S12, supplying power to the first device through the current.

The touch display device is arranged on the second device, the second device can be operated through the touch display device, and specifically, the operation of the second device can be realized through the contact between the first device and the touch display device of the second device.

To realize continuous input of the first device to the second device, it is necessary that the contact between the first device and the touch display device of the second device is continuous, and a continuous input action, that is, a first contact action. Such as: and realizing continuous character input of the first equipment on the second equipment through continuous input of the first equipment on a touch display device of the second equipment.

And arranging a device capable of generating the magnetic induction lines on the touch display device of the second equipment, wherein the device is used for forming the magnetic induction lines in a preset space range of the touch display device.

The inductive coil is arranged on the first device, and when the first device inputs an input on the touch display device of the second device, the inductive coil on the first device cuts the magnetic induction lines in the preset space range of the touch display device of the second device. When the first device continuously inputs on the touch display device of the second device, the inductance coil on the first device can continuously cut the magnetic induction lines in the preset space range of the touch display device of the second device, so that electrons in the inductance coil are subjected to Lorentz force, and therefore potential difference is caused, and current is generated.

According to the scheme, the function of cutting the magnetic induction line by the inductance coil is added on the basis of conventional input operation through normal input operation of the first equipment on the second equipment, and electric energy conversion is realized.

After the current is generated in the first device, the first device is powered by the current, namely the current generated by cutting the magnetic induction line on the second device by the first device is used for powering the first device.

Of course, when the first device does not require a power supply, other devices may also be powered. Wherein, the first device does not need power supply, and can be: the first device has no power consumption device and does not need to use electric energy; or the power consuming device in the first device is in a closed state; alternatively, the battery for storing electrical energy in the first device is in a fully charged state.

Correspondingly, the current generated by the first device provides electric energy for the first device, which may specifically be: the first device charges a battery of the first device through current so as to ensure the electric quantity of the battery. Specifically, the following may be mentioned: detecting the state of a battery of the first device to determine the charge level of the battery in the first device, thereby determining whether the battery of the first device needs to be charged; or detecting the state of the first device to determine whether the first device is currently in a power-consuming state, and if the first device is currently in the power-consuming state, directly charging the battery of the first device through the current generated in the first device to ensure that the battery of the first device can have enough power to supply the power consumption of the first device.

The current generated by the first device provides electrical energy to the first device, and may be: the input of the first device on the second device by the first contact action is powered by the current. Specifically, the action that the first device inputs the information on the second device through the first contact action is that the electric energy needs to be consumed, when the first device performs the first contact action, the electric energy needs to be consumed, and the action is executed at the same time to generate the current, so that the first device is directly supplied with the power through the generated current, namely, the electric energy is directly provided for the input action that the first device performs the first contact action through the generated current, and at the moment, the generated current does not flow through the battery and does not pass through the battery, and directly reaches the device for consuming the electric energy in the first device.

In this case, the first device may or may not have a battery. If the first equipment does not have a battery, the purpose that the induction coil cuts the magnetic induction line to generate current can be achieved directly through the first contact action of the first equipment on the touch display device of the second equipment, and the supply of electric energy is guaranteed; if the first device has a battery, the battery is used for ensuring that the first device can not generate current due to faults or other reasons during the input operation process, and the power consumption of the first device can be directly supplied by the power in the battery so as to ensure the normal use of the first device.

In the processing method disclosed in this embodiment, a current is generated in a first device through a first contact action of the first device provided with an inductance coil and a second device capable of generating a magnetic induction line, where the first contact action is a continuous action of inputting in the second device through the first device, a device capable of generating the magnetic induction line is provided in a touch unit of the second device, and the second device is in contact with the first device through the touch unit to provide electric energy for the first device through the current. This scheme is through first equipment and second equipment when having first contact action, this first contact action can be by first equipment carry out the input in the second equipment, through the magnetic induction line that inductance coils on the first equipment generated of cutting the second equipment, thereby produce electric current, for first equipment provides the electric energy, realized producing electric current in the daily operation in-process of first equipment, for self provide the electric energy, avoided frequently charging and the problem of changing the battery for first equipment, user experience has been improved.

The embodiment discloses a processing method, a flowchart of which is shown in fig. 2, and the processing method includes:

step S21, generating a current in a first device by a first contact operation between the first device provided with an inductance coil and a second device capable of generating a magnetic induction line, the first contact operation being a continuous operation for inputting on the second device by the first device, the magnetic induction devices being provided on both sides of a touch display device of the second device, respectively, the magnetic induction devices being capable of generating the magnetic induction line, the second device being in contact with the first device by the touch display device;

and step S22, supplying power to the first device through the current.

The second device is provided with a touch display device for displaying output content of the second device and performing touch operation on the output content to realize input of the second device. The magnetic induction devices are arranged on two sides of the touch display device of the second equipment respectively, the magnetic induction devices arranged on two sides of the touch display device can interact with each other to generate magnetic induction lines, the magnetic induction lines are in a preset space range of the touch display device, and as long as the inductance coil of the first equipment moves in the preset space range, current can be generated.

The first device can be a capacitance pen, when the capacitance pen is used for inputting on the touch display device of the second device, the inductance coil in the capacitance pen can cut the magnetic induction line in the second device, and the capacitance pen is used for supplying power to the capacitance pen when the capacitance pen is used for inputting on the second device.

Wherein, the magnetic induction device can be specifically: the elongated magnets having N and S magnetic poles respectively disposed at both sides of the touch display device are shown in fig. 3, which is a plan view of the second apparatus, and fig. 4, which is a front view of the second apparatus. One magnet is arranged on each of the left and right sides of the touch display device of the second device, and the two magnets form a magnetic induction line. Of course, the magnetic induction devices may be respectively disposed on the upper and lower sides of the touch display device of the second device to form magnetic induction lines perpendicular to the magnetic induction lines shown in fig. 3. As long as the inductor coil of the first device moves within the preset spatial range shown in fig. 4, cutting of the magnetic induction line is achieved, and current is generated.

The present embodiment discloses a processing method, a flowchart of which is shown in fig. 5, and the processing method includes:

step S51, generating a current in a first device by a first contact operation of the first device provided with an inductance coil and a second device capable of generating a magnetic induction line, the first contact operation being a continuous operation of inputting on the second device by the first device, the device capable of generating the magnetic induction line being provided in a touch display device of the second device, the second device being in contact with a tip portion of the first device through the touch display device, the inductance coil of the first device being provided within a first range of the tip portion;

and step S52, supplying power to the first device through the current.

The input operation of the first device on the second device is realized by the contact and relative movement of the top end part of the first device on the touch display device of the second device. Since the second device is provided with a device capable of generating magnetic induction lines, the magnetic induction lines generated on the second device are within the preset space range of the touch display device, and as long as the inductance coil of the first device moves within the preset space range, current can be generated.

When the first device performs input operation on the second device, the top end part of the first device is in contact with the touch display device of the second device, and at the moment, current generation can be guaranteed as long as the inductance coil of the first device is guaranteed to be within a preset space range of the touch display device.

The schematic structural diagram of the first device is shown in fig. 6, and includes: an inductor 61 and a tip portion 62.

In addition, the inductance coil of the first device disclosed in this embodiment at least includes: a first portion and a second portion, wherein: a first part of an inductance coil of the first device generates current through a first contact action with the second device; the second part of the inductor winding of the first device detects the tilt angle of the first device, so that there are more application scenarios during the application of the first device.

The induction coil of the first equipment is divided into two parts, one part cuts the magnetic induction line to generate current, and the other part detects the inclination angle, so that the normal use of the input operation of the second equipment is ensured, the supply of electric energy to the first equipment is also ensured, and the problem of frequently replacing the battery of the first equipment or frequently charging the first equipment is avoided.

The embodiment discloses an electronic device, a schematic structural diagram of which is shown in fig. 7, including:

an inductor 71 and a processor 72.

The inductance coil 71 is used for cutting a magnetic induction line generated by the second device through a first contact action to generate a current, the first contact action is a continuous action of inputting on the second device through the electronic device, a device capable of generating the magnetic induction line in the second device is arranged on a touch display device of the second device, and the second device is in contact with the electronic device through the touch display device;

the processor 72 is used to power the electronic device with electrical current.

The electronic device in this embodiment is the same as the first device in the above embodiment, and for convenience of distinction, the electronic device in this embodiment is subsequently expressed by the first device in a unified manner.

Further, the electronic device disclosed in this embodiment further includes: the inductance coil is arranged in a first range of the top end portion.

Further, the second device may be:

the secondary dry devices are respectively arranged on two sides of the touch display device of the second equipment, and the magnetic induction devices respectively arranged on the two sides can generate magnetic induction lines for enabling the first equipment to generate current when the first equipment performs the first contact action.

In the electronic device disclosed in this embodiment, a current is generated in the electronic device through a first contact action between the electronic device provided with the inductance coil and a second device capable of generating a magnetic induction line, where the first contact action is a continuous action input in the second device through the electronic device, and the device capable of generating the magnetic induction line is provided in a touch unit of the second device, and the second device is in contact with the electronic device through the touch unit, and supplies electric energy to the electronic device through the current. When this scheme has first contact action through electronic equipment and second equipment, this first contact action can be by electronic equipment carry out the input in the second equipment, through the magnetic induction line that inductance coils on the electronic equipment cutting second equipment generated to the production current, for electronic equipment provides the electric energy, realized producing the electric current in electronic equipment's daily operation in-process, for self provide the electric energy, avoided frequently charging and the problem of changing the battery for electronic equipment, user experience has been improved.

The embodiment discloses an electronic device, a schematic structural diagram of which is shown in fig. 8, including:

a touch display device 81 and a magnetic induction device 82.

The magnetic induction devices 82 are respectively arranged on two sides of the touch display device 81, and the magnetic induction devices respectively arranged on the two sides can generate magnetic induction lines for enabling the first equipment to generate current when the first equipment performs the first contact action;

the touch display device 81 is used to make contact with the first device when the first device performs the first contact operation.

The electronic device in this embodiment is the same as the second device in the above embodiment, and for convenience of distinction, the second device is used to represent the electronic device in this embodiment.

The electronic device disclosed in this embodiment is implemented by applying the method disclosed in the above embodiment, and details are not described herein again.

The electronic device disclosed in this embodiment generates a current in a first device through a first contact action of the first device provided with an inductance coil and the electronic device capable of generating a magnetic induction line, where the first contact action is a continuous action input in the electronic device through the first device, and a device capable of generating the magnetic induction line is provided in a touch unit of the electronic device, and the electronic device contacts with the first device through the touch unit, and supplies electric energy to the first device through the current. This scheme is through first equipment and electronic equipment when having first contact action, this first contact action can be by first equipment carry out the input in electronic equipment, through the magnetic induction line that inductance coils on the first equipment generated, thereby produce electric current, for first equipment provides the electric energy, realized producing electric current in the daily operation in-process of first equipment, for self provide the electric energy, avoided frequently charging and the problem of changing the battery for first equipment, user experience has been improved.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative components and steps have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. A software module may reside in Random Access Memory (RAM), memory, Read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A processing method of an electronic device, comprising:

generating a current in a first device by a first contact action of the first device provided with an inductance coil and a second device capable of generating a magnetic induction line, wherein the first contact action is a continuous action of inputting on the second device through the first device; wherein the first device comprises: a first part of an inductance coil of the first device generates the current through a first contact action with the second device, and a second part of the inductance coil of the first device detects the inclination angle of the first device;

the method comprises the steps of providing electric energy for first equipment through the current, specifically, detecting the state of the first equipment, determining whether the first equipment is in a power consumption state at present, and if so, charging a battery of the first equipment through the current.

2. The method of claim 1, wherein said providing electrical energy to said first device via said electrical current comprises:

or the like, or, alternatively,

3. The method of claim 1, wherein the second device capable of generating lines of magnetic induction comprises:

4. The method of claim 1, wherein the first device provided with an induction coil comprises:

5. An electronic device, comprising: inductance coil and treater, wherein:

the processor is configured to provide electric energy for the electronic device through the current, specifically, detect a state of a first device, determine whether the first device is currently in a power consumption state, and charge a battery of the first device through the current if the first device is currently in the power consumption state;

wherein the induction coil includes at least: a first portion that generates a current by a first contact action with the second device, and a second portion that detects a tilt angle of the first device.

6. The electronic device of claim 5, wherein the processor provides power to the electronic device through the electrical current, comprising:

7. The electronic device of claim 5, further comprising: a battery pack having a plurality of batteries,

8. The electronic device of claim 5, further comprising: a top portion of the shaft,

the inductance coil is arranged in a first range of the top end part.

9. An electronic device, comprising: touch display device and magnetic induction device, wherein:

the magnetic induction devices are respectively arranged on two sides of the touch display device, the magnetic induction devices respectively arranged on the two sides can generate magnetic induction lines, and the magnetic induction lines are used for enabling first equipment to generate current when the first equipment performs a first contact action, the first equipment is provided with electric energy through the current, specifically, the state of the first equipment is detected, whether the first equipment is in a power consumption state at present is determined, and if yes, a battery of the first equipment is charged through the current;

the touch display device is used for contacting with the first equipment when the first equipment performs a first contact action;

wherein the first device inductor comprises at least: the electronic device includes a first portion that generates a current by a first contact action with a second device, and a second portion that detects a tilt angle of the first device.