CN212181423U

CN212181423U - Input device

Info

Publication number: CN212181423U
Application number: CN202020450676.1U
Authority: CN
Inventors: 李焱
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2020-03-31
Filing date: 2020-03-31
Publication date: 2020-12-18
Anticipated expiration: 2030-03-31

Abstract

The application discloses input equipment relates to electronic equipment technical field. The main technical scheme of the application is as follows: the method comprises the following steps: a body; the touch panel assembly is used for forming part of the upper surface of the body and sensing the change of touch coordinates and generating one of a plurality of touch gesture signals; the main control chip is arranged in the body, is electrically connected with the touch pad assembly, and is used for receiving the touch gesture signal and outputting a control signal generated according to the touch gesture signal to corresponding external electronic equipment; the vibrating assembly is arranged on one side of the touch panel assembly, which is far away from the upper surface, is positioned in the body and is electrically connected with the main control chip; the main control chip sends a trigger signal corresponding to the touch gesture signal to the vibration assembly according to the received touch gesture signal, and the vibration assembly generates a corresponding vibration signal according to the trigger signal and feeds the vibration signal back to the touch panel assembly.

Description

Input device

Technical Field

The application relates to the technical field of electronic equipment, in particular to input equipment.

Background

With the development of science and technology, more and more input devices adopt a touch screen to simulate operation actions of the input devices, but the existing input devices cannot simulate operation feelings of the input devices, for example, when a user clicks the touch screen, the user cannot receive feedback, so that the experience of the user is reduced, and therefore, how to improve the use experience of the user is a technical problem that needs to be solved urgently by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

In view of this, the present application provides an input device, and mainly aims to improve the user experience.

An embodiment of the present application provides an input device, including: a body;

the touch panel assembly is used for forming part of the upper surface of the body and sensing the change of touch coordinates and generating one of a plurality of touch gesture signals;

the main control chip is arranged in the body, is electrically connected with the touch pad assembly, and is used for receiving the touch gesture signal and outputting a control signal generated according to the touch gesture signal to corresponding external electronic equipment;

the vibration assembly is arranged on one side of the touch pad assembly, which is far away from the upper surface, is positioned in the body and is electrically connected with the main control chip;

the main control chip sends a trigger signal corresponding to the touch gesture signal to the vibration component according to the received touch gesture signal, and the vibration component generates a corresponding vibration signal according to the trigger signal and feeds the vibration signal back to the touch panel component.

The purpose of the application and the technical problem to be solved can be further realized by adopting the following technical measures.

Specifically, the gear adjusting key is arranged on the body or on an external electronic device, wherein the gear adjusting key is used for sending a gear adjusting signal to the input device, the main control chip is used for amplifying the touch gesture signal according to the gear adjusting signal and generating a corresponding control signal according to the amplified touch gesture signal.

Specifically, the signal amplification circuit is used for amplifying the touch gesture signal;

one end of the gear adjusting circuit is electrically connected with the input end of the signal amplifying circuit, and the other end of the gear adjusting circuit is connected with the gear adjusting key and used for controlling the amplification factor of the touch gesture signal according to the gear adjusting signal;

and one end of the processing circuit is connected with the output end of the signal amplification circuit, and the other end of the processing circuit is electrically connected with the vibration assembly and used for generating the corresponding trigger signal according to the amplified touch gesture signal.

Specifically, the signal amplification circuit includes N amplification sub-circuits, each amplification sub-circuit correspondingly amplifies one touch gesture signal, where N is a positive integer greater than or equal to 1;

the gear adjusting signals correspond to the N amplifying sub-circuits one by one.

Specifically, the processing circuit is further configured to generate a corresponding frequency trigger signal according to the amplified touch gesture signal and send the frequency trigger signal to the vibration component, and the vibration component generates a corresponding vibration frequency signal according to the frequency trigger signal and feeds the vibration frequency signal back to the touch panel assembly;

wherein, the frequency trigger signal is used as the trigger signal, and the vibration frequency signal is used as the vibration signal.

Specifically, the touch gesture signal includes a sliding signal and a tapping signal, the triggering signal includes a first triggering sub-signal and a second triggering sub-signal, the vibration signal includes a first sub-vibration signal and a second sub-vibration signal, wherein the sliding signal the first triggering sub-signal and the first sub-vibration signal are corresponding, and the tapping signal the second triggering sub-signal and the second sub-vibration signal are corresponding.

Specifically, the upper surface comprises a first edge and a second edge which are opposite, and the distance between the touch panel assembly and the first edge is smaller than the distance between the touch panel assembly and the second edge;

the gear adjusting key is arranged on one side, close to the second edge, of the touch panel assembly.

Specifically, the vibration component is electrically connected with the main control chip and used for controlling the vibration component to be turned on or turned off.

The sensor is arranged on the lower surface of the body and used for detecting the motion track of the input device, wherein the lower surface is arranged opposite to the upper surface;

the first input assembly and the second input assembly are arranged on the upper surface and are respectively arranged on two opposite sides of the touch panel assembly;

the first input assembly and the second input assembly are both touch panel assemblies;

or both the first input assembly and the second input assembly are push key assemblies.

According to the input device provided by the embodiment of the application, the touch panel assembly can sense whether a user touches the touch panel assembly, and touch gesture signals can be generated according to the change of touch coordinates, wherein the number of the touch gesture signals is multiple, the main control chip receives the touch gesture signals sent by the touch panel assembly, corresponding control signals can be generated according to the touch gesture signals to control the page change of the external electronic device, meanwhile, the main control chip generates corresponding trigger signals according to the touch gesture signals, and after receiving the trigger signals, the vibration assembly generates corresponding vibration signals and feeds the vibration signals back to the touch panel assembly, so that the vibration signals are sensed by the user. The touch panel assembly can generate different touch gesture signals according to different touch gestures of a user, and correspondingly, the main control chip can generate different trigger signals according to different touch gesture signals, so that the vibration assembly can generate an impassable vibration signal, therefore, when the user inputs different touch gestures, different vibration feedbacks can be received, and the use experience of the user is improved.

The foregoing description is only an overview of the technical solutions of the present application, and in order to make the technical solutions of the present application more clear and clear, and to implement the technical solutions according to the content of the description, the following detailed description is made with reference to the preferred embodiments of the present application and the accompanying drawings.

Drawings

Fig. 1 is a schematic structural diagram of an input device according to an embodiment of the present disclosure;

fig. 2 is another schematic structural diagram of an input device according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of an input device according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of an input device according to an embodiment of the present application.

The reference numbers illustrate:

1-body, 11-upper surface, 111-first edge, 112-second edge, 2-touch panel assembly, 3-main control chip, 31-signal amplification circuit, 311-amplification sub-circuit, 32-gear adjustment circuit, 33-processing circuit, 4-vibration assembly, 5-gear adjustment key, 6-control switch, 71-first input assembly, 72-second input assembly, and 8-external electronic equipment.

Detailed Description

To further illustrate the technical means and effects of the present invention adopted to achieve the intended purpose, the following detailed description of an input device according to the present invention with reference to the accompanying drawings and preferred embodiments will be made to describe the detailed embodiments, structures, features and effects thereof.

An embodiment of the present application provides an input device, as shown in fig. 1 to 4, including: a body 1; the touch pad assembly 2 is used for forming part of the upper surface 11 of the body 1, sensing the change of touch coordinates and generating one of a plurality of touch gesture signals; the main control chip 3 is arranged in the body 1, is electrically connected with the touch panel assembly 2, and is used for receiving the touch gesture signal and outputting a control signal generated according to the touch gesture signal to the corresponding external electronic equipment 8; the vibration assembly 4 is arranged on one side, away from the upper surface 11, of the touch panel assembly 2, is positioned in the body 1, and is electrically connected with the main control chip 3; the main control chip 3 sends a trigger signal corresponding to the touch gesture signal to the vibration component 4 according to the received touch gesture signal, and the vibration component 4 generates a corresponding vibration signal according to the trigger signal and feeds the vibration signal back to the touch pad component 2.

The input device can be a mouse, the upper surface 11 of the input device is held or touched by a user, when the input device is placed on a placing surface such as a desktop, the lower surface is in contact with the placing surface, and the upper surface 11 and the lower surface are arranged oppositely and deviate from the placing surface. The touch panel assembly 2 is arranged on the body 1 of the input device, one side of the upper surface 11 of the forming part of the touch panel assembly 2 is touched by a user, after the user touches the touch panel assembly 2, the capacitance of a touched position can be changed, the touch position of the user can be sensed, and meanwhile, a touch coordinate corresponding to the touch position is generated in the touch panel assembly 2. After the touch coordinate is changed, the touch panel assembly 2 generates a corresponding touch gesture signal according to the change of the touch coordinate, so that the touch panel assembly 2 can generate one of a plurality of touch gesture signals according to the touch action of the user, wherein the touch gesture signal generated by the touch panel assembly 2 can reflect whether the finger of the user slides on the touch panel assembly 2, the sliding direction and the sliding distance, and whether the user strikes the touch panel assembly 2. For example, when a user's finger slides over the touchpad assembly 2, the touchpad assembly 2 may generate a slide signal, and when the user taps on the touchpad assembly 2, the touchpad assembly 2 may generate a tap signal. Then, the touch pad assembly 2 sends the touch gesture signal to the main control chip 3, the main control chip 3 generates a corresponding control signal according to the touch gesture signal, and sends the control signal to the external electronic device 8, wherein the external electronic device 8 may be a computer host or a notebook computer, etc. In addition, still be provided with vibrations subassembly 4 in the body 1, can produce the vibrations signal, in order to guarantee that the user can accurate perception vibrations signal, need to guarantee the reliability that vibrations subassembly 4 is connected with touch pad subassembly 2, preferably makes touch pad subassembly 2 closely laminate in touch pad subassembly 2. The main control chip 3 can generate a corresponding trigger signal according to the touch gesture signal after receiving the touch gesture signal of the touch panel assembly 2, and then sends the trigger signal to the vibration assembly 4, and the vibration assembly 4 generates a corresponding vibration signal according to the trigger signal and feeds the vibration signal back to the touch panel assembly 2, so that a user can feel the vibration signal. Wherein, the number of the trigger signals can be multiple, and the trigger signals correspond to the touch gesture signals one by one, when a user slides on the touch pad component 2, the touch pad component 2 generates a sliding signal, the sliding signal belongs to one of the touch gesture signals, the trigger signal can control the vibration component 4 to vibrate continuously for a first preset time, when the user knocks the touch pad component 2, the touch pad component 2 generates a knocking signal, the knocking signal belongs to one of the touch gesture signals, correspondingly, the main control chip 3 generates another trigger signal, the vibration component 4 can vibrate for a second preset time according to the trigger signal, wherein, in order to simulate the touch feeling of the user, the second preset time can be shorter to 0.5 seconds or 1 second, etc., if the knocking signal is a clicking signal, the vibration component 4 vibrates once, if the knocking signal is a double-clicking signal, the vibration component 4 vibrates twice, shaking each time for a second preset time. Therefore, in the present application, when a user performs different touch gestures on the touch panel assembly 2, the touch panel assembly 2 may generate different touch gesture signals, the corresponding main control chip 3 may generate different trigger signals, and then the vibration assembly 4 may feed back different vibration signals to the touch panel assembly 2, and is sensed by the user, thereby improving the user experience of the user, wherein the trigger signals and the control signals input into the external electronic device 8 are generated corresponding to the touch gesture signals, and therefore, whether the external electronic device 8 executes the corresponding touch gesture signals can be determined according to the sensed vibration signals by the user. When the input device is a mouse, the input device can be connected with the external electronic device 8 through a data line, and can also be wirelessly connected through Bluetooth and the like. The touch pad assembly 2 may be a touch roller in a mouse, or may be a left key and a right key on the mouse.

Specifically, as shown in fig. 1 and 2, the method further includes: the gear adjusting key 5 is arranged on the body 1 or on the external electronic device 8, wherein the gear adjusting key 5 is used for sending a gear adjusting signal to the input device, the main control chip 3 is used for amplifying the touch gesture signal according to the gear adjusting signal and generating a corresponding control signal according to the amplified touch gesture signal.

The gear adjusting key 5 may be an entity key arranged on the body 1, or a virtual key arranged in the external electronic device 8. When the gear adjusting key 5 is a virtual key, when the mouse is connected with the external electronic device 8, a gear changing program can be opened through the external electronic device 8, then a gear changing page appears on a display screen of the external electronic device 8, the gear adjusting key 8 is formed on the gear changing page, and a gear adjusting signal is sent to the main control chip 3 by clicking the gear adjusting key 8 through a cursor of the mouse. Specifically, a plurality of gear adjustment keys 5 can be formed on the page with changed gears, each gear adjustment key 5 corresponds to one amplification factor, or one gear adjustment key 5 is formed on the page with changed gears, and each time the gear adjustment key 5 is clicked, the main control chip 3 receives a gear adjustment signal and correspondingly changes the amplification factor. When gear adjustment key 5 set up on body 1, if the user presses gear adjustment key 5, main control chip 3 just enlargies the touch-control gesture signal, and at this moment, if main control chip 3 is in the signal amplification state, if the user presses gear adjustment key 5 once more, main control chip 3 is in normal condition this moment, can not enlarge the touch-control gesture signal. The user applies an instruction to the input device by sliding or tapping on the touch pad assembly 2, and when the user slides on the touch pad assembly 2, the touch pad assembly 2 can calculate the sliding distance of the finger, that is, the touch gesture signal includes the finger sliding distance, and at this time, the touch gesture signal is a sliding signal. If the main control chip 3 is in the signal amplification state, the touch gesture signal can be amplified twice, and at this time, after the main control chip 3 first amplifies the movement displacement, then generates a corresponding control signal according to the amplified touch gesture signal and sends the control signal to the external electronic equipment 8, for example, the touch pad assembly 2 is a touch wheel of a mouse, the touch pad assembly 2 detects that a finger of a user slides on the touch pad assembly 2 by 1 cm in a first direction, if the main control chip 3 is in a normal state, the control signal generated by the main control chip 3 can control the page of the external electronic device 8 to slide by two cm downwards, if the main control chip 3 is in a signal amplification state at this time, the main control chip 3 firstly amplifies the touch pickup signal to 2 cm in the first direction, and the control signal generated by the back main control chip 3 can control the page of the external electronic device 8 to slide downwards by four centimeters. When the touch gesture signal is a tapping signal, the main control chip 3 does not amplify the tapping signal after the tapping signal enters the main control chip 3. Because the length of the touch pad assembly 2 is limited, the sliding length of the user on the touch pad assembly 2 is limited, so that the page turning length of the page in the external electronic device 8 is limited by sliding the finger each time, and the page in the external electronic device 8 can have a longer page turning length by amplifying the touch gesture signal and sliding the finger each time.

Specifically, as shown in fig. 3, the main control chip 3 further includes: the signal amplifying circuit 31 is configured to amplify the touch gesture signal; one end of the gear adjusting circuit 32 is electrically connected with the input end of the signal amplifying circuit 31, and the other end of the gear adjusting circuit is connected with the gear adjusting key, and is used for controlling the amplification factor of the touch gesture signal according to the gear adjusting signal; and the processing circuit 33 is connected with the output end of the signal amplifying circuit 31 at one end, and is electrically connected with the vibration component 4 at the other end, and is used for generating the corresponding trigger signal according to the amplified touch gesture signal.

Wherein, the main control chip 3 includes a signal amplifying circuit 31, a gear adjusting circuit 32 and a processing circuit 33, the gear processing circuit 33 is connected to the gear adjusting key 5, when the signal amplifying circuit 31 amplifies the touch gesture signal, the processing circuit 33 generates a corresponding trigger signal according to the amplified touch gesture signal, for example, when the touch gesture signal slides 1 cm in the first direction, and after passing through the signal amplifying circuit 31, the touch gesture signal is amplified to slide 2 cm in the first direction, at this time, the processing circuit 33 generates a control signal and a trigger signal according to the slide 2 cm in the first direction, where the control signal has been introduced in the above embodiment, and the vibration component 4 can continuously vibrate for a first preset time according to the trigger signal, and if the touch gesture signal is a click signal, the vibration component 4 vibrates once according to the corresponding trigger signal, if the touch gesture signal is a double-click signal, the vibration component 4 vibrates twice according to the corresponding trigger signal.

Specifically, as shown in fig. 4, the signal amplifying circuit 31 includes N amplifying sub-circuits 311, each of the N amplifying sub-circuits 311 amplifies one of the touch gesture signals, where N is a positive integer greater than or equal to 1; the gear adjusting signals correspond to the N amplification sub-circuits 311 one to one.

For example, the signal amplification circuit 31 includes 3 amplification sub-circuits 311, which are respectively a first amplification sub-circuit 311, a second amplification sub-circuit 311, and a third amplification sub-circuit 311, and are respectively configured to amplify the touch gesture signal by 1 time, 2 times, and 3 times, where once the gear adjustment key is pressed, the input device can be controlled to change the gear, and if the input device is in the gear 1, the touch gesture signal enters the first amplification sub-circuit 311, and once the gear adjustment key 5 is pressed, the input device is in the gear 2, at this time, the touch gesture signal enters the second amplification sub-circuit 311, and if the gear adjustment key is pressed for the second time, the input device is in the gear 3, and at this time, the touch gesture signal enters the third amplification sub-circuit 311. And pressing the gear adjusting key for the third time, and then the input device is in the 1 gear again.

Specifically, as shown in fig. 4, the processing circuit 33 is further configured to generate a corresponding frequency trigger signal according to the amplified touch gesture signal and send the frequency trigger signal to the vibration component 4, and the vibration component 4 generates a corresponding vibration frequency signal according to the frequency trigger signal and feeds the vibration frequency signal back to the touch panel component 2; wherein, the frequency trigger signal is used as the trigger signal, and the vibration frequency signal is used as the vibration signal.

After the touch gesture signal is amplified by the signal amplifying circuit 31, the processing circuit 33 generates a corresponding vibration frequency signal, where the vibration frequency signal may include: for example, when the touch gesture signal enters the first amplification sub-circuit 311, the processing circuit 33 correspondingly generates a first frequency signal, when the vibration element 4 receives the first frequency signal, the vibration element 4 vibrates at the first frequency, at this time, the input device is in the first gear, if the touch gesture signal is a sliding signal, the trigger signal generated by the processing circuit 33 can enable the vibration element 4 to continuously vibrate at the first frequency for a first preset time, and when the touch gesture signal is a clicking signal, the trigger signal generated by the processing circuit 33 can enable the vibration element 4 to continuously vibrate at the first frequency once and continuously for a second preset time each time. When the touch gesture signal passes through the second amplifying sub-circuit 311, the processing circuit 33 can generate a second frequency signal according to the touch gesture signal amplified by 3 times, and when the vibration device 4 receives the second frequency signal, the vibration device 4 vibrates at the second frequency. Therefore, when the touch gesture signal passes through different amplification sub-circuits 311, the input device is in different gears, and the corresponding vibration frequency signal generated by the vibration element 4, that is, the vibration frequency of the vibration element 4, is different. And when the input device is in a certain gear, the vibration frequency of the vibration assembly 4 is the same. Moreover, the larger the amplification factor of the input device to the touch gesture signal is, the larger the vibration frequency of the vibration component 4 corresponding to the vibration frequency signal is.

Wherein, the touch gesture signal comprises a sliding signal and a tapping signal, wherein, when the finger of the user slides along the first direction, the second direction, the third direction and the fourth direction on the touch pad component 2, the main control chip 3 can correspondingly generate a first trigger sub-signal, wherein, when the finger slides along the first direction, the main control chip 3 generates a first control sub-signal, the external electronic device 8 controls the page to slide downwards according to the first control sub-signal, when the finger slides along the second direction, the main control chip 3 generates a second control sub-signal, the external electronic device 8 controls the page to slide upwards according to the second control signal, when the finger slides along the third direction, the main control chip 3 generates a third control sub-signal, the external electronic device 8 controls the page to slide leftwards according to the third control sub-signal, and when the finger slides along the fourth direction, the main control chip 3 generates a fourth control sub-signal, the external electronic device 8 controls the page to slide rightward according to the fourth control sub-signal, wherein the first direction is opposite to the second direction, the first direction is from the first edge 111 to the second edge 112, the second direction is from the second edge 112 to the first edge 111, the third direction is opposite to the fourth direction, when the vibration component 4 receives the first trigger sub-signal, the vibration component 4 can generate a first sub-vibration signal according to the first trigger sub-signal, and the vibration component 4 can vibrate for a first preset time continuously. And the knocking signal comprises a clicking signal and a double-clicking signal, the corresponding second trigger sub-signal comprises a second trigger sub-signal a and a second trigger sub-signal b, the corresponding vibration component 4 can feed back the second vibration sub-signal a and the second vibration sub-signal b, wherein when the touch gesture signal is the clicking signal, the first vibration sub-signal a vibrates once for the vibration component 4, at the moment, the main control chip 3 generates a fifth control sub-signal, at the moment, if the user uses the external electronic device 8 to open the word document, at the moment, the touch pad component 2 is clicked, and then the cursor of the mouse is enabled to move to the lower side of the page, so that the display page continuously slides downwards. When the touch gesture signal is a double-click signal, the second vibration sub-signal b vibrates twice for the vibration component 4, and vibrates for a second preset time every time, correspondingly, the main control chip 3 can generate a sixth control sub-signal, at this time, the external electronic device 8 can perform shortcut operation according to the sixth control sub-signal, the shortcut operation can be a certain preset program which is opened, the preset program can be word, a browser and the like, in addition, the external electronic device 8 can also perform operations such as copying and pasting according to the sixth control sub-signal, and the function of the sixth control sub-signal can be set by a user. In addition, the touch gesture signal may further include an accelerated sliding signal, and correspondingly, the main control chip 3 may generate a seventh control sub-signal, the touch panel assembly 2 detects that the change displacement of the touch coordinate in the first time period is a first distance, the change displacement of the touch coordinate in the second time period is a second distance, and the change displacement in the third time period is a third displacement … …, where the first time period, the second time period, and the third time period … … are equal, the third distance is greater than the second distance, the second distance is greater than the first distance, which indicates that the finger of the user slides rapidly on the touch panel assembly 2 and has a certain acceleration, and there may be more document contents at this time, so that the user wants to turn the page rapidly, the corresponding main control chip 3 generates an eighth control sub-signal, and when the external electronic device 8 receives the eighth control sub-signal, the page can be controlled to slide rapidly for a period of time, and then the page sliding speed is gradually reduced until the stop. Through detecting the acceleration sliding signal, the external electronic device 8 can be rapidly turned, and particularly for a document with a large memory, a user can control the document and the like to be rapidly turned to a preset page of the document through the acceleration sliding finger. Correspondingly, the main control chip 3 generates a third trigger sub-signal, and after receiving the third trigger sub-signal, the vibration assembly can vibrate for 1 second at a high speed and then vibrate for 0.5 second at a low speed, and then stop vibrating, so that the third trigger sub-signal serving as the vibration assembly 4 is fed back to the touch panel assembly 2.

Specifically, as shown in fig. 1, the upper surface 11 includes a first edge 111 and a second edge 112 opposite to each other, and the distance between the touch pad assembly 2 and the first edge 111 is smaller than the distance between the touch pad assembly 2 and the second edge 112; the gear adjusting key 5 is disposed on a side of the touch panel assembly 2 near the second edge 112.

Wherein, touch pad subassembly 2 sets up in the one side that first surface is close to first edge 111, and when input device was the mouse, and touch pad subassembly 2 was when touching the gyro wheel, gear adjusting key 5 sets up in the one side that is located the touch gyro wheel and is close to second edge 112, and the user uses the middle finger to control the touch gyro wheel when operating the mouse, and at this moment, gear adjusting part is close to one side of palm corresponding to the middle finger, and the user is when using input device, is difficult to the mistake and touches gear adjusting key 5. Further, the shift position adjustment key 5 may also be located on the lower surface of the input device.

Specifically, as shown in fig. 2 to 4, the electronic device further includes a control switch 6, where the control switch 6 is electrically connected to the vibration component 4 through the main control chip 3, and is used for controlling the vibration component 4 to be turned on or off.

The control switch 6 may be a key disposed on the surface of the body 1, and the control switch 6 may send an on signal or an off signal to the main control chip 3. When the control switch 6 sends an opening signal to the main control chip 3, the vibration component 4 is opened and is in a standby state, and at the moment, if the vibration component 4 receives a trigger signal, a vibration signal can be generated according to the trigger signal; if control switch 6 sends the close signal to main control chip 3, main control chip 3 control vibrations subassembly 4 closed this moment, and at this moment, main control chip 3 is if sending trigger signal, vibrations subassembly 4 also can not shake.

Specifically, as shown in fig. 1, 2 and 4, the method further includes: the sensor is arranged on the lower surface of the body 1 and used for detecting the motion track of the input equipment, wherein the lower surface is arranged opposite to the upper surface 11; a first input unit 71 and a second input unit 72 disposed on the upper surface 11 and disposed on opposite sides of the touch pad assembly 2, respectively; wherein, the first input assembly 71 and the second input assembly 72 are both touch pad assemblies; or both the first input assembly 71 and the second input assembly 72 are push key assemblies.

When the input device is a mouse, a sensor is arranged on the lower surface of the body 1 and can sense the motion track of the mouse, and therefore a cursor on a page in the external electronic device 8 moves along with the mouse. The mouse is provided with a first input assembly 71 and a second input assembly 72 besides the touch wheel, wherein the first input assembly 71 can be a left key of the mouse, and the second input assembly 72 can be a right key of the mouse. The first input device 71 and the second input device 72 are both touch pad devices, and sense an input gesture by sensing a change in touch coordinates, and the first input device 71 and the second input device 72 may be both push key devices. In addition, still be provided with the control key of control input device DPI on the body 1, the control key is connected with main control chip 3 electricity, and the control key sends the signal once to main control chip 3, and main control chip 3 changes a DPI numerical value once, and every input device can set up a plurality of DPI values.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims

1. An input device, comprising:

a body;

2. The input device of claim 1, further comprising:

the gear adjusting key is arranged on the body or on an external electronic device and used for sending gear adjusting signals to the input device, and the main control chip is used for amplifying the touch gesture signals according to the gear adjusting signals and generating corresponding control signals according to the amplified touch gesture signals.

3. The input device of claim 2, wherein the master chip comprises:

the signal amplifying circuit is used for amplifying the touch gesture signal;

4. The input device of claim 3,

the signal amplification circuit comprises N paths of amplification sub-circuits, each path of amplification sub-circuit correspondingly amplifies one touch gesture signal, wherein N is a positive integer greater than or equal to 1;

5. The input device of claim 3,

the processing circuit is further used for generating a corresponding frequency trigger signal according to the amplified touch gesture signal and sending the frequency trigger signal to the vibration assembly, and the vibration assembly generates a corresponding vibration frequency signal according to the frequency trigger signal and feeds the vibration frequency signal back to the touch panel assembly;

6. The input device of claim 1,

the touch control gesture signal includes the slip signal and strikes the signal, trigger signal includes first trigger sub-signal and second trigger sub-signal, the vibrations signal includes first sub-vibrations signal and the sub-vibrations signal of second, wherein, the slip signal first trigger sub-signal with first sub-vibrations signal is corresponding, strike the signal second trigger sub-signal with the sub-vibrations signal of second is corresponding.

7. The input device of claim 2,

the upper surface comprises a first edge and a second edge which are opposite, and the distance between the touch panel assembly and the first edge is smaller than the distance between the touch panel assembly and the second edge;

8. The input device of claim 1,

the vibration component is electrically connected with the main control chip, and the vibration component is electrically connected with the main control chip.

9. The input device of claim 1, further comprising:

the sensor is arranged on the lower surface of the body and used for detecting the motion trail of the input equipment, wherein the lower surface is arranged opposite to the upper surface;