CN108241441B - Computer input device, pointer input device and setting method thereof - Google Patents

Abstract

The invention relates to a computer input device, a pointer input device and a setting method thereof. The computer input device includes a mouse pad and a pointer input device. The pointer input device includes a displacement sensing portion, a light sensing portion, a storage portion and a processing portion. The displacement sensing part is used for detecting the movement of the pointer input device. The storage part stores at least one group of preset parameters. The processing part is coupled with the displacement sensing part, the light sensing part and the storage part. The mouse board has a light indicating portion. When the pointer input device is operated on the mouse board, the processing part senses the lightening state of the light indicating part through the light sensing part, and selectively sets one of the preset parameters as a working parameter of the pointer input device according to the sensing result. Thereby, the setting of the operating parameters of the pointer input device can be simplified.

Description

Computer input device, pointer input device and setting method thereof

Technical Field

The present invention relates to an input device, and more particularly, to a computer input device, a pointer input device and a setting method thereof for controlling a computer cursor.

Background

The controllability of a mouse has a direct impact on the convenience of a computer user. For example, the sensitivity of the mouse movement has a direct influence on the mouse cursor movement speed, and the corresponding mouse manipulation may be required according to the operation according to the different usage habits of each person or different types of computer programs. In the conventional method, the working parameters used for the operation of the mouse are adjusted through the host computer to set the mouse. However, this method is not convenient enough, for example, when the mouse is collocated with different host computers, the mouse needs to be reset, or the work setting process of the host computer to the mouse is too complicated and time-consuming.

Disclosure of Invention

The embodiment of the invention provides a computer input device, a pointer input device and a setting method thereof, which can enable the working parameter setting of the pointer input device to be simpler.

The embodiment of the invention provides computer input equipment, which comprises a mouse board and pointer input equipment. Wherein the mouse board has a light indicating part. The pointer input device includes a displacement sensing portion, a light sensing portion, a storage portion and a processing portion. The displacement sensing part is used for detecting the movement of the pointer input device. The storage part stores at least one group of preset parameters. The processing part is coupled with the displacement sensing part, the light sensing part and the storage part. When the pointer input device is operated on the mouse board, the processing part senses the lightening state of the light indicating part through the light sensing part, and selectively sets one of the preset parameters as a working parameter of the pointer input device according to the sensing result.

The embodiment of the invention provides a pointer input device which is suitable for operating on a mouse board so as to set a working parameter of the pointer input device. The pointer input device includes a displacement sensing portion, a light sensing portion, a storage portion and a processing portion. The displacement sensing part is used for detecting the movement of the pointer input device. The storage part stores at least one group of preset parameters. The processing part is coupled with the displacement sensing part, the light sensing part and the storage part. When the pointer input device is operated on the mouse board, the processing part senses the lightening state of the light indicating part through the light sensing part, and selectively sets one of the preset parameters as a working parameter of the pointer input device according to the sensing result.

The embodiment of the invention provides a setting method of a pointer input device, which is suitable for operating on a mouse board to set a working parameter of the pointer input device. When a light indication part of the mouse board presents a lightening state, the pointer input equipment obtains the lightening state of the light indication part through a light induction part; and the pointer input equipment selectively sets one of a plurality of preset parameters as a working parameter of the pointer input equipment according to the sensing result of the light sensing part, wherein the plurality of preset parameters are stored in a storage part of the pointer input equipment.

In summary, the computer input device, the pointer input device and the setting method thereof according to the embodiments of the present invention are not required to pass through the host computer at all, but the mouse board is used to directly set the operating parameters of the pointer input device by sensing in the intuitive light emitting state, so that the user can quickly, easily and smoothly complete the setting of the operating parameters of the pointer input device without any complicated operation setting.

For a better understanding of the nature and technical content of the present invention, reference should be made to the following detailed description of the invention and the accompanying drawings, which are provided for illustration purposes only and are not intended to limit the scope of the invention.

Drawings

FIG. 1 is a schematic diagram of a computer input device provided by an embodiment of the invention.

FIG. 2 is a functional block diagram of a computer input device provided by an embodiment of the present invention.

Fig. 3 is a flow chart of setting of a pointer input device according to an embodiment of the present invention.

FIG. 4 is a flow chart of control of a computer input device according to an embodiment of the present invention.

FIG. 5 is a flow chart of control of a computer input device according to an embodiment of the present invention.

Detailed Description

The embodiment of the invention provides computer input equipment. Computer input devices include, for example, pointer input devices and mouse pads. Specifically, the mouse pad can be used for sliding the pointer input device thereon to control the movement of a computer cursor displayed on a computer screen. More importantly, the mouse board is also provided with a light-emitting function, and the pointer input equipment can set the working parameters of the pointer input equipment by sensing the light-emitting state of the mouse board. That is to say, the setting of the working parameters of the pointer input device of the embodiment need not be performed by the setting of the computer host, but the pointer input device can directly cooperate with the light-emitting state of the mouse pad to complete the setting of the relevant working parameters. Incidentally, the working parameter described herein is, for example, a mouse resolution, a USB report rate, a mouse screen update rate, or a shortcut command, but the invention is not limited thereto.

[ embodiment of computer input device ]

Referring to fig. 1, fig. 1 is a schematic diagram of a computer input device according to an embodiment of the present invention. The computer input device 1 of the present embodiment may include a pointer input device 11 and a mouse pad 13. In one embodiment, the mouse board 13 is provided with an optical indicator 133 capable of showing different lighting states, for example, and the optical indicator 133 can be controlled by the mouse board 13 to emit lighting states with different colors or lighting states with different flashes. For example, the light indicator 133 may be a plurality of light emitting bars disposed on the surface of the mouse board 13. The appearance, number and position of the light bars can be designed according to the application requirements, as long as the pointer input device 11 can smoothly sense the lighting state of the light indication portion 133. The light indicator 133 may be, for example, a light emitting panel, and various arrangements of the light indicator 133 are not limited herein.

The pointer input device 11 is provided with a displacement sensing portion 117 and a light sensing portion 113. The displacement sensing unit 117 is used to detect the movement change of the pointer input device 11 and generate a cursor signal for controlling the movement of the computer cursor. The light sensing portion 113 provides the pointer input device 11 for sensing the lighting state of the light indicating portion 133 of the mouse board 13 when the mouse board 13 moves, and the pointer input device 11 can correspondingly adjust the working parameters of the pointer input device 11 during the working process according to the sensing result of the light sensing portion 113.

For example, the light sensing portion 113 is disposed at the bottom side of the pointer input device 11, that is, the light sensing portion 113 and the displacement sensing portion 117 may be located at the same side, and the location of the light sensing portion 113 is not limited thereto, as long as the light sensing portion 113 can smoothly sense the lighting state of the light indicating portion 133. The light sensing portion 113 is used for sensing whether the light emitting color of the light indicating portion 133 matches a preset color, and if the light emitting color matches the preset color, the pointer input device 11 sets a preset parameter corresponding to the matched preset color as an operating parameter. The pointer input device 11 can be used for subsequent work according to the set work parameters. Similarly, the light sensing portion 113 may also be configured to sense whether the lighting flashing rate of the light indicating portion 133 is a preset flashing rate, and if so, the pointer input device 11 may also set the preset parameter corresponding to the preset flashing rate as the working parameter, so that the pointer input device 11 may be used for the subsequent work according to the set working parameter.

Further, when the pointer input device 11 is to set the content of the operation parameter, the light indication portion 133 of the mouse board 13 may be controlled to emit a specific lighting state corresponding to the operation parameter desired to be set. Then, when the light indication portion 133 of the mouse board 13 starts to illuminate, the pointer input device 11 can be placed on the mouse board 13 to slide, and the light sensing portion 113 of the pointer input device 11 can sense the illumination state emitted by the light indication portion 133. The pointer input device 11 can then set the operating parameters that the user wants to use.

It should be noted that, in an embodiment, the duration of the illumination state of the light indication portion 133 may be controlled within a preset setting time, so that the pointer input device 11 can only set the operating parameter within the preset setting time. In another embodiment, the duration of the lighting state of the light indication portion 133 may not be limited, but the pointer input device 11 may control when the light sensing portion 113 has the light sensing function, and the pointer input device 11 may perform the operation of setting the operating parameter only when the light sensing function of the light sensing portion 113 is turned on.

[ functional Block embodiment of computer input device ]

Referring to fig. 2, fig. 2 is a functional block diagram of a computer input device according to an embodiment of the present invention. The computer input device 1 of the present embodiment may include a pointer input device 11 and a mouse pad 13. The pointer input device 11 includes, for example, a processing unit 111, a light sensing unit 113, a storage unit 115, a displacement sensing unit 117, a setting unit 118, and a transmission unit 119. The processing unit 111 is coupled to the light sensing unit 113, the storage unit 115, the displacement sensing unit 117, the setting unit 118, and the transmission unit 119, respectively. The displacement sensing part 117 detects the movement of the pointer input device 11 according to the control of the processing part 111 so that the processing part 111 can generate a cursor signal according to the detection result of the displacement sensing part. The light sensing part 113 senses an external light source according to the control of the processing part 111. The storage unit 115 stores one or more sets of preset parameters that can be used as the operating parameters of the pointer input device 11. The setting unit 118 provides a user with a setting signal generated by manipulating the setting unit 118 to set the operation parameters of the pointer input device 11 according to the control of the processing unit 111. The transmission unit 119 outputs the cursor signal detected by the displacement sensing unit 117 to the host computer or wirelessly receives a setting signal from a mobile device according to the control of the processing unit 111, so that the processing unit 111 can set the operating parameters of the pointer input device 11 according to the setting signal.

For example, the processing portion 111 may be a processor or a controller. The displacement sensing unit 117 may be an optical displacement sensing circuit or a roller displacement sensing circuit, which is known in the art and therefore not described herein. The light sensing part 113 may be a light sensor for sensing a light source, and the light sensor is used for sensing a color or a flashing state of the light source. The storage unit 115 may be a non-volatile memory for storing one or more sets of preset parameters used as working parameters, and each preset parameter corresponds to a preset lighting state. The setting unit 118 may be, for example, an operation interface used by the user, and the operation interface may be a key or a dip switch. The keys can be pressed by a single key or a combination of multiple keys to generate a setting signal to the processing portion 111, and the generation of the setting signal processing portion is stopped after the key pressing is released. If the setting signal is generated, the setting signal is generated to the processing portion 111 by moving the toggle switch to different positions. For example, when the dip switch is moved to the first position, the setting signal is not generated to the processing portion 111, and when the dip switch is moved to the first position, the setting signal is generated to the processing portion 111. The transmission unit 119 is, for example, a wired transmission circuit or a wireless transmission circuit.

Therefore, the setting signal generation method of the pointer input device 11 can directly generate the setting signal through the setting unit 118 or wirelessly receive the setting signal provided by the external mobile device through the transmission unit 119. However, the present invention is not limited to the generation of the setting signal in any one of the above two ways, and the pointer input device 11 may also preferentially set one of the setting unit 118 and the transmission unit 119 as the main generation source of the setting signal. In an embodiment, the pointer input device 11 may not generate the setting signal, but the presence or absence of the lighting state of the light indication portion 133 of the mouse board 13 may determine that the pointer input device 11 may not set the operating parameter.

Referring to fig. 2, the mouse board 13 may include a light source processing portion 131, a light indication portion 133, an operation interface 135 and a wireless receiving portion 137. The light source processing unit 131 is coupled to the light indication unit 133, the operation interface 135 and the wireless receiving unit 137, respectively. The light indicator 133 may be, for example, a light emitting strip or a light emitting panel as described above. The operation interface 135 is controlled by the light source processing portion 131 to generate a switching signal to the light source processing portion 131 according to the user operation, and the light source processing portion 131 can control the light indication portion 133 to present a lighting state with different colors or a lighting state with different flashes according to the switching signal.

In practical implementation, the light source processing unit 131 may be a processor or a controller. The operation interface 135 may be a single key or a plurality of keys. For example, the light source processing unit 131 may display a specific color or blinking pattern with respect to the control light indicating unit 133 according to the pressing of the single key. Furthermore, the light source processing unit 131 may sequentially display different specific colors or blinking patterns or a multi-control pattern of stopping the illumination with respect to the control light indicating unit 133 according to each pressing of the single key. In addition, when the operation interface 135 is a plurality of keys, each key can be used to control the light indicator 133 to display a different specific color or flashing manner, and one of the keys can be further designed to control the light indicator 133 to stop lighting.

In an embodiment, the operation interface 135 may also be a toggle switch, and the toggle switch may be located at different positions to generate different switching signals to the light source processing unit 131. For example, when the dip switch is moved to the first position, a first switching signal is generated and sent to the light source processing portion 131, and the light source processing portion 131 controls the light indication portion 133 to present a specific first color or a first flashing manner according to the first switching signal. When the dip switch is shifted to the second position, a second switching signal is generated and sent to the light source processing part 131, and the light source processing part 131 controls the light indication part 133 to present a specific second color or a second flashing mode according to the second switching signal. When the dip switch is shifted to the third position, a third switching signal is generated and sent to the light source processing unit 133, and the light source processing unit 133 controls the light indication unit 133 to stop lighting according to the third switching signal. The foregoing description is by way of example only and is not intended as limiting.

The wireless receiving unit 137 can receive the switching signal from the mobile device wirelessly, and the light source processing unit 131 can control the light indicating unit 133 to show a specific color or flash manner according to the switching signal, or the light source processing unit 131 can also control the light indicating unit 133 to stop lighting according to the switching signal.

Therefore, the switching signal of the mouse board 13 can be generated directly through the operation interface 135 or received through the wireless receiving portion 137, and the mouse board 13 can also preferentially set one of the wireless receiving portion 137 and the operation interface 135 as the main generation source of the switching signal. However, the present invention is not limited to the generation of the switching signal, and the switching signal may be generated in one or both of the above manners.

Therefore, in actual operation, the light source processing unit 131 of the mouse board 13 can control the lighting state of the light indicator 133 according to the switching signal. When the sensing function of the light sensing portion 113 of the pointer input device 11 is turned on, the processing portion 111 can determine whether the current lighting state of the light indicating portion 133 matches one of the plurality of preset lighting states in the storage portion 115 according to the sensing result of the light sensing portion 113. If the comparison is matched, the processing unit 111 sets the preset parameter corresponding to the preset lighting state matched with the comparison as the working parameter.

Therefore, it can be understood from the above description that the setting of the operating parameters of the pointer input device 11 can be easily and simply completed by only matching with the lightening status of the mouse pad 13 without using the host computer.

[ setting method embodiment of pointer input device ]

Referring to fig. 3 in conjunction with fig. 1 and 2, fig. 3 is a setting flow chart of the pointer input device according to the embodiment of the invention. The setting method of the pointer input device 11 according to the embodiment is to set the operating parameters of the pointer input device 11 according to the lighting state of the mouse board 13, and is illustrated in fig. 3, but the invention is not limited thereto. The flow shown in fig. 3 may perform the following steps, for example, in conjunction with the architectures provided in fig. 1 and 2.

In step S301, the pointer input apparatus 11 activates the light sensing portion 113, that is, the light sensing function of the light sensing portion 113 is turned on. The activation mode of the light sensing portion 113 may be activated together with the activation of the pointer input device 11, or the light sensing portion 113 may be activated when the setting signal is generated after the pointer input device 11 is activated.

In step S303, when the pointer input device 11 operates on the mouse board 13, the pointer input device 11 can read the sensing result through the light sensing portion 113.

In step S305, when the light sensing portion 113 senses the lighting state of the light indicating portion 133 of the mouse board 13 and matches a preset lighting state corresponding to a preset parameter, the operating parameter of the pointer input device 11 is set to be the preset parameter corresponding to the lighting state of the light indicating portion 133. For example, when a first preset parameter of the plurality of sets of preset parameters of the pointer input device 11 corresponds to the first lighting state of emitting yellow light, if the light indication portion 133 of the mouse board 13 is also in the lighting state of emitting yellow light, the operating parameter of the pointer input device 11 is set as the first preset parameter when the pointer input device 11 reads yellow light through the light sensing portion 113. Similarly, when the second lighting state corresponding to the second preset parameter in the plurality of sets of preset parameters of the pointer input device 11 is a lighting state emitting green light, and if the light indication portion 133 of the mouse board 13 is also a lighting state emitting green light, the operating parameter of the pointer input device 11 is set to the second preset parameter when the pointer input device 11 reads green light through the light sensing portion 113, and so on.

[ example of setting operating parameters for computer input device ]

Referring to fig. 4 in conjunction with fig. 1 and 2, fig. 4 is a control flow chart of the computer input device according to the embodiment of the invention. The computer input device of the embodiment sets the operating parameters of the pointer input device 11 according to the lighting state of the mouse pad 13, which is illustrated in fig. 4, but the invention is not limited thereto. The flow shown in fig. 4 may perform the following steps, for example, in conjunction with the architectures provided in fig. 1 and 2.

In step S401, the user can operate the mobile device to output a switching signal to the mouse board 13. Specifically, the mobile device is provided with a user interface, and a user can select a switching signal corresponding to the working parameter which is desired to be set for the pointer input device through the user interface.

In step S403, the user operates the mobile device to output a setting signal to the pointer input device 11.

In step S405, when the mouse board 13 receives the switching signal, the mouse board 13 may control the lighting state of the light indication portion 133 according to the switching signal.

In step S407, when the pointer input device 11 receives the setting signal, the pointer input device 11 may activate the light sensing function operation of the light sensing portion 113 according to the setting signal.

In step S409, when the pointer input device 11 senses that the lighting state of the light indication portion 133 matches the preset lighting state, the pointer input device 11 sets the preset parameter corresponding to the matched preset lighting state as the working parameter, so that the pointer input device 11 can perform the subsequent related operation according to the set working parameter.

It is noted that, in step S403, the pointer input device 11 may also directly receive the setting signal generated by the setting unit 118.

[ Another embodiment for setting operating parameters for computer input device ]

Referring next to fig. 5 in conjunction with fig. 1 and 2, fig. 5 is a control flow chart of the computer input device according to the embodiment of the invention. The computer input device of the embodiment sets the operating parameters of the pointer input device 11 according to the lighting state of the mouse pad 13, which is illustrated in fig. 5, but the invention is not limited thereto. The flow shown in fig. 5 may perform the following steps, for example, in conjunction with the architectures provided in fig. 1 and 2.

In step S501, the user can generate a switching signal by operating the operation interface 135 of the mouse board 13. For how the operation interface 135 generates the switching signal, reference may be made to the foregoing description, which is not described herein again.

In step S503, when the mouse board 13 receives the switching signal, the mouse board 13 may control the lighting state of the light indicator 133 according to the switching signal.

In step S507, when the pointer input device 11 receives the setting signal generated by the user through the setting unit 118 (S505), the pointer input device 11 may activate the operation of the light sensing function of the light sensing unit 113 according to the setting signal. For how the setting unit 118 generates the setting signal, the aforementioned description is referred to, and is not repeated herein.

In step S509, when the pointer input device 11 senses that the lighting state of the light indication portion 133 matches the preset lighting state, the pointer input device 11 sets the preset parameter corresponding to the matched preset lighting state as the working parameter, so that the pointer input device 11 can perform the subsequent related operation according to the set working parameter.

It is noted that in step S505, the pointer input apparatus 11 may also receive the setting signal generated by the mobile device wirelessly through the transmission portion 119.

In addition, in the embodiments shown in fig. 4 and 5, the light sensing function of the light sensing portion 113 is activated by a setting signal for the pointer input device 11. However, in an embodiment, the light sensing portion 113 may be activated when the pointer input device 11 is activated, and after the setting of the operating parameters of the pointer input device 11 is completed, the light indicating portion 133 of the mouse board 13 may be controlled to stop emitting light, so that the pointer input device 11 cannot perform the setting operation of the operating parameters.

[ efficacy of example ]

In summary, the computer input device, the pointer input device and the setting method thereof according to the embodiments of the present invention do not need to pass through the host computer at all, and the pointer input device can perform the sensing setting through the light sensing portion by the intuitive light emitting state of the mouse board, so that the user can quickly, easily and smoothly complete the setting of the operating parameters of the pointer input device without any complicated operation setting.

The above description is only an embodiment of the present invention, and is not intended to limit the scope of the present invention.

Claims (15)

1. A computer input device, comprising:

a mouse board having a light indication part; and

a pointer input device comprising:

a displacement sensing part for detecting the movement of the pointer input device;

a light sensing part;

a storage part for storing at least one group of preset parameters;

a processing part coupled to the displacement sensing part, the light sensing part and the storage part;

the processing part senses the lightening state of the light indicating part through the light sensing part when the pointer input equipment is operated on the mouse board, and selectively sets one of the preset parameters as a working parameter of the pointer input equipment according to a sensing result;

the preset parameters respectively correspond to a preset lightening state, and when the pointer input equipment senses that the lightening state of the light indicating part is matched with the preset lightening state through the light sensing part, the processing part sets the preset parameters corresponding to the matched preset lightening state as the working parameters;

the working parameter is mouse resolution, USB return rate, mouse picture update rate or shortcut command.

2. The computer input device as claimed in claim 1, wherein the mouse pad further comprises a light source processing portion, the light source processing portion controls the illumination state of the light indication portion according to a switching signal, and the switching signal controls the light indication portion to display the illumination state of different colors or different flashing.

3. The computer input device as claimed in claim 2, wherein the mouse board has an operation interface, the operation interface is coupled to the light source processing unit, and the light source processing unit generates the switching signal according to the operation of the operation interface.

4. The computer input device as recited in claim 2, wherein the mouse pad further comprises a wireless receiving portion, the wireless receiving portion is coupled to the light source processing portion, and the light source processing portion wirelessly receives the switching signal from a mobile device through the wireless receiving portion.

5. The computer input device as recited in claim 1, wherein the light indicating portion is a light bar or a light panel and the light sensing portion is a light sensor.

6. The computer input device as recited in claim 1, wherein the processing portion activates a light sensing function of the light sensing portion according to a setting signal.

7. The computer input device as recited in claim 6, wherein the pointing device further comprises a setting unit, the setting unit is coupled to the processing unit, the setting unit is operable to generate the setting signal, and the setting unit is a key or a dip switch.

8. The computer input device as recited in claim 6, wherein the processing portion receives the setting signal from a mobile device in a wireless manner.

9. A pointer input device, comprising:

a displacement sensing part for detecting the movement of the pointer input device;

a light sensing part;

a storage part for storing at least one group of preset parameters; and

a processing part coupled to the displacement sensing part, the light sensing part and the storage part;

when the pointer input equipment is operated on a mouse board, the processing part senses the lightening state of a light indicating part of the mouse board through the light sensing part and selectively sets one of the preset parameters as a working parameter of the pointer input equipment according to a sensing result;

the preset parameters respectively correspond to a preset lightening state, and when the pointer input equipment senses that the lightening state of the light indicating part is matched with the preset lightening state through the light sensing part, the processing part sets the preset parameters corresponding to the matched preset lightening state as the working parameters;

the working parameter is mouse resolution, USB return rate, mouse picture update rate or shortcut command.

10. The pointer input device as recited in claim 9, wherein the light sensing portion is a light sensor.

11. The device as claimed in claim 9, wherein the processing portion activates the light sensing function of the light sensing portion according to a setting signal.

12. The pointer input device of claim 11 further comprising a setting portion, the setting portion being coupled to the processing portion, the setting portion being operable to generate the setting signal, the setting portion being a key or a dip switch.

13. The pointer input apparatus of claim 11 wherein the processing portion receives the setting signal from a mobile device in a wireless manner.

14. A method for setting a pointer input device, adapted to operate on a mouse pad to set an operating parameter of the pointer input device, the method comprising:

when a light indication part of the mouse board presents a lightening state, the pointer input equipment obtains the lightening state of the light indication part through a light induction part; and

the pointer input equipment selectively sets one of a plurality of preset parameters as a working parameter of the pointer input equipment according to the sensing result of the light sensing part, wherein the plurality of preset parameters are stored in a storage part of the pointer input equipment;

the pointer input equipment is used for setting the preset parameters corresponding to the preset lightening state as the working parameters when the pointer input equipment senses that the lightening state of the light indication part is matched with the preset lightening state through the light induction part;

the working parameter is mouse resolution, USB return rate, mouse picture update rate or shortcut command.

15. The setting method as claimed in claim 14, wherein the mouse board controls the light indication portion to illuminate according to a switching signal, the switching signal controls the light indication portion to present different colors or different flashes, and the pointer input device activates the light sensing function of the light sensing portion according to a setting signal.

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