CN210466336U - Input system - Google Patents

Abstract

The utility model discloses an input system, include: input device and support handle, support handle includes: the input device comprises a holding part and a first connecting part, wherein the first connecting part is used for detachably connecting the input device; the input device includes: the second connecting part is arranged on the outer surface of the input equipment and is detachably connected with the first connecting part; the touch sensing device is arranged on the first surface of the input equipment and used for acquiring touch operation of a user to generate a touch signal; the photoelectric device is arranged on the second surface of the input device and used for acquiring the movement track of the input device to generate a track signal; the mode switching device is used for acquiring the triggered level state of the current input equipment to generate a mode signal; the controller is arranged in the input equipment and generates a first output instruction according to the touch signal and/or the track signal and the mode signal. The utility model discloses a support handle can support the user palm when the more meticulous operation of user's needs, plays auxiliary user's effect.

Description

Input system

Technical Field

The embodiment of the utility model provides an input technology is related to, especially, relate to an input system.

Background

The optical mouse and the touch pad are two main input devices of intelligent devices such as computers, intelligent projection and intelligent televisions, and are widely applied.

The touch pad is an input part which must be equipped on Win8, Win10 notebooks and MacBook series notebooks, and supports single-finger, double-finger and even multi-finger operation, but the touch pad has poor input precision and cannot support high-precision input operation. The input precision of the optical mouse is relatively high, and the optical mouse is a necessary input device for drawing and games. However, the optical mouse only supports the pressing operation of the keys, cannot support the gesture operation, and has a single operation mode. And most of mice are designed integrally, so that the device is large, the main body is heavy and cumbersome, the device is inconvenient to carry, and the device is inconvenient for users to hold in the air.

SUMMERY OF THE UTILITY MODEL

The utility model provides an input system to the realization supports user's palm auxiliary user and carries out more accurate input operation.

In a first aspect, an embodiment of the present invention provides an input system, including: an input device and a support handle,

the support handle includes: the input device comprises a holding part and a first connecting part, wherein the first connecting part is used for detachably connecting the input device;

the input device includes:

the second connecting part is arranged on the outer surface of the input device and is detachably connected with the first connecting part;

the touch control sensing device is arranged on the first surface of the input equipment and used for acquiring touch control operation of a user to generate a touch control signal, and the touch control signal is generated based on one or more of the number of touch control fingers, a touch control position and a sliding touch control track;

the photoelectric device is arranged on the second surface of the input device and used for acquiring the movement track of the input device to generate a track signal;

the mode switching device is used for acquiring the triggered level state of the current input equipment to generate a mode signal, and comprises at least two modes;

the controller is arranged in the input device and is respectively connected with at least one touch sensing device, a photoelectric device and a mode switching device, the controller is used for receiving the touch signal, the track signal and/or the mode signal, and the controller is also used for turning on or off the photoelectric device according to the mode signal and/or generating a first output instruction according to the touch signal and/or the track signal and the mode signal.

Optionally, the first connecting portion includes a first snap connector, a first slot connector, a first buckle connector and/or a first magnetic connector; the second connecting part comprises a second buckle connecting piece, a second clamping groove connecting piece, a second buckle hoop connecting piece and/or a second magnetic suction connecting piece.

Optionally, the first connection portion further includes a first power interface for supplying power to a connected input device, and the input device further includes a second power interface connected to the first power interface.

Optionally, the support handle further comprises: the power supply comprises a third power interface and/or a fourth power interface, wherein the third power interface is an electric energy input interface, and the fourth power interface is an electric energy output interface.

Optionally, the support handle further comprises: a battery connected with the third power interface and/or the fourth power interface.

Optionally, the support handle further comprises:

and the wireless charging circuit is connected with the third power interface or the battery.

Optionally, the support handle further comprises:

the telescopic lead is contained in the supporting handle, and the battery is connected with the third power interface and/or the fourth power interface through the telescopic lead.

Optionally, the mode switching device includes: one or more of a travel switch, a magnetic attraction inductive switch, a charging connecting device and a trigger switch.

Optionally, the input device further includes:

the pressure sensing device is arranged below the first surface of the input device and used for acquiring the pressing operation of a user on the first surface to generate a pressing signal;

the controller is further connected with the at least one pressure sensing device and used for receiving the pressing signal and generating a second input instruction according to one or more of the pressing signal, the touch signal and the track signal and the mode signal.

Optionally, the input device further includes:

the gesture sensing device is used for acquiring the movement operation of the user on the input equipment to generate a spatial position signal;

the controller is further connected with the attitude sensing device and used for receiving the spatial position signal and generating a third input instruction according to one or more of the spatial position signal, the touch signal and the track signal and the mode signal.

According to the technical scheme of the embodiment, by adding the pressure sensing device, and further generating the second input instruction by the controller according to the pressing signal, one or more of the touch signal and the track signal and the mode signal, the problem that a common computer input device such as a mouse is single in operation mode is solved, so that the computer input device not only can support gesture operation, but also can match different control gestures and instruction generation modes according to different modes, the accuracy of instruction generation in different use modes is improved, the generated instruction is prevented from being disordered and user experience is prevented from being influenced, and in addition, compared with the embodiment, the embodiment has the advantage that the control instruction generated by the gesture operation is more diversified by adding the pressure sensing device 14. On the basis, the input equipment is connected to the supporting handle, on one hand, the effect of assisting a user can be achieved when the user needs to perform more precise operation, on the other hand, the effect of supporting the palm of the user is achieved, and fatigue caused by long-time operation on the face is avoided. The power interface is arranged on the connecting part of the input device and the supporting handle, and through the matching of the power interface and the mode device, when a user uses a supplementary mode, the user can change the use mode of the input device by directly connecting the handle without special adjustment, so that the use convenience of the input system is improved.

Drawings

The above and other features and advantages of embodiments of the present invention will become more apparent to those of ordinary skill in the art by describing in detail exemplary embodiments thereof with reference to the attached drawings, in which:

fig. 1 is a schematic diagram of an input system according to a first embodiment of the present invention;

fig. 2 is a schematic diagram of an input device according to a first embodiment of the present invention;

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

fig. 4 is a schematic diagram illustrating a first surface area division of an input device according to a first embodiment of the present invention;

fig. 5 is a schematic diagram illustrating a first surface area division of an input device according to a first embodiment of the present invention;

FIG. 6 is a schematic diagram of an input system according to a first embodiment of the present invention;

FIG. 7 is a schematic diagram of an input system according to an embodiment of the present invention;

fig. 8 is a schematic diagram of an input device according to a first embodiment of the present invention;

fig. 9 is a schematic diagram of an input device according to a second embodiment of the present invention;

fig. 10 is a schematic diagram illustrating a first surface area division of an input device according to a second embodiment of the present invention;

fig. 11 is a schematic diagram illustrating a first surface area division of an input device according to a second embodiment of the present invention;

fig. 12 is a schematic diagram illustrating a first surface area division of an input device according to a second embodiment of the present invention;

fig. 13 is a schematic diagram of an input device according to a second embodiment of the present invention;

fig. 14 is a schematic diagram of an input device according to a second embodiment of the present invention;

fig. 15 is a schematic diagram of an input device in a third embodiment of the present invention;

fig. 16 is a schematic view of an input system according to a fourth embodiment of the present invention;

fig. 17 is a schematic diagram of an input system in the fourth embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Furthermore, the terms "first," "second," and the like may be used herein to describe various orientations, actions, steps, elements, or the like, but the orientations, actions, steps, or elements are not limited by these terms. These terms are only used to distinguish one direction, action, step or element from another direction, action, step or element. For example, without departing from the scope of the present disclosure, a first touch sensing device may be referred to as a second touch sensing device, and similarly, a second touch sensing device may be referred to as a first touch sensing device. The first touch sensing device and the second touch sensing device are both touch sensing devices, but are not the same touch sensing device. The terms "first", "second", etc. are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise. It should be noted that when a portion is referred to as being "secured to" another portion, it can be directly on the other portion or there can be an intervening portion. When a portion is said to be "connected" to another portion, it may be directly connected to the other portion or intervening portions may be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

Example one

The embodiment of the present invention provides an input system, refer to fig. 1, and the input system includes: an input device 1 and a support handle 2, the support handle 2 comprising: a grip portion 21 and a first connecting portion for detachably connecting the input apparatus 1; the input device 1 comprises a second connecting part, and the second connecting part is arranged on the outer surface of the input device 1 and detachably connected with the first connecting part.

Referring to fig. 2 and 3, the input apparatus 1 further includes at least one touch sensing device 111, a photoelectric device 121, a mode switching device 131, and a controller 16.

The touch sensing device 111 is disposed on the first surface 11 of the input device and configured to obtain a touch operation of a user to generate a touch signal, where the touch signal is generated based on one or more of the number of touch fingers, a touch position, and a sliding touch trajectory.

Specifically, the at least one touch sensing device 111 is a touch pad, the first surface 11 is an upper surface of the input device during normal use, and the at least one touch sensing device 111 has a function of recognizing single-finger, double-finger or multi-finger operation of a user. For example, a coordinate axis matched with the touch sensing device 111 may be established in advance, when a touch operation is input, coordinate data of each finger is obtained, and a touch position and a sliding track of each finger may be determined according to the coordinate data, or the number of fingers may be determined according to the number of the coordinate data. In other embodiments, the first surface 11 may also be an arch, a flat plate, etc., which is not limited in the embodiments of the present invention. When there is one touch sensing device 111, the touch sensing device may be a touch pad that covers the first surface 11 completely, or may only cover a part of the first surface 11, and may detect the number of touch fingers, the touch position, and the sliding touch trajectory; when the at least one touch sensing device 111 is at least two touch sensing devices 111, the at least two touch sensing devices 111 may obtain the touch position of the user by detecting the mark of the touch sensing device 111 receiving the touch signal; or the number of the touch sensing devices 111 receiving the touch signal obtains the number of the touch fingers of the user. The at least one touch sensing device 111 of the present embodiment may be a capacitive touch pad, a resistive touch pad, or an infrared touch pad.

And a photoelectric device 121, disposed on the second surface of the input device, for acquiring a movement track of the input device to generate a track signal.

Specifically, the second surface is a surface of the input device that is disposed on the supporting surface and is adjacent to the supporting surface in normal use, and is not limited to the second surface shown in fig. 3, and the optoelectronic device 121 includes a light emitting diode, a group of optical lenses, a light sensing device, and an image analysis chip. The light emitted by the light emitting diode illuminates the bottom surface of the input device, part of the light is reflected by the bottom surface of the input device, the reflected part of the light is transmitted into the light sensing device through the group of optical lenses to be imaged, when the input device moves, the light sensing device continuously generates a group of high-speed shooting continuous images, and the analysis chip analyzes the change of the feature point positions of the continuous images so as to determine the moving track of the input device.

A mode switching device 131 for acquiring a triggered level state of the current input device to generate a mode signal, wherein the mode switching device includes at least two modes.

Specifically, the mode switching device 131 includes: one or more of a travel switch, a magnetic attraction inductive switch, a charging connecting device and a trigger switch. The mode switching device 131 includes a plurality of switchable mode ranges for switching the use mode of the input apparatus, and the modes switchable by the mode switching device 131 in this embodiment include at least two modes. When a user needs to change the device mode, for example, the travel switch may be adjusted, the magnetic attraction piece of the input device may be connected to the external magnetic attraction piece, the charging connection piece of the input device may be connected to an external charger, or a trigger switch associated with a connection piece provided with the input device may be touched; when the state of the travel switch, the magnetic induction switch and the charging connecting device or the trigger switch is changed, the state of the trigger level is changed, and the mode signal can be correspondingly generated according to the change of the state of the level. In other embodiments, the mode switching device may further acquire a gear position of the mode switching device selected by the user to generate the mode signal, the mode switching device including at least two gear positions.

The controller 16 is disposed inside the input device, the controller 16 is connected to at least one touch sensing device 111, an optoelectronic device 121, and a mode switching device 131, the controller 16 is configured to receive the touch signal, the track signal, and/or the mode signal, and the controller 16 is further configured to turn on or off the optoelectronic device 121 according to the mode signal, and/or generate a first output instruction according to the touch signal and/or the track signal and the mode signal.

Specifically, the first input instruction includes a page scrolling instruction, a page turning instruction, a desktop switching instruction, a cursor moving instruction, a cursor static instruction, a cursor selection instruction, a multitask interface starting instruction, an enlargement instruction and/or a reduction instruction.

In this embodiment, referring to fig. 1, the upper surface of the grip portion 21 of the support handle 2 is arched in use, and the upper surface is used for supporting the palm of the user. The first connecting part comprises a first buckle connecting piece, a first clamping groove connecting piece, a first buckle hoop connecting piece and/or a first magnetic suction connecting piece.

In this embodiment, referring to fig. 3 together, the input device 1 is substantially in the shape of a flat rectangular parallelepiped, and the distance between the first surface 11 and the second surface of the input device 1 is less than 3 centimeters and greater than 0.2 centimeters; further, the aspect ratio of the first surface 11 is preferably in the range of 2:1 to 6: 1. The first surface 11 has a greater roughness than the second surface 12. In this embodiment, the external shape of the input device 1 may be a rectangle, an ellipse, a semi-arc, or the like, which is not limited. In an alternative embodiment of the present embodiment, the first surface 11 of the input device 1 may also be higher or parallel to the side portion and encase the side portion. The second connecting part of the input device 1 is arranged on the outer surface of the input device 1 and detachably connected with the first connecting part.

In this embodiment, referring to fig. 1, the first surface 11 of the input device 1 faces upward and is connected to the first connecting portion of the support handle 2 through the second connecting portion. The second connecting part comprises a second buckle connecting piece, a second clamping groove connecting piece, a second buckle hoop connecting piece and/or a second magnetic suction connecting piece. For example, referring to fig. 1, when the first connection part is the first snap connection part 221, the second connection part is the second snap connection part 191, and when the first snap connection part 221 is the male buckle, the second snap connection part 191 is the female buckle, and the first snap connection part 221 and the second snap connection part 191 are correspondingly connected. In other embodiments, when the first connecting portion is a first magnetic connecting member, the second connecting portion is a second magnetic connecting member, and the first magnetic connecting member and the second magnetic connecting member can be connected to each other in an attracting manner, which is not limited herein.

For example, in the present embodiment, the mode switching device 131 is a travel switch, and the modes that the mode switching device 131 can switch include at least: ground mode, air mode, and supplemental mode.

The ground mode further includes a lateral mode and a longitudinal mode. Illustratively, when the shift position of the mode switching device 131 is adjusted to the landscape mode, the user is using the input device, the input device is laid on the user, and the user's finger is laid on the touch sensing device 111. Referring to fig. 4, the at least one touch sensing device 111 includes four touch sensing devices, namely, a first touch sensing device, a second touch sensing device, a third touch sensing device and a fourth touch sensing device, wherein the first touch sensing device is located in a first area 1111 of the first surface 11, a second area 1112 of the first surface 11 of the second touch sensing device, a third area 1113 of the first surface 11 of the third touch sensing device, and a fourth area 1114 of the first surface 11 of the fourth touch sensing device. The first region 1111 and the second region 1112 of the present embodiment are located at opposite sides of the first surface in the length direction, and the third region 1113 and the fourth region 1114 are located between the first region 1111 and the second region 1112.

When the first touch sensing device and the second touch sensing device are simultaneously touched by two fingers of a user, at least one touch sensing device 111 generates a touch signal according to a touch position and the number of fingers, and if the input device moves, the controller 16 generates a first input instruction as a cursor movement instruction according to the acquired touch signal, the acquired track signal and the acquired mode signal (at this time, the acquired mode signal is a transverse mode signal). For another example, when the first touch sensing device, the second touch sensing device, and the third touch sensing device are simultaneously touched by three fingers of the user, at least one touch sensing device generates a touch signal according to the touch position and the number of fingers, and if the input device moves, the controller 16 uses a first input instruction of the acquired touch signal, the acquired track signal, and the acquired mode signal (at this time, the acquired mode signal is the horizontal mode signal) as the desktop switching instruction. For another example, when the first touch sensing device, the second touch sensing device, and the fourth touch sensing device are simultaneously touched by three fingers of the user, and the input device moves on the desktop, at least one touch sensing device 111 generates a touch signal according to the touch position and the number of fingers, and the controller 16 generates a first input instruction as a page scrolling instruction according to the touch signal, the track signal, and the mode signal (at this time, the mode signal is a horizontal mode signal) acquired by the touch sensing device 111. It should be noted that, the corresponding relationship between the touch signal, the track signal, and the mode signal and the first input command is not limited to the embodiment, in other embodiments, other corresponding relationships may exist in the corresponding relationship between the touch signal, the track signal, and the mode signal and the first input command, and the first input command may further include other commands.

The input device of the embodiment is small and light, and the area of the end part of each of the 2-3 fingers is adapted, so that when a user wants to move the input device, the user can naturally place 1-3 fingers on the upper surface of the input device to perform touch or press operation on the touch sensing device 111, and meanwhile, the input device is moved, the user basically does not need to learn the corresponding control function, and the use is very convenient.

Illustratively, when the input device is coupled to the support handle, the shift position of the mode switching device 131 is adjusted to the supplemental mode for use. The first connection portion further includes a first power interface for supplying power to the connected input device 1, and the input device 1 further includes a second power interface connected to the first power interface. When the input device is connected with the handle, the input device can be charged through the supporting handle 2, and when the input device is charged, the mode switching device can adjust the input device 1 to the supplementary mode by sensing the level change triggered by the second power interface of the input device 1. In other embodiments, the current level state triggered by the input device 1 may also be a high level released by the first power interface of the support handle 2, and the mode switching device further adjusts the input device 1 to the supplementary mode according to the high level received by the first power interface. Specifically, the supplementary mode may be a normal mouse use mode, and the functions of the left key and the right key may be confirmed according to the number of fingers and the touch position received by the touch sensing device.

Illustratively, when the gear of the mode switching device 131 is adjusted to the air mode, and the user can hold the input device with one hand and operate the first surface 11 of the input device with the thumb while using the input device, in order to prevent the photoelectric device 121 from sensing the moving track of the palm relative to the input device and causing the generated command to be disordered, in this mode, the photoelectric device 121 is automatically turned off, the user controls the cursor to move by sliding the thumb on the at least one touch sensing device 111, and at this time, the controller 16 generates the cursor moving command according to the touch signal and the mode signal of the mode switching device 131 (the mode signal is the air mode signal); when the user uses at least two fingers to slide on the at least one touch sensing device 111 simultaneously, the at least one touch sensing device 111 generates a touch signal according to the touch position, the at least two sliding trends, and the number of fingers, and the controller 16 generates an enlargement instruction or a reduction instruction according to the touch signal and a mode signal of the mode switching device 131 (the mode signal at this time is an air mode signal). For another example, referring to fig. 5 together, when the at least one touch sensing device 111 includes two touch sensing devices, namely a fifth touch sensing device and a sixth touch sensing device, wherein the fifth touch sensing device is located in a fifth area 1115 of the first surface 11, and a sixth area 1116 of the first surface 11 of the sixth touch sensing device is located at an edge of the first surface 11, when a finger of a user slides on the fifth touch sensing device, the controller 16 generates a first input command as a cursor moving command according to the touch signal and a mode signal of the mode switching device 131 (the mode signal at this time is an aerial mode signal); when the user's finger slides on the sixth touch sensing device, the first input command generated by the controller 16 according to the touch signal and the mode signal of the mode switching device 131 (at this time, the mode signal is an air mode signal) is a page scrolling command. In other embodiments, the corresponding relationship between the touch signal and the mode signal and the first input instruction may have other corresponding relationships, and the first input instruction may further include other instructions, such as a page-turning instruction, a desktop switching instruction, a start-up multitask interface instruction, and the like.

In this embodiment, the plurality of touch sensing devices 111 may also be replaced by one touch sensing device 111, in this embodiment, the preferred touch sensing device is one, and when the number of the touch sensing devices is one, the touch sensing device covers the first surface of the input device. When only one touch sensing device 111 is provided, a coordinate axis matched with the touch sensing device 111 may be established in advance, when a touch operation is input, coordinate data of each finger is obtained, a touch area of each finger may be determined according to the coordinate data, the touch areas are divided, and the same touch operation in different areas may correspond to different first input instructions in the same use mode, which is not limited in this embodiment.

The utility model discloses an aspect is connected with at least one touch-control induction element 111, photoelectric device 121 and mode switching device respectively through controller 16, controller 16 is used for receiving touch-control signal, orbit signal and/or mode signal, controller 16 still is used for the basis mode signal opens or closes photoelectric device 121, and/or basis touch-control signal and/or orbit signal and mode signal generates first output instruction. The problem of common computer input equipment such as mouse operation mode singleness is solved, make it not only can support gesture operation, can also match different control gesture and instruction generation mode according to different modes, promoted the accuracy of generating the instruction under different user mode, prevent that the instruction that generates from taking place the confusion, influence user experience. On the basis, the input equipment is connected to the supporting handle, on one hand, the effect of assisting a user can be achieved when the user needs to perform more precise operation, on the other hand, the effect of supporting the palm of the user is achieved, and fatigue caused by long-time operation on the face is avoided. The power interface is arranged on the connecting part of the input device and the supporting handle, and through the matching of the power interface and the mode device, when a user uses a supplementary mode, the user can change the use mode of the input device by directly connecting the handle without special adjustment, so that the use convenience of the input system is improved.

In an alternative embodiment, referring to fig. 6, when the first connecting portion is the first card slot connecting piece 222, the second connecting portion is the second card slot connecting piece 192, the first card slot connecting piece 222 is a groove disposed on the upper surface of the supporting handle 2, the side surface of the input device can be regarded as the second card slot connecting piece 192, and the side surface of the input device can be matched and embedded in the first card slot connecting piece 222 disposed on the supporting handle.

In an alternative embodiment, referring to fig. 7, when the first connection portion is the first buckle hoop connector 223, the second connection portion is the second buckle hoop connector 193, the first buckle hoop connector 223 extends through the entire support handle 2 from top to bottom, the side of the input device can be regarded as the second buckle hoop connector 193, and the side of the input device can be matched and embedded in the first buckle hoop connector 223 arranged on the support handle 2.

In an alternative embodiment, referring to fig. 8, the input device further includes a communication device 17, where the communication device 17 is connected to the controller 16, and is configured to send the first input instruction generated by the controller 16 to an associated device of the input device, or send the touch signal, the track signal, and/or the mode signal that the controller 16 is configured to receive to an associated device of the input device.

In this alternative embodiment, the communication device may be a WIFI module, a bluetooth module, a data line connected to the controller 16, or the like. When the associated device of the input device does not have a related driver, the input device may generate a corresponding first input instruction according to the acquired touch signal, the acquired track signal and/or the acquired mode signal, and then send the first input instruction to the associated device; when the associated device of the input device has the related driver, the input device may directly send the acquired touch signal, track signal and/or mode signal to the associated device, and the associated device generates the first input instruction according to the corresponding relationship.

Example two

Fig. 9 shows an input device provided by the second embodiment of the present invention, and the present embodiment is different from the above embodiments in that the input device further includes at least one pressure sensing device 14.

Referring to fig. 3, at least one pressure sensing device 14 is disposed below the first surface 11 of the input device, and is configured to obtain a pressing operation of a user on the first surface 11 to generate a pressing signal.

In particular, said at least one pressure sensitive device 14 comprises a key and/or a pressure sensor. When the pressure sensing device 14 is a sensor, the controller 16 further determines whether the touch operation is pressing or touching based on the received pressure value, and when the pressure value is greater than or equal to a preset pressure value, determines that the touch operation corresponding to the pressure value is pressing; and when the pressure value is smaller than the preset pressure value, determining the touch operation corresponding to the pressure value as touch. At least one pressure sensitive device 14 is arranged inside the input device and below the first surface 11. The number of the at least one pressure sensing device 14 may be one or more, and the number of the at least one touch sensing device 111 is the same as or different from that of the pressure sensing devices 14. Illustratively, the number of the at least one touch sensing device 111 is the same as that of the at least one pressure sensing device 14, and one pressure sensing device 14 is correspondingly arranged under each touch sensing device 111, and is used for detecting a pressure value when each touch sensing device 111 is touched. Illustratively, the number of the touch sensing devices 111 is smaller than the number of the pressure sensing devices 14, for example, the number of the touch sensing devices 111 is 1, the number of the pressure sensing devices 14 is 2, the touch sensing devices 111 are located in the central area of the first surface 11 of the input device, the pressure sensing devices 14 are respectively located in the edge area of the input device, and the non-corresponding arrangement of the touch sensing devices 111 and the pressure sensing devices 14 can also reduce the maintenance difficulty and the maintenance cost.

The controller 16 is further connected to the at least one pressure sensing device 14, and configured to receive the pressing signal and generate a second input command according to one or more of the pressing signal, the touch signal and the trace signal and the mode signal.

Specifically, the second input instruction includes a page scrolling instruction, a page turning instruction, a desktop switching instruction, a cursor moving instruction, a cursor static instruction, a cursor selection instruction, a multitask interface starting instruction, a desktop displaying instruction, an enlarging instruction and/or a reducing instruction.

For example, in the first embodiment, the mode switching device 131 is a travel switch, and the modes that the mode switching device 131 can switch at least include: ground mode, air mode, and supplemental mode.

The ground mode further includes a lateral mode and a longitudinal mode. For example, referring to fig. 10 together, when the shift position of the mode switching device 131 is adjusted to the landscape mode, the user uses the input device while the input device is laid on the front of the user, and the user's finger is laid on the touch sensing device 111. The at least one pressure sensing device 14 includes a first pressure sensing device located under a seventh region 1117 of the first surface 11 and a second pressure sensing device located under an eighth region 1118 of the first surface 11, the seventh region 1117 and the eighth region 1118 being respectively located at left and right sides when the input device is laterally placed. When the user clicks the seventh area 1117 or the eighth area 1118 of the first surface 11 with one finger, the first pressure sensing device obtains the pressing operation of the user on the seventh area 1117 or the eighth area 1118 to generate a pressing signal, and the second input command generated by the controller 16 according to the pressing signal and the mode signal of the mode switching device 131 (at this time, the mode signal is a transverse mode signal) is a cursor selection command, where the cursor selection command at least includes a left-key selection command and a right-key selection command. For example, referring to fig. 11 together, when the shift position of the mode switching device 131 is adjusted to the portrait mode, the user may place one or two fingers on the first surface 11 of the input device when the user is using the input device with the input device placed in front of the user in the portrait mode. The at least one pressure sensing device 14 further includes a third pressure sensing device located under the ninth region 1119 of the first surface 11 and a fourth pressure sensing device located under the ninth region 1119 of the first surface 11, and the ninth region 1119 and the tenth region 1101 are respectively located at left and right sides when the input apparatus is placed in the longitudinal direction. When the user clicks the ninth region 1119 or the tenth region 1101 with one finger, the second input instruction generated by the controller 16 according to the pressing signal and the mode signal of the mode switching device 131 (the mode signal at this time is the horizontal mode signal) is a cursor selection instruction, wherein the cursor selection instruction at least includes a left key selection instruction and a right key selection instruction. It should be noted that, the area of the first surface 11 and the pressure sensing device 14 are not limited to the embodiment, and in other embodiments, other corresponding relationships may exist, and the embodiment of the present invention is not limited to this; the click operation mouse (input device) of the user corresponds to the left key selection instruction and the right key selection instruction, which are the prior art, and the embodiment of the present invention is not further described. In other embodiments, second input instructions such as a page scrolling instruction, a desktop switching instruction and the like can be generated according to the pressing signal, the touch signal, the track signal and the mode signal without being listed one by one, and corresponding instructions are generated by adding the pressing signal, so that gesture operations can have various combination forms, simultaneously generated instructions can be richer, and control modes can be more diversified.

Illustratively, when the input device is coupled to the support handle, the shift position of the mode switching device 131 is adjusted to the supplemental mode for use. The first connection portion further includes a first power interface for supplying power to the connected input device 1, and the input device 1 further includes a second power interface connected to the first power interface. When the input device is connected with the handle, the input device can be charged through the supporting handle 2, and when the input device is charged, the mode switching device can adjust the input device 1 to the supplementary mode by sensing the level change triggered by the second power interface of the input device 1. In other embodiments, the current level state triggered by the input device 1 may also be a high level released by the first power interface of the support handle 2, and the mode switching device further adjusts the input device 1 to the supplementary mode according to the high level received by the first power interface. Specifically, the supplementary mode may be a normal mouse use mode, the functions of the left button and the right button may be confirmed by generating the pressing signal according to the pressure sensing device, and when the operations of the left button and the right button are confirmed only through the pressure sensing device, the number of the pressure sensing devices is preferably two.

Illustratively, when the shift position of the mode switching device 131 is adjusted to the air mode, the user can hold the input device with one hand and operate the first surface 11 of the input device with the thumb while using the input device, and in this case, in order to prevent the photoelectric device 121 from sensing the moving track of the palm relative to the input device and causing the generated command to be disordered, the photoelectric device 121 is automatically turned off in this mode. Illustratively, referring to fig. 12 together, the at least one pressure sensing device 14 includes a fifth pressure sensing device and a sixth pressure sensing device, the fifth pressure sensing device is located below an eleventh area 1102 of the first surface 11, the sixth pressure sensing device is located below a twelfth area 1103 of the first surface 11, and the eleventh area 1102 and the twelfth area 1103 are respectively located at upper and lower ends of the input device when the input device is held by one hand. When the user presses the eleventh area or the twelfth area 1103, the second input instruction generated by the controller 16 according to the pressing signal and the mode signal of the mode switching device 131 (at this time, the mode signal is the air mode signal) is a page turning instruction, where the page turning instruction at least includes a page turning up instruction and a page turning down instruction. Further, when the at least one touch sensing device 111 includes two touch sensing devices 111, that is, a seventh touch sensing device 111 and an eighth touch sensing device 111, where the seventh touch sensing device is located in an eleventh area 1102 of the first surface 11, and a twelfth area 1103 of the first surface 11 of the eighth touch sensing device, for example, when the user touches the seventh touch sensing device or the eighth touch sensing device, a pressure value at this time is insufficient for the pressure sensing device 14 to generate a pressing signal, or the pressure value is smaller than a preset value, a page return top command or a page return bottom command is generated.

According to the technical scheme of the embodiment, the pressure sensing device 14 is added, and the controller 16 further generates the second input instruction according to the pressing signal, one or more of the touch signal and the track signal and the mode signal, so that the problem that a common computer input device such as a mouse is single in operation mode is solved, the gesture operation can be supported, different control gestures and different instruction generation modes can be matched according to different modes, the accuracy of instruction generation in different use modes is improved, the generated instruction is prevented from being disordered and user experience is prevented from being influenced, and in addition, compared with the embodiment, the pressure sensing device 14 is added, so that the control instruction generated by the gesture operation is more diversified. On the basis, the input equipment is connected to the supporting handle, on one hand, the effect of assisting a user can be achieved when the user needs to perform more precise operation, on the other hand, the effect of supporting the palm of the user is achieved, and fatigue caused by long-time operation on the face is avoided. The power interface is arranged on the connecting part of the input device and the supporting handle, and through the matching of the power interface and the mode device, when a user uses a supplementary mode, the user can change the use mode of the input device by directly connecting the handle without special adjustment, so that the use convenience of the input system is improved.

In an alternative embodiment, referring to fig. 13 and 14, the input device further comprises: and the laser emitting device 18 is connected with the controller 16, the controller 16 is further used for controlling the laser emitting device 18 to emit laser according to the mode signal and/or the pressing signal, the laser emitting device 18 is arranged on a third surface of the input device, and the third surface is perpendicular to the first surface or the second surface.

Illustratively, the light emitting surface of the laser emitter of the present embodiment is disposed on a third surface of the input device, and the third surface is preferably a side surface 13 of the input device, specifically, when the associated device of the input device is a projector, the seventh pressure sensing device 14 is pressed by pressing the first surface 11 of the input device. The controller 16 controls the laser emitting device 18 to emit laser light according to the mode signal (in this case, the mode signal is a PPT mode signal) and the pressing signal. In other embodiments, the seventh press sensing device may be disposed at other positions besides the first surface 11, which is not limited in this embodiment.

In an alternative embodiment, referring to fig. 13, the input device further includes a communication device 17, where the communication device 17 is connected to the controller 16, and is configured to send a second input instruction generated by the controller 16 to an associated device of the input device, or send the pressure signal, the touch signal, the track signal, and/or the mode signal, which are used by the controller 16 for receiving, to the associated device of the input device.

In this alternative embodiment, the communication device may be a WIFI module, a bluetooth module, a data line connected to the controller 16, or the like. When the associated device of the input device does not have a related driver, the input device may generate a second input instruction according to the acquired pressing signal, one or more of the pressing signal, the touch signal and the track signal, and the mode signal, and then send the second input instruction to the associated device; when the associated device of the input device has the related driver, the input device may directly send the acquired pressing signal, touch signal, track signal and/or mode signal to the associated device, and the associated device generates the first input instruction according to the corresponding relationship.

EXAMPLE III

Fig. 15 shows an input device provided by the third embodiment of the present invention, and the difference between the present embodiment and the above embodiments is that the input device further includes: the gesture sensing device 15 is used for acquiring the movement operation of the input equipment by the user to generate a spatial position signal; the controller 16 is further connected to the gesture sensing device 15, and configured to receive the spatial position signal, and generate a third input command according to one or more of the spatial position signal, the touch signal, and the track signal, and the mode signal.

In this embodiment, the gesture sensing device 15 at least includes a gyroscope, and in some embodiments, the gesture sensing device 15 further includes an accelerometer, and the addition of the accelerometer can control the cursor movement more accurately. Illustratively, when the gear of the mode switching device 131 is adjusted to the air mode, and when the attitude sensing device 15 is a gyroscope, the spatial position signal obtained by the input device is generated by simulating the movement vector of the mouse on the X and Y axes of the computer desktop according to the output data of two axes of the gyroscope, and the spatial position signal and the third input command generated by the mode signal (in this case, the air mode signal) by the controller 16 are the movement command of the cursor. When the input device is connected with the supporting handle, the input device is adjusted to a supplement mode, the function of the gyroscope is automatically turned off, and the disorder of the generated instruction is prevented.

In other operation manners of this embodiment, the controller 16 may further generate a third input instruction according to the mode signal and one or more of the spatial position signal, the touch signal, and the track signal, where the third input instruction includes a page scrolling instruction, a page turning instruction, a desktop switching instruction, a cursor moving instruction, a cursor resting instruction, and/or a cursor selecting instruction, a multi-task interface starting instruction, a desktop displaying instruction, a desktop enlarging instruction, and/or a reducing instruction. This embodiment is not described in detail herein.

In the technical solution of this embodiment, a gesture sensing device 15 is added, and the controller 16 further generates a third input command according to one or more of the spatial position signal, the touch signal and the track signal and the mode signal. The problem of commonly used computer input equipment such as mouse operation mode is single is solved, make it not only can support gesture operation, can also match different control gesture and instruction generation mode according to different modes, promoted the accuracy of generating the instruction under different user mode, prevent that the instruction that generates from taking place the confusion, influence user experience, the control instruction that this embodiment made gesture operation generate is more diversified through having increased gesture perception device 15 for embodiment one in addition.

Example four

The fourth embodiment provides an input system, which is different from the above-mentioned embodiments in that, referring to fig. 16, the support handle further comprises: the power supply system comprises a third power interface 23 and/or a fourth power interface 24, wherein the third power interface 23 is an electric energy input interface, and the fourth power interface 24 is an electric energy output interface.

Specifically, the number of the fourth power source interface 24 is at least one, and the fourth power source interface is used for charging external electronic equipment, wherein the external electronic equipment is a mobile phone or a tablet. The third connecting port is an interface for charging the support handle.

In some embodiments, the support handle described with reference to fig. 17 further comprises: a battery 25, the battery 25 being connected to the third power interface 23 and/or the fourth power interface 24.

According to the technical scheme, the power interface is arranged on the input equipment for inputting and outputting electric energy, on one hand, when the input equipment is used in an external area, the input equipment can also be used as a storage power supply for charging external electronic equipment such as a mobile phone and a tablet, on the other hand, the input equipment is matched with the battery in the input equipment for use, and the problems that the input equipment is too small in size and short in electric energy endurance time are solved.

In an alternative embodiment, the support handle further comprises: the telescopic lead is contained in the supporting handle, and the battery is connected with the third power interface and/or the fourth power interface through the telescopic lead. When the handle telescopic wire is supported, the third power interface is preferably a USB female port, namely, the third power interface can be directly plugged into the USB female port in the charging socket. The fourth power interface is preferably a Type female port and can be directly connected with a mobile phone or a tablet. According to the technical scheme of the alternative embodiment, the telescopic wire is further arranged, so that a user can conveniently use the supporting handle to control the input device, and the external electronic equipment can be charged at the same time.

According to the technical scheme of the alternative embodiment, the telescopic lead is arranged, so that long-distance charging can be achieved, or power can be supplied to external equipment.

In an alternative embodiment, the support handle further comprises: and the wireless charging circuit is connected with the third power interface or the battery.

Specifically, wireless charging circuit's charging coil sets up in the upper surface that supports the handle, when wireless charging circuit is direct to be connected with third power source, need be when third power source is connected with charging source, just can charge outside electronic equipment. When the wireless charging circuit is directly connected with the battery, a switch is arranged between the wireless charging circuit and the battery for controlling the working state of the wireless charging circuit and avoiding the waste of the electric quantity of the battery.

According to the technical scheme of the alternative embodiment, the charging mode of the input equipment is increased in a mode of adding the wireless charging circuit.

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

Claims (10)

1. An input system, comprising: an input device and a support handle,

the support handle includes: the input device comprises a holding part and a first connecting part, wherein the first connecting part is used for detachably connecting the input device;

the input device includes:

the second connecting part is arranged on the outer surface of the input device and is detachably connected with the first connecting part;

the touch control sensing device is arranged on the first surface of the input equipment and used for acquiring touch control operation of a user to generate a touch control signal, and the touch control signal is generated based on one or more of the number of touch control fingers, a touch control position and a sliding touch control track;

the photoelectric device is arranged on the second surface of the input device and used for acquiring the movement track of the input device to generate a track signal;

the mode switching device is used for acquiring the triggered level state of the current input equipment to generate a mode signal, and comprises at least two modes;

the controller is arranged in the input device and is respectively connected with at least one touch sensing device, a photoelectric device and a mode switching device, the controller is used for receiving the touch signal, the track signal and/or the mode signal, and the controller is also used for turning on or off the photoelectric device according to the mode signal and/or generating a first output instruction according to the touch signal and/or the track signal and the mode signal.

2. The input system of claim 1, wherein the first connection comprises a first snap connection, a first card slot connection, a first snap collar connection, and/or a first magnetically attractive connection; the second connecting part comprises a second buckle connecting piece, a second clamping groove connecting piece, a second buckle hoop connecting piece and/or a second magnetic suction connecting piece.

3. The input system of claim 2, wherein the first connection further comprises a first power interface for powering a connected input device, the input device further comprising a second power interface connected to the first power interface.

4. The input system of claim 1, wherein the support handle further comprises: the power supply comprises a third power interface and/or a fourth power interface, wherein the third power interface is an electric energy input interface, and the fourth power interface is an electric energy output interface.

5. The input system of claim 4, wherein the support handle further comprises: a battery connected with the third power interface and/or the fourth power interface.

6. The input system of claim 5, wherein the support handle further comprises:

and the wireless charging circuit is connected with the third power interface or the battery.

7. The input system of claim 5, wherein the support handle further comprises:

the telescopic lead is contained in the supporting handle, and the battery is connected with the third power interface and/or the fourth power interface through the telescopic lead.

8. The input system of claim 1, wherein the mode switching device comprises: one or more of a travel switch, a magnetic attraction inductive switch, a charging connecting device and a trigger switch.

9. The input system of claim 1, wherein the input device further comprises:

the pressure sensing device is arranged below the first surface of the input device and used for acquiring the pressing operation of a user on the first surface to generate a pressing signal;

the controller is further connected with the at least one pressure sensing device and used for receiving the pressing signal and generating a second input instruction according to one or more of the pressing signal, the touch signal and the track signal and the mode signal.

10. The input system of claim 1, wherein the input device further comprises:

the gesture sensing device is used for acquiring the movement operation of the user on the input equipment to generate a spatial position signal;

the controller is further connected with the attitude sensing device and used for receiving the spatial position signal and generating a third input instruction according to one or more of the spatial position signal, the touch signal and the track signal and the mode signal.

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