Utility model content
The purpose of this utility model is to provide a kind of electronic mapping systems and actuation means thereof, uses the problem solving and cannot reach intuitive manipulation existing for prior art.
For reaching above-mentioned purpose, the utility model provides a kind of actuation means, and it comprises:
One Knob module, has an end face, this Knob module in order to provide multiple handoff options, each this corresponding knob command signal of handoff options;
One touch-control module, is arranged on this end face, in order to detect one first touch-control input, to produce a touching signals;
One shortcut module, in order to produce a quick command signal;
One control module, is electrically connected this Knob module, this touch-control module and this shortcut module, in order to this knob command signal, this touching signals and this quick command signal to be encoded; And
One communication module, is electrically connected this control module, in order to this knob command signal after output encoder, this touching signals and this quick command signal.
Above-mentioned actuation means, wherein more comprises:
One presses die block, to be arranged at below this touch-control module and to be electrically connected this control module, in order to respond to a pressure and to provide at least one pressing option, the corresponding pressing command signal of this pressing option, this pressing command signal is encoded by this control module, this pressing command signal after this communication module output encoder.
Above-mentioned actuation means, wherein more comprises:
One display module, to be arranged on this end face and with this touch-control module Collaboration, in order to show at least one touch-control option, the corresponding touch command of this touch-control option, this touching signals indicates this touch command.
Above-mentioned actuation means, wherein this shortcut module is a contact panel, this contact panel in order to detect one second touch-control input, to produce this quick command signal.
Above-mentioned actuation means, wherein this shortcut module comprises multiple shortcut, the quick command signal that each this shortcut is corresponding different.
Above-mentioned actuation means, wherein this shortcut module is a touch-control display panel, and this display contact panel shows those shortcuts.
Above-mentioned actuation means, wherein this shortcut module has a virtual end face, and this virtual end face of this shortcut module is a cambered surface.
For reaching above-mentioned purpose, the utility model also provides a kind of electronic mapping systems, it comprises an electronic drawing device and actuation means as above, this electronic drawing device comprises a communication module, this communication module of this electronic drawing device is in order to communicate with this communication module of this actuation means, and this electronic drawing device operates according to the output of this actuation means.
Above-mentioned electronic mapping systems, wherein this electronic drawing device is a touch control display apparatus.
Above-mentioned electronic mapping systems, wherein this electronic drawing device is a contactor control device, and this communication module of this electronic drawing device is more in order to communicate with a computer installation.
Electronic mapping systems disclosed by above-mentioned the utility model and actuation means thereof, because its electronic drawing device and actuation means independently arrange by electronic mapping systems, therefore user can more intuitively operate in use.Further, actuation means, by the design of the design and/or shortcut module that at least comprise the knob Control Component of Knob module and touch-control module, makes actuation means that multifarious manipulation option can be provided to select to user.
Below in conjunction with the drawings and specific embodiments, the utility model is described in detail, but not as to restriction of the present utility model.
Accompanying drawing explanation
Fig. 1 is the schematic diagram of a conditional electronic drafting system;
Fig. 2 is the schematic diagram of the electronic mapping systems according to the utility model one embodiment;
Fig. 3 is the function block diagram of the actuation means according to the utility model one embodiment;
Fig. 4 A is the schematic appearance of the actuation means according to the utility model one embodiment;
Fig. 4 B is the side view of the actuation means of the 4A figure according to the utility model one embodiment;
Fig. 5 is the cross-sectional schematic of the knob Control Component of the 4A figure according to the utility model one embodiment;
Fig. 6 is the function block diagram of the actuation means according to another embodiment of the utility model;
Fig. 7 A is the schematic appearance of the knob Control Component according to another embodiment of the utility model;
Fig. 7 B is the cross-sectional schematic of the knob Control Component of Fig. 7 A according to the utility model one embodiment;
Fig. 8 is the function block diagram of the actuation means according to another embodiment of the utility model;
Fig. 9 A is the schematic appearance of the knob Control Component according to another embodiment of the utility model;
Fig. 9 B is the cross-sectional schematic of the knob Control Component of Fig. 9 A according to the utility model one embodiment;
Figure 10 is the schematic appearance of the actuation means according to another embodiment of the utility model;
Figure 11 is the schematic appearance of the actuation means according to another embodiment of the utility model;
Figure 12 is the schematic appearance of the actuation means according to another embodiment of the utility model;
Figure 13 is the schematic appearance of the actuation means according to another embodiment of the utility model;
Figure 14 is the schematic appearance of the knob Control Component according to another embodiment of the utility model.
Wherein, Reference numeral
10 computer installations
11,13 electronic drawing device
12,14 pointer
101,102,112,132,250 communication modules
111,131 contact panels
113 shortcuts
20,30,40,50,60,70,80 actuation means
22,32,42 knob Control Components
201 housings
The surface of 202 housings
203 recess
210 Knob modules
The end face of 211 Knob modules
The bottom surface of 212 Knob modules
The scale of 213 Knob modules
220,220 ' touch-control module
The end face of 221 touch-control modules
The side of 222 touch-control modules
The bottom surface of 223 touch-control modules
224,226 marks
225 display modules
230,430,530,630 shortcut modules
231,331,631 shortcuts
240 control modules
260 press die block
270 touch control display plate
The end face of 271 touch control display plate
H height
R1 first area
R2 second area
Embodiment
Please refer to Fig. 2, Fig. 2 is the schematic diagram of the electronic mapping systems according to the utility model one embodiment.As shown in the figure, electronic mapping systems comprises electronic drawing device 13, pointer (styluspen) 14 and an actuation means 20.Electronic drawing device 13 at least comprises contact panel 131 and a communication module 132.Actuation means 20 at least comprises a communication module 250.Electronic drawing device 13 also can be connected with the communication module 250 of actuation means 20 by its communication module 132, and then carries out exchanges data or Signal transmissions with actuation means 20.Connected mode between communication module 132 and 250 can be wired mode or wireless mode.Wireless communication protocol between communication module 132 and 250 can be such as but be not limited to bluetooth (Bluetooth) technology.
Pointer 14 can be such as but be not limited to active pointer and passive type pointer.User can utilize the nib of pointer 14 tap on contact panel 131 or draw wiping, to produce touch-control input (touchinput).Actuation means 20 can provide user's intuitive manipulation mechanism, such as functions of shortcut key, rotation, replys, gets back to primary option menu, convergent-divergent, movement, chooses.This is novel limits manipulation option of providing of actuation means 20, and therefore the manipulation option that provides of actuation means 20 can be set by the related software that is stored in electronic drawing device 13 or the related software be stored in computer installation 10.
In one embodiment, electronic drawing device 13 can with computer installation 10 Collaboration.Computer installation 10 at least comprises a communication module 102.Computer installation 10 can be connected with the communication module 250 of actuation means 20 with the communication module 132 of electronic drawing device 13 by its communication module 102, and then carries out exchanges data or Signal transmissions with electronic drawing device 13 and actuation means 20.Communication module 102, connected mode between 132 and 250 can be wired mode or wireless mode.Communication module 102, wireless communication protocol between 132 and 250 can such as but be not limited to Bluetooth technology.Computer installation 10 can be such as but be not limited to PC, notebook computer, servomechanism main frame etc.Computer installation 10, except storing for except the system software needed for its System Operation and form data, more stores multiple application program, such as the driver etc. of mapping software, plotting sheet, to provide more application service.In one embodiment, the driver of mapping software and plotting sheet all records the form data providing relation between locating function bonded state, instruction and start.Electronic drawing device 13 can be such as but be not limited to a Touch Screen.
In this embodiment, when user utilizes the nib of pointer 14 to tap on contact panel 131 or draw wiping and produce a touch-control input, computer installation 10 can identify that this touch-control inputs, to present corresponding style of writing on the display screen according to recognition result.For example, when pointer 14 has drawn straight line on contact panel 131, computer installation 10 can draw straight line accordingly on the display screen.Can design according to the needs in practical application as the length of the straight line drawn by pointer 14 and the proportionate relationship between the length of thickness and drafting straight line on the display screen and thickness, the utility model is not limited at this.Or when user inputs signal that instruction one manipulates instruction to computer installation 10 by actuation means 20, computer installation 10 can utilize knows this manipulation instruction such as but not limited to the mode of tabling look-up, and further according to this manipulation instruction running.For example, when the manipulation instruction inputted by actuation means 20 is a rotate instruction, computer installation 10, according to this rotate instruction, controls a particular artifact shown on its display screen and rotates.
In another embodiment, electronic drawing device 13 can independent work and need not with computer installation 10 Collaboration.In other words, electronic drawing device 13 stores the form data providing relation between locating function bonded state, instruction and start, and possesses the ability of the ability of touch-control identification, the ability of show image and data and image calculation process.Electronic drawing device 13 can such as but be not limited to have a display contactor control device of calculation processing power, and contact panel 131 can be write interface and draws thereon to user or write by the drawing interface or that provides of display application software.When user utilizes the nib of pointer 14 to tap on contact panel 131 or draw wiping and produce a touch-control input, this touch-control input reaction can be presented corresponding style of writing by electronic drawing device 13 immediately on contact panel 131.For example, when pointer 14 has drawn straight line on contact panel 131, electronic drawing device 13 can present straight line immediately accordingly on contact panel 131.Or when user inputs signal that instruction one manipulates instruction to electronic drawing device 13 by actuation means 20, electronic drawing device 13 can utilize knows this manipulation instruction such as but not limited to the mode of tabling look-up, and further according to this manipulation instruction running.For example, when the manipulation instruction inputted by actuation means 20 is a rotate instruction, electronic drawing device 13, according to this rotate instruction, controls a particular artifact shown on contact panel 131 and rotates.
The touch control manner of above-mentioned electronic drawing device 13 can be such as but be not limited to electric group of formula, condenser type or electromagnetic type etc.Further, this is novel does not limit and how to detect and to identify position and the track of pointer 14, therefore detects and identifies that the position of pointer 14 and the method for track with reference to existing detection and recognition methods, will be able to repeat no more in this.In addition, the kind of electronic drawing device 13 and pointer 14 kind can according to the demand of practical application option and installment.
In order to this novel electronic mapping systems of concise and to the point Chen Ming, following embodiment is all by can the electronic drawing device 13 (such as showing Touch Screen) of independent work illustrate as example.
In addition, in order to the element of actuation means 20 being described and how providing manipulation instruction, please refer to shown in Fig. 3.Fig. 3 is the function block diagram of the actuation means 20 according to the utility model one embodiment.As shown in the figure, actuation means 20 comprises knob Control Component (rotarycontrolassembly) 22, shortcut module (shortcutcontrolmodule) 230, control module 240 and above-mentioned communication module 250.Control module 240 is electrically connected at knob Control Component 22 and shortcut module 230 respectively, and communication module 250 and control module 240 are electrically connected.
Under an operational circumstances, user can input instruction one by knob Control Component 22 and manipulate a knob command signal of instruction to control module 240, this knob command signal is encoded by control module 240, and the knob command signal after coding is exported by communication module 250.Under another kind of operational circumstances, user also can input instruction one by shortcut module 230 and manipulate quick instruction (shortcutcommand) signal of instruction to control module 240, quick command signal after coding by this quick command signal coding, and is exported by communication module 250 by control module 240.
On the other hand, the knob Control Component 22 in actuation means 20 and shortcut module 230 have the mode of multiple enforcement, are described below respectively.
Please also refer to shown in Fig. 3, Fig. 4 A and Fig. 5, wherein Fig. 4 A is the schematic appearance of the actuation means 20 according to the utility model one embodiment, and Fig. 5 is the cross-sectional schematic of the knob Control Component 22 of Fig. 4 A according to the utility model one embodiment.As shown in the figure, actuation means 20 at least comprises a housing 201, above-mentioned knob Control Component 22 and shortcut module 230.Housing 201 comprises an a first area R1 and second area R2.First area R1 and second area R2 is not overlapping.Knob Control Component 22 is arranged in the R1 of first area, and shortcut module 230 is arranged in second area R2.
Knob Control Component 22 comprises Knob module 210 and a touch-control module 220.Knob module 210 has end face 211 and a bottom surface 212, and touch-control module 220 can be arranged on end face 211.In one embodiment, the distance between an end face 221 of touch-control module 220 and the bottom surface 212 of Knob module 210 equals in fact the height H of Knob module 210, as shown in Figure 5.In another embodiment, the distance between the end face 221 of touch-control module 220 and the bottom surface 212 of Knob module 210 is less than the height H of Knob module 210.In another embodiment, the distance between the end face 221 of touch-control module 220 and the bottom surface 212 of Knob module 210 is greater than the height H of Knob module 210.In one embodiment, the end face 221 of touch-control module 220 horizontal by an acute angle, as shown in Figure 5.In another embodiment, the end face 221 of touch-control module 220 is substantially parallel to surface level.
In one embodiment, the area of the vertical projection of touch-control module 220 equals in fact the area of the vertical projection of Knob module 210.In another embodiment, the side 222 of the coated touch-control module 220 of Knob module 210, the area of the vertical projection of touch-control module 220 is less than the area of the vertical projection of Knob module 210, as shown in Figure 5.
In one embodiment, as shown in Figure 5, the housing 201 of actuation means has a recess 203, and knob Control Component 22 is arranged at this recess 203.Therefore, knob Control Component 22 partly protrudes from a surface 202 of housing 201.In another embodiment, knob Control Component 22 is arranged at the top on surface 202 completely.In other words, the bottom surface 212 of Knob module 210 is at least copline with the surface 202 of housing 201, or the bottom surface 212 of Knob module 210 is a little more than the surface 202 of housing 201.
Knob module 210 provides multiple handoff options (switchoption).The corresponding knob instruction (namely above-mentioned manipulation instruction) of each handoff options.When one of them handoff options is selected, Knob module 210 can transmit a knob command signal of instruction one knob instruction to control module 240.Knob command signal is encoded by control module 240, and the knob command signal after coding is sent to communication module 250 and exports.Knob module 210 can such as but be not limited to waver knob, groove formula knob, groove type knob, smooth knob or other be suitable for wherein or it arranged the knob of touch-control module 220.
In one embodiment, knob Control Component 22 can be annotated a scale 213 and a mark 226, as shown in figure 14, and the degree that the current Knob module 210 of prompting user is rotated or the manipulation option at present indicated by Knob module 210.The design of scale 213 and mark 226 can be determined according to the demand of practical application, and the utility model is not limited.
Touch-control module 220 provides a touch area, and can detect and whether this touch area is tapped or draw the touch-controls such as wiping input, to produce a touching signals.For example, user can utilize the pointer 14 of Fig. 2 to write on this touch area, and touch-control module 220 can detect the track of pointer 14 on this touch area, to produce a touching signals of corresponding this touch-control input.Then, control module 240 is encoded to this touching signals, and the touching signals after coding is sent to communication module 250 and exports.The utility model does not limit position and track how to detect pointer, and therefore the position of pointer and the detection method of track with reference to existing detection method, will be able to repeat no more in this.
On the other hand, shortcut module 230 comprises multiple shortcut (shortcutkey) 231, the quick instruction (shortcutcommand) that each shortcut 231 is corresponding different, namely above-mentioned manipulation instruction.When one of them shortcut 231 is by selection, shortcut module 230 can transmit and corresponding be indicated one of quick instruction quick command signal to control module 240 by the shortcut 231 selected, quick command signal after coding by this quick command signal coding, and is exported by communication module 250 by control module 240.
In one embodiment, as shown in Figure 4 A, a breach is had respectively near two of knob Control Component 22 adjacent shortcuts 231 in these shortcuts 231.Because these two breach are adjacent, therefore this two adjacent shortcut 231 border on gap position can form a circular arc, and the knob Control Component 22 of part can be arranged in the scope that these two breach contain.In other words, a perpendicular projection of shortcut module 230 is around a vertical projection of knob Control Component 22 (i.e. Knob module).The circular arc formed can be parallel with the outer rim of knob Control Component 22 (i.e. Knob module) in fact.But basis is novel is not limited to this embodiment.
Profile design for actuation means 20 can simultaneously with reference to shown in figure 4A and Fig. 4 B, and wherein Fig. 4 B is the side view of the actuation means of Fig. 4 A according to the utility model one embodiment.Shortcut module 230 has a virtual end face, and this end face can be such as but be not limited to a cambered surface in fact, is suitable for staff by the design of holding to meet.But the utility model is not limited with this embodiment.
In addition, except the embodiment of above-mentioned knob Control Component 22, the utility model also provides the implementation of different knob Control Components, will respectively at following explanation.
Please refer to shown in Fig. 6,7A figure and Fig. 7 B, wherein Fig. 6 is the function block diagram of the actuation means 30 according to another embodiment of the utility model, Fig. 7 A is the schematic appearance of the knob Control Component 32 according to another embodiment of the utility model, and Fig. 7 B is the cross-sectional schematic of the knob Control Component 32 of Fig. 7 A according to the utility model one embodiment.Actuation means 30 is similar to the actuation means 20 of Fig. 3.But actuation means 30 is with the difference of actuation means 20, and a knob Control Component 32 of actuation means 30 more contains one by die block 260.Structure and the running of the Knob module 210 in actuation means 30, touch-control module 220, shortcut module 230, control module 240 and communication module 250 with reference to the structure of element corresponding in actuation means 20 and running, therefore can repeat no more in this.Below only discuss with regard to difference.
Be arranged on the below of touch-control module 220 by die block 260, that is be arranged between the bottom surface 223 of touch-control module 220 and the end face 211 of Knob module 210.One or more pressure inductor (forcesensor) is comprised by die block 260.Pressure inductor can be at present any inductor that may be used for induction pressure on the market.Can select, design and arrange in pairs or groups according to the demand of practical application in the position of the quantity of pressure inductor, type and setting, this is novel does not limit this.Be electrically connected control module 240 by die block 260, that is, above-mentioned pressure inductor is electrically connected control module 240.Therefore, when user applies a pressure to touch-control module 220, respond to this pressure by die block 260 and transmit a pressing command signal to control module 240.Now, the pressing command signal after coding by this pressing command signal coding, and is exported by communication module 250 by control module 240.
In one embodiment, the diverse location in the below of touch-control module 220 arranges a pressure inductor respectively, therefore presses the pressing command signal that positions different on the end face 221 of touch-control module 220 correspondingly can produce the different pressing instruction of instruction.In other words, multiple pressing option can be provided to select to user by die block 260.A pressing option can a corresponding pressing instruction.For example, on the end face 221 of touch-control module 220, the mark 224 in signable multiple expression direction is as the pressing option selected to user.When the end face 221 that user presses touch-control module 220 indicating direction mark 224 upwards, pressure inductor due to diverse location can experience pressure in various degree, and to be therefore sent to the pressing command signal of control module 240 also different for these pressure inductors.These pressing command signals are integrated and encode by control module 240, then are exported by the signal that coding obtains by communication module 250.Therefore, the electronic drawing device 13 of Fig. 2 just according to the signal received from communication module 250, can judge the direction pressing instruction upwards of corresponding sign, and according to this pressing instruction, the particular artifact shown by contact panel 131 is moved up.
Another embodiment of knob Control Component please refer to Fig. 8, Fig. 9 A and Fig. 9 B, wherein Fig. 8 is the function block diagram of the actuation means 40 according to another embodiment of the utility model, Fig. 9 A is the schematic appearance of the knob Control Component 42 according to another embodiment of the utility model, and Fig. 9 B is the cross-sectional schematic of the knob Control Component 42 of Fig. 9 A according to the utility model one embodiment.Actuation means 40 is similar to the actuation means 20 of the 3rd figure.But actuation means 40 is with the difference of actuation means 20, and a knob Control Component 42 of actuation means 40 more contains a display module 225, and touch-control module 220 ' in knob Control Component 42 can with display module 225 Collaboration.Structure and the running of the Knob module 210 in actuation means 40, shortcut module 230, control module 240 and communication module 250 with reference to the structure of element corresponding in actuation means 20 and running, therefore can repeat no more in this.Below only discuss with regard to difference.
Display module 225 is arranged on the end face 211 of Knob module 210, elects to user in order to show at least one touch-control option.A corresponding touch command of touch-control option.User can select shown touch-control option by touch-control module 220 '.In one embodiment, display module 225 and touch-control module 220 ' are oppositely arranged and fit and be combined into a touch control display plate 270.In detail, in touch control display plate 270, display module 225 can above or below touch-control module 220 '.In another embodiment, display module 225 and touch-control module 220 ' can utilize the mode of processing procedure to be integrated into a touch control display plate 270, such as but not limited to an embedded touch (in-celltouch) display panel.
In one embodiment, touch control display plate 270 can allow user directly utilize finger or pointer on its end face 271, tap or draw wiping and produce a touching signals.For example, user can utilize pointer directly writing words on end face 271.
In another embodiment, touch control display plate 270 can provide different touch interface from Knob module 210 Collaboration, and a touch interface can provide one or more touch-control option.For example, user can switch touch interface shown by touch control display plate 270 by rotating Knob module 210.
In another embodiment, touch control display plate 270 can provide different touch interface from shortcut module 230 Collaboration, and a touch interface can provide one or more touch-control option.For example, user can switch touch interface shown by touch control display plate 270 by selecting the shortcut of shortcut module 230.
On the other hand, except the embodiment of above-mentioned shortcut module 230, the utility model also provides the implementation of different shortcut modules, will respectively at following explanation.
Figure 10 is the schematic appearance of the actuation means 50 according to another embodiment of the utility model.Actuation means 50 is similar to the actuation means 20 of Fig. 4 A.But actuation means 50 is with the difference of actuation means 20, and the vertical projection of the shortcut module 330 in the second area R2 of actuation means 50 is not looped around a vertical projection of the knob Control Component 22 in the R1 of first area.In other words, do not limited by the shape of knob Control Component 22 and position near the profile design of the shortcut 331 of knob Control Component 22 and configuration in shortcut module 330.In actuation means 50, the design of all the other elements with reference to the description of above-mentioned corresponding element, can repeat no more in this with running.
Figure 11 is the schematic appearance of the actuation means 60 according to another embodiment of the utility model.Actuation means 60 is similar to the actuation means 20 of 4A figure.But actuation means 60 is with the difference of actuation means 20, and the shortcut module 430 in the second area R2 of actuation means 60 is a contact panel, touch-control whether is had to input, to produce a quick command signal in order to detect.The design of this contact panel with reference to above-mentioned touch-control module 220 and/or design and the running of pressing die block 260, therefore can repeat no more in this with running.In actuation means 60, the design of all the other elements with reference to the description of above-mentioned corresponding element, can repeat no more in this with running.
Figure 12 is the schematic appearance of the actuation means 70 according to another embodiment of the utility model.Actuation means 70 is similar to the actuation means 50 of Figure 10.But actuation means 70 is with the difference of actuation means 50, and the shortcut module 530 in the second area R2 of actuation means 70 is a contact panel, touch-control whether is had to input, to produce a quick command signal in order to detect.The design of this contact panel with reference to above-mentioned touch-control module 220 and/or design and the running of pressing die block 260, therefore can repeat no more in this with running.In actuation means 70, the design of all the other elements with reference to the description of above-mentioned corresponding element, can repeat no more in this with running.
Figure 13 is the schematic appearance of the actuation means 80 according to another embodiment of the utility model.Actuation means 80 is similar to the actuation means 50 of the 10th figure.But, actuation means 80 is with the difference of actuation means 50, and the shortcut module 630 in the second area R2 of actuation means 80 is a touch-control display panel, in order to show multiple shortcut 631, and detect shortcut 631 whether to be clicked, to produce a quick command signal.The design of this touch-control display panel can with reference to the design of above-mentioned touch control display plate 270 and running with running.In actuation means 80, the design of all the other elements with reference to the description of above-mentioned corresponding element, can repeat no more in this with running.
In one embodiment, shortcut module 630 can provide different touch interface from knob Control Component 22 Collaboration.A touch interface can provide one or more touch-control option.For example, user can switch touch interface shown by shortcut module 630 by rotating knob Control Component 22.
In the actuation means of each embodiment above-mentioned, the size of its each element, position, color, material and shape can according to the demand in practical application optionally collocation design become to meet ergonomics, even meet an actuation means of visual appearance.
In addition, actuation means of the present utility model can design according to the demand in practical application and once only allows the input of single manipulation instruction or once allow multiple manipulation instruction to input simultaneously.And, knob Control Component in each embodiment above-mentioned, shortcut module, control module, communication module optionally can be arranged in pairs or groups according to the demand in practical application and be formed applicable and a computer installation and/or an electronic drawing device Collaboration a actuation means, the element running of this actuation means can refer to the explanation of above-mentioned related embodiment, therefore repeats no more in this.
In sum, its electronic drawing device and actuation means independently arrange by this novel electronic mapping systems, and therefore user is in use, especially when carrying out drawing or writing, can intuitively operate.In addition, this novel actuation means is by the above-mentioned design at least comprising the design of each interelement Collaboration in the design of the knob Control Component of Knob module and touch-control module, above-mentioned knob Control Component, the design of above-mentioned shortcut module and/or the Collaboration between above-mentioned knob Control Component and shortcut module, make actuation means that more manipulation option can be provided to select to user, to reach the diversity in manipulation.
Certainly; the utility model also can have other various embodiments; when not deviating from the utility model spirit and essence thereof; those of ordinary skill in the art are when making various corresponding change and distortion according to the utility model, but these change accordingly and are out of shape the protection domain that all should belong to the claim appended by the utility model.