CN101452776A - Telescopic switching operation control system - Google Patents
Telescopic switching operation control system Download PDFInfo
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- CN101452776A CN101452776A CNA2008101825218A CN200810182521A CN101452776A CN 101452776 A CN101452776 A CN 101452776A CN A2008101825218 A CNA2008101825218 A CN A2008101825218A CN 200810182521 A CN200810182521 A CN 200810182521A CN 101452776 A CN101452776 A CN 101452776A
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- action bars
- fixed part
- transmission assembly
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Abstract
The invention relates to the field of portable electronic equipment and provides a switch operation control structure device for improving the human-machine interaction and the portability of electronic equipment. The invention discloses a telescopic operation control system, which consists of an operating lever, a motion part, and a fixing part; and a corresponding switch of the portable electronic equipment is controlled through the system. The operating lever can extend and retract relative to the telescopic operation control system so as to realize the operation of the operating lever relative to different height positions of the outer surface of the electronic equipment, and improve the operability and portability of the electronic equipment.
Description
Technical field
The present invention relates to field of portable electronic devices, more specifically relate to the man-machine interaction and the portable operation control structure device that improve electronic equipment.
Background technology
Many electronic equipments such as radio telephone, palmtop PC, handheld device etc. all have the button of direction operation, to realize the different operating under its various application.Electronic equipment is to functional diversities and the little trend development of volume now, such as the greater functionality of game operation the man-machine interaction of electronic equipment proposed further requirement, will guarantee the characteristics that mancarried electronic aid is easy to carry about with one simultaneously.
The directional control of many ordinary electronic equipment is realized by a direction button and a film contact switch under it in equipment surface.The other electronic equipment is realized the direction operation by the hat action bars at multidirectional rocker switch and its top.For the ease of carrying, the button of this kind equipment or switching manipulation bar generally in the big profile of electronic equipment, perhaps only exceed the less height of profile.The feasible operation of this kind design is very convenient in some cases to be used, such as continuously quick input direction in recreation.The steering rod of some non-portable electric appts such as joystick exceeds the big profile of electronic equipment, is convenient to the direction operation, but is not easy to carry, and is not suitable for mancarried electronic aid.So need a kind of device to make the direction more convenient operation, and adapt to that electronic equipment is easy to carry and the further small and exquisite trend of fuselage.
Summary of the invention
The invention provides a kind of telescopic switch operation controlling system, overcome the not very convenient shortcoming of mancarried electronic aid direction operation in the prior art, keep the advantage that mancarried electronic aid is easy to carry about with one simultaneously.Native system stretches out operation part by the button operation or the software trigger of electronic equipment in use, and the height of mancarried electronic aid overall profile increases relatively, is easier to the operation of mancarried electronic aid.Trigger stretching out under the state, make operation part get back to original position, easy to carry, under contraction state, also can do normal operation simultaneously.
In order to solve the problems of the technologies described above, the present invention is achieved through the following technical solutions.Telescopic switch operation controlling system is made up of action bars, motion portion and fixed part.The switch that system controlled is fixed in the architectural feature with fixed part, and the operator drives the whole operation control system by action bars, realizes the operation control of switch or rocking bar.By the mechanism kinematic of internal system, action bars stretches and withdrawal with respect to switch operation controlling system, thereby changes the height of action bars with respect to electronic equipment integral body, realizes the operation of action bars at the stretching, extension and two diverse locations of withdrawing.
Architectural feature is decomposed the relative motion between action bars and motion portion between action bars and motion portion, and institute decomposes the direction of motion, and one of them is along the action bars stretching, extension or the direction of withdrawing.
Motion portion is made of motion generating assembly, Motion Transmission assembly and motion control component, and the motion generating assembly drives the Motion Transmission assembly.Action bars and rotate conducting subassembly and cooperate and will relative motion therebetween be decomposed into moving and the version of the moving cooperation of other direction along the flexible direction of action bars.Action bars is by translation and the rotational freedom of fixed part restriction action bars except that other direction flexible folding direction.Because fixed part has limited the degree of freedom of action bars except that flexible direction,, realize the stretching, extension or the withdrawal of action bars so the action that motion portion produces just becomes the expanding-contracting action of action bars.
The operator triggers also motion duration, speed and the direction of controlled motion generating assembly by motion control component, through the constructional device decomposition of Motion Transmission assembly and action bars, under the constructional device restriction of fixed part, action bars is stretched be docked to the appropriate location.After action bars trailed, whole flexible operating system can exceed a part with respect to the electronic equipment main body, and the operator can more easily operate.
After action bars stretched, the operator can make motion portion move round about by motion control component equally, drove the Motion Transmission assembly and gave the reciprocal moment of action bars, under the constructional device restriction of fixed part, action bars was regained.Even the operator does not trigger the control signal of recovery operation bar, the clock circuit of motion control component can send the withdrawal signal automatically after the controllable time, action bars is retracted to the normal position, can not carry because of forgetting that the recovery operation bar influences.
After action bars is finished stretching, the corresponding construction device that rotates conducting subassembly makes action bars with respect to the fixed part degree of freedom of flexible direction, can prevent that action bars from being pushed back punctured position under normal situation about using, guarantee the operate as normal under extended configuration.Same action bars is when punctured position, and the corresponding construction device that rotates conducting subassembly makes action bars with respect to the fixed part degree of freedom of flexible direction, can prevent that action bars is being subjected to break away from punctured position under the situation of other external force.
The restricted action bars of telescopic operation control system is because motion portion too much moves or other external force is pulled out the structure that the action bars that is caused breaks away from whole system, this structure can be between action bars and the fixed part, or is between action bars and the motion portion.
The Motion Transmission assembly is connected in and rotates on the generating assembly, rotates generating assembly and is fixed in the fixed part, is connected to the rotation control assembly through fixed part.The motion generating assembly can be driven by electric energy, or the mechanical energy driving, but is not limited thereto dual mode.Drive for electric energy, the rotation control assembly can be controlled motor by hardware circuit or software control and move reciprocatingly.Be rotated in the forward and make action bars stretch out, counter-rotating makes action bars regain.For the motion generator of mechanical system, rotate control assembly and drive, but be not limited thereto kind of a mode by hand push button.Can select to realize the different motion portion of two-way rotation in actual applications as the case may be.
The switch that system controlled is fixing to be fixed on the corresponding circuit board in the existing conventional mode.Operation part connects with the fixing part structure feature, and under two states that action bars stretches and shrinks, the user drives described control switch with action bars by fixed part and realizes operation control respectively.
The present invention preferably is applicable to the direction operation of mancarried electronic aid, but is not limited to the direction operation, and the function of other button operation control system equally thus realizes.
Description of drawings
Fig. 1 is that telescopic switch operation controlling system is in the perspective view when shrinking
Fig. 2 is that telescopic switch operation controlling system is in the perspective view when stretching
Fig. 3 is a schematic diagram of using the electronic equipment of telescopic switch operation controlling system
Fig. 4 uses the action bars of electronic equipment of telescopic switch operation controlling system at the schematic diagram of extended position
Fig. 5 is the sectional view of telescopic switch operation controlling system when being in punctured position
Fig. 6 is the sectional view of telescopic switch operation controlling system when being in extended position
Fig. 7 is the parts explosive view of telescopic switch operation controlling system
Fig. 8 is the parts semi-section explosive view of telescopic switch operation controlling system
Fig. 9 is the perspective view of action bars
Figure 10 be action bars partly cut open perspective view
Figure 11 is the perspective view of motion portion transmitting assembly
Figure 12 be action bars with respect to the perspective view of Motion Transmission assembly in stretching process, action bars is transparent wire frame
Figure 13 be action bars with respect to the perspective view of Motion Transmission assembly in contraction process, action bars is transparent wire frame
Figure 14 is action bars and the Motion Transmission assembly sectional view at extending position
Figure 15 is action bars and the Motion Transmission assembly cooperation schematic diagram at extending position, and action bars is transparent wire frame
Figure 16 is action bars and the Motion Transmission assembly sectional view in closed position
Figure 17 is action bars and the Motion Transmission assembly cooperation schematic diagram in closed position, and action bars is transparent wire frame
Figure 18 is the explosive view of the another kind of embodiment of telescopic switch operation controlling system
Figure 19 be in the another kind of embodiment action bars with respect to the perspective view of Motion Transmission assembly in stretching process
Figure 20 be in the another kind of embodiment action bars with respect to the perspective view of Motion Transmission assembly in contraction process,
Figure 21 is the perspective view of make position of the another kind of embodiment of telescopic switch operation controlling system
Figure 22 is the perspective view of extended position of the another kind of embodiment of telescopic switch operation controlling system
Figure 23 is another embodiment of telescopic switch operation controlling system in the claim scope
Figure 24 is the extended configuration of Figure 23 embodiment
Figure 25 is the part explosive view of Figure 23 embodiment
Figure 26 is the contraction state sectional view of Figure 23 embodiment
Figure 27 is the extended configuration sectional view of Figure 23 embodiment
Figure 28 is Figure 23 embodiment motion parts figure
Figure 29 is the magnet drives schematic diagram of Figure 23 embodiment motion portion
Figure 30 is Figure 23 embodiment mechanism action schematic diagram
Specific implementation
The combination the drawings and specific embodiments are done detailed description to the present invention below.
Referring to Fig. 1, the telescopic switch operation controlling system 100 that is in retracted mode is provided, the operator is by this system control switch 140.For Fig. 1 example, corresponding switch connecting mode is selected according to different switchtypes by system in actual applications, and the external form outward appearance of action bars and whole system can be done corresponding variation according to the design needs.
Referring to Fig. 2, provide the telescopic switch operation controlling system 200 that is in extended configuration.Action bars 110 is in the position of stretching out with respect to telescopic switch operation controlling system.In the operation of this position realization to control switch 140.
Referring to Fig. 3 and Fig. 4, provide the mancarried electronic aid of having used telescopic switch operation controlling system schematic diagram respectively in withdrawal and extended position.Electronic equipment 300 triggers scalable switch operation controlling system with specific key switch or specific software operation, stops when making action bars 110 reach suitable position also not pushed back, and is convenient to operation at its extended position.The operator stretches by action bars and the operation of two diverse locations realizations to the different feeling of electronic equipment of withdrawing.The corresponding structure 301 of dodging is arranged on the shell of electronic installation, make that device also can operate as normal when punctured position.The present invention includes but not limited to radio telephone, palmtop PC and handheld device applicable to the mancarried electronic aid of any classification.
Referring to Fig. 5 and Fig. 6, the contraction of telescopic switch operation controlling system and the sectional view of extended position are provided respectively.Telescopic switch operation controlling system comprises action bars 110, motion portion 120, fixed part 130.The switch that control switch 140 is controlled for whole system is fixed on the circuit board 150.Motion portion 120 is by Motion Transmission assembly 121, and motion generation component 122 and motion control component 123 are formed.Motion assembly control assembly 123 is on the circuit board 150 in this example, is realized by correspondent control circuits.
Referring to Fig. 7 and Fig. 8, action bars 110 is slidingly connected with the restriction slide rail 131 on square groove 112 and the fixed part 130 in action bars 110 flexible directions with fixed part 130, is used to limit the rotational freedom of action bars 110.The spacing plane 132 of restricted action bars on fixed part 130 slide rails 131, cooperate with the spacing protrusion piece face 113 on the action bars, when action bars 110 stretching, extensions put in place, projective structure 113 contacts stop on fixed part 130 position limiting structure features 132 and the action bars 110, prevents that action bars 110 is because of being subjected to other external force effect detachment system.
The operation part 141 of control switch 140 connects with the square groove 135 of fixed part 130.The operator drives fixed part 130 by action bars 110, drives control switch 140 again, is stretching and the operation control of two positions realizations to switch of withdrawing.
Referring to Fig. 9, Figure 10, Figure 11, Figure 12 and Figure 13, these figure specific explanations the respective outer side edges mode of 121 of action bars 110 and Motion Transmission assemblies.Motion Transmission assembly 121 cooperates with contact 111 on the action bars 110 by inclined-plane chute 1211, and inclined-plane chute 1211 acts on contact 111, with the rotation decomposition of Motion Transmission assembly 121.The contact is cylindrical in this embodiment, and the mutation of other form can be arranged in concrete the application.
The motion M1 of Motion Transmission assembly 121 is decomposed into action bars 110 direction of extension motions M2 and action bars 110 are passed assembly 121 with respect to motion motion M3 by constructional device as shown in figure 12.Because of fixed part 130 shown in Figure 7 has limited the rotational freedom of action bars 110 at the slide rail 131 of flexible direction and the chute 112 on the action bars 110, thereby the motion of action bars 110 has just become along the stretching routine of chute 112 directions.
As shown in figure 13, for the rightabout of Motion Transmission assembly motion M1`, be decomposed into action bars 110 shrinkage directions motion M2` and action bars 110 are passed assembly 121 with respect to motion motion M3` by constructional device.Equally because of fixed part 130 shown in Figure 7 has limited the rotational freedom of action bars 110 at the slide rail 131 of flexible direction and the chute 112 on the action bars 110, thereby the motion of action bars 110 has just become along the contractile motion of chute 112 directions.
As Fig. 5, motion control component shown in Figure 6 123, running duration, direction and the speed of motion control component 123 controlled motion generation components 122, structure by 110 of Motion Transmission assembly 121 and action bars, and fixed part and 130 and action bars 110 between structure, make action bars 110 move to extended position.Referring to Figure 14 and Figure 15,1212 compounding practice bar contacts, 111 restriction action bars 110 are risen as high as the banks in the degree of freedom along flexible direction in chute top, motion transmitting assembly 121 inclined-plane when extended position, make action bars 110 can not be pressed into by other external force when extended position.Even the too much action bars 110 of motion portion 120 strokes still can be subjected to the top rise as high as the banks 1212 the restriction, rest on predetermined extended position.
After action bars 110 launches, motion control component 123 is with 122 reverse rotations of reverse voltage control motor, the running duration and the speed of controlled motion generation component 122, pass through the structure of 110 of Motion Transmission assembly 121 and action bars equally, and fixed part and 130 and action bars 110 between structure, make action bars 110 move to the position of contraction.Referring to Figure 16 and Figure 17,1213 compounding practice bar contacts, 111 restriction action bars 110 are risen as high as the banks in the degree of freedom along flexible direction in chute bottom, motion transmitting assembly 121 inclined-plane when punctured position, and action bars 110 can not be pulled out by other external force when punctured position.Even the too much action bars 110 of motion portion 120 strokes still can be subjected to the bottom rise as high as the banks 1213 the restriction, rest on predetermined retracted position.
Even the operator does not trigger the control signal of recovery operation bar, motion control component 123 can send the withdrawal signal automatically after the controllable time, action bars is retracted to the normal position, can not influence and carry.
Referring to Figure 11, install along the vertical slot 1214 of the flexible direction of action bars by Motion Transmission assembly 121 contact of action bars 110 111, makes action bars contact 111 enter the top and rise as high as the banks 1212, can move to the bottom along chute 1211 and rise as high as the banks in 1213.
In actual applications, can be by concrete condition according to the corresponding scheme of the every selection of claim.
Referring to Figure 18, provide the another embodiment 400 in the claim limited field.The respective outer side edges mode of action bars 410 and Motion Transmission assembly 421 is identical, just contact and tiltedly the position transposing of chute.Other functions of components implementation is with preceding a kind of consistent.As Figure 18 action bars 410 and Motion Transmission assembly 421, oblique chute 411 is arranged on the action bars 410, contact 4211 is arranged on the Motion Transmission assembly 421.
Referring to Figure 19, contact 4211 acts on oblique chute 411, and this cooperates the rotation of Motion Transmission assembly 421 is decomposed.The motion M1 of Motion Transmission assembly is decomposed into action bars 410 direction of extension motions M2 and action bars 410 are passed assembly 421 with respect to motion motion M3 by constructional device as shown in figure 19.Equally limited the rotational freedom of action bars 410 at the slide rail 431 of flexible direction and the chute 412 on the action bars 410, thereby the motion of action bars 410 has just become along the stretching routine of chute 412 directions by fixed part 430 shown in Figure 180.
Referring to Figure 20, for the rightabout of Motion Transmission assembly motion M1`, motion is decomposed into action bars 410 shrinkage directions motion M2` and action bars 410 are passed assembly 421 with respect to motion motion M3` by constructional device.Equally limited the rotational freedom of action bars 410 at the slide rail 431 of flexible direction and the chute 412 on the action bars 410, thereby the motion of action bars 410 has just become along the contractile motion of chute 412 directions by fixed part 430 shown in Figure 180.
Referring to Figure 21, the contact 4211 restriction action bars of action bars 410 inclined-plane inverted draw cuts 4111 routing motion transmitting assemblies 421 are not pulled out the action bars of whole system when punctured position in the degree of freedom along flexible direction by other external force when the punctured position.
Referring to Figure 22, the contact 4211 restriction action bars of action bars 410 inclined-plane kerves 4112 routing motion transmitting assemblies 421 are not pressed into the action bars of whole system when extended position in the degree of freedom along flexible direction by other external force when extended position.Install along the vertical slot 4113 of the flexible direction of action bars by action bars 410 contact 4211 of Motion Transmission assembly 421, makes action bars contact 4211 enter the bottom and rise as high as the banks 4112, can move to the top along oblique chute 411 and rise as high as the banks in 4111.
Referring to Figure 23, Figure 24, provide another application example 500 in the claim scope, respectively contraction state 500 and at 600 of extended configuration.
Referring to Figure 25, be the assembly explosive view of application example 500, by action bars 510, motion portion 520 and fixed part 530 are formed.Different with the preamble application example is, to remove in the architectural feature in the degree of freedom of the direction of stretching be the center that is positioned at whole system for fixed part restriction action bars and action bars in this example.The motion generating unit then is positioned at the outside of system.Drive Motion Transmission portion by magnetic force.Thereby realize the stretching, extension and the withdrawal of whole system.The structure that the restriction action bars is drawn out is positioned on the Motion Transmission assembly.
Referring to Figure 26, Figure 27, the square chute 511 on the action bars 510 cooperates with the square slide rail 531 of fixed part, and the rotational freedom of restriction action bars 510 makes the action bars 510 can only be along the glide direction translation.
Referring to Figure 28, Figure 29 and Figure 30, motion portion 520 is by control parts of motion 521, and motion production part 522 and Motion Transmission parts form 523.The motion production part is served as by motor 522 in this example, and control parts of motion is realized by circuit or corresponding software 521.The Motion Transmission parts are made up of driving belt 5231 outer magnetic rings 5232 and direction of motion change assembly 5233.Motor 521 drives outer magnetic ring 5232 by driving belt 5231, and outer magnetic ring 5232 relies on the magnet 52334 on the magnetic attraction direction of motion change assembly 5233 to drive direction of motion change assembly 5233.
Base channel 52331 on the direction of motion change assembly 5233 cooperates with action bars 510 upper contacts 512, makes action bars 510 can not be drawn out because of being subjected to external force under contraction state.The same top slot 52332 that the direction of motion changes on the assembly 5233 under extended configuration cooperates with action bars 510 upper contacts 512, makes action bars 510 can not push back because of being subjected to external force under extended configuration.Skewed slot 52333 on the direction of motion change assembly 5233 cooperates with action bars 510 upper contacts 512, when direction of motion change assembly 5233 rotates, its rotation is converted to the translation of action bars 510 and since the restriction of the slide rail 531 of the chute 511 of action bars 510 and fixed part 530 clockwise or between the inverse time rotation of direction become the stretching, extension and the withdrawal of action bars 510 respectively.This is consistent with civilian example.5233 have the back to limit out part 52335 in the action bars of action bars assembling on the direction of motion change assembly, are used to limit action bars 510 and can not be pulled out by external force when extended position.
Identical in other function implementation and the last example.
Described the preferred embodiments of the present invention in the specification, but the present invention is not limited to this.For those skilled in the art, in the claim limited range, multiple modification can occur, be equal to and mutation.
Claims (10)
1. telescopic switch operation controlling system, form by action bars, motion portion and fixed part, it is characterized in that action bars passes through to stretch or retraction movement with respect to whole system, realize action bars with respect to whole system in the operation of diverse location to institute of system control switch.
2. described according to claim 1 action bars and motion portion, it is characterized in that architectural feature between described action bars and described motion portion decomposes the relative motion between described action bars and described motion portion, institute decomposes the direction of motion, and one of them is along the action bars stretching, extension or the direction of withdrawing.
3. action bars and fixed part according to claim 1, it is characterized in that described action bars limit by described fixed part described action bars except that stretch or retracted orientation the translation and the rotational freedom of other direction.
4. as telescopic switch operation controlling system, action bars, motion portion and fixed part as described in the claim 1 to 3 each, it is characterized in that described motion portion's generation motion and pass motion to described action bars, described action bars by described fixed part limited except that stretch or retracted orientation the translation and the rotational freedom of other direction, so the action of described motion portion converts the stretching, extension or the retraction movement of described action bars to.
5. as action bars and motion portion as described in claim 1 and 2, it is characterized in that described motion portion have architectural feature make described action bars stretch and retracted position not in the degree of freedom of stretching, extension retracted orientation.
6. telescopic switch operation controlling system action bars according to claim 1 is characterized in that the restricted action bars of described telescopic switch operation controlling system because the architectural feature of external force effect detachment system.
7. as fixed part as described in claim 1,2,4 and 5 described motion portions and the claim 1, it is characterized in that described motion portion is made up of motion generation component, Motion Transmission assembly and motion control component; The motion generation component is located by fixed part.
8. motion generation component, Motion Transmission assembly and motion control component motion control component according to claim 1 is characterized in that, described motion generation component produces motion and drives described Motion Transmission parts; Described motion control component is controlled motion duration, direction and the speed of described motion generation component, and described motion control component can send instruction, recovery operation bar automatically after electronic equipment dormancy a period of time.
9. as Motion Transmission assembly as described in architectural feature and the claim 7 between action bars as described in the claim 2 and motion portion, it is characterized in that described architectural feature is positioned between described Motion Transmission assembly and described action bars.
10. telescopic switch operation controlling system according to claim 1, it is characterized in that native system institute control switch is fixed in the structure with described fixed part, under two states that described action bars stretches and shrinks, described action bars drives described control switch by described fixed part and realizes operation control respectively.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNA2008101825218A CN101452776A (en) | 2007-12-07 | 2008-12-05 | Telescopic switching operation control system |
Applications Claiming Priority (3)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN200710194959.3 | 2007-12-07 | ||
| CN200710194959 | 2007-12-07 | ||
| CNA2008101825218A CN101452776A (en) | 2007-12-07 | 2008-12-05 | Telescopic switching operation control system |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN101452776A true CN101452776A (en) | 2009-06-10 |
Family
ID=40734953
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CNA2008101825218A Pending CN101452776A (en) | 2007-12-07 | 2008-12-05 | Telescopic switching operation control system |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN101452776A (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106898507A (en) * | 2017-04-27 | 2017-06-27 | 广东电网有限责任公司清远供电局 | Switch triggering equipment |
| CN109040351A (en) * | 2018-06-12 | 2018-12-18 | Oppo广东移动通信有限公司 | Camera control method, device, mobile terminal and storage medium |
-
2008
- 2008-12-05 CN CNA2008101825218A patent/CN101452776A/en active Pending
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106898507A (en) * | 2017-04-27 | 2017-06-27 | 广东电网有限责任公司清远供电局 | Switch triggering equipment |
| CN106898507B (en) * | 2017-04-27 | 2019-02-05 | 广东电网有限责任公司清远供电局 | Switch triggering equipment |
| CN109040351A (en) * | 2018-06-12 | 2018-12-18 | Oppo广东移动通信有限公司 | Camera control method, device, mobile terminal and storage medium |
| CN109040351B (en) * | 2018-06-12 | 2020-07-24 | Oppo广东移动通信有限公司 | Camera control method and device, mobile terminal and storage medium |
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Open date: 20090610 |