CN104965607A - Output device and signal output method - Google Patents

Abstract

The present invention discloses an output device and a signal output method. The output device comprises: a triggering device, wherein the triggering device can rotate around a set reference axis; a detection device, wherein the detection device can be triggered by a force generated by the rotated triggering device to generate a first signal; and the first signal comprises a signal matching with a rotation direction and/or a rotation amplitude of the triggering device. By virtue of the output device, the first signal can be output through mechanical rotation of the triggering device and triggering on the detection device by the mechanical acting force; compared with implementation modes including an optical principle or an electromagnetic principle and the like, the output of the first signal can be implemented only by means of a simple mechanical triggering structure; and the implementation mode is simple in structure and low in cost.

Description

A kind of output device and signal output method

Technical field

The present invention relates to technical field of electronic equipment, in particular, relate to a kind of output device and signal output method.

Background technology

In specific applications, need output device can export the signal matched with the rotation amplitude of wheelwork and rotation direction, by described signal so that carry out rotational parameters measurement or controlled electronic equipment is carried out to the control of set-up function.

Existing output device generally adopts the principle of optical code disk or the principle of Hall effect to carry out the measurement of rotational angle and rotation direction, so that export the signal matched with rotation amplitude and rotation direction, the implementation of apparatus structure is complicated, and cost is high

Summary of the invention

In order to solve the problem, the invention provides a kind of output device and signal output method, described output device can export the first signal matched with rotation direction and/or rotation amplitude, and apparatus structure realizes mechanically, implementation structure is simple, and cost is low.

In order to realize left-hand seat object, the invention provides following technical scheme:

A kind of output device, this output device comprises:

Flip flop equipment, the reference axis rotation that the winding of described flip flop equipment energy is fixed;

Pick-up unit, the power that described pick-up unit can be produced by the described flip flop equipment rotated triggers, thus produces the first signal; Wherein, described first signal comprises the signal matched with the rotation direction of described flip flop equipment and/or rotation amplitude.

Preferably, in above-mentioned output device, described pick-up unit comprises: switch module and detection components;

Wherein, the power that described switch module can be produced by the described flip flop equipment rotated triggers; The state that described detection components is triggered according to described switch module generates described first signal.

Preferably, in above-mentioned output device, also comprise: transmitting device, described transmitting device is used for described first Signal transmissions to the first electronic equipment be connected with described output device.

Preferably, in above-mentioned output device, described flip flop equipment comprises: the triggering end of rotating body and being fixed on described rotation body;

Described switch module is arranged on predeterminated position, and described switch module has two stressed triggering directions; When described flip flop equipment is rotated in a first direction, described triggering end applies acting force from a stressed triggering direction of described switch module, and then stir described switch module, described detection components generates described first signal according to the state of stirring of described switch module; When described flip flop equipment is rotated in a second direction, described triggering end applies acting force from the opposite side of described switch module, and then stirs described switch module, and described detection components generates described first signal according to the state of stirring of described switch module;

Wherein, described first rotation direction is contrary with described second rotation direction.

Preferably, in above-mentioned output device, also comprise: switch resetting-mechanism, described switch resetting-mechanism, when described switch module is not by described triggering end acting force, triggers described switch module and returns to described predeterminated position.

Preferably, in above-mentioned output device, described flip flop equipment comprises: multiple described triggering end; Described multiple triggering end is equally spaced be distributed in circumferentially same;

When described flip flop equipment rotates, trigger end by before described predeterminated position at the next one, the triggering end of the described switch module of previous triggering is separated with described switch module.

Preferably, in above-mentioned output device, described rotation body is annulus, and described rotation body can fixed-axis rotation;

Wherein, described triggering end is fixed on the inwall of described annulus, and described pick-up unit is arranged in described annulus.

Preferably, in above-mentioned output device, described rotation body is annulus, and described rotation body can fixed-axis rotation;

Wherein, described triggering end is fixed on the outer wall of described annulus, and described output unit is arranged on outside described annulus.

Preferably, in above-mentioned output device, when described flip flop equipment rotates around first direction, described first signal is switched to the second state for controlling described first electronic equipment by the first state;

Wherein, the amplitude of accommodation that described first state is rotated to adjusting range and the described flip flop equipment of described second state around described first rotation direction matches, and described first state matches to the adjustment direction of described second state and described first direction.

Preferably, in above-mentioned output device, when described flip flop equipment rotates around second direction, described first signal is switched to the 4th state for controlling described first electronic equipment by the third state;

Wherein, the amplitude of accommodation that the described third state is rotated to adjusting range and the described flip flop equipment of described 4th state around described second rotation direction matches, and the described third state matches to the adjustment direction of described 4th state and described second direction.

Preferably, in above-mentioned output device, also comprise: input harvester, described input harvester, for gathering secondary signal, generates the signal matched with described secondary signal.

Present invention also offers a kind of signal output method, this signal output method comprises:

When flip flop equipment rotates, pick-up unit is subject to described flip flop equipment and provides acting force;

By described acting force detection trigger device, thus make described pick-up unit produce the first signal, described first signal comprises the signal matched with the rotation direction of described flip flop equipment and/or rotation amplitude.

Preferably, in above-mentioned signal output method, also comprise: by transmitting device by described first Signal transmissions give the first electronic equipment, by described first signal control described first electronic equipment perform set-up function.

Preferably, in above-mentioned signal output method, the described flip flop equipment of described rotation comprises: gather secondary signal by input harvester, generate the signal matched with described secondary signal.

Known by foregoing description, output device provided by the invention comprises: flip flop equipment, the reference axis rotation that the winding of described flip flop equipment energy is fixed; Pick-up unit, the power that described pick-up unit can be produced by the described flip flop equipment rotated triggers and produces the first signal; Wherein, described first signal comprises the first signal matched with the rotation direction of described flip flop equipment and/or rotation amplitude.The mechanical rotation of transmitting apparatus is gone out described in described output device passes through, and the output of described first signal can be realized by the mechanicals efforts described pick-up unit that sets out, relative to the implementation such as optical principle or electromagnetic principle, just can be realized by simple mechanical trigger mechanism, implementation structure is simple, and cost is low.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments of the invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to the accompanying drawing provided.

The structural representation of a kind of output device that Fig. 1 provides for the embodiment of the present application;

The structural representation of a kind of pick-up unit that Fig. 2 provides for the embodiment of the present application;

Fig. 3 realizes the automatically reset principle schematic of switch module for the one that the embodiment of the present application provides;

The structural representation of the another kind of output device that Fig. 4 provides for the embodiment of the present application;

The structural representation of another output device that Fig. 5 provides for the embodiment of the present application;

The schematic flow sheet of a kind of signal output method that Fig. 6 provides for the embodiment of the present application.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

As described in the background art, realize to realize the signal matched to rotation direction and rotation amplitude in prior art, need to adopt that optics or the realization of electromagnetic principle, the implementation to timer solution structure is complicated, and cost is high.

Inventor studies discovery, a rotating flip flop equipment can be adopted, make provide a power detection trigger device to pick-up unit in this flip flop equipment rotation process and generate the first signal, this first signal comprises the signal matched with the rotation direction of flip flop equipment and/or rotation amplitude.

Based on above-mentioned research, the embodiment of the present application provides a kind of output device, and this output device implementation structure is simple, and cost is low.With reference to the structural representation of a kind of output device that figure 1 and Fig. 2, Fig. 1 provide for the embodiment of the present application, the structural representation of a kind of pick-up unit that Fig. 2 provides for the embodiment of the present application.

This output device comprises: flip flop equipment 11, and the fixed reference axis O of described flip flop equipment energy winding rotates; Pick-up unit 12, the power that described pick-up unit 12 can be produced by the described flip flop equipment 11 rotated triggers, thus produces the first signal.

Wherein, described first signal comprises the signal matched with the rotation direction of described flip flop equipment 11 and/or rotation amplitude.

Visible, described output device generates described first signal by the power detection trigger device 12 in described flip flop equipment 11 rotation process, realized the way of output of described first signal by optics or electromagnetic principle compared to prior art, structural implementations is simple, and cost is low.

Described pick-up unit 12 comprises: switch module 21 and detection components 22.Wherein, the power that described switch module 21 can be produced by the described flip flop equipment 11 rotated triggers; The state that described detection components 22 is triggered according to described switch module 21 generates described first signal.

Concrete, the first end A of described switch module 21 connects the operating voltage VDD of setting, and the second end B of described switch module 21 is positioned at the predeterminated position of setting.The stressed difference of second end B of described switch module 21, has different trigger state.And the stress of the second end B of described switch module 12 depends on the rotary state of flip flop equipment 11.Described trigger state comprises: the state that the second end B of described switch module 21 is connected with the first end C of detection components 22 and the state that the second end B of described switch module 21 is connected with the second end D of detection components 22.When the first end C of detection components 22 and operating voltage VDD connects, detection components 22 exports the first subsignal, and when the second end D and operating voltage VDD of detection components 22 connects, detection components 22 exports the second subsignal.

By arranging the physical construction of described flip flop equipment 11, make when flip flop equipment 11 rotates a rotation unit along the first rotation direction a, the second end B that can realize switch module 21 contacts with the first end C of detection components 22, and both realizations are electrically connected; When flip flop equipment rotates a rotation unit along the second rotation direction b, the second end D of the second end B and detection components 22 that can realize switch module 21 contacts, the electrical connection of both realizations.

Wherein, the first rotation direction a is contrary with the second rotation direction b.Therefore, can export according to detection components 22 rotation direction that first subsignal or the second subsignal judge flip flop equipment.

It should be noted that, the embodiment of the present application is fixed with the first end A of described switch module 21, its second end B swings around first end A so that realize electrically connecting as example with the first end C of detection components or the second end D and be described, in other embodiments, described switch module can also stressed integral translation, so that with the first end C of detection components or the second end D realizes being electrically connected.

Further, can arrange rotational angle corresponding to a described rotation unit according to the physical construction of flip flop equipment 11, have rotated N ° as arranged a rotation unit representation flip flop equipment, N is the real number in 0-360.Now, in described flip flop equipment rotation process, when flip flop equipment 11 rotates a rotation unit around direction initialization, detection components 22 exports first signal, then the second end B of switch module 21 can be made to return to described predeterminated position by specific switch resetting-mechanism, or rotating backward one by flip flop equipment 11 rotates unit, switch module 21 is made to return to described predeterminated position, make flip flop equipment 11 rotate one around described direction initialization again and rotate unit, detection components 22 exports first signal again, control the rotation of flip flop equipment 11 by that analogy.Detection components 22 can judge rotation direction and the rotational angle (the concrete angle of rotation) of flip flop equipment 11 according to the triggering times of the first end C of detection components 22 and the second end D

Optionally, in output device described in the embodiment of the present application, also comprise: transmitting device, described transmitting device is used for described first Signal transmissions to the first electronic equipment be connected with described output device.Described output unit is connected with described detection components 22.The first signal due to detection components 22 output represents rotation direction and the rotation amplitude of flip flop equipment 11, therefore, can realize the control to the first electronic equipment by this first signal.Can be connected for radio communication between described transmitting device with described first electronic equipment, or wire communication connects, or having wired communication connection concurrently is connected with radio communication.

As shown in Figures 1 and 2, described flip flop equipment 11 comprises: the triggering end 112 of rotating body 111 and being fixed on described rotation body 111.The reference axis O of described rotation body 111 can be in esse mechanical rotating shaft structure, may also be only an imaginary axis, only for representing the center position of rotating body.

Described switch module 21 is arranged on predeterminated position, and described switch module has two stressed triggering directions; When described flip flop equipment 11 rotates along first direction a, described triggering end 112 applies acting force from a stressed triggering direction of described switch module 21, and then stir described switch module 21, described detection components 22 generates described first signal according to the state of stirring of described switch module 21; When described flip flop equipment 11 rotates along second direction b, described triggering end 112 applies acting force from another stressed triggering direction of described switch module 21, and then stir described switch module 21, described detection components 22 generates described first signal according to the state of stirring of described switch module 21.As above-mentioned, described first rotation direction a is contrary with described second rotation direction b.

When described flip flop equipment 11 rotates continuously, in order to make switch module 21 constantly can be triggered along with the rotation of flip flop equipment 11, switch module 21 can be made to realize resetting to predeterminated position by two kinds of implementations as above-mentioned.

In the embodiment of the present application, the conveniently rotation of flip flop equipment, make the control mode of output device simple, preferred employing makes switch module 21 automatically reset to predeterminated position by switch resetting-mechanism.Now, described output device also comprises: switch resetting-mechanism, and described switch resetting-mechanism, when described switch module is not by described triggering end acting force, triggers described switch module and returns to described predeterminated position.

With reference to figure 3, Fig. 3 for the one that the embodiment of the present application provides realizes the automatically reset principle schematic of switch module 21.Fig. 3 as described switch resetting-mechanism by elastomeric element 31, when switch module 21 is not subject to the acting force of flip flop equipment, is realized switch module 21 and automatically resets to predeterminated position.Elastomeric element 31 can be spring or shell fragment, and when switch module 21 is positioned at predeterminated position, the elastic force of elastomeric element 31 pairs of switch module 21 both sides is identical.

Switch module 21 is positioned at predeterminated position, and detection components 22 exports without the first signal.When switch module 21 is triggered, as stressed F effect offset left time, one end of detection components 22 correspondence and operating voltage VDD are connected, and then export the first corresponding signal.Now, the acting force of the elastomeric element 31 that switch module 21 both sides receive is different, and after power F disappears, switch module 21 returns to described predeterminated position under the effect of elastomeric element 31.

As shown in Figure 1, described flip flop equipment 11 comprises: multiple described triggering end 112; Described multiple triggering end 112 is equally spaced be distributed in circumferentially same.When described flip flop equipment 11 rotates, trigger end 112 by before described predeterminated position at the next one, the triggering end 112 of the described switch module of previous triggering 21 is separated with described switch module 21.Angle corresponding to a described rotation unit can be set by the interval arranged between described triggering end 112.Simultaneously, can make when described flip flop equipment 11 rotates with the size of the contact site triggering end 112 by the elasticity coefficient and switch module 21 controlling described elastomeric element 21, end 112 is triggered by before described predeterminated position at the next one, the triggering end 112 of the described switch module of previous triggering 21 is separated with described switch module 21, so that realize the continuous reset of rotation process breaker in middle assembly 21.

In the embodiment shown in fig. 1, described rotation body 111 is annulus, and described rotation body 111 can fixed-axis rotation, namely can rotate around reference axis O.Described triggering end 112 is fixed on the inwall of described annulus, and described pick-up unit 12 is arranged in described annulus.

With reference to figure 4, the structural representation of the another kind of output device that Fig. 4 provides for the embodiment of the present application, in this embodiment, the rotation body 111 of flip flop equipment 11 is similarly annulus, flip flop equipment 11 comprises multiple triggering end 112, and flip flop equipment 11 can rotate around reference axis O.Differently from embodiment in Fig. 1 be, described triggering end 112 is fixed on the outer wall of described annulus, and described output unit 12 is arranged on outside described annulus.

In output device described in the embodiment of the present application, the rotation body of flip flop equipment comprises the circular ring structure of Fig. 1 and Fig. 4 illustrated embodiment, but is not limited to circular ring structure, can also be triangle, rectangle and other geometry polygons.Described geometry polygon can be polygonal engraved structure, as structures such as triangle frame, rectangle frame and annulus.Pcb board can be set in the region at described geometry polygon place, the telepilot of integrated second electronic equipment on described pcb board, perform the function of setting for controlling the second electronic equipment, described second electronic equipment can be same electronic device or distinct electronic apparatuses with described first electronic equipment.

With reference to the structural representation of another output device that figure 5, Fig. 5 provides for the embodiment of the present application.In the embodiment illustrated in figure 5, flip flop equipment comprises leg-of-mutton rotation body 51, and preferably arranging triangle is equilateral triangle.Pick-up unit 12 is arranged on described leg-of-mutton outside, and rotating body 51 can around leg-of-mutton center O1 fixed-axis rotation.The triggering end of flip flop equipment is leg-of-mutton three summits.In rotation body 51 rotation process, vertex of a triangle can stir the switch module of pick-up unit 12 in rotation process, makes pick-up unit export the first signal.

In output device described in the embodiment of the present application, can be implemented in the process of described flip flop equipment rotation, by the mode detection trigger device of contact force, by the mode detection trigger device of mechanical force, optical principle or the triggering mode of electromagnetic principles is passed through compared in prior art, structure is simple, and easy to operate, cost is low.

Known by foregoing description, in the output device described in the embodiment of the present application, the first signal exported by described pick-up unit 12, can detect adjustment direction and the amplitude of flip flop equipment rotation.Shown in figure 2, if when flip flop equipment rotates clockwise, the second end B of switch module 21 is connected with the first end C of detection components, if when flip flop equipment rotates counterclockwise, the second end B of switch module 21 is connected with the second end D of detection components.So, be that first end C to be connected with operating voltage VDD and to carry out the first signal (being now above-mentioned first subsignal) and exports according to detection components 22, or the second end D is connected with operating voltage VDD and carry out the first signal (being now above-mentioned second subsignal) and export the rotation direction can determining flip flop equipment.Simultaneously according to number of times and the amplitude of accommodation of rotating angle corresponding to unit and can determine to rotate of output first signal.

Optionally, output device described in the embodiment of the present application also comprises input harvester, and described input harvester, for gathering secondary signal, generates the signal matched with described secondary signal.Further, described output device also comprises communicator, and described secondary signal can send to the first electronic equipment by described communicator or other electronic equipments are for controlling the function of the first electronic equipment or other electronic equipments execution setting.Described input harvester comprises the driving circuit that input key is connected with described input key.When described flip flop equipment comprises circular rotation body, described input harvester and communicator can be arranged on described annulus inner, so that save space.

As above-mentioned, when described output device also comprises transmitting device, described transmitting device is used for described first Signal transmissions to the first electronic equipment be connected with described output device.Described output device can also control described first electronic equipment by described first signal and perform set-up function.

Described output device has stationary installation, and described stationary installation is for being fixed on described first electronic equipment by described output device.Arranging described stationary installation is the physical construction with annulus, so that make described output device can be fixed on the column formations part of described first electronic equipment.

In the embodiment of the present application, described first electronic equipment comprises drive unit, and described drive unit moves in space for controlling described first electronic equipment.Described first electronic equipment also comprises driving control device, and described driving control device is for controlling the kinematic parameter of described first electronic equipment.

Concrete, described first electronic equipment can be automobile.Described driving control device can be bearing circle, and described kinematic parameter can be direction parameter.When described first electronic equipment is automobile, described output device can be fixing on the steering wheel by the stationary installation of setting structure, so that driver carries out control operation by described output device.

Can arrange when described flip flop equipment rotates around first direction, described first signal is switched to the second state for controlling described first electronic equipment by the first state.Wherein, the amplitude of accommodation that described first state is rotated to adjusting range and the described flip flop equipment of described second state around described first rotation direction matches, and described first state matches to the adjustment direction of described second state and described first direction; Can arrange when described flip flop equipment rotates around second direction, described first signal is switched to the 4th state for controlling described first electronic equipment by the third state.Wherein, the amplitude of accommodation that the described third state is rotated to adjusting range and the described flip flop equipment of described 4th state around described second rotation direction matches, and the described third state matches to the adjustment direction of described 4th state and described second direction.

Described output device may be used for controlling on-vehicle Bluetooth communication facilities.Now, described first signal is switched to on-state for controlling described vehicle-mounted Bluetooth equipment by current state, or is switched to by current state the state of hanging up.Described on-vehicle Bluetooth communication facilities is switched to by current state the adjustment direction that on-state still hangs up state and described first signal and matches.

Described output device can also be used for controlling on-board multimedia device.Now, described first signal may be used for controlling described on-board multimedia device volume adjusting.The adjustment direction of described volume and the adjustment direction (rotation direction of flip flop equipment) of described first signal match, rotate the first corresponding signal control volume increase as set first direction, second direction is rotated the first corresponding signal and is controlled volume reduction.The amplitude of accommodation of described volume and the amplitude of accommodation (rotation amplitude of flip flop equipment) of described first signal match, and can control the amplitude of accommodation size of volume adjusting according to the size of flip flop equipment rotation amplitude.

When described output device is for controlling on-board multimedia device, described first signal also can be used for controlling described on-board multimedia device and performs blocked operation.The adjustment direction that described on-board multimedia device carries out the switching direction and described first signal switching behaviour matches, and the amplitude of accommodation of switching amplitude and described first signal matches.As when as described in the first characterization flip flop equipment rotate around first direction time, may be used for controlling described on-board multimedia device and carry out broadcast interface forwarding operation, when described first characterization flip flop equipment rotates around second direction, may be used for controlling the fast reverse operation that described on-board multimedia device carries out broadcast interface.The rotation amplitude of the amplitude of accommodation of forwarding operation and the amplitude of accommodation of fast reverse operation and flip flop equipment matches.

Described output device can also be used for controlling vehicle window control device.Now, described first signal can also be used for controlling vehicle window, and the adjustment direction of the rising of described vehicle window or decline state and described first signal matches, and the heave amplitude of described vehicle window and the amplitude of accommodation of described first signal match.As can arrange when as described in flip flop equipment as described in the first characterization rotate around first direction time, decline adjustment is carried out for controlling described vehicle window, when going out transmitting apparatus described in described first characterization and rotating around second direction, carry out rising adjustment for controlling described vehicle window.

Described output device can also be used for controlling automobile rearview mirror regulating device.Now, described first signal is also for adjusting rearview mirror.The adjustment direction of rearview mirror and the adjustment direction of described first signal match, and the amplitude of accommodation of rearview mirror and the amplitude of accommodation of described first signal match.As can arrange when as described in flip flop equipment as described in the first characterization rotate around first direction time, rotate towards vehicle body for controlling described rearview mirror, when described in described first characterization, flip flop equipment rotates around second direction, deviate from vehicle body rotation for controlling described rearview mirror, rotation amplitude mates with the amplitude of accommodation of the first signal.

Described first electronic equipment can also be the mobile terminals such as mobile phone.The input parameter that described first signal can also be used for controlling mobile phone switches, and the adjustment direction of the direction that described input parameter switches and described first signal matches, and the amplitude of accommodation of the amplitude that described input parameter switches and described first signal matches.

When described first signal switches for the input parameter controlling mobile phone, a kind of application mode is: described first signal is switched to on-state for controlling mobile phone by current state, or be switched to by current state the state of hanging up, be switched to by current state the adjustment direction that on-state still hangs up state and described first signal and match.In this embodiment, handoff procedure does not need to utilize the amplitude of accommodation, only makes the adjustment direction of the direction of blocked operation and described first signal match and realizes connecting or hanging up effect.

When described first signal cuts operation for the input parameter controlling mobile phone, another kind of application mode is: described first signal is used for mobile phone volume and regulates, the adjustment direction of volume adjusting and the adjustment direction of described first signal match, and the amplitude of accommodation of volume adjusting and the amplitude of accommodation of described first signal match.

The displaying contents that described first signal can also be used for controlling mobile phone switches, and the adjustment direction of the direction that displaying contents switches and described first signal matches, and the amplitude of accommodation of the amplitude that displaying contents switches and described first signal matches.

When described first signal switches for the displaying contents controlling mobile phone, described first signal may be used for the adjustment of the broadcasting speed of mobile phone player.Now, the direction (F.F. or rewind) that described broadcasting speed regulates matches with the adjustment direction of described first signal, and the amplitude (F.F. or the time schedule of rewind) that described broadcasting speed regulates matches with the amplitude of accommodation of described first signal.

When described first signal switches for the displaying contents controlling mobile phone, described first signal may be used for the switching of the play list of handset audio player.Now, the direction (carry out forward song switching or carry out song switching backward) that described play list switches matches with the adjustment direction of described first signal, and the amplitude (number that song switches) that described play list switches matches with the amplitude of accommodation of described first signal.

When described first signal switches for the displaying contents controlling mobile phone, described first signal may be used for the switching of the broadcast program of mobile video player.Now, the direction (carry out forward program switching or carry out program switching backward) that described broadcast program switches matches with the adjustment direction of described first signal, and the amplitude (number that program switches) that described broadcast program switches matches with the amplitude of accommodation of described first signal.

When described first signal switches for the displaying contents controlling mobile phone, described first signal may be used for the switching of mobile phone interface.Now, the adjustment direction of the direction that mobile phone interface switches and described first signal matches, and the amplitude of accommodation of the amplitude that mobile phone interface switches and described first signal matches.Known by foregoing description, the application is that output device described in example can export by the mode detection trigger device of mechanical force the first signal matched with flip flop equipment rotation direction and rotation amplitude.Described first signal may be used for the function that control first electronic equipment performs setting.Implementation is simple, and cost is low.

The embodiment of the present application additionally provides a kind of signal output method of above-mentioned output device.With reference to the schematic flow sheet of a kind of signal output method that figure 6, Fig. 6 provides for the embodiment of the present application, this signal output method comprises:

Step S11: when flip flop equipment rotates, pick-up unit is subject to the acting force that described flip flop equipment provides.

Step S12: by described acting force detection trigger device, thus make described pick-up unit produce the first signal, described first signal comprises the signal matched with the rotation direction of described flip flop equipment and/or rotation amplitude.

Further, described signal output method also comprises: give the first electronic equipment by transmitting device by described first Signal transmissions, controls described first electronic equipment perform set-up function by described first signal.Described first electronic equipment can be the mobile terminals such as mobile phone, also can be automobile.

Further, described signal output method also comprises: gather secondary signal by input harvester, generate the signal matched with described secondary signal.

The structure of described flip flop equipment and described pick-up unit see described in above-described embodiment, can not repeat them here.

The described flip flop equipment of described rotation comprises: rotate described flip flop equipment along the first rotation direction and rotate described flip flop equipment along the second rotation direction.Described first rotation direction is contrary with described second rotation direction.

When rotating described flip flop equipment along described first rotation direction, triggering described pick-up unit from the first stressed triggering direction, when rotating described flip flop equipment along described second rotation direction, triggering described pick-up unit from the second stressed triggering direction.

When making described flip flop equipment rotate multiple rotation unit along described first rotation direction or described second rotation direction, described flip flop equipment provides repeatedly acting force for described pick-up unit, the corresponding direct action power of rotating unit, direct action power triggers once described pick-up unit.

Have the sequential section that described pick-up unit is separated with described flip flop equipment between twice adjacent acting force, this sequential section is used for described flip flop equipment and resets.By resetting to described flip flop equipment, can make, in the described flip flop equipment process of rotation, constantly to trigger the output that described pick-up unit carries out described first signal.

Known by foregoing description, described signal output method can drive above-mentioned output device to carry out the first signal output, controls by described first signal the function that the first electronic equipment performs setting, simple to operate.

To the above-mentioned explanation of the disclosed embodiments, professional and technical personnel in the field are realized or uses the present invention.To be apparent for those skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein can without departing from the spirit or scope of the present invention, realize in other embodiments.Therefore, the present invention can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (14)

1. an output device, is characterized in that, comprising:

Flip flop equipment, the reference axis rotation that the winding of described flip flop equipment energy is fixed;

Pick-up unit, the power that described pick-up unit can be produced by the described flip flop equipment rotated triggers, thus produces the first signal; Wherein, described first signal comprises the signal matched with the rotation direction of described flip flop equipment and/or rotation amplitude.

2. output device according to claim 1, is characterized in that, described pick-up unit comprises: switch module and detection components;

Wherein, the power that described switch module can be produced by the described flip flop equipment rotated triggers; The state that described detection components is triggered according to described switch module generates described first signal.

3. output device according to claim 1, is characterized in that, also comprises: transmitting device, and described transmitting device is used for described first Signal transmissions to the first electronic equipment be connected with described output device.

4. output device according to claim 2, is characterized in that, described flip flop equipment comprises: the triggering end of rotating body and being fixed on described rotation body;

Described switch module is arranged on predeterminated position, and described switch module has two stressed triggering directions; ; When described flip flop equipment is rotated in a first direction, described triggering end applies acting force from a stressed triggering direction of described switch module, and then stir described switch module, described detection components generates described first signal according to the state of stirring of described switch module; When described flip flop equipment is rotated in a second direction, described triggering end applies acting force from another stressed triggering direction of described switch module, and then stir described switch module, described detection components generates described first signal according to the state of stirring of described switch module;

Wherein, described first rotation direction is contrary with described second rotation direction.

5. output device according to claim 4, is characterized in that, also comprises: switch resetting-mechanism, and described switch resetting-mechanism, when described switch module is not by described triggering end acting force, triggers described switch module and returns to described predeterminated position.

6. output device according to claim 5, is characterized in that, described flip flop equipment comprises: multiple described triggering end; Described multiple triggering end is equally spaced be distributed in circumferentially same;

When described flip flop equipment rotates, trigger end by before described predeterminated position at the next one, the triggering end of the described switch module of previous triggering is separated with described switch module.

7. output device according to claim 6, is characterized in that, described rotation body is annulus, and described rotation body can fixed-axis rotation;

Wherein, described triggering end is fixed on the inwall of described annulus, and described pick-up unit is arranged in described annulus.

8. output device according to claim 6, is characterized in that, described rotation body is annulus, and described rotation body can fixed-axis rotation;

Wherein, described triggering end is fixed on the outer wall of described annulus, and described output unit is arranged on outside described annulus.

9. output device according to claim 4, is characterized in that, when described flip flop equipment rotates around first direction, described first signal is switched to the second state for controlling described first electronic equipment by the first state;

Wherein, the amplitude of accommodation that described first state is rotated to adjusting range and the described flip flop equipment of described second state around described first rotation direction matches, and described first state matches to the adjustment direction of described second state and described first direction.

10. output device according to claim 4, is characterized in that, when described flip flop equipment rotates around second direction, described first signal is switched to the 4th state for controlling described first electronic equipment by the third state;

Wherein, the amplitude of accommodation that the described third state is rotated to adjusting range and the described flip flop equipment of described 4th state around described second rotation direction matches, and the described third state matches to the adjustment direction of described 4th state and described second direction.

11. output devices according to any one of claim 1-10, is characterized in that, also comprise: input harvester, and described input harvester, for gathering secondary signal, generates the signal matched with described secondary signal.

12. 1 kinds of signal output methods, is characterized in that, comprising:

When flip flop equipment rotates, pick-up unit is subject to the acting force that described flip flop equipment provides;

By described acting force detection trigger device, thus make described pick-up unit produce the first signal, described first signal comprises the signal matched with the rotation direction of described flip flop equipment and/or rotation amplitude.

13. signal output methods according to claim 12, is characterized in that, also comprise: give the first electronic equipment by transmitting device by described first Signal transmissions, control described first electronic equipment perform set-up function by described first signal.

14. signal output methods according to claim 12, is characterized in that, also comprise: gather secondary signal by input harvester, generate the signal matched with described secondary signal.