CN206378979U

CN206378979U - Spontaneous electrical remote control device

Info

Publication number: CN206378979U
Application number: CN201621024813.5U
Authority: CN
Inventors: 廖淑辉; 刘远芳; 廖旺宏
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-02-04
Filing date: 2016-08-31
Publication date: 2017-08-04
Anticipated expiration: 2026-08-31
Also published as: WO2017133211A1; CN107852080A; CN112863163A; CN112767675A

Abstract

The utility model provides a spontaneous electrical remote control device, and the spontaneous electrical remote control device includes：Button, fixed cover, movable lower cover, kinetic energy generator and controller, when button is pressed and movable lower cover driving kinetic energy generator switchs to mechanical kinetic energy for electric energy, the wireless control signal that the button that controller is launched and is pressed under the electric energy supply that the kinetic energy generator is provided matches.

Description

Spontaneous electrical remote control device

Technical field

The utility model is related to a remote control, more particularly to an electric appliance remote controller with spontaneous Electricity Functional.

Background technology

Remote control applies quite varied in field of household appliances, as indispensable controlling equipment.But electrical equipment on the market is distant Control device will use battery as power supply, it is known that battery is easily-consumed products, it is necessary to often change, this can bring to user Some expenses and inconvenience；According to statistics, the annual battery up to over ten billion consumed on the electronic product of household appliance technical field in the whole world Piece, this is a huge expense, moreover, substantial amounts of waste battery will be damaged to environment, it is therefore necessary to research and develop one Money is without battery with regard to that can control the remote control of household electrical appliance.

In recent years, with the development of science and technology, having begun to appear on the market without the wireless switching of battery, due to the limitation of technology, The button of the existing switch that bursts at the seams without using battery will realize that pressing motion completes key information collection again for generating electricity, The number of keys of this wireless switching has larger limitation, is typically only capable to the several a limited number of buttons of arrangement, and generally The control switched on and off of simple electric switch can only be realized, it is impossible to which the remote control for meeting the electrical equipment such as television set, sound equipment is more Up to the demand of tens buttons.Moreover, for remote control, comfortable feel and sensitive control are highly important, are showed If the technology of some passive and wireless switch meets that journey is big before leaving, feel is poor for manufacturing electrical equipment multikey remote control, noise is big Shortcoming, it is impossible to applied in actual product.Still further aspect, existing relatively low from electric generating devcie generating efficiency, discomfort is combined into distant The signal transmitting operation for controlling a variety of key commands of device provides enough electric energy supplies.

The content of the invention

A purpose of the present utility model is to provide a spontaneous electrical remote control device, wherein the spontaneous electrical remote control device includes moving Energy generator, it is not necessary to extra battery or external power supply.

Another object of the present utility model is to provide a spontaneous electrical remote control device, wherein the spontaneous electrical remote control device is passive Spontaneous electric-type, and numerous buttons can be arranged.

Another object of the present utility model is to provide a spontaneous electrical remote control device, wherein the spontaneous electrical remote control device is using top Lid synthesizes overall with bottom, and top cover is inactive, and bottom can be moved, and any many buttons can be arranged on motionless top cover.

Another object of the present utility model is to provide a spontaneous electrical remote control device, wherein the spontaneous electrical remote control device is spontaneous Electric-type, the part for occurring relative displacement generating and key part are provided separately, so that the relative position of generation should be acted by solving The problem of being difficult to arrangement together is stirred in placing key-press part again while moving generating.

Another object of the present utility model is to provide a spontaneous electrical remote control device, wherein the spontaneous electrical remote control device is including more The movable lower cover that direction is swung, and kinetic energy generator generation electric energy is driven by it, so that convenient use.

Another object of the present utility model is to provide a spontaneous electrical remote control device, wherein the spontaneous electrical remote control device passes through admittedly Fixed upper lid carrys out placing key-press, and movable lower cover is used for driving generating, so as to generate electricity and button is provided independently from, so as to facilitate multiple The arrangement of button.

Another object of the present utility model is one spontaneous electrical remote control device of offer, and wherein user is distant using the spontaneous electricity When controlling device, button operation and the operation collocation for pressing the movable lower cover, in the way of realizing remote signal, so that there is provided one Plant the mode of operation of brand-new remote control.

Another object of the present utility model is to provide a spontaneous electrical remote control device, wherein the movable lower cover can be arranged to The optional position of its basal surface is pressed, kinetic energy generator can be started, so that convenient use.

Another object of the present utility model is to provide a spontaneous electrical remote control device, wherein the movable lower cover being pressed and During release, the kinetic energy generator can be driven to produce an electric energy, that is, electric energy twice is produced, for the spontaneous electrical remote control device Send one or many control signals as needed.

Another object of the present utility model is to provide a spontaneous electrical remote control device, wherein the spontaneous electrical remote control device is described Kinetic energy generator has magnetic conduction container, and coil is located in the magnetic conduction container, so as to reduce leakage field, improves generating efficiency.

Another object of the present utility model is to provide a spontaneous electrical remote control device, wherein the spontaneous electrical remote control device is described The magnetic conduction container of kinetic energy generator is used on magnetic conduction cavity configuration, the center pillar that induction coil is placed in the inside of magnetic conduction chamber, is led The one side of magnetic cavity has magnetic group, so, and whole coil is completely covered by magnetic induction line, so that reduce leakage field, thus in the motion of magnetic group During, coil obtains the flux change amount of increase, thus produces in coil high-power electric energy of inducting.

Another object of the present utility model is to provide a spontaneous electrical remote control device, wherein the spontaneous electrical remote control device is described The common kinetic energy generator of kinetic energy generator volume ratio equal-wattage can provide high-power electric energy while small, and magnetoelectricity turns The rate of changing is significantly improved, so that industrial applicibility is greatly enhanced, application is more extensive.

Another object of the present utility model is to provide a continuous variable signal control method, for passive and wireless device, Such as spontaneous electrical remote control device, can realize critical function, such as stepless-adjustment volume, brightness continuously become by launching signal twice Amount.

In order to realize at least one above-mentioned purpose, the utility model provides a spontaneous electrical remote control device, and it includes：

Box body, it includes fixed cover and movable lower cover, the fixed cover and the movable lower cover formation accommodating chamber；

Multiple buttons, the fixed cover has multiple key slots, correspondence of each described button from the fixed cover The key slot protrude for user press；

Kinetic energy generator；And

Controller, the kinetic energy generator and the controller are located in the accommodating chamber, button described in wherein at least one It is pressed and when the movable lower cover drives the kinetic energy generator to switch to mechanical kinetic energy for electric energy, the controller is in institute The wireless control signal that the button launched and be pressed under the electric energy supply for stating kinetic energy generator offer matches.

In certain embodiments, the movable lower cover is configured to the inner or outer side shifting along the fixed cover It is dynamic.

In certain embodiments, the fixed cover with the movable lower cover is by an at least snap fit and at least a chute can Slidably coordinate.

In certain embodiments, the fixed cover passes through respectively positioned at four institutes of four sides with the movable lower cover State snap fit and four corresponding chutes coordinate, and the movable lower cover is configured to along around and up and down Move in direction.

In certain embodiments, the kinetic energy generator is piezo-electric effect generator, is pressed by the movable lower cover Power and produce electric energy when being driven.

In certain embodiments, the kinetic energy generator includes magnetic group, coil and center pillar, wherein the coil is arranged on Around the center pillar, the magnetic group includes magnet and led positioned at the opposite polarity top magnetic conductive board of the magnet two opposite sides and bottom Magnetic sheet, wherein when the movable lower cover and the fixed cover produce relative displacement, the center pillar can alternately contact institute Top magnetic conductive board and the bottom magnetic conductive board are stated, so as to change through the magnetic induction line direction of the coil, makes to produce in the coil Raw induced current.

In certain embodiments, there is magnetic gap, the one of the center pillar between the top magnetic conductive board and the bottom magnetic conductive board End extends into the magnetic gap, for alternately contacting the inner side of the top magnetic conductive board and the bottom magnetic conductive board.

In certain embodiments, the magnetic group is fixed, and the center pillar is mobile so that the center pillar is alternately contacted by driving The top magnetic conductive board and the bottom magnetic conductive board.

In certain embodiments, the center pillar is fixed, and the magnetic group is mobile so that the center pillar is alternately contacted by driving The top magnetic conductive board and the bottom magnetic conductive board.

In certain embodiments, it is described also to include a magnetic conduction container from electric generating devcie, wherein the center pillar and the coil In the magnetic conduction container.

In certain embodiments, the magnetic conduction container has an opening, and the magnetic group is sealed in the opening.

In certain embodiments, the center pillar is installed on the magnetic conduction container.

In certain embodiments, the center pillar and the magnetic conduction container are integrally formed.

In certain embodiments, the magnetic conduction container is fixed on the controller or is fixed on the fixed cover.

In certain embodiments, the kinetic energy generator also includes swinging mounting, and there is the swinging mounting magnetic group to fix Groove, with the fixed magnetic group, the swinging mounting and the magnetic conduction container are pivotably connected.

In certain embodiments, the kinetic energy generator also includes driving element, and it is connected to the swinging mounting, described Movable lower cover includes touching element, and it can act on the driving element, pivots the swinging mounting, so that the magnetic group Relative displacement is produced with the center pillar.

In certain embodiments, the driving element is a shell fragment.

In certain embodiments, the driving element and the swinging mounting are integrally formed.

In certain embodiments, the kinetic energy generator also includes an at least reset element, and it is connected to the driving member Part, after the movable lower cover is not pressed, under the reset response of the reset element, the swinging mounting and the magnetic Group can automatically reset.

In certain embodiments, the one kind of the reset element in shell fragment, compression spring and torsion spring.

In certain embodiments, described reset element one end is connected to the driving element, and the other end is connected to the control Device processed.

In certain embodiments, described reset element one end is connected to the driving element, and the other end is connected to described solid Fixed upper lid.

In certain embodiments, the magnetic conduction container is additionally provided with two pins, the two ends of the coil be respectively positioned in The pin.

In certain embodiments, the swinging mounting includes rest body, magnetic group fixed arm group and swing arm group, the magnetic Ferropexy arm group each extends internally from the two ends of the rest body and forms the magnetic group fixing groove with the rest body, The swing arm group extends out to the both sides of the magnetic conduction container from the magnetic group fixed arm group.

In certain embodiments, the magnetic group fixing groove has a perforate towards the center pillar in the magnetic conduction container, Extended into for described center pillar one end in the magnetic group.

In certain embodiments, each magnetic group fixed arm group is additionally provided with an at least abutment end dowel, for consolidating State top magnetic conductive board and the bottom magnetic conductive board.

In certain embodiments, the top magnetic conductive board also has a top magnetic conductive board abutment end, and the bottom magnetic conductive board also has One bottom magnetic conductive board abutment end, the abutment end dowel is used for the top magnetic conductive board abutment end and the bottom magnetic conductive board abutment end Positioned.

In certain embodiments, the swing arm group and the magnetic conduction container can by an at least rotary axis groove and a rotary shaft It is pivotally connected to.

In certain embodiments, the top magnetic conductive board also has a top magnetic conductive board abutment end, and the bottom magnetic conductive board also has One bottom magnetic conductive board abutment end, wherein the center pillar alternately contacts the top magnetic conductive board abutment end and the bottom magnetic conductive board is abutted End.

In certain embodiments, the top magnetic conductive board also has a top magnetic conductive board abutment end, and the bottom magnetic conductive board also has One bottom magnetic conductive board abutment end, the magnetic conduction container has a top edge and a bottom edge, and the top magnetic conductive board abutment end and the bottom are led Magnetic sheet abutment end is extended into the magnetic conduction container, wherein the center pillar alternately contacts the top magnetic conductive board abutment end and institute When stating bottom magnetic conductive board abutment end, the bottom magnetic conductive board abutment end and the top magnetic conductive board abutment end correspondingly respectively with the magnetic conduction The bottom edge of container and the top make the direction of the magnetic induction line through the coil change, so that in the coil along contact It is middle to produce the induced current.

In certain embodiments, the key press is connected required for the corresponding key circuit of controller with correspondence Pressing force be pressed to start the pressing force of the kinetic energy electric generating devcie less than the movable lower cover.

In certain embodiments, the controller include group a button electrode, coding module, wireless signal transmission source, and Shaping circuit, wherein each button electrode is corresponding with each button, and after the button is pressed, the button electricity Pole is short-circuited, wherein the induced current that the kinetic energy generator is produced is after the power supply shaping operation of the shaping circuit, Supply the coding module and described in matching via the button that the wireless signal transmission source is launched and is pressed Wireless control signal.

In certain embodiments, the wireless signal transmission source of the controller is selected from amplitude shift keying circuit, frequency displacement key Control circuit, phase-shift keying (PSK) circuit, RFID radio-frequency modules, mobile communication module, bluetooth communication module, WIFI communication module, Z- One kind in Wave communication modules, ZigBee communication modules and infrared transmission module.

Brief description of the drawings

Figure 1A is the schematic perspective view of the spontaneous electrical remote control device according to a preferred embodiment of the present utility model.

Figure 1B is the schematic perspective view of the spontaneous electrical remote control device according to above preferred embodiment of the present utility model.

Fig. 2 is the explosive decomposition schematic diagram of the spontaneous electrical remote control device according to above preferred embodiment of the present utility model.

Fig. 3 is the schematic perspective view according to kinetic energy generator in above preferred embodiment of the present utility model.

Fig. 4 is the explosive decomposition schematic diagram according to kinetic energy generator in above preferred embodiment of the present utility model.

Fig. 5 is the schematic perspective view according to kinetic energy generator in above preferred embodiment of the present utility model.

Fig. 6 is the schematic perspective view according to kinetic energy generator in above preferred embodiment of the present utility model.

Fig. 7 is the schematic cross-sectional view according to kinetic energy generator in above preferred embodiment of the present utility model.

Fig. 8 is the schematic cross-sectional view according to kinetic energy generator in above preferred embodiment of the present utility model.

Fig. 9 is the schematic cross-section according to kinetic energy generator in above preferred embodiment of the present utility model.

Figure 10 A and Figure 10 B are the electricity generating principles according to a kinetic energy generator in above preferred embodiment of the present utility model Schematic diagram.

Figure 11 is the side schematic view of the spontaneous electrical remote control device according to above preferred embodiment of the present utility model.

Figure 12 is the operation chart of the spontaneous electrical remote control device according to above preferred embodiment of the present utility model.

Button is disclosed in Figure 13 to be pressed and generate during being released electric energy twice.

Figure 14 A are the structural representations of the controller of the spontaneous electrical remote control device according to above preferred embodiment of the present utility model Figure.

Figure 14 B are the logical flow charts in the spontaneous electrical remote control device according to above preferred embodiment of the present utility model.

Figure 15 show radio transmitter system in the spontaneous electrical remote control device of above preferred embodiment of the present utility model Composition figure.

Embodiment

Describe to be used to disclose the utility model so that those skilled in the art can realize the utility model below.Retouch below Preferred embodiment in stating is only used as citing, it may occur to persons skilled in the art that other obvious modifications.Retouched following The general principle of the present utility model defined in stating can apply to other embodiments, deformation program, improvement project, etc. Tongfang Case and the other technologies scheme without departing from spirit and scope of the present utility model.

It will be understood by those skilled in the art that in exposure of the present utility model, term " longitudinal direction ", " transverse direction ", " on ", " under ", "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom " " interior ", the orientation of the instruction such as " outer " or position close System is to be based on orientation shown in the drawings or position relationship, and it is for only for ease of description the utility model and simplified and describes, without It is that instruction or the signified device of hint or element must have specific orientation, with specific azimuth configuration and operation, therefore on Term is stated it is not intended that to limitation of the present utility model.

It is noted that term " one " should be understood " at least one " or " one or more ", i.e., in one embodiment In, the quantity of an element can be one, and in a further embodiment, the quantity of the element can be it is multiple, therefore, art Language " one " is it is not intended that limitation to quantity.

As Figure 1A to Figure 15 show a preferred embodiment of of the present utility model one spontaneous electrical remote control device.Specifically, institute Stating spontaneous electrical remote control device includes a box body 10, a key device 20, a controller 30 and a kinetic energy generator 40.The box body 10 include a fixed cover 11 and a movable lower cover 12.The fixed cover 11 and the movable lower cover 12 can be arranged in described The opposite sides of box body 10, such as top cover and bottom respectively as the box body 10.

In this embodiment of the present utility model, the movable lower cover 12 can be as under the spontaneous electrical remote control device Lid, and an accommodating chamber 13 is collectively forming as the fixed cover 11 of upper lid, the key device 20 includes one or more Button 21, it can coordinate with the controller 30 so as to complete command information collection, and the kinetic energy generator 40 can be in institute An at least induced current is produced under the driving effect for stating movable lower cover 12, to supply the controller 30 so as to the controller 30 It can launch an at least remote signal under electric energy supply.In this embodiment, controller 30 and the kinetic energy hair Motor 40 may be contained within the accommodating chamber 13.

More specifically, the controller 30 is the circuit board arrangement of integrated multiple circuit modules, it includes one or more Button electrode 31, a coding module 32, a wireless signal transmission source 33, and a shaping circuit 34.Wherein described kinetic energy generator 40 induced current produced will correspond to a certain button electricity after the shaping circuit 34 for the coding module 32 The ammonium key instruction of pole 31 is sent to via the wireless signal transmission source 33 needs the electrical equipment of remote control.

Multiple buttons 21 that the key device 20 includes can be multiple buttons 21 independent mutually, or in this practicality In this new embodiment, the key device 20 also includes a finger-board 22, and it is integrally formed with multiple buttons 21, So as to which the key device 20 of the present utility model can form the key board of an entirety.Each button 21 is pressed including one Splenium and the conductive part for being arranged at the press section, such as it is interior be embedded in as described in press section or as described in being coated on press section surface. The press section can be made with flexible material, as silica gel material is made, so as to ensure the comfort level of operator's pressing.The conduction Portion is used for turning on the electroplax 31 of the corresponding controller 30, so as to being suitable conductive material such as conductive rubber material Material.The fixed cover 11 has multiple key slots 111 matched with each button 21 press section in top surface.

The key device 20 fits in the fixed cover 11, and the press section of each button 21 is from corresponding institute State in key slot 11 and protrude, be easy to operating personnel to carry out push action.The contact point of the conductive part of each button 21 is set The back side of the press section is placed in, and is matched relatively with the corresponding button electrode 31 on the controller 30, is easy to conduction. That is, when operating personnel press the press section of each button 21, the institute of the conductive part and the controller 30 State button correspondence button electrode 31 to match contact and turn on, when operating personnel unclamp the silica gel portion 211, what is be pressed is described Button 21 recovers initial position, that is to say, that during first beginning and end pressing, and the conductive part does not connect with the correspondence button electrode 31 Touch.When the button 21 is pressed, corresponding button on the conductive part and the controller 30 of the button 21 Electrode 31 contacts conduction, and the coding module 32 sends the control instruction corresponding with the button 21, the wireless signal hair Penetrate source 33 and receive the corresponding control instruction that the coding module 32 is sent, remote signal is sent, to control a remote appliance.Can With understanding, the structure of above-mentioned key device 20 is only used as citing without limiting the utility model, as long as it is constructed to be permeable to It is pressed and coordinates with the controller 30 acquisition function for completing command information.

It is understood that the wireless signal transmission source 33 can various can realize the wireless of wireless signal transmission Radiating circuit or device, such as amplitude shift keying circuit (ASK), FS keying circuit (FSK), phase-shift keying (PSK) circuit (PSK) are contour Frequency radio transmitter, can be RFID radio-frequency modules, can be mobile communication module, can be bluetooth communication module, WIFI The wireless communication modules such as communication module, Z-Wave communication modules, ZigBee communication modules, or can be infrared transmission module such as Infrared-emitting diode.As long as i.e. described wireless signal transmission source 33 can realize the emission function of wireless remote control signals, The utility model is not so limited in this respect.

It is noted that in this embodiment of the present utility model, in infrared emitting mode as an example.I.e. originally Utility model proposes a kind of passive and wireless remote control of infrared remote control, the knot of the remote control of the present utility model initiatively Structure can adapt to the multikey arrangement of IR remote controller, such as control of the remote control applications of the present utility model to television set When, these buttons 21 correspondence connect be complete such as power switch, channel increase and decrease selection, volume plus-minus selection, numeral input, Show the circuit of the control instructions such as menu.Such as remote control applications of the present utility model to air-conditioning control when, these are pressed What the correspondence of key 21 was connected is the electricity for completing the control instructions such as power switch, model selection, air force selection, temperature selection Road.The remote control applications of the present utility model to intelligent electric appliance system such as intelligent domestic system control when, the utility model These buttons 21 of the remote control can correspond to that connect is to complete different electrical equipment such as television set, air-conditioning, sound equipment, smart windows The power on of the household electrical appliances such as curtain, illuminating lamp and the circuit of control.

The box body 10 is additionally provided with window 14, and the right edge in a certain side of fixed cover 11 such as Fig. 1 is also as described The window 14 in the wireless signal transmission source 33 of infrared-emitting diode, the infrared emission two are embodied as with correspondence Pole pipe position is corresponding with the window 14, for transmitting infrared remote-controlled signal to remote appliance.

In this embodiment of the present utility model, the fixed cover 11 be used for the button 21 arrangement, i.e., each The press section of the button 21 protrudes from the top surface of the fixed cover 11, for the convenient pressing button of operator 21.And the movable lower cover 12 be used for start the kinetic energy generator 40, i.e., described movable lower cover 12 in depressed operation, It can drive the kinetic energy generator 40 that mechanical energy is changed into electric energy, to provide electric energy to the controller 30.So as to this reality With in this new embodiment, the collection of key command information and the generation of electric energy are independently carried out, so as to convenience originally The arrangement of multiple buttons of the remote control of utility model.I.e. in the prior art, it is necessary to drive hair while pressing keys Electric installation generates electricity, so as to be not easily accomplished more strong arrangement, can only so be implemented as arranging the passive of simple switch key Wireless switching, plays the function of opening and closing electrical equipment, and can not be as remote control of the present utility model, and it can not only be realized out Function is closed, above-mentioned diversified distant control function can also be realized.

It is an embodiment of the kinetic energy generator 40 as shown in Figures 3 to 12, discloses the kinetic energy generator 40 One of which structure, mechanical energy can be converted into electric energy by it when being driven, to provide electric energy to the controller 30.For example Can be piezo-electric effect generator, induction generator etc..In this implementation, as an example, the kinetic energy generator 40 Including a magnetic group 42, a coil 43 and a center pillar 44.The magnetic group 42 includes a magnet 421 and positioned at the phase of magnet 421 Anti- both sides form two magnetic conductive boards 422 and 423 of opposite magnetic pole, that is, push up magnetic conductive board 422 and bottom magnetic conductive board 423, and two institutes Formation magnetic gap 424 between magnetic conductive board is stated, one end of the center pillar 44 extends into the magnetic gap 424.The coil 43 is set Put around the center pillar 44, and the coil 43 is electrically connected to the controller 30, wherein the center pillar 44, it can be with Implement into magnetic conductive board such as iron core, and can alternately contact two magnetic conductive boards 422 and 423, so that described in The magnetic induction line direction of coil 43 changes, so as to induced current be produced in the coil 43, so that the kinetic energy generator 40 It can be provided for the controller 30 under electric energy, and the power supply shaping operation of the shaping circuit 34 through the controller 30 It is supplied to the coding module 32 and the wireless signal transmission source 33 to carry out the operation of signal transmitting.

It is understood that the magnetic group 42 is fixed, and the center pillar 44 can be driven and go alternately to contact two The magnetic conductive board 422 and 423.Or the center pillar 44 is fixed, the magnetic group 42 makes two magnetic conductive boards by driving movement 422 and 423 contact with the center pillar 44 respectively, so that producing institute in the coil 43 being arranged on around the center pillar 44 State induced current.The coil 43 can be directly sleeved on the center pillar 44 or the coil 43 is sheathed on a line Ring framework, the coil rack is sheathed on the center pillar 44 again.

In this preferred embodiment of the present utility model, the kinetic energy generator also includes a magnetic conduction container 41.It is described Coil 43 is arranged in a magnetic conduction chamber 410 of the magnetic conduction container 41 formation, the magnetic group 42 in the magnetic conduction container 41 one Side carries out shift reciprocately, so that mechanical kinetic energy is converted into electric energy.More specifically, the magnetic conduction container 41 may be embodied as one Magnetic conductive shell, the center pillar 44 is located in the magnetic conductive shell, and the center pillar 12 includes permeability magnetic material simultaneously with the magnetic conductive shell And mutually assemble or be integrally formed, to improve magnetic conduction efficiency, the coil 43 is arranged at the inside of the magnetic conductive shell, i.e., described to lead In magnetic cavity 410, and it is surrounded on the center pillar 44.The magnetic conductive shell is in addition to having one side to have an opening 411, other sides If other four sides or five sides can be permeability magnetic material shielding.That is, the magnetic conduction container 41 forms phase To the magnetic conduction container of closing, the coil 43 is accommodated in the magnetic conduction container, and the opening 411 is embodied as magnetic group envelope Mouthful.So, when the magnetic group 20 is used to seal the opening 411, the coil 30 is completely covered by magnetic induction line, so as to subtract The leakage field of few whole magnetic circuit system.In other words, in this embodiment, the closing of the formation of magnetic conduction container 41 relative closure Formula magnetic conduction container, so as to reduce leakage field.

The magnetic group 42 includes the magnet 421, the top magnetic conductive board 422 and the bottom magnetic conductive board 423, the magnet 421 are arranged between the top magnetic conductive board 422 and the bottom magnetic conductive board 423.The top magnetic conductive board 422 and the bottom magnetic conductive board 423 inside that the magnetic conduction chamber 410 is each placed in one end, and the top magnetic conductive board 422 and the bottom magnetic conductive board 423 Each there is the part protruded relative to the magnet 421, and form between the part of protrusion the magnetic gap 424, institute The outboard end for stating center pillar 44 extends into the magnetic gap 424.Between the top magnetic conductive board 422 and the bottom magnetic conductive board 423 Width is magnetic gap width.It is understood that the top magnetic conductive board 422 and each own permeability magnetic material of the bottom magnetic conductive board 423 It is made, or Surface coating has permeability magnetic material.It is noted that in the operation that the kinetic energy generator 40 produces electric energy, The top magnetic conductive board 422 is alternately contacted in the center pillar and during the bottom magnetic conductive board 423, the top magnetic conductive board 422 and described Bottom magnetic conductive board 423 can also make through the coil 43 alternately with the top edge of the magnetic conductive shell 411 and bottom along contradicting The direction of magnetic induction line change, so as to produce induced current in the coil 43.Of course, it should be understood that in addition Embodiment in, it is described top magnetic conductive board 422 and the bottom magnetic conductive board 423 can also each be not positioned in the magnetic conduction chamber 410 Internal end, i.e., do not extend into the inside of the magnetic conduction chamber 410.

It is understood that the kinetic energy generator of the present utility model can be it is various mechanical energy can be converted into it is dynamic The device of energy.In this preferred embodiment that the utility model is enumerated, the coil 43 is placed in the interior of the magnetic conduction chamber 411 Portion, has the magnetic group 42 to close sideways, and the coil 43 is able to be covered by magnetic induction line, and such leakage field is minimum, therefore the energy produced Amount is much higher compared to common kinetic energy generator, so there is the kinetic energy generator of the present embodiment higher generating to imitate Rate.

More specifically, the magnetic conduction container 41 can include a top shell 412, two flanks 413 and a drain pan 414, it can be with Mutually assembling or integrally formed.Flank 413 described in two respectively extends from the both sides of the top shell 412, the extension of drain pan 414 connection In flank 413 described in two, one end of the drain pan 414 of the magnetic conduction container 41 stretches out to form a bottom along 4141, the other end Extension forms the center pillar 44 upwardly and outwardly, that is to say, that the center pillar 44 extends one end of the drain pan 414, and with The drain pan 414 is parallel relative, and leaves space between flank 413 described in the two of the magnetic conduction container 41, for the line Circle 43 is sheathed on the center pillar 44.Of course, it should be understood that the center pillar 44 can be assembled in the magnetic conduction container 41, Can otherwise it be integrally formed in the magnetic conduction container 41, the utility model is not so limited in this respect.

In this embodiment of the present utility model, the magnetic conduction container 41 can the magnetic group 42 driven from And the center pillar 44 in the magnetic conduction container 41 is produced relative displacement with the magnetic group 42.The magnetic conduction container 41 can be with The controller 30 is mutually fixedly connected, or is fixedly connected with the box body 10, fixed cover 11 as described in being fixed on.

One end of the top magnetic conductive board 422 stretches out to form a top magnetic conductive board abutment end 4221, the bottom magnetic conductive board 423 One end stretch out to form a bottom magnetic conductive board abutment end 4231, the top magnetic conductive board abutment end 4221 and the bottom magnetic conductive board are supported The inside of the magnetic conduction chamber 410 can be placed in by connecing end 4231.The top magnetic conductive board abutment end 4221 and the bottom magnetic conductive board are abutted Width between end 4231 is magnetic gap width.In the presence of external force, the top magnetic conductive board abutment end 4221 and the bottom magnetic conduction Plate abutment end 4231 is alternately contacted with the top of the magnetic conduction container 41 along 4121 and the bottom along 4141, the center pillar 44 Alternately contact, make through the coil 43 with the bottom magnetic conductive board abutment end 4231 and the top magnetic conductive board abutment end 4221 The direction of magnetic induction line changes, so as to produce induced current in the coil 43.

It is understood that the magnetic conduction container 41 and the magnetic group 42 produce relative displacement, so that the kinetic energy is sent out Motor 40 produces the induced current.Those skilled in the art it is expected that can be that the magnetic conduction container 41 is fixed, The magnetic group 42 produces relative displacement by driving, or the magnetic group 42 is fixed, and the magnetic conduction container 41 is driven and drives institute State center pillar 44 and produce relative displacement, so that the center pillar 44 alternately contacts the bottom magnetic conductive board abutment end 4231 and the top Magnetic conductive board abutment end 4221, so that the coil 43 produces the induced current.

Further, in order that the kinetic energy generator 40 is easier to realize the magnetic group 42 with respect to institute by applying external force The displacement of magnetic conduction container 41 is stated, the kinetic energy generator 40 also includes a swinging mounting 45, and the magnetic group 42 is arranged at the pendulum In dynamic support 45.In example shown in the figure, the magnetic group 42 can be swung up and down, and stroke is determined (for example by magnetic gap width 0.5mm is may be embodied as, but the utility model is not limited thereto).That is, the swinging mounting 45 fixes the magnetic Group 42, make the magnetic group 42 in the range of magnetic gap respectively with it is described top along the 4121, center pillar 44, the bottom along 4141 replace to Connect.In addition, the swinging mounting 45 is additionally operable to hold and consolidates the magnetic group 42.The swinging mounting 45 pivotly with it is described Magnetic conduction container 41 coordinates, so that the swinging mounting 45 can be driven and drive the magnetic group 42 relative to the magnetic conduction container The center pillar 44 in 41 produces displacement.Certainly in other embodiments or the swinging mounting 45 is fixed, institute State magnetic conduction container 41 and displacement is produced by driving.

More specifically, the kinetic energy generator 40 also includes a driving element 46, it is connected to the swinging mounting 45, when When external force acts on the driving element 46, the swinging mounting 45 can be driven.The swinging mounting 45 includes a support Matrix 451, a magnetic group fixed arm group 452 and a swing arm group 453.The driving element 46 is connected to the swinging mounting 45 The rest body 451, it is preferable that the driving element 46 can be integral with the integrated injection molding of swinging mounting 45.Specifically Ground, the driving element 46 may be embodied as shell fragment in this embodiment, and elastic construction can rapidly make the swing branch Frame produces displacement.That is, the shell fragment is connected to the rest body 451 in the present embodiment.The shell fragment 41 is also used To increase potential energy, accelerate the movement velocity of the magnetic group 42 of the kinetic energy generator 40.

The magnetic group fixed arm group 452 each extends internally and and the branch from the two ends of the rest body 451 of U-shaped The one magnetic group fixing groove 454 of formation of frame matrix 451.The top magnetic conductive board 422, the bottom magnetic conductive board 423 and the institute of the magnetic group 42 State and be arranged at after magnet 421 is mutually assembled in the magnetic group fixing groove 454, and the magnetic group fixing groove 454 is towards the magnetic conduction The center pillar 44 in container 41 has perforate 455, and the magnetic gap 44 of the magnetic group 42 is extended into for the center pillar 44 It is interior.It is noted that each magnetic group fixed arm group 452 is further convexly equipped with an abutment end dowel 4521, for dividing Not Wen Gu the top magnetic conductive board 422 the top magnetic conduction abutment end 4221 and the bottom magnetic conduction of the bottom magnetic conductive board 423 support End 4231 is connect, the magnetic group 42 is more securely arranged in the magnetic group fixing groove 454.It is understood that described Swinging mounting 45 can have other to form fixing groove to fix the structure of the magnetic group 42.

The swing arm group 453 further stretches out from each rest body 451 and had on the inside of each comfortable end There is a rotary shaft 4531, correspondingly, two flanks 413 of the magnetic conduction container 41 are respectively provided with a rotary axis groove 4131.Each institute State rotary shaft 4531 to be positioned in corresponding each rotary axis groove 4131, so that the swinging mounting 45 surrounds the rotary shaft 4531 swing, thus the swinging mounting 45 drive the top of the magnetic group 42 and the magnetic conduction container 41 along 4121, it is described Bottom is alternately abutted along 4141 and the center pillar 44.It is understood that the rotary shaft 4531 and the rotary axis groove 4131 also may be used To be separately positioned on the flank 413 of the magnetic conduction container 41 and the swing arm group 453 of the swinging mounting 45.Ability Field technique personnel are it is understood that the knot that swinging mounting described above 45 and the magnetic conduction container 41 are pivotly connected Structure is also only used as illustrating and being not intended to limit the utility model.

In this embodiment of the present utility model, the coil 43 is arranged at the magnetic conduction chamber of the magnetic conduction container 41 In 410 and it is sleeved on the center pillar 512, the magnetic group 42 is arranged at the magnetic group fixing groove 454 by the swinging mounting 45 Interior, the driving element 46 is connected to the swinging mounting 45, so that the swing of the driving element can make the magnetic group 42 The change in displacement swung, so as to produce induced current in the coil 43, and then the kinetic energy generator 40 for it is described from Raw electrical remote control device provides the power source of electric power.

The kinetic energy generator 40 also includes a reset element 47, and the swinging mounting 45 is driven in the driving element 46 And when driving 42 displacement of magnetic group, the reset element 47 puts aside potential energy, and is putting on the outer of the driving element 46 When power disappears or is reduced to predefined size, the reset element 47 can make the driving element 46 be back to initial position, so that The magnetic group 42 returns to initial position, and the center pillar 44 alternately contacts the top magnetic conductive board 422 and the bottom magnetic conduction again Plate 423, so as to produce another induced current again.In this embodiment i.e. of the present utility model, a circulation Operation, can produce induced current twice.

In this embodiment, it is described to be located at from generating apparatus 40 between the movable lower cover 12 and the controller 30, institute State the one end of reset element 47 and be connected to the driving element 46, the other end is fixed on the controller 30, or the other end is fixed In the box body 10, the inner surface of fixed cover 11 as described in being fixed on.The reset element 47 may be embodied as it is various can Potential energy, automatically reset element, such as shell fragment, compression spring, torsion spring when stress revocation or reduction are put aside in stress.

The top side of magnetic conduction container 41 can also further include two pins 415, and the two ends of the coil 43 can be distinguished The pin 415 is positioned at, and is further reconnected in the shaping circuit 34 of the controller 30, it is so described dynamic The electric energy that energy generator 40 is produced is able to be supplied to the controller 30.

In the utility model this embodiment, the movable lower cover 12 is Multidirectional motion, can be with top to bottom, left and right, front and rear Swing slightly, stroke about 1.5mm or more fractional value.Specifically, the movable lower cover 12 includes a movable lower cap body 121, with And one touch element 122, it is arranged at the inner surface of the movable lower cap body 121 raisedly, for compress it is described drive it is first Part 46 is so as to drive the magnetic group 42, and the movable lower cover 12 also includes multiple snap fits 123, four snap fits of such as four sides 123, it is slideably engaged with the fixed cover 11, for fixed and position-limiting action.The inner side shape of fixed cover 11 as described Into the chute 112 for having respective amount, the snap fit 123 is slidably disposed in the chute 112.It is understood that described Snap fit 123 can also be arranged on the fixed cover 11, and the chute 112 is arranged at the movable lower cover 12.The chute 112 can also be arranged on the outer surface of the fixed cover 11, i.e., be located at different from the movable lower cover 12 shown in Figure 11 and 12 The inner side of the fixed cover 11, the movable lower cover 12 can also be located at the outside of the fixed cover 11, so that the work Outside activity of the dynamic lower cover 12 in the fixed cover 11.

In addition, it is noted that as shown in figure 11, the driving element 46 is withstood on the summit of the reset element 47, The initialized location for making the magnetic group 42 be in Figure 10 A, the reset element 47 makes four of the movable lower cover 12 simultaneously The snap fit 123 catches on four chutes 112 of the fixed cover 10, the movable lower cover 12 is located at original state.Also To say, 112 pairs of the chute snap fit 123 correspondingly carry out it is spacing so that the movable lower cover 12 will not be with the fixation Upper lid 10 comes off, and relative displacement can flexibly occur again.

The activation member of the generating operation of the spontaneous electrical remote control device is the driving element 46 (can be embodied as a shell fragment) By the movable lower cover (can be embodied as a lower cover) for the bottom surface for being arranged in the spontaneous electrical remote control device promotes.In prior art In passive and wireless switch, button should press motion, also go to contradict conductive rubber, action complexity, it is impossible to arrange more Button.And the spontaneous electrical remote control device of the present utility model separates two parts, that is to say, that motion parts are the activity Lower cover 12 is that the two-part function of the key device 20 is separated with key information collecting part, is not interfere with each other, and is worked independently, together When operation it is coherent.It is noted that the movable lower cover 12 can also be set to a part for lower cover, such as only corresponding key area Size.

It is the electricity generating principle schematic diagram of the kinetic energy generator 40 as shown in figs. 10 a and 10b.Arrow is carried wherein in figure The dotted line of head is expressed as the direction of magnetic induction line.It is as shown in Figure 10 A the original state assumed, in original state, the magnet The top magnetic conductive board abutment end 4221 of the top magnetic conductive board 422 of 421 N poles connection is abutted against with the center pillar 44, simultaneously The bottom magnetic conductive board abutment end 4231 of the bottom magnetic conductive board 423 being connected with the S poles of the magnet 421 and the bottom are along 4141 Abut against.Now magnetic induction line is stable state, without generation induced current in the coil 43.As shown in Figure 10 B, if institute State driving element 45 to be driven by the movable lower cover 12 and make to move up the magnetic group 42, make and the top magnetic conductive board abutment end 4221 abut against with the top along 4121.Simultaneously the bottom magnetic conductive board abutment end 4231 that be connected with the S poles of the magnet 421 and The center pillar 44 is abutted against.It will be appreciated by persons skilled in the art that the orientation arrangement of above-mentioned N poles and S poles is also only used as lifting Example and be not intended to limit the utility model.Among mobile process, the direction through the magnetic induction line of the coil 43 is changed Become, this quickly changes speed, the institute for the coil 43 is produced induced current, the size of electric current and the displacement of magnetic group 42 State the parameters such as the number of turns, the permeability of permeability magnetic material, leakage field rate, the magnetic saturation intensity of coil 43 directly related.

The calculation formula of induced electromotive force is as follows：

E=-n* ΔΦs/Δ t

In formula：E is induced electromotive force, and n is the number of turn of coil, and ΔΦ/Δ t is the rate of change of magnetic flux.

And then, the kinetic energy generator 40 provides the power source of electric power for the spontaneous electrical remote control device.In addition, putting on It is described under the reset response of the reset element 47 when the external force of the movable lower cover 12 disappears or is decreased to predefined size Magnetic group 42 is back to Figure 10 A position from Figure 10 B position, so as to there occurs again through the direction of the magnetic induction line of the coil 43 Change, this, which quickly changes, makes the coil 43 produce induced current again.

The process that an operating personnel operate the spontaneous electrical remote control device is disclosed as shown in figure 12：

The button 21 is pressed, the conductive part (being embodied as conductive rubber) is turned on the corresponding institute of the controller 30 Button electrode 31 is stated, that the pressing force f that the button 21 needs is about numerically F1=0.2N.

The shake-up element 122 of the movable lower cover 12 is supported by the reset element 47, and F2=2- is needed during pressing 3N power, wherein F1 ＜ F2.

Operating personnel begin to use remote control, due to holding the thumb pressing institute of operating personnel in the effect of power, Figure 12 Button 21 is stated, the movable lower cover 12 is pushed in remaining four sensing centre of the palm；, can also be according to operating personnel during certain practical operation Custom take other modes, forefinger pressing as described in button 21, other fingers be used for push the movable lower cover 12.

When f is more than 0.2N, the stroke of the button 21 reaches terminal, by the button electrode on the controller 30 31 conductings in advance, but now, the controller 30 also without electricity, turn in advance the button electrode 31 be for that will be powered after Transmitting is carried out corresponding instruction and prepared；Each button 21 has different instructions, and this instruction is by the coding module 32 In encoder produce.

When putting on the power of shake-up element 122 of the movable lower cover 12 more than 3N, the movable distalmost end of lower cover 12 About 1.5mm (this embodiment of the present utility model is not limited thereto by taking 1.5mm as an example) can be sunk into, it is described to touch Element 122 withstands the stroke of driving element 46 and reaches 0.75mm.

The driving element 46 drives the magnetic group 42 to move, the displacement of the magnetic group 42, causes the center pillar 44 to replace Ground contacts the top magnetic conductive board 422 and the bottom magnetic conductive board 423 of the magnetic group 42, so as to produce electricity of inducting in the coil 43 Stream.

The electric current that the coil 43 is produced can be carried after the shaping circuit 34 of the controller 30 for coding circuit Voltage supplied is about 2V, the direct current energy that the duration is about 10ms.

Now, circuit part obtains electric energy, starts working, the encoder of the coding module 32 can be by the institute pressed in advance State the instruction issue remote signal of the button electrode 31 corresponding at button 21.

Within 10ms time, wireless signal transmission is finished, now, and the stroke that the movable lower cover 12 is inwardly moved is arrived Position, the hand of operating personnel still keeps grip, thus the state of the magnetic group 42 keeps temporarily static, the electric energy of inducting previously produced Also it is exhausted, circuit is in power failure state again.

Now, if the hand for holding the spontaneous electrical remote control device unclamps, under the thrust of the reset element 47, the work Dynamic lower cover 12 starts the outside reset towards the spontaneous electrical remote control device, and the shake-up element 122 is retreated with the movable lower cover 12.

The reset element 47 promotes the driving element 45 and the shake-up element 122 towards the spontaneous electrical remote control device Outside resets, and causes the magnetic group 42 to be returned to original initial position (Figure 10 A), therefore, can be in the coil 43 again Produce an induced current.

The induced current produced again can make circuit work on power 10ms again, and launch corresponding signal and (for example unclamp letter Number) instruction.

Press signal of transmitting, unclamp signal of transmitting, signal twice can be launched altogether by one-touch.By distant The electrical equipment of control can be designed as only reception first time signal and be carried out correspondence control operation, or only receive second of signal to hold Row correspondence control operation, or signal all receives to perform correspondence control operation twice.

It is noted that the F1 and F2 are defined as characteristic value, F1 is electric to make conductive rubber turn on controller button Extremely required minimum force value, F2 then presses the driving element 46 for the shake-up element 122 makes the magnetic group 42 be led with described The center pillar 44 in magnetic condenser 41 abuts required minimum force value, and F2>F1.Therefore, in step is unclamped, because of characteristic value F2 >When f is decreased under F2 but is more than F1 in F1, release process, the movable lower cover 12 is retreated but button does not unclamp, and correspondence is pressed Key electrode still can be at pre-on state.In addition, it is necessary to, it is noted that the numerical value of the design parameter occurred during aforesaid operations All it is only used as illustrating and being not intended to limit the utility model, in actual applications can designed, designed as needed.

In addition, the button operation of the button 21 for the key device 20 and pressing for the movable lower cover 12 Press operation is two kinds of independent operations, and it can be carried out simultaneously；Can also be, for the button 21 of the key device 20 Button operation preceding, and then carry out the pressing operation for the movable lower cover 12；Can also be, under the activity The pressing operation of lid 12 carries out the button operation of the button 21 for the key device 20 preceding, then, then loose again The movable lower cover 12 is opened, second of induced current can be produced when unclamping the movable lower cover 12, so as to launch controlled in wireless Signal.

In this preferred embodiment of the present utility model, any position of the outer surface of the movable lower cover 12 can be with It is pressed, as long as hand presses any position of the movable outer surface of lower cover 12, can contradicts the shake-up element 122 described Driving element 46 is to be subjected to displacement, and the displacement of the driving element 46 can drive the magnetic group 42 to be subjected to displacement, and then passes through institute The polarity for stating the magnetic induction line of coil 43 changes, so as to produce induced current in the coil 43.

It is noted that as shown in figure 13, signal can realize critical function twice for transmitting, such as stepless-adjustment volume, bright The continuous variables such as degree.

More specifically, for general demand for control, transmitting is once just much of that, by once sending out once, does not have completely It is necessary to be sent out again once when upspringing and resetting.But, there is such situation in the straighforward operation of daily electrical equipment, such as to electricity The projects such as the adjustment of adjustment, brightness depending on machine volume, if for remote control with traditional use battery, as long as pressing ＆ hold not Loose one's grip, remote control just ceaselessly firing order, volume will be gradually changed, and this is a lasting variable quantity；It is spontaneous electric distant Control device can only just have in a flash electric energy what is pressed, by a signal is once sent out, if pressing primary key volume change little by little, such as The scope of fruit adjustment is relatively more, ceaselessly button, and hand can be relatively more tired.Therefore tradition is simulated by the time difference of twice emitting distant The continuous key-press transmitting of device is controlled, to realize stepless changing volume and brightness.

That is, it is noted that as stepless changing sound can be realized using the time difference of twice emitting in Figure 13 Amount and brightness etc. need continuously adjustable variable to operate.

Further, in general button operation, push button with the time for unclamping button not over 1s clocks, as electricity Generally all it is to press just to unclamp depending on remote control in channel selection operation, process surpasses generally in 0.2-0.5s if pushing button the time Spend 1 second not loose one's grip still, then it is to be operated continuously that the MCU of receiving terminal, which is considered as user, carry out continuous variable tune Whole program, such as：When adjusting volume and becoming big, if pinning the volume button time more than 1s, now, receiving terminal have received when pressing Instruction, the instruction of release, so, MCU (Microcontroller Unit, microcontroller are not still received after waiting one second Unit) continuously volume will be increased, this location of instruction is unclamped until receiving button, passive wireless technologies are so achieved that Under continuous variable adjustment control.Wherein, logic chart is as shown in Figure 14B.

As shown in figure 15 figure is constituted for radio transmitter system.When the button 21 is pressed, the button 21 contact in corresponding button electrode 31, and the electric current that the coil 43 of the kinetic energy generator 40 is produced is electric by power supply shaping Lu Houke provides direct current energy for coding circuit, so that the circuit part of the controller 30 obtains electric energy, the coding module 32 send with the corresponding wireless control directives of the button 21 and launch corresponding remote control letter by the wireless signal transmission source 33 Number such as infrared radio signal, to control a remote appliance.

Therefore, so that infrared signal is launched as an example, the infrared radio signal of spontaneous electrical remote control device of the present utility model was launched Journey is as follows：An at least button 21 for the spontaneous electrical remote control device is controlled by a pressing, the conductive part conducting one of the button 21 The corresponding button electrode 31 of device processed；A salient point (the shake-up element 122) for the movable lower cover 12 of the one of the spontaneous electrical remote control device It is depressed；The back-moving spring (reset element 47) of the salient point is supported to drive a shell fragment (driving element 46), institute Stating shell fragment drives the magnetic group 42 of the kinetic energy generator to move, and the displacement of the magnetic group 42 causes to produce in the coil 43 Induced current；The electric current that the coil 43 is produced is the coding module 32 after the shaping circuit 34 of the controller Direct current energy is provided；The button electrode being switched on according to correspondence can be sent phase by the encoder of the coding module 32 The instruction answered；One infrared-emitting diode (the wireless signal transmission source 33) receives the remote control letter for instructing and launching infrared waves Number；The state of the magnetic group 42 keeps temporarily static, and the power consumption of inducting previously produced is finished, and circuit is in dead electricity shape again State；When the movable lower cover 12 is released, the back-moving spring promotes the shell fragment and the salient point to reset；The quilt of magnetic group 42 The shell fragment, which drives, to be occurred to produce induced current again in relative displacement, the coil 43；The electric current that the coil 43 is produced is supplied The controller should be given；The coding module of the controller launches infrared waves again via the infrared-emitting diode Remote signal.

In addition, continuous variable signal control method of the present utility model, there is a remote control part to be the utility model for it Spontaneous the electrical remote control device and a remote control electrical appliance a reception processing device part, the continuous variable signal control process is such as Under：An at least button 21 for the remote control is depressed；The coding module 32 of the controller 30 of the remote control The circuit of the key command of the correspondence button 21 is in an ON state；The movable lower cover 12 of the remote control is depressed And trigger the generation of kinetic energy generator 40 electric energy；The controller 30 of the remote control is under supply of electric power according to corresponding Key command carries out coded excitation infrared signal；The reception processing device part receives decoding；The reception processing device part exists Judge whether to receive in setting time to instruct twice, if receiving instruction twice, the reception processing device part is done continuously Keystroke handling, so as to realize the control of continuous variable signal.It is understood that the reception processing device part can according to Do not received in above-mentioned setting time and instruct twice and judge to do single keys presses processing.

It is noted that in this preferred embodiment of the present utility model, the signal hair in the spontaneous electrical remote control device Penetrate source for convenience of description, use infrared emission mode exemplified by illustrate, but it will be appreciated by those skilled in the art that That the signal emitting-source in the utility model is not limited to infrared emission mode, can also be bluetooth, WIFI etc. other Rational embodiment, the utility model is not limited thereto.

Correspondingly, the utility model provides a kind of wireless signal transmitting method of spontaneous electrical remote control device, and it includes as follows Step：In response to a button operation and a generating pressing operation independent in addition, the spontaneous spontaneous electricity of electrical remote control device is simultaneously launched Go out a wireless control signal of the correspondence button operation.

More specifically, for example in the utility model, the wireless signal transmitting method further comprises the following steps：

In the button operation：When the key device 20 is when at least a button 21 is pressed, the controller 30 The control instruction circuit of the correspondence button 21 is switched on；

In the generating pressing operation：When the movable lower cover 12 is pressed, the kinetic energy generator 40 is driven Mechanical energy is converted into electric energy；And

The controller 30 launches the wireless of the correspondence button 21 under the electric energy supply that the kinetic energy generator is provided Control signal.

It is understood that the button operation refers to the various behaviour that key command information gathering is completed by button Make.Other any can realize that the generating pressing operation can be independently of outside the button operation drives described move Can generator 40 kinetic energy generator 40 is performed the operation of spontaneous Electricity Functional, be not limited solely to of the present utility model enumerate Embodiment.

Correspondingly, in the button operation, the button 21 being pressed is by the corresponding button of the controller 30 Electrode 31 is connected into circuit, and the coding that the coding module 32 of the controller 30 is preset with the correspondence button electrode 31 refers to Order.

In the generating pressing operation, under the driving effect of the movable lower cover 12, cause the kinetic energy generator 40 The center pillar 44 alternately contact the top magnetic conductive board 422 and the bottom magnetic conductive board 423 of the magnetic group 42, be arranged on described The coil 42 around center pillar 44 produces an induced current.Correspondingly, when the movable lower cover 12 is pressed, institute can be caused State magnetic group 42 to be moved by driving, the center pillar 44 can also be caused to move.

More specifically, in this specific example of the present utility model, the shake-up element 122 of the movable lower cover 12 The driving element 46 is compressed, the driving element 46 drives the swinging mounting 45 to move, and the magnetic group 42 is correspondingly moved, So described center pillar 44 alternately contacts the bottom magnetic conductive board 423 and the top magnetic conductive board 422 of the magnetic group 42.

In addition, when the shake-up element 122 of the movable lower cover 12 compresses the driving element 46, the reset element 47 produce elastic deformation, and during the movable lower cover 12 being pressed subsequently is unclamped, i.e., when pressing force reduces, institute State reset element 47 from elastic deformation state to recover to original state, so that the center pillar 44 alternately contacts the magnetic again The top magnetic conductive board 422 and the bottom magnetic conductive board 423 of group 42, so as to produce second of induced current.

In wireless signal transmission step, the induced current that the kinetic energy generator 40 is produced passes through the controller The coding module 32 is supplied after the power supply shaping operation of 30 shaping circuit 34, and is connected to the coding module 32 The wireless signal transmission source 33 send the wireless control signal.

It is noted that when the kinetic energy generator 40 is in reset process, if the button 21 being pressed is still So keep when being pressed, and the movable lower cover 12 is when being released, the spontaneous electrical remote control device can send the nothing twice Line control signal.So as to realize the continuous variable control operation of the spontaneous electrical remote control device, or the electrical equipment for Gong being remotely-controlled Selection can be programmed to receive one wireless control signal of any of which and perform corresponding operation.Certainly, length is kept By some button 21, and when sending the wireless control signal twice, the electrical equipment being remotely-controlled can be programmed to correspondence and hold The button of some specific operations of row, such as long-press corresponding power switch, into operation of parameter setting etc..When kinetic energy hair Motor 40 is in reset process, when the button 21 being pressed is fully released, and the spontaneous electrical remote control device can be without again The wireless control signal is sent, the electrical equipment being remotely-controlled can be programmed to selection and receive the institute sent during first time generating operation State wireless control signal and perform corresponding operation.

In addition, the utility model provides a kind of spontaneous method for electrically of spontaneous electrical remote control device, it comprises the following steps：

When the movable lower cover 12 is pressed, the movable lower cover 12 makes the magnetic group 42 and positioned at the magnetic conduction container The center pillar 44 in 41 produces relative displacement with the magnetic group 42, the center pillar 44 is alternately contacted the institute of the magnetic group 42 Top magnetic conductive board 422 and the bottom magnetic conductive board 423 are stated, so that producing sense in the coil 43 being arranged on around the center pillar 44 Raw electric current.Wherein in this embodiment of the present utility model, the coil 43 and the center pillar 44 are located at the magnetic conduction container In 41, the coil 30 is completely covered by magnetic induction line, so as to reduce the leakage field of whole magnetic circuit system, improves whole described spontaneous The generating efficiency of the kinetic energy generator 40 of electrical remote control device.

When the movable lower cover 12 is no longer pressed, the reset response of the reset element 47 hands over the center pillar 44 The bottom magnetic conductive board 423 for the contact magnetic group 42 replaced and the top magnetic conductive board 422, so that being arranged on the center pillar 44 weeks Another induced current is produced in the coil 43 enclosed.

It is understood that in example shown in the utility model, the spontaneous electrical remote control device be configured with one it is described dynamic Energy generator 40, in actual applications, can also be configured with multiple kinetic energy generators 40, and respectively by corresponding described Touch element 122 drive and produce electric energy, and produce electric energy can be integrated into utilize, be supplied to the controller 30 with For launching wireless control signal.

It should be understood by those skilled in the art that the embodiment of the present utility model shown in foregoing description and accompanying drawing is only used as Illustrate and be not intended to limit the utility model.The purpose of this utility model completely and is effectively realized.Work(of the present utility model Energy and structural principle show and illustrated in embodiment, under without departing from the principle, embodiment of the present utility model Can there are any deformation or modification.

Claims

1. a spontaneous electrical remote control device, it is characterised in that including：

Multiple buttons, the fixed cover has multiple key slots, corresponding institute of each described button from the fixed cover Key slot protrusion is stated so that user presses；

Kinetic energy generator；And

Controller, the kinetic energy generator and the controller be located at the accommodating chamber in, button described in wherein at least one by by Press and when the movable lower cover drives the kinetic energy generator mechanical kinetic energy is switched into electric energy, the controller is in the kinetic energy The wireless control signal that the button launched and be pressed under the electric energy supply that generator is provided matches.

2. spontaneous electrical remote control device according to claim 1, wherein the movable lower cover is configured to along the fixation The inner or outer side movement of upper lid.

3. spontaneous electrical remote control device according to claim 2, wherein the fixed cover passes through at least with the movable lower cover One snap fit and at least a chute is slidably engaged.

4. spontaneous electrical remote control device according to claim 3, wherein the fixed cover passes through respectively with the movable lower cover Coordinate positioned at the corresponding chute of four snap fits of four sides and four, and the movable lower cover is configured to It is enough to be moved around with above-below direction.

5. spontaneous electrical remote control device according to claim 1, wherein the kinetic energy generator is piezo-electric effect generator, by Electric energy is produced when being driven to the pressure of the movable lower cover.

6. spontaneous electrical remote control device according to claim 1, wherein the kinetic energy generator includes magnetic group, coil and in Post, wherein the coil is arranged on around the center pillar, the magnetic group includes magnet and the pole positioned at the magnet two opposite sides Property opposite top magnetic conductive board and bottom magnetic conductive board, wherein when the movable lower cover and the fixed cover produce relative displacement, institute The top magnetic conductive board and the bottom magnetic conductive board can alternately be contacted by stating center pillar, so as to be sent out through the magnetic induction line direction of the coil It is raw to change, make to produce induced current in the coil.

7. spontaneous electrical remote control device according to claim 6, wherein having between the top magnetic conductive board and the bottom magnetic conductive board Magnetic gap, one end of the center pillar extends into the magnetic gap, for alternately contacting the top magnetic conductive board and the bottom The inner side of magnetic conductive board.

8. spontaneous electrical remote control device according to claim 7, wherein the magnetic group is fixed, the center pillar by driving it is mobile so that The center pillar alternately contacts the top magnetic conductive board and the bottom magnetic conductive board.

9. spontaneous electrical remote control device according to claim 7, wherein the center pillar is fixed, the magnetic group by driving it is mobile so that The center pillar alternately contacts the top magnetic conductive board and the bottom magnetic conductive board.

10. spontaneous electrical remote control device according to claim 9, wherein the spontaneous electric installation also includes a magnetic conduction container, its Described in center pillar and the coil be located in the magnetic conduction container.

11. spontaneous electrical remote control device according to claim 10, wherein the magnetic conduction container has an opening, the magnetic group envelope Together in the opening.

12. spontaneous electrical remote control device according to claim 10, wherein the magnetic conduction container is fixed on the controller or solid Due to the fixed cover.

13. spontaneous electrical remote control device according to claim 10, wherein the kinetic energy generator also includes swinging mounting, it is described Swinging mounting has magnetic group fixing groove, and with the fixed magnetic group, the swinging mounting and the magnetic conduction container are pivotably connected.

14. spontaneous electrical remote control device according to claim 13, wherein the kinetic energy generator also includes driving element, it connects The swinging mounting is connected to, the movable lower cover includes touching element, and it can act on the driving element, make the swing Support is pivoted, so that the magnetic group produces relative displacement with the center pillar.

15. spontaneous electrical remote control device according to claim 14, wherein the driving element is a shell fragment.

16. spontaneous electrical remote control device according to claim 14, wherein the kinetic energy generator, which also includes at least one, resets member Part, it is connected to the driving element, after the movable lower cover is not pressed, in the reset response of the reset element Under, the swinging mounting and the magnetic group can automatically reset.

17. spontaneous electrical remote control device according to claim 16, wherein the reset element is selected from shell fragment, compression spring and torsion One kind in spring.

18. spontaneous electrical remote control device according to claim 17, wherein described reset element one end is connected to the driving member Part, the other end is connected to the fixed cover.

19. spontaneous electrical remote control device according to claim 15, is fixed wherein the swinging mounting includes rest body, magnetic group Arm group and swing arm group, the magnet fixed arm group each extend internally and and the support base from the two ends of the rest body Body forms the magnetic group fixing groove, and the swing arm group extends out to the two of the magnetic conduction container from the magnetic group fixed arm group Side.

20. spontaneous electrical remote control device according to claim 19, wherein the swing arm group and the magnetic conduction container pass through extremely A few rotary axis groove and a rotary shaft are pivotably connected.

21. spontaneous electrical remote control device according to claim 19, wherein also there is the top magnetic conductive board top magnetic conductive board to abut End, the bottom magnetic conductive board also has a bottom magnetic conductive board abutment end, and the magnetic conduction container has a top edge and a bottom edge, and the top is led Magnetic sheet abutment end and the bottom magnetic conductive board abutment end are extended into the magnetic conduction container, wherein the center pillar alternately contacts institute When stating top magnetic conductive board abutment end and the bottom magnetic conductive board abutment end, the bottom magnetic conductive board abutment end and the top magnetic conductive board abutment end Correspondingly respectively with the bottom edge of the magnetic conduction container and the top along contacting, make the direction generation through the magnetic induction line of the coil Change, so as to produce the induced current in the coil.

22. according to any described spontaneous electrical remote control device in claim 1 to 21, wherein the key press is connected with correspondence Pressing force required for the corresponding key circuit of controller is pressed to start the kinetic energy life less than the movable lower cover The pressing force of electric installation.

23. according to any described spontaneous electrical remote control device in claim 6 to 21, wherein the controller includes group button electricity Pole, coding module, wireless signal transmission source, and shaping circuit, wherein each button electrode is corresponding with each button, and And after the button is pressed, the button electrode is short-circuited, wherein the induced current that the kinetic energy generator is produced After the power supply shaping operation of the shaping circuit, supply the coding module and launch via the wireless signal transmission source The wireless control signal matched with the button that is pressed.

24. spontaneous electrical remote control device according to claim 23, wherein the wireless signal transmission source choosing of the controller From amplitude shift keying circuit, FS keying circuit, phase-shift keying (PSK) circuit, RFID radio-frequency modules, mobile communication module, bluetooth communication mould One kind in block, WIFI communication module, Z-Wave communication modules, ZigBee communication modules and infrared transmission module.