CN201974929U - Self-generating remote controller - Google Patents

Abstract

A self-generating remote controller relates to the electronic technical field, particularly discloses a remote controller, which comprises a remote controller body with a remote control signal emitting function. The remote controller adopts a magnetic circuit power supply which comprises a permanent magnet and a magnetically conductive mechanism, wherein the magnetically conductive mechanism is connected into the magnetic field of the permanent magnet; at least one magnetic circuit is arranged; at least one magnetic circuit penetrates through an inductive coil; the magnetic circuit is provided with a magnetic circuit opening; a magnetic circuit switching component is arranged at the magnetic circuit opening; the magnetic circuit switching component is a magnetically conductive component movably connected with the magnetic circuit opening; and the magnetically conductive component is connected with a key. By triggering the key to drive the magnetically conductive component to move, the magnetic circuit is changed. The magnetically conductive component changes the intensity of the magnetic field penetrating through the magnetic circuit of the inductive coil, so that the inductive coil generates electricity. The inductive coil is provided with an electricity output terminal which is used for outputting generated electricity, so as to power a functional circuit of the remote controller.

Description

The self power generation telepilot

Technical field

The utility model relates to electronic technology field, is specifically related to a kind of telepilot.

Background technology

Telepilot is used widely in people's live and work, for people's live and work brings great convenience.Such as TV remote controller, air-conditioning remote control, fan telepilot, lock telepilot, door telepilot, lamp telepilot, aircraft telepilot or the like.

Prior remote controller mostly is to adopt dry cell power supply.Tend in the use because dry cell does not have electricity, cause control insensitive, even the problem that can't use.In addition, these a large amount of telepilots are consuming a large amount of dry cells every year, have caused very big environmental pressure.

The utility model content

The purpose of this utility model is to provide a kind of self power generation telepilot, to solve the problems of the technologies described above.

The self power generation telepilot comprises that one has the telepilot main body of remote signal emission function, and described telepilot main body comprises a remote-controller function circuit, and described remote-controller function circuit connects a power supply, and described power supply adopts the magnetic circuit power supply;

Described magnetic circuit power supply comprises a permanent magnet, also comprises a magnetic conduction mechanism, and described magnetic conduction mechanism inserts the magnetic field of described permanent magnet, and sets up at least one magnetic circuit;

Also comprise a telefault, at least one described magnetic circuit passes a described telefault;

Be provided with the magnetic circuit switching part that is used to change magnetic circuit magnetic conduction ability at least one described magnetic circuit in the described magnetic conduction mechanism;

Described magnetic circuit is provided with at least one magnetic circuit opening, and described magnetic circuit opening part is provided with described magnetic circuit switching part, and described magnetic circuit switching part is one to be movably connected on the magnetic conductive part of described magnetic circuit opening part; Described magnetic conductive part connects a button.

Drive described magnetic conductive part motion by touching described button, and then change magnetic circuit.Change the magnetic field intensity in the magnetic circuit that passes described telefault by described magnetic conductive part, thereby make in the described telefault and produce electric energy, described telefault is provided with electric energy output end, in order to the electric energy that produced of output, and then provides electric energy for described remote-controller function circuit.

Described button is provided with a key contacts, and the key contacts below is provided with the remote-controller function circuit contact.When pressing button, key contacts is touched the remote-controller function circuit contact and is produced remote signal.

Described telefault connects described remote-controller function circuit by a mu balanced circuit module.So that stable electric energy to be provided.The mu balanced circuit module can comprise the capacitance voltage stabilizing part.

Described telefault connects described remote-controller function circuit by a booster circuit module.When the voltage of described telefault generation hanged down, described booster circuit module was by boosting, to satisfy the power demands of described remote-controller function circuit.

Described permanent magnet is preferably based on the permanent magnet of magnetic steel material, as iron nickel cobalt magnet steel.

Described telefault and described permanent magnet position relative fixed.To reduce fault and simplified structure as far as possible.

Particularly described telefault is fixedlyed connected described magnetic conduction mechanism and described permanent magnet position relative fixed with described magnetic conduction mechanism.Help reducing fault more, simplified structure.

Described magnetic circuit adopts the magnetic conduction magnetic circuit of being made by permeability magnetic material, such as the magnetic conduction magnetic circuit that can adopt soft magnet to make.

Described magnetic conduction mechanism comprises two magnetic circuits, i.e. first magnetic circuit, second magnetic circuit, and described first magnetic circuit is provided with described magnetic circuit opening, i.e. the first magnetic circuit opening; The described first magnetic circuit opening part is provided with i.e. first magnetic conductive part of described magnetic conductive part;

Magnetic resistance when the magnetic resistance on described second magnetic circuit opens wide less than the described first magnetic circuit opening on described first magnetic circuit, and the magnetic resistance on described first magnetic circuit when inserting described first magnetic conductive part of the magnetic resistance on described second magnetic circuit greater than the described first magnetic circuit opening;

In described first magnetic circuit and described second magnetic circuit, at least one described magnetic circuit is provided with described telefault.

When described first magnetic conductive part did not insert the first magnetic circuit opening, the magnetic resistance of first magnetic circuit was bigger with respect to the magnetic resistance of second magnetic circuit, and most of magnetic field is by second magnetic circuit.When described first magnetic conductive part inserted the first magnetic circuit opening, the magnetic resistance of first magnetic circuit was less with respect to the magnetic resistance of second magnetic circuit, and most of magnetic field is by first magnetic circuit.Therefore, when first magnetic conductive part inserts and withdraws from the first magnetic circuit opening, will cause bigger changes of magnetic field, and then cause the changes of magnetic field of passing described telefault, in described telefault, produce than highfield.

All right, described magnetic conduction mechanism comprises two magnetic circuits, i.e. first magnetic circuit, second magnetic circuit, and described first magnetic circuit is provided with described magnetic circuit opening, i.e. the first magnetic circuit opening; Described second magnetic circuit is provided with described magnetic circuit opening, i.e. the second magnetic circuit opening; The described first magnetic circuit opening part is provided with i.e. first magnetic conductive part of described magnetic conductive part; The described second magnetic circuit opening part is provided with i.e. second magnetic conductive part of described magnetic conductive part; In described first magnetic circuit and described second magnetic circuit, at least one described magnetic circuit is provided with described telefault.

Be respectively equipped with described telefault on described first magnetic circuit and described second magnetic circuit.Described telefault can in parallel or series connection.Should consider the relevance when magnetic field changes in two described telefaults during series connection.

Described first magnetic conductive part and the interlock of described second magnetic conductive part, one of them described magnetic conductive part is in the described magnetic circuit opening part magnetic resistance state that reduces the place, or when connecting the described magnetic circuit at place, another described magnetic conductive part is in the described magnetic circuit opening part magnetic resistance state that increases the place, or disconnects the described magnetic circuit at place.

The change amount of magnetic flux in the described telefault helped to improve generating efficiency when described first magnetic conductive part and described second magnetic conductive part by interlock strengthened the switching magnetic circuit.

Described first magnetic circuit and described second magnetic circuit shared one described magnetic conductive part, the first magnetic circuit opening and the second magnetic circuit opening of described magnetic conductive part and described first magnetic circuit and described second magnetic circuit flexibly connect respectively.With simplified structure.

Described magnetic conductive part connects an elasticity reset device, by described elasticity reset device, the described magnetic conductive part of being touched is resetted.

The described first magnetic circuit opening and the second magnetic circuit opening are arranged above and below.Described magnetic conductive part is between the described first magnetic circuit opening and the second magnetic circuit opening, and the wide narrow shape in two ends up and down in described magnetic conductive part journey middle part, and the middle part width is greater than the width of the described first magnetic circuit opening or the second magnetic circuit opening.Make the described magnetic conductive part can to-and-fro movement between the described first magnetic circuit opening and the second magnetic circuit opening, and can be filled into the first magnetic circuit opening or the second magnetic circuit opening makes its adequate closure, and then make the magnetic circuit closure.

Be in series with at least two described magnetic circuit openings on described first magnetic circuit, i.e. at least the first series circuit opening, the second series circuit opening; Be parallel with at least two described magnetic circuit openings on described second magnetic circuit, i.e. at least the first parallel circuits opening, the second parallel circuits opening;

The described first parallel circuits opening is arranged on described first series circuit opening below, is provided with a described magnetic conductive part that is active between described first series circuit opening and the described first parallel circuits opening;

The described second parallel circuits opening is arranged on described second series circuit opening below, is provided with another the described magnetic conductive part that is active between described second series circuit opening and the described second parallel circuits opening;

Two described magnetic conductive parts connect two buttons respectively; Two described buttons are connected with elasticity reset device, and described elasticity reset device resets in the first series circuit opening part and the second series circuit opening part two described magnetic conductive parts.

Touch any one button, even described first magnetic circuit cuts off (or strengthening magnetic resistance), second magnetic circuit is connected (or making the reduction magnetic resistance) simultaneously.By above-mentioned design, pressing two buttons, even during any one button in more a plurality of button, all can produce electric energy.After each button is carried out functional definition, allow to carry out complexity control.

Described magnetic conduction mechanism comprises two F shape magnetic conduction modules, two F shape magnetic conduction modules are staggered relatively, two magnetic poles of described permanent magnet are connected respectively to two F shape magnetic conduction module bottoms, between the middle part projection of two F shape magnetic conduction modules, and constitute described magnetic circuit opening respectively between the upper lobes of two F shape magnetic conduction modules.

Described permanent magnet adopts permanent magnet, and described permanent magnet is clipped in two F shape magnetic conduction module bottoms.For described F shape magnetic conduction module below better is connected with described permanent magnet, can be suitable be out of shape.

Described remote-controller function circuit can be selected radio remote controller functional circuit, Infrared remote controller functional circuit, ultra-sonic remote control device functional circuit or other forms of remote-controller function circuit for use.

Described elasticity reset device adopts an elasticity leather packing, and described elasticity leather packing connects described button, connects described magnetic conductive part by described button.The described button of being touched is resetted, and then described magnetic conductive part is resetted.

The self power generation telepilot also comprises a telepilot shell, and described telepilot shell is surrounded by a magnetic conductive material layer.With the magnetic field that the shielding permanent magnet is provided to the external world.

Description of drawings

Fig. 1 adopts the structural principle synoptic diagram of a magnetic circuit for the magnetic circuit power supply;

Fig. 2 adopts the structural principle synoptic diagram of two magnetic circuits for the magnetic circuit power supply;

Fig. 3 is the structural principle synoptic diagram that first magnetic conductive part and second magnetic conductive part lump together;

Fig. 4 is the magnetic circuit power supply architecture principle schematic that is provided with series circuit opening and parallel circuits opening.

Embodiment

For technological means, creation characteristic that the utility model is realized, reach purpose and effect is easy to understand, below in conjunction with concrete diagram, further set forth the utility model.

With reference to Fig. 1 and Fig. 3, the self power generation telepilot comprises that one has the telepilot main body of remote signal emission function, and the telepilot main body comprises a remote-controller function circuit, and the remote-controller function circuit connects at least one magnetic circuit power supply.The button 250 that also comprises telepilot.The permanent magnet 102 of magnetic circuit power supply adopts permanent magnet, also comprises a magnetic conduction mechanism 202, and magnetic conduction mechanism 202 inserts the magnetic field of permanent magnet, and sets up at least one magnetic circuit.Comprise that also a telefault 300, at least one magnetic circuits pass a telefault 300.Be provided with magnetic conductive part 260 (magnetic circuit switching part) in the magnetic conduction mechanism 202 at least one magnetic circuit, the magnetic field intensity by magnetic conductive part 260 changes in the magnetic circuit that passes telefault 300 produces electric energy thereby make in the telefault 300.The electric energy output end of inductance line .300 connects the electric energy input end of remote-controller function circuit.Magnetic conductive part 260 links with the button 250 of telepilot.Can be respectively the remote-controller function circuit supply by a plurality of magnetic circuit power supplys in the self power generation telepilot.A plurality of magnetic circuit power supplys are connected with button 250 respectively.

When pressing the button 250 of telepilot, drive magnetic conductive part 260 moves, and then changes the magnetic field intensity in the magnetic circuit that passes telefault 300, thereby produces electric energy for the remote-controller function circuit working.By above-mentioned design, can be implemented in the button process and produce electric energy, adopt above-mentioned design after, the self power generation telepilot can not re-use battery or other power supplys.Also can add battery or other power supplys as accessory power supply, so that improve stability.The telepilot main body can be telepilots such as TV remote controller, air-conditioning remote control, fan telepilot, lock telepilot, door telepilot, lamp telepilot, aircraft telepilot.

With further reference to Fig. 1, the structure of magnetic circuit power supply, can also carry out following design:

Comprise a permanent magnet 10, also comprise a magnetic conduction mechanism 20, magnetic conduction mechanism 20 inserts the magnetic field of permanent magnet 10, and sets up at least one magnetic circuit 21.The magnetic field that magnetic conduction mechanism 20 inserts permanent magnets 10 can be directly to contact with permanent magnet 10, also can right and wrong directly contact, and just inserts the magnetic field of permanent magnet 10.The magnetic circuit power supply comprises that also a telefault 30, at least one magnetic circuits 21 pass a telefault 30.Be provided with the magnetic circuit switching part 22 that is used to change magnetic circuit magnetic conduction ability in the magnetic conduction mechanism 20 at least one magnetic circuit 21, the magnetic field intensity by magnetic circuit switching part 22 changes in the magnetic circuit 21 that passes telefault 30 produces electric energy thereby make in the telefault 30.Telefault 30 is provided with electric energy output end 31, in order to export the electric energy that is produced.Magnetic circuit switching part 22 can be one to be movably connected on the magnetic conductive part at magnetic circuit opening 23 places, can also be one to be subjected to the electromagnetic conversion parts of electric field controls.Telefault 30 also connects a mu balanced circuit, so that output voltage is suitable, and stable electric energy.Telefault 30 also connects a booster circuit, so that improve the magnitude of voltage of output electric energy.Telefault 30 can be the enameled wire that directly is wrapped on the magnetic circuit 21.

Provide a kind of by above-mentioned design and change the magnetic field of passing through telefault 30, and then produce the mode of electric energy by switching or adjusting magnetic circuit 21.Be different from the form of existing generator by the cutting magnetic induction line generating.Have characteristics simple in structure, that cost is low with respect to existing generation mode, can be applied to the occasion that existing generator is not easy to use.

Telefault 30 and permanent magnet 10 position relative fixed.With the minimizing relative motion, and then to reduce fault and simplified structure as far as possible.Particularly telefault 30 is fixedlyed connected with magnetic conduction mechanism 20, magnetic conduction mechanism 20 and permanent magnet 10 position relative fixed.Help reducing fault more, simplified structure.Concretely, can also be that telefault 30 is fixedlyed connected with magnetic circuit 21, magnetic circuit 21 and permanent magnet 10 position relative fixed.Help reducing fault more, simplified structure.

The self power generation telepilot also comprises a telepilot shell, and described telepilot shell is with a magnetic conductive material layer, and magnetic conductive material layer constitutes a magnetic force shielding case.Magnetic conductive material layer wraps in outside permanent magnet 10 and the magnetic conduction mechanism 20.To avoid magnetic force to cause interference to external world.Magnetic conductive material layer is iron layer, silicon steel layer or other magnetic conductive material layers.

In the magnetic conduction mechanism 20 that permanent magnet 10 is connected, a plurality of magnetic circuits 21 can be arranged, and a plurality of magnetic circuit switching parts 22 can be arranged in a plurality of magnetic circuit 21.Can realize that multiple magnetic circuit switches or adjustment modes by a plurality of magnetic circuit switching parts 22 in the magnetic circuit power supply.Permanent magnet 10 can also connect a plurality of magnetic conduction mechanism 20.

Specific embodiment 1:

With reference to Fig. 1, magnetic circuit 21 is provided with a magnetic circuit opening 23.Magnetic circuit opening 23 places are provided with magnetic circuit switching part 22.Magnetic circuit switching part 22 is one to be movably connected on the magnetic conductive part at magnetic circuit opening 23 places.By the mobile purpose that changes magnetic circuit 21 situations that reaches of magnetic conductive part, as changing the magnetic resistance of magnetic circuit 21.Permanent magnet 10 can adopt permanent magnet or electrical permanent-magnet, and preferred permanent magnet is preferably based on the permanent magnet of magnetic steel material especially.Magnetic circuit 21 adopts the magnetic conduction magnetic circuit of being made by permeability magnetic material 21.Permeability magnetic material can be selected soft magnet or siliconized plate for use.

Specific embodiment 2:

With reference to Fig. 2, magnetic conduction mechanism 201 comprises two magnetic circuits, and promptly first magnetic circuit 211, second magnetic circuit, 212, the first magnetic circuits 211 are provided with the magnetic circuit opening, i.e. the first magnetic circuit opening 231.The first magnetic circuit opening, 231 places are provided with i.e. first magnetic conductive part 221 of magnetic conductive part.Magnetic resistance when the magnetic resistance on second magnetic circuit 212 opens wide less than the first magnetic circuit opening 231 on first magnetic circuit 211, and the magnetic resistance on first magnetic circuit 211 when inserting first magnetic conductive part 221 of the magnetic resistance on second magnetic circuit 212 greater than the first magnetic circuit opening 231.In first magnetic circuit 211 and second magnetic circuit 212, at least one magnetic circuit is provided with telefault 301 and/or telefault 302.

When first magnetic conductive part 221 did not insert the first magnetic circuit opening 231, the magnetic resistance of first magnetic circuit 211 was bigger with respect to the magnetic resistance of second magnetic circuit 212, and most of magnetic field is by second magnetic circuit 212.When first magnetic conductive part 221 inserted the first magnetic circuit opening 231, the magnetic resistance of first magnetic circuit 211 was less with respect to the magnetic resistance of second magnetic circuit 212, and most of magnetic field is by first magnetic circuit 211.Therefore, when first magnetic conductive part 221 inserts and withdraws from the first magnetic circuit opening 231, to cause bigger changes of magnetic field, and then cause the changes of magnetic field of passing telefault 301 and/or telefault 302, in telefault 301 and/or telefault 302, produce than highfield.Magnetic resistance parameter on second magnetic circuit 212 can be from adopting the bigger material angle of magnetic resistance to handle, perhaps adopt thinner magnetic structure angle to handle, perhaps a less opening can being set on magnetic circuit.

With reference to Fig. 2, following structure can also be arranged.Magnetic conduction mechanism 201 comprises two magnetic circuits, and promptly first magnetic circuit 211, second magnetic circuit, 212, the first magnetic circuits 211 are provided with the magnetic circuit opening, i.e. the first magnetic circuit opening 231.Second magnetic circuit 212 is provided with the magnetic circuit opening, i.e. the second magnetic circuit opening 232.The first magnetic circuit opening, 231 places are provided with i.e. first magnetic conductive part 221 of magnetic conductive part.The second magnetic circuit opening, 232 places are provided with i.e. second magnetic conductive part 222 of magnetic conductive part.In first magnetic circuit 211 and second magnetic circuit 212, at least one magnetic circuit is provided with telefault 301.

Can be respectively equipped with telefault 301 and telefault 302 on first magnetic circuit 211 and second magnetic circuit 212.Telefault 301 and telefault 302 can in parallel or series connection.Should consider the relevance when two telefaults 301 and telefault 302 change in magnetic field during series connection.

First magnetic conductive part 221 and 222 interlocks of second magnetic conductive part, one of them magnetic conductive part is in the magnetic circuit opening (the first magnetic circuit opening 231 or the second magnetic circuit opening 232) that reduces the place and locates the magnetic resistance state, or when connecting the magnetic circuit (first magnetic circuit 211 or second magnetic circuit 212) at place, another magnetic conductive part is in the magnetic circuit opening part magnetic resistance state that increases the place, or disconnects the magnetic circuit at place.First magnetic conductive part 221 and second magnetic conductive part 222 by interlock strengthened the change amount of telefault 301 and telefault 302 interior magnetic flux when switching magnetic circuit, helps to improve generating efficiency.

The first magnetic circuit opening 231 and the second magnetic circuit opening 232 are arranged above and below.First magnetic conductive part 221 and second magnetic conductive part 222 are with the first magnetic circuit opening 231 and the 232 relative slips respectively of the second magnetic circuit opening.First magnetic conductive part 221 and second magnetic conductive part 222 can be lumped together in the specific design, form a shared magnetic conductive part, this magnetic conductive part and the first magnetic circuit opening 231 and the second magnetic circuit opening 232 flexibly connect respectively.With simplified structure.

With reference to Fig. 3, magnetic conductive part 260 is between the first magnetic circuit opening 231 and the second magnetic circuit opening 232, and the wide narrow shape in two ends up and down in magnetic conductive part 260 journeys middle part, and the middle part width is greater than the width of the first magnetic circuit opening, the 231 Huo and the second magnetic circuit opening 232.Make the magnetic conductive part 260 can to-and-fro movement between the first magnetic circuit opening 231 and the second magnetic circuit opening 232, and can be filled into the first magnetic circuit opening 231 or and the second magnetic circuit opening 232 make its adequate closure, and then make the magnetic circuit closure.

Magnetic conductive part 260 connects a button 250, drives magnetic conductive part 260 motions by touching button 250, and then switches magnetic circuit.This structure can be applied in a lot of telepilots.Magnetic conductive part 260 connects an elasticity reset device 240, by elasticity reset device 240, the magnetic conductive part 260 of being touched is resetted.Can allow elasticity reset device 240 adopt the elasticity leather packing in the specific design, the elasticity leather packing connects button 250, connects magnetic conductive part 260 by button 250.

Button 250 is provided with a key contacts 251, and key contacts 251 belows are provided with remote-controller function circuit contact 40.When pressing button 250, key contacts 251 is touched remote-controller function circuit contact 40 and is produced control signal.

Can also adopt a plurality of buttons to link with a magnetic conductive part respectively, and the design that a plurality of button is associated with a plurality of key contacts respectively.

In the one cover magnetic circuit power supply, permanent magnet 102 can connect a plurality of magnetic circuits or a plurality of magnetic conduction mechanism, and then a plurality of magnetic conduction portion 260 of arranging in pairs or groups, and then in a plurality of magnetic conduction portion 260, a plurality of key contacts 251 are set, and then allow to be provided with a plurality of remote-controller function circuit contacts 40,40 pairs of a plurality of remote-controller function circuit contacts are used for the various control instruction, to realize complicated control.

Can also adopt following scheme for the mode that realizes complicated control:

With reference to Fig. 4, permanent magnet 104 inserts first magnetic circuit 213 and second magnetic circuit 214.Series connection at least two magnetic circuit openings, the i.e. at least the first series circuit opening, the second series circuit opening on first magnetic circuit 213.Be parallel with at least two magnetic circuit openings on second magnetic circuit 214, i.e. at least the first parallel circuits opening, the second parallel circuits opening.The first parallel circuits opening is arranged on first series circuit opening below, is provided with a magnetic conductive part that is active between the first series circuit opening and the first parallel circuits opening.The second parallel circuits opening is arranged on second series circuit opening below, is provided with another magnetic conductive part that is active between the second series circuit opening and the second parallel circuits opening.Two magnetic conductive parts connect two buttons respectively; Two buttons are connected with elasticity reset device, and elasticity reset device resets in the first series circuit opening part and the second series circuit opening part two magnetic conductive parts.Second magnetic circuit 214 is provided with a telefault 303.

Touch any one button, even first magnetic circuit cuts off (or strengthening magnetic resistance), second magnetic circuit is connected (or making the reduction magnetic resistance) simultaneously.By above-mentioned design, pressing two buttons, even during any one button in more a plurality of button, all can produce electric energy.After each button is carried out functional definition, allow to carry out complexity control.

In the specific design, with reference to Fig. 3, magnetic conduction mechanism 202 comprises two F shape magnetic conduction modules 2021,2022.Two F shape magnetic conduction modules 2021,2022 are staggered relatively.Two magnetic poles of permanent magnet 102 are connected respectively to two F shape magnetic conduction module 2021,2022 bottoms, constitute the first magnetic circuit opening 231 between the upper lobes of 232, two F shapes of formation second magnetic circuit opening magnetic conduction module between the middle part projection of two F shape magnetic conduction modules.

In the specific design, permanent magnet 102 can be clipped in two F shape magnetic conduction module 2021,2022 bottoms.For F shape magnetic conduction module 2021,2022 bottoms better are connected with permanent magnet 102, can be suitable be out of shape.Permanent magnet 102 also can the shape of a hoof, semicircle or other shapes except adopting the strip shape.Permanent magnet 102 can adopt the permanent magnet of various magnetic steel material forms, the permanent magnet of ferrite form, perhaps other form permanent magnets.

Specific embodiment 3:

With reference to Fig. 3, the self power generation telepilot, the remote-controller function circuit connects at least two magnetic circuit power supplys, and at least two magnetic conductive parts 260 of two described magnetic circuit power supplys connect at least two buttons 250 respectively.By at least two different functions of described button 250 definition, realize the complicated distant control function of self power generation telepilot.

The remote-controller function circuit can be selected radio remote controller functional circuit, Infrared remote controller functional circuit, ultra-sonic remote control device functional circuit or other forms of remote-controller function circuit for use.The button 250 of telepilot is connected with an elasticity leather packing as elasticity reset device 240, by the elasticity leather packing, the button 250 of the telepilot of being touched is resetted, and then magnetic conductive part 260 is resetted.

Magnetic conduction mechanism 202 can adopt structure shown in Figure 3, adopts F shape magnetic conduction module.Be provided with the upper lobes that 300, one telefaults 300 of two telefaults are inserted in one of them F shape magnetic conduction module in the magnetic conduction mechanism 202.Another telefault 300 is inserted in the lower lobes of one of them F shape magnetic conduction module.Two telefaults 300 can in parallel or series connection.The mode that tandem should journey strengthens electric current mutually connects.Concrete connected mode is influenced by the winding mode of telefault.

More than show and described ultimate principle of the present utility model and principal character and advantage of the present utility model.The technician of the industry should understand; the utility model is not subjected to the restriction of above-mentioned using method; that describes in above-mentioned using method and the instructions just illustrates principle of the present utility model; under the prerequisite that does not break away from the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall in claimed the utility model scope.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims (13)

1. the self power generation telepilot comprises that one has the telepilot main body of remote signal emission function, and described telepilot main body comprises a remote-controller function circuit, and described remote-controller function circuit connects a power supply, it is characterized in that, described power supply adopts the magnetic circuit power supply;

Described magnetic circuit power supply comprises a permanent magnet, also comprises a magnetic conduction mechanism, and described magnetic conduction mechanism inserts the magnetic field of described permanent magnet, and sets up at least one magnetic circuit;

Also comprise a telefault, at least one described magnetic circuit passes a described telefault;

Be provided with the magnetic circuit switching part that is used to change magnetic circuit magnetic conduction ability at least one described magnetic circuit in the described magnetic conduction mechanism;

Described magnetic circuit is provided with at least one magnetic circuit opening, and described magnetic circuit opening part is provided with described magnetic circuit switching part, and described magnetic circuit switching part is one to be movably connected on the magnetic conductive part of described magnetic circuit opening part; Described magnetic conductive part connects a button.

2. self power generation telepilot according to claim 1 is characterized in that, described magnetic conduction mechanism comprises two magnetic circuits, i.e. first magnetic circuit, second magnetic circuit, and described first magnetic circuit is provided with described magnetic circuit opening, i.e. the first magnetic circuit opening; The described first magnetic circuit opening part is provided with i.e. first magnetic conductive part of described magnetic conductive part;

Magnetic resistance when the magnetic resistance on described second magnetic circuit opens wide less than the described first magnetic circuit opening on described first magnetic circuit, and the magnetic resistance on described first magnetic circuit when inserting described first magnetic conductive part of the magnetic resistance on described second magnetic circuit greater than the described first magnetic circuit opening;

In described first magnetic circuit and described second magnetic circuit, at least one described magnetic circuit is provided with described telefault.

3. self power generation telepilot according to claim 1 is characterized in that, described magnetic conduction mechanism comprises two magnetic circuits, i.e. first magnetic circuit, second magnetic circuit, and described first magnetic circuit is provided with described magnetic circuit opening, i.e. the first magnetic circuit opening; Described second magnetic circuit is provided with described magnetic circuit opening, i.e. the second magnetic circuit opening; The described first magnetic circuit opening part is provided with i.e. first magnetic conductive part of described magnetic conductive part; The described second magnetic circuit opening part is provided with i.e. second magnetic conductive part of described magnetic conductive part; In described first magnetic circuit and described second magnetic circuit, at least one described magnetic circuit is provided with described telefault.

4. self power generation telepilot according to claim 3, it is characterized in that, described first magnetic circuit and described second magnetic circuit shared one described magnetic conductive part, the first magnetic circuit opening and the second magnetic circuit opening of described magnetic conductive part and described first magnetic circuit and described second magnetic circuit flexibly connect respectively.

5. self power generation telepilot according to claim 4, it is characterized in that, the described first magnetic circuit opening and the second magnetic circuit opening are arranged above and below, described magnetic conductive part is between the described first magnetic circuit opening and the second magnetic circuit opening, and the wide narrow shape in two ends up and down in described magnetic conductive part journey middle part, the middle part width is greater than the width of the described first magnetic circuit opening or the second magnetic circuit opening.

6. self power generation telepilot according to claim 3 is characterized in that, is in series with at least two described magnetic circuit openings on described first magnetic circuit, i.e. at least the first series circuit opening, the second series circuit opening; Be parallel with at least two described magnetic circuit openings on described second magnetic circuit, i.e. at least the first parallel circuits opening, the second parallel circuits opening;

The described first parallel circuits opening is arranged on described first series circuit opening below, is provided with a described magnetic conductive part that is active between described first series circuit opening and the described first parallel circuits opening;

The described second parallel circuits opening is arranged on described second series circuit opening below, is provided with another the described magnetic conductive part that is active between described second series circuit opening and the described second parallel circuits opening;

Two described magnetic conductive parts connect two buttons respectively; Two described buttons are connected with elasticity reset device, and described elasticity reset device resets in the first series circuit opening part and the second series circuit opening part two described magnetic conductive parts.

7. self power generation telepilot according to claim 1, it is characterized in that, described magnetic conduction mechanism comprises two F shape magnetic conduction modules, two F shape magnetic conduction modules are staggered relatively, two magnetic poles of described permanent magnet are connected respectively to two F shape magnetic conduction module bottoms, between the middle part projection of two F shape magnetic conduction modules, and constitute described magnetic circuit opening respectively between the upper lobes of two F shape magnetic conduction modules.

8. according to any described self power generation telepilot in the claim 1 to 7, it is characterized in that described button is provided with a key contacts, the key contacts below is provided with the remote-controller function circuit contact; Described telefault connects described remote-controller function circuit by a mu balanced circuit module.

9. according to any described self power generation telepilot in the claim 1 to 7, it is characterized in that described telefault and described permanent magnet position relative fixed, the magnetic conduction magnetic circuit that described magnetic circuit adopts soft magnet to make.

10. according to any described self power generation telepilot in the claim 1 to 7, it is characterized in that described magnetic conductive part connects an elasticity reset device.

11., it is characterized in that described remote-controller function circuit is selected the radio remote controller functional circuit for use according to any described self power generation telepilot in the claim 1 to 7.

12., it is characterized in that described remote-controller function circuit is selected the Infrared remote controller functional circuit for use according to any described self power generation telepilot in the claim 1 to 7.

13., it is characterized in that according to any described self power generation telepilot in the claim 1 to 7, also comprise a telepilot shell, described telepilot shell is with a magnetic conductive material layer, and magnetic conductive material layer constitutes a magnetic force shielding case.

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