CN1132289C - Power equipment for remote controlling device - Google Patents
Power equipment for remote controlling device Download PDFInfo
- Publication number
- CN1132289C CN1132289C CN 99127118 CN99127118A CN1132289C CN 1132289 C CN1132289 C CN 1132289C CN 99127118 CN99127118 CN 99127118 CN 99127118 A CN99127118 A CN 99127118A CN 1132289 C CN1132289 C CN 1132289C
- Authority
- CN
- China
- Prior art keywords
- remote controller
- gear
- electrolytic capacitor
- generator
- power
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Images
Landscapes
- Connection Of Motors, Electrical Generators, Mechanical Devices, And The Like (AREA)
- Selective Calling Equipment (AREA)
- Charge And Discharge Circuits For Batteries Or The Like (AREA)
Abstract
A remote controller power supply apparatus includes a control lever 6 mounted at the side of the remote controller 20, a gear unit B for increasing the rotate speed of the gear by the operation of the control lever 6, a dynamotor 10 for generating power by the high rotate speed of a rotor 10a. It is characterised in that the remote controller power supply apparatus includes a diode 12, an electrolytic capacitor 13 which is charged by the power generated from the dynamotor 10. The power source outputed from the charged electrolytic capacitor 13 is used as the main power source of the remote controller.
Description
Background of invention
The present invention relates to a kind of power-supply device, relate in particular to a kind of power-supply device that is used for remote controller, the main power source of the power supply usable as remote controller of electrolytic capacitor output wherein, described electrolytic capacitor can be stored manual actuation generator electricity, and this generator is installed in described remote controller inside.
Current, for remote control, TV, audio or video equipment have remote controller.Described remote controller comprises one or two dry cell.But because the durability period of battery is shorter, so normal remote control has the shortcoming that must frequently more renew battery.
Recently, in order to overcome described shortcoming, used more durable alkaline battery.Yet,, use described alkaline battery to cause economic waste, and refuse battery also causes environmental pollution because must change battery once or twice every year.
Summary of the invention
An object of the present invention is to provide the power-supply device that is used for remote controller, the main power source of the power supply usable as remote controller of electrolytic capacitor output wherein, described electrolytic capacitor can be stored manual actuation generator electricity, and this generator is installed in described remote controller inside.
Another object of the present invention provides the power-supply device that is used for remote controller, the main power source of the power supply usable as remote controller of electrolytic capacitor output wherein, described electrolytic capacitor can be stored the generator electricity, can be by the rotation of the rotating controlled ratch described generator that turns round when shaking remote controller.
In order to realize this purpose, the power-supply device that is used for remote controller according to the present invention comprises: a control lever 6 that is installed on remote controller 20 sidepieces, and described control lever 6 has the tooth bar 6a that is installed in its underpart; One increases the gear train B of gear rotary speed according to the operation of described control lever 6, and described gear train B comprises first geared parts 7 with gear 7a, 7b, has second geared parts 8 of gear 8a, 8b and has the 3rd geared parts 9 of gear 9a, 9b; With a generator 10, be used to rely on the high speed rotating of rotor 10a to generate electricity, this rotor 10a relies on spools 21 the high speed rotating link to each other with gear 11 and high speed rotating, when the rotary speed of described gear train B increases, described gear 11 high speed rotating that are meshed with described gear 9a, it is characterized in that: the described power-supply device that is used for remote controller comprises diode 12, has the positive pole that is connected to described generator 10+ end, with the electrolytic capacitor 13 of the generating that relies on described generator 10 to its charging, described electrolytic capacitor 13 have be connected to described diode 12 negative poles+end and be connected to described generator 10-end-end; The power supply of electrolytic capacitor 13 outputs of described charging is as the main power source of described remote controller.
According to the present invention, when when pulling the moving control lever that is installed on the remote controller sidepiece, rely on the gear train that is meshed with tooth bar, the rotary speed increase of gear, thus can rely on the high speed rotating of generator rotating shaft to generate electricity.And electricity can charge into electrolytic capacitor by diode.Then, the electrolytic capacitor of described charging is connected to the power input of remote controller.Thereby the power supply output of electrolytic capacitor can offer remote controller as main power source.
In addition, for realizing other purpose, the power-supply device that is used for remote controller according to the present invention comprises; The controlled ratch 16 of rotation, have thereon the gear 16b that forms and additional thereon add heavy parts 16a; A geared parts 17 comprises gear 17a, 17b, and described gear 17b is meshed with the gear 16b of the controlled ratch 16 of described rotation and forms gear train B1; A generator 10, be used to rely on the high speed rotating of rotor 10a to generate electricity, this rotor relies on the high speed rotating of the rotating shaft 21 that links to each other with gear 19 and high speed rotating, when the rotary speed increase of described gear train B1, and described gear 19 high speed rotating that are meshed with described gear 17a; Diode bridge 23 be used to make described generator 10a alternately output+,-electromotive force flows into same direction, described diode bridge 23 has respectively with described generator 10
The end and
End links to each other
The end and
End, it is characterized in that: the described power-supply device that is used for remote controller comprises electrolytic capacitor 22, is used to rely on the generating of described generator 10 to charge to it, described electrolytic capacitor 22 has respectively with described diode bridge 23
The end and
End links to each other+end and-end; The power supply output of the electrolytic capacitor 22 of described charging is as the main power source of described remote controller.
According to the present invention, when shake remote controller and remote controller inner install have the controlled ratch of the rotation that adds heavy parts when rocking, the gear that on the controlled ratch of rotation, forms can with the collaborative running of a plurality of gears, thereby can increase the rotary speed of gear.The rotating shaft high speed rotating of generator then, thereby generating.Electricity can charge into electrolytic capacitor by diode bridge.And the electrolytic capacitor of described charging links to each other with the power input of remote controller.Therefore, the electrolytic capacitor out-put supply can be offered remote controller as main power source.
According to following specification and referring to accompanying drawing, other characteristic of the present invention and advantage will be more obvious.
Brief Description Of Drawings
Fig. 1 is the block diagram that is used for power-supply device first embodiment of remote controller according to the present invention;
Fig. 2 is the stereogram that remote controller first embodiment of power-supply device is housed according to the present invention;
Fig. 3 a and 3b are mounted in the plane graph and the front view of the power-supply device of part A shown in Figure 1 inside respectively;
Fig. 4 is the circuit diagram that is used for power-supply device first embodiment of remote controller according to the present invention;
Fig. 5 is the block diagram that is used for power-supply device second embodiment of remote controller according to the present invention;
Fig. 6 is the stereogram that remote controller second embodiment of power-supply device is housed according to the present invention;
Fig. 7 a, 7b are mounted in the plane graph and the front view of the power-supply device of part A shown in Figure 6 inside respectively;
Fig. 8 is the circuit diagram that is used for power-supply device second embodiment of remote controller according to the present invention.
DETAILED DESCRIPTION OF THE PREFERRED
In the past, when remote controller, once pressed remote controller buttons about 0.5 second, power consumption promptly be contained in the remote controller each element for example the total power consumption of IC, LED and register for example approximately surpass 20,000 μ F.Therefore, can not use a small amount of electricity that in the small electrical electrolysis condenser, fills to come remote controller in the past.
Therefore, nobody considers and can described generator electricity is charged into electrolytic capacitor, and the electricity that is filled be as the main power source of remote controller at the inner generator of installing of remote controller in the past.
Yet, at present because be installed in the improvement of each element in the remote controller, for example when pressing remote controller buttons in the time of about 0.5 second, about 1,000~1, the 500 μ F of the power consumption of remote controller.Therefore, because use the electrolytic capacitor with about 20,000 μ F capacitances in the present invention, described electrolytic capacitor is enough to the main power source as remote controller.
In the present invention, operate control lever can charge into 10,000~15,000 μ F in electrolytic capacitor electric capacity, the electrolytic capacitor of about 20, the 000 μ F of maximum capacitor is installed, the main power source of described electrolytic capacitor usable as remote controller on remote controller.
In the present invention, the electrolytic capacitor of about 20, the 000 μ F of maximum capacitance also is installed, when shaking remote controller after the scheduled time, the main power source of described electrolytic capacitor usable as remote controller in remote controller.
Referring to accompanying drawing, each element of the power-supply device that is used for remote controller according to the present invention is described.
Fig. 1 be used for according to the present invention the block diagram of power-supply device first embodiment of remote controller and Fig. 2 be equipped with according to the present invention power-supply device remote controller first embodiment stereogram.
In Fig. 1, accelerating part 1 is used to increase the rotary speed of gear, and described part 1 comprises a gear train.That is, when remote controller 20, drive described gear and engaged gear group by the control lever of on remote controller 20 1 sides, installing in pulling on the direction of arrow shown in Figure 26.Thereby can increase the rotary speed of gear.
Power generation part 2 is used for generating electricity by driving generator.That is, when increasing rotatablely moving of rotary speed by gear train and be applied in rotating shaft to generator, described rotating shaft high speed rotating, thus can generate electricity.
Control section 3 is used for control makes described generating parts 2 electricity flow into unidirectional circuit, the electric reverse flow of being filled to prevent, and described parts 3 comprise diode.
Live part 4 comprises electrolytic capacitor, and can charge into the generator electricity to it.
The electricity that discharge portion 5 is used for being filled at described live part 4 discharges to circuit board, and described electricity can be used as working power and offers remote controller.
A portion among Fig. 2 is used to install the power-supply device according to first embodiment of the invention shown in Figure 1 to replace the part of conventional dry cell.
Fig. 3 a, 3b are mounted in the plane graph and the front view of the power-supply device of A shown in Figure 1 portion inside respectively.
Tooth bar 6a and described gear 7b engagement, described gear 7a and described gear 8b engagement, described gear 8a and described gear 9b engagement, and gear 9b and gear 11 engagements that are connected to generator 10 rotating shafts.
Therefore, when downward pulling control lever 6, described tooth bar 6a moves down, the speed that relies on first, second and the 3rd geared parts 7,8 and 9 to increase gradually then, and therefore axle 21 high speed rotating of generator 10 can be generated electricity by generator 10.
Fig. 4 is the circuit diagram that is used for power-supply device first embodiment of remote controller according to the present invention.
In Fig. 4, respectively, sequence number 10 is generators, and 10a is the rotor that is connected in generator 10 rotating shafts, and 10b is the winding resistance of generator 10, the 12nd, and diode and 13 is electrolytic capacitors.
Described generator 10+end is connected to the positive pole of diode 12, the negative pole of diode 12 be connected to electrolytic capacitor 13+end, and an end of generator 10 is connected to an end of electrolytic capacitor 13.Described electrolytic capacitor 13+,-end is connected to the power end of remote controller 20, thus the power supply of described electrolytic capacitor 13 outputs is as the main power source of described remote controller 20.
Be detailed description below about circuit operation shown in Figure 4.
When making the rotor 10a high speed rotating that links to each other with the axle 21 of described generator 10 by the described gear train that turns round, can generate and the proportional electric currents of high speed rotating from generator 10, and the described electric current winding resistance 10b that flows through.
In the present invention, described generator 10 uses the permanent-magnet type dc micro-motor, and described motor converts kinetic energy to electric energy, and therefore described motor is as the generator of generating.
Simultaneously, from generator 10+electric current that end flows out flows to negative pole from the positive pole of diode 12.And, described electric current through electrolytic capacitor 13+end and-end flows to an end of generator 10.As a result, electrolytic capacitor 13 can be recharged, and then, when described electrolytic capacitor 13 was filled, electric current stopped.
After this, just when the generating of generator 10 finished, described diode 12 can stop the electricity of being stored in the electrolytic capacitor 13 oppositely to flow into described generator 10.Therefore, can save and deposited in the electrolytic capacitor 13.
Be full of electricity electrolytic capacitor 13+end and-end is connected to the power end of remote controller 20.In this case, during arbitrary button on pressing remote controller 20, the power supply from electrolytic capacitor 13 can be provided on described remote controller 20, thereby operate described remote controller 20.Thereby, use the main power source of described electrolytic capacitor 13 as remote controller 20.At this moment, even operate control lever 6 one time, also can on described remote controller 20, provide remote controller required enough power supplys.
Fig. 5 is that block diagram and the Fig. 6 of power supply of remote controller second embodiment according to the present invention is the stereogram that remote controller second embodiment of power-supply device is housed according to the present invention.
In Fig. 5, accelerating part 31 is used to increase the gear rotary speed, and described part 1 comprises a gear train.That is, when this remote controller 30 of operation, if remote controller 30 is shaken the scheduled time, gear train can be turned round, thereby can increase the rotary speed of gear.
Rectifier part 33 be used to make remote controller 30 each to the right or when left movement alternately output+,-electromotive force flows to same direction, and described part 33 comprises diode bridge.
Discharge portion 35 is used for the electricity that described live part 34 is filled is discharged to circuit board, and described electricity can be used as working power and provides on remote controller.
Part A 1 shown in Figure 6 is to be used to install power-supply device shown in Figure 5 according to second embodiment of the invention to replace the part of general dry battery.
Fig. 7 a, 7b are mounted in the plane graph and the front view of the power-supply device of part A shown in Figure 61 inside respectively.
Rotating formative gear 16b on the controlled ratch 16, and adding heavy parts 16a in the formation of the bottom of the controlled ratch 16 of described rotation.Geared parts 17 comprises gear 17a and gear 17b.Gear 17a, 17b are coaxial, and are connected with each other by described axle.
The gear 16b of the controlled ratch 16 of described rotation and the gear 17b of geared parts 17 engagement.Described gear 17b is connected to the same axis of gear 17a, thereby can form gear train.And described gear 17a and gear 19 engagements that link to each other with the axle of generator 10.
Therefore,, add heavy parts 16a clockwise direction and motion counterclockwise, thereby the controlled ratch 16 of described rotation can be by clockwise direction and rotation counterclockwise by shaking remote controller 30 to the right and left.When the controlled ratch 16 of described rotation rotated as mentioned above, dependence comprised the speed that the gear train B1 of gear 16b and gear 17 increases gradually, the axle high speed rotating of generator 10, thus can be by generator 10 generatings.
Fig. 8 is the circuit diagram that is used for power-supply device second embodiment of remote controller according to the present invention.
In Fig. 8, respectively, sequence number 10 is generators, and 10a is the rotor that links to each other with generator 10 rotating shafts, and 10b is the winding resistance of generator 10, the 23rd, and diode bridge and 22 is electrolytic capacitors.
The two ends of described generator 10 are connected to the power end of diode bridge 23, described diode bridge 23+end be connected to electrolytic capacitor 22+end, and described diode bridge 23-end be connected to described electrolytic capacitor 22-end.And, described electrolytic capacitor 22+,-hold the power end that is connected to described remote controller 30, thus be used as the main power source of described remote controller 30 from the power supply of described electrolytic capacitor 22 outputs.
Be detailed description below about circuit operation shown in Figure 8.
During high speed rotating, generator 10 produces and the proportional electric currents of high speed rotating when relying on the running of described gear train B1 with the axle 21 rotor 10a that link to each other of described generator 10, and the described electric current winding resistance 10b that flows through.
In the present invention, described generator 10 uses the permanent-magnet type dc micro-motor, and described motor converts kinetic energy to electric energy, the therefore described motor generator that acts on generating.
When generator 10
During end output+electromotive force, diode bridge 23
The end and
End,
The end, electrolytic capacitor 22+end and-end,
End, diode bridge 23
The end and
End and generator 10-end is promptly
End can be formed current path.Therefore, described electrolytic capacitor 22 can be recharged, thereby preserves electric energy.
Simultaneously, because direction of rotation changes, when generator 10
During end output+electromotive force, diode bridge 23
The end and
End,
The end, electrolytic capacitor 22+end and-end,
End, diode bridge 23
The end and
End and generator 10-end is promptly
End can be formed current path.Therefore, described electrolytic capacitor 22 can be recharged and storage of electrical energy.As mentioned above, with axle 21 the irrelevant to rotation direction of described generator 10, electric current can flow to same direction and described electrolytic capacitor 22 can be recharged, and when electrolytic capacitor 22 was filled, electric current stopped.
After this, just when the generating of generator 10 finished, described diode bridge 23 can stop the reverse inflow generator 10 of electric energy stored in the electrolytic capacitor 22.Therefore, can save electric energy stored in the electrolytic capacitor 22.
Fully Chong Dian electrolytic capacitor 22+end and-end is connected to the power end of remote controller 30, in this case, during arbitrary button on pressing remote controller 20, the power supply from electrolytic capacitor 22 can be provided on described remote controller 30, thereby operate described remote controller 30.Therefore, the power supply of described electrolytic capacitor 22 outputs is as the main power source of remote controller 30.Wherein, although only shake remote controller once or twice, also being enough to provides remote controller used power supply on described remote controller 30.
As mentioned above, according to the present invention, can install and use in the inside of remote controller from the power supply of electrolytic capacitor power-supply device as main power source.Therefore, handle one time control lever, the power supply that provides remote controller required on remote controller is provided.And, by only shaking remote controller several times, just can on remote controller, provide the power supply that is enough to remote controller.
Therefore, because do not need to buy dry cell, there is not maintenance cost.And because can avoid waste refuse battery, this product helps environment.
Although, obviously under the enlightenment of above-mentioned instruction, can carry out various modifications and variations to have to a certain degree optimal way explanation the present invention of particularity.Therefore, be to be understood that and in the scope of appended claim book, except that the embodiment that specifies, also can implement the present invention.
Claims (1)
1. power-supply device that is used for remote controller, this equipment comprises:
Rotate controlled ratch 16, have thereon the gear 16b that forms and additional thereon add heavy parts 16a;
Geared parts 17 comprises gear 17a, 17b, the gear 16b engagement and the formative gear group B1 of wherein said gear 17b and the controlled ratch 16 of described rotation;
Generator 10, be used to rely on the high speed rotating generating of rotor 10a, this rotor relies on the high speed rotating of the axle 21 that links to each other with gear 19 and high speed rotating, wherein when the rotary speed increase of described gear combination B1, and described gear 19 high speed rotating that mesh with described gear 17a; With
Diode bridge 23, be used to make described generator 10a alternately output+,-electromotive force flows into same direction, described diode bridge 23 has respectively with described generator 10
The end and
End links to each other
The end and
End, it is characterized in that: the described power-supply device that is used for remote controller comprises electrolytic capacitor 22, is used to rely on the generating of described generator 10 to charge to it, described electrolytic capacitor 22 has respectively with described diode bridge 23
The end and
End links to each other+end and-end;
The power supply of the described electrolytic capacitor that is recharged 22 outputs is as the main power source of described remote controller.
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
KR59111/1998 | 1998-12-28 | ||
KR1019980059111A KR19990024254A (en) | 1998-12-28 | 1998-12-28 | Remote control power supply and its method |
KR1019990004308A KR100292982B1 (en) | 1999-02-08 | 1999-02-08 | Electric power supply device in remote control and its method |
KR4308/1999 | 1999-02-08 |
Publications (2)
Publication Number | Publication Date |
---|---|
CN1258951A CN1258951A (en) | 2000-07-05 |
CN1132289C true CN1132289C (en) | 2003-12-24 |
Family
ID=26634485
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN 99127118 Expired - Fee Related CN1132289C (en) | 1998-12-28 | 1999-12-28 | Power equipment for remote controlling device |
Country Status (3)
Country | Link |
---|---|
JP (1) | JP2000197310A (en) |
CN (1) | CN1132289C (en) |
HK (1) | HK1029452A1 (en) |
Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP4736265B2 (en) * | 2001-08-06 | 2011-07-27 | ソニー株式会社 | Remote controller power supply device |
JP4873390B2 (en) * | 2009-12-21 | 2012-02-08 | 上野 康男 | Power generator |
KR101078947B1 (en) | 2010-05-13 | 2011-11-01 | 대성전기공업 주식회사 | Fob key having a independent power system |
JP4831516B1 (en) * | 2010-08-20 | 2011-12-07 | 上野 康男 | Holder for electronic equipment |
-
1999
- 1999-12-27 JP JP11370541A patent/JP2000197310A/en active Pending
- 1999-12-28 CN CN 99127118 patent/CN1132289C/en not_active Expired - Fee Related
-
2001
- 2001-01-04 HK HK01100098A patent/HK1029452A1/en not_active IP Right Cessation
Also Published As
Publication number | Publication date |
---|---|
HK1029452A1 (en) | 2001-03-30 |
CN1258951A (en) | 2000-07-05 |
JP2000197310A (en) | 2000-07-14 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN1311561A (en) | Bicycle electric power | |
CN2714896Y (en) | Electronic multifunctional stepless speed change device | |
CN106985653A (en) | Vehicle compound energy feed system and method, compound energy automobile | |
CN202180738U (en) | Automobile hybrid power system | |
CN1841889A (en) | Switched reluctance generator | |
CN103075314A (en) | Vibration energy conversion device of vehicle suspension frame | |
CN1057880C (en) | Compound power system and device making use of active electric machine speed control | |
CN1132289C (en) | Power equipment for remote controlling device | |
CN1835856A (en) | Hybrid vehicle | |
CN2771506Y (en) | Gravity-energy-savinge generator | |
CN106958617A (en) | A kind of energy feedback damper based on automobile vibration | |
CN1924398A (en) | Multifunctional stepless change gear device | |
CN2767311Y (en) | Electric vehicle middle drive coaxial driving assembly | |
CN2738458Y (en) | Commutating hub of electric machine | |
CN102465850A (en) | Manual direct-current power generation device | |
CN204738260U (en) | A driving system , motor sweeper and mixed driving system for clean | |
CN201036970Y (en) | Fuel vehicle changed into electric power driving vehicle transmission device | |
CN202851277U (en) | Electricity-generating energy-saving green elevator | |
CN2290546Y (en) | Mixed driving bike using internal combustion engine and storage battery | |
CN2800707Y (en) | Infrared ray remote controller with hand-operated electricity generation device | |
CN1786463A (en) | Battery with physics mode charging and storing electricity | |
CN2623496Y (en) | Series-parallel composite connection pattern double power driven system | |
CN102116276A (en) | Method for spontaneously capturing kinetic energy and transforming same into electric energy | |
CN218806472U (en) | Transmission system based on extended-range micro gas turbine | |
CN110513418A (en) | A kind of displacement-adjustable power feeding shock absorber |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
C06 | Publication | ||
PB01 | Publication | ||
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C19 | Lapse of patent right due to non-payment of the annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |