CN102222960A - Automatic charging device - Google Patents

Abstract

The invention relates to an automatic charging device, in particular to an automatic charging device that can convert mechanical energy into electric energy during the moving process. The automatic charging device comprises a shell that is internally provided with a power generator; the output shaft of the power generator is provided with a power generation counting driving mechanism that is used for driving the power generator to rotate and generate power; the output end of the power generator is connected with a battery pack; and the power output end of the battery pack is electrically connected with a voltage stabilizing module and a mobile phone charging module respectively. In the invention, the battery can output the power supply of 3V or 5V; simultaneously the mobile phone can be charged by a mobile phone charging interface J1; the driving energy generated by the power generation counting driving mechanism is generated by the movement of the carrier and the gravity action so that the external energy is not consumed; the electric energy stored in the battery pack can be also be applied to external emergent situations; therefore, the automatic charging device is energy-saving and environment-friendly, has a simple and compact structure, can be carried and used conveniently, and is safe and reliable.

Description

Automatic charge device

Technical field

The present invention relates to a kind of charging device, especially a kind of automatic charge device specifically a kind ofly is converted to the automatic charge device of electric energy by the mechanical energy in will moving, and belongs to the technical field of charging device.

Background technology

Along with improving constantly of living standard, people pay attention to healthy more.Increasing people is by running early morning, and stroll is after meal climbed the mountain and wait motion mode to take exercises weekend, keeps physical and mental health.At present, people can carry more power consumption equipment when going out walking, and as mobile phone, broadcast receiver etc., and the storing electricity of power consumption equipments such as mobile phone is very limited, when outside and the power consumption equipment electric energy stored can bring a lot of inconveniences will exhaust the time, influence the utilization rate of corresponding power consumption equipment.People generally can imagine in advance and walk about or move to how far distance is returned, but estimate that can there be very big randomness in corresponding distance when walking or run, and can not tell oneself accurately.

Summary of the invention

The objective of the invention is to overcome the deficiencies in the prior art, a kind of automatic charge device is provided, it is simple and compact for structure, portably use conveniently, and energy-conserving and environment-protective, safe and reliable.

According to technical scheme provided by the invention, described automatic charge device comprises housing; Be provided with generator in the described housing, the output shaft of described generator is provided with and is used to drive the generating counting driving mechanism that generator rotates generating; The output of generator links to each other with battery pack, and the power output end of battery pack is electrically connected with Voltage stabilizing module and cell-phone charging module respectively.

The output of described generator pass through current rectifying and wave filtering circuit, voltage stabilizing circuit links to each other with battery pack.

Described current rectifying and wave filtering circuit comprises the bridge-type half-wave rectifying circuit that is made of first diode, second diode, the 3rd diode and the 4th diode; Wherein, the cathode terminal of first diode links to each other with the anode tap of second diode, the anode tap of first diode links to each other with the anode tap of the 4th diode, and the cathode terminal of the 4th diode links to each other with the anode tap of the 3rd diode, and the cathode terminal of the 3rd diode links to each other with the cathode terminal of second diode; One end of generator output end links to each other with the cathode terminal of first diode, and the other end links to each other with the cathode terminal of the 4th diode; The anode tap ground connection of first diode and the 4th diode, the cathode terminal of second diode and the 3rd diode links to each other with an end of first electric capacity and first resistance, the other end ground connection of first electric capacity, the other end of first resistance link to each other with power end, switch collector electrode, current limliting collector electrode and the driving collector terminal of DC-DC conversion control chip respectively; The switch transmitter terminal of DC-DC conversion control chip links to each other with the cathode terminal and the inductance L of first voltage stabilizing didoe, the anode tap ground connection of first voltage stabilizing didoe; The earth terminal ground connection of DC-DC conversion control chip, the timing capacitor end of DC-DC conversion control chip is by second capacity earth; The other end of inductance L links to each other with second resistance and the 3rd electric capacity respectively, and by the 3rd grounding through resistance, the 3rd electric capacity is corresponding to the other end ground connection that links to each other with the inductance L and second resistance corresponding to the other end that links to each other with inductance L for second resistance; Second resistance links to each other corresponding to the comparator end of oppisite phase of an end that links to each other with the 3rd resistance with DC-DC conversion control chip; The two ends of the 3rd electric capacity and the two ends of battery pack are in parallel.

Described housing is provided with bandage, and the two ends of described bandage are provided with the hair of corresponding cooperation and paste band and thorn stickup band.

Described generating counting driving mechanism comprises the support that is positioned at housing, and described support is provided with the ratchet mounting panel, and described ratchet mounting panel is provided with the detent mechanism with the corresponding cooperation of ratchet; Described ratchet is meshed with first gear train; First gear train compresses the clockwork spring in the going barrel, and the clockwork spring in the going barrel is meshed with driven wheel on the generator rotor shafts by second gear train, is used to drive the rotation axis rotation of generator.

Described ratchet mounting panel is provided with escapement corresponding to the other end that detent mechanism is set, and described escapement is provided with loophole.

Described Voltage stabilizing module comprises 3V Voltage stabilizing module and 5V Voltage stabilizing module.

The output of described 5V Voltage stabilizing module links to each other with the power end of optical circuit, single-chip microcomputer and display screen; The output of optical circuit links to each other with the input of single-chip microcomputer, and the output of single-chip microcomputer links to each other with display screen; Single-chip microcomputer is by display screen output counting step number; Display screen is installed on the housing.

Described cell-phone charging module comprises charging management chip, and the power end of described charging management chip links to each other with battery pack, and the power end of charging management chip links to each other with the anode tap of first light-emitting diode, the anode tap and the 4th electric capacity of second light-emitting diode respectively; The cathode terminal of first light-emitting diode links to each other with the electric indication end of having of charging management chip by the 4th resistance, and the cathode terminal of second light-emitting diode links to each other with the charging indication end of charging management chip by the 5th resistance; The equal ground connection of the earth terminal of charging management chip and Enable Pin, the 4th electric capacity is corresponding to the other end ground connection that links to each other with charging management chip; The charging current of charging management chip is provided with end by the 6th grounding through resistance, and the charging output of charging management chip is by the 5th capacity earth, and the parallel connection of the two ends of described the 5th electric capacity forms mobile phone charging interface.

The positive terminal of described battery pack is by the anode tap of first switch and the 3rd light-emitting diode, the collector electrode of phototriode and the 9th resistance link to each other, the cathode terminal of the 3rd light-emitting diode is by the 7th grounding through resistance, the emitter of phototriode is by the 8th grounding through resistance, and the emitter of phototriode links to each other with the input of single-chip microcomputer, the other end that the 9th resistance links to each other corresponding to the phototriode pipe collector respectively with the power end of single-chip microcomputer, the cathode terminal of the power end of display screen and second voltage stabilizing didoe links to each other, the anode tap ground connection of second voltage stabilizing didoe, the equal ground connection of the earth terminal of single-chip microcomputer and display screen; The output of single-chip microcomputer links to each other with display screen, and single-chip microcomputer is by the corresponding counting of display screen output step number.

Advantage of the present invention: generator is set in housing, and generator drives generating by generating counting driving mechanism; The electric energy that generator sends charges to battery pack by current rectifying and wave filtering circuit and voltage stabilizing circuit, can export 3V or 5V power supply by battery pack, by mobile phone charging interface J1 mobile phone is charged simultaneously; The driving energy that generating counting driving mechanism produces produces down by carrier's motion and action of gravity, do not need to consume outside energy, the battery pack electric energy stored can also be used for outside urgent special circumstances, improve the utilization rate of portable power consumption equipment, energy-conserving and environment-protective, simple and compact for structure, portably use conveniently, safe and reliable.

Description of drawings

Fig. 1 is a structural representation of the present invention.

Fig. 2 is bandage of the present invention structural representation after launching.

Fig. 3 counts the structural representation of driving mechanism for the present invention generates electricity.

The structural representation that Fig. 4 matches with detent mechanism for ratchet of the present invention.

Fig. 5 is the structured flowchart of generator for electricity generation user mode of the present invention.

Fig. 6 is the circuit theory diagrams of generator of the present invention to batteries charging.

Fig. 7 is the circuit theory diagrams of cell-phone charging module of the present invention.

Fig. 8 is the circuit theory diagrams of display screen output counting of the present invention.

Embodiment

The invention will be further described below in conjunction with concrete drawings and Examples.

As Fig. 1 ~ shown in Figure 8: the present invention includes display switch 1, first jack 2, second jack 3, first indicator light 4, second indicator light 5, display screen 6, housing 7, bandage 8, hair is pasted and is with 9, thorn is pasted and is with 10, ratchet mounting panel 11, first supporting bracket 12, first gear train 13, generator 14, driven wheel 15, second gear train 16, second supporting bracket 17, going barrel 18, generator mounting panel 19, ratchet 20, detent mechanism 21, first ratchet 22, escapement 23, loophole 24, second ratchet 25, current rectifying and wave filtering circuit 26, voltage stabilizing circuit 27, battery pack 28,3V Voltage stabilizing module 29, cell-phone charging module 30, single-chip microcomputer 31, optical circuit 32,5V Voltage stabilizing module 33, charging management chip 34, DC-DC conversion control chip 35, generating counting driving mechanism 36, first installation shaft 37 and second installation shaft 38.

As depicted in figs. 1 and 2: described automatic charge device comprises housing 7, one end end of described housing 7 is provided with display switch 1, first jack 2, the 3rd jack 3, first indicator light 4 and second indicator light 5, wherein, first jack 2 and the 3rd jack 3 are respectively applied for powers or forms the jack of charger for mobile phone broadcast receiver, provides the corresponding work power supply to broadcast receiver or mobile phone in the time of can taking a walk outside or run.First indicator light 4 and second indicator light 5 are respectively applied for indication corresponding work state, also are provided with display screen 6 on the housing 7, and display switch 1 is used for the "on" position of control display screen 6, and display screen 6 is positioned on the side of housing 7.Housing 7 is provided with bandage 8 corresponding to the another side that display screen 6 is set, one end of bandage 8 is provided with the hair stickup and is with 9, the other end is provided with thorn and pastes and to be with 10, by described thorn paste with 10 with the hair stickup with 9 corresponding cooperation, housing 7 can be carried on the health easily.

As shown in Figure 3 and Figure 4: in order to power to broadcast receiver or mobile phone, be provided with first supporting bracket 12 and second supporting bracket 17 of symmetrical distribution in the housing 7, described first supporting bracket 12 and second supporting bracket, 17 corresponding matching form support.By generator mounting panel 19 generator 14 is installed on the support; In order to make outwards out-put supply of generator 14, the rotation axis of generator 14 is provided with driven wheel 15, described driven wheel 15 links to each other with generating counting driving mechanism 36, generating counting driving mechanism 36 can drive the rotation axis high speed rotating of generator 14, make generator 14 export electric energy, can also effectively add up carrier's step number simultaneously to the outside.Generating counting driving mechanism 36 comprises ratchet mounting panel 11, and described ratchet mounting panel 11 parallels distribution with support, and ratchet mounting panel 11 is provided with detent mechanism 21; Ratchet mounting panel 11 is by detent mechanism 21 and ratchet 20 corresponding cooperations.Ratchet 20 is installed on the support by first installation shaft 37, and detent mechanism 21 comprises first ratchet 22 and second ratchet 25, forms two detent mechanisms; First ratchet 22, second ratchet 25 and ratchet 20 corresponding cooperations can effectively prevent the counter-rotating of ratchet 20.Ratchet 20 links to each other with clockwork spring in the going barrel 18 by first gear train 13, the clockwork springs in the going barrel 18 by second gear train 16 and driven wheel 15 to engagement; Wherein, first gear train 13 and going barrel 18 are installed on the support by first installation shaft 37, and first gear train 13 and second gear train 16 are installed on the support by second installation shaft 38.Ratchet mounting panel 11 is provided with escapement 23 corresponding to the other end that detent mechanism 21 is set, and described escapement 23 is provided with loophole 24.During use, escapement 23 is at swing of user's health corresponding site and terrestrial gravitation effect lower swing, and after escapement 23 swings, escapement 23 drives ratchet 20 by ratchet mounting panel 11 and ratchet mechanism 21 and rotates.After ratchet 20 rotated, ratchet 20 compressed clockwork spring in the going barrel 18 by first gear train 13, and carrier's mechanical energy is converted to elastic potential energy.Simultaneously, clockwork spring discharges corresponding elastic potential energy by second gear train 16 and driven wheel 15, clockwork spring makes outwards output electric energy of generator 14 by the rotation axis high speed rotating of second gear train 16 and driven wheel 15 driving generators 14, has reached the conversion that mechanical energy is converted to electric energy.Loophole 24 on the escapement 23 can transmitted light, counts according to the number of times of 24 pairs of transmitted lights of loophole, thereby can effectively add up carrier's step number.First gear train 13 and second gear train 16 all are to be meshing with each other by several gears to constitute, and can transmit corresponding power.

As shown in Figure 5: when generating counting driving mechanism 36 driving generators 14 were outwards exported electric energy, in order to store and to export corresponding, the output of generator 14 linked to each other with battery pack 28, and specifically, battery pack 28 adopts the lithium battery group.The output of generator 14 links to each other with battery pack 28 by current rectifying and wave filtering circuit 26 and voltage stabilizing circuit 27, and power storage in battery pack 28, will be exported after the power storage by battery pack 28, improves the stable of output and reaches steadily.The power output end of battery pack 28 links to each other with Voltage stabilizing module and cell-phone charging module 30 respectively, and Voltage stabilizing module comprises that 3V Voltage stabilizing module 29 and 5V Voltage stabilizing module 33 link to each other, and cell-phone charging module 30 is used for mobile phone is charged.The 3V Voltage stabilizing module is used to broadcast receiver that power supply is provided.The power end of 5V Voltage stabilizing module 33 links to each other with the power end of optical circuit 32, single-chip microcomputer 31 and display screen 6 respectively, optical circuit 32 is used for carrying out count signal output behind loophole 24 printing opacities, and count signal is input in the single-chip microcomputer 31, add up by single-chip microcomputer 31.After single-chip microcomputer 31 statistics, show output by display screen 6, it is convenient to observe.

As shown in Figure 6: the circuit theory diagrams that battery pack 28 charged for the present invention.Charging circuit comprises current rectifying and wave filtering circuit 26, and described current rectifying and wave filtering circuit 26 comprises the bridge-type half-wave rectifying circuit that is made of the first diode D1, the second diode D2, the 3rd diode D3 and the 4th diode D4; Wherein, the cathode terminal of the first diode D1 links to each other with the anode tap of the second diode D2, the anode tap of the first diode D1 links to each other with the anode tap of the 4th diode D4, the cathode terminal of the 4th diode D4 links to each other with the anode tap of the 3rd diode D3, and the cathode terminal of the 3rd diode D3 links to each other with the cathode terminal of the second diode D2; One end of generator 14 outputs links to each other with the cathode terminal of the first diode D1, and the other end links to each other with the cathode terminal of the 4th diode D4; The anode tap ground connection of the first diode D1 and the 4th diode (D4), the cathode terminal of the second diode D2 and the 3rd diode D3 links to each other with an end of first capacitor C 1 and first resistance R 1, the other end ground connection of first capacitor C 1, the other end of first resistance R 1 links to each other with power end, switch collector electrode, current limliting collector electrode and the driving collector terminal of DC-DC conversion control chip 35 respectively, and it is the DC-DC chip of MC34063 that DC-DC conversion control chip 35 adopts models.The switch transmitter terminal of DC-DC conversion control chip 35 links to each other with cathode terminal and the inductance L of the first voltage stabilizing didoe D5, the anode tap ground connection of the first voltage stabilizing didoe D5; The earth terminal ground connection of DC-DC conversion control chip 35, the timing capacitor end of DC-DC conversion control chip 35 is by second capacitor C, 2 ground connection; The other end of inductance L links to each other with second resistance R 2 and the 3rd capacitor C 3 respectively, and by the 3rd resistance R 3 ground connection, the 3rd capacitor C 3 is corresponding to the other end ground connection that links to each other with the inductance L and second resistance R 2 corresponding to the other end that links to each other with inductance L for second resistance R 2; Second resistance R 2 links to each other with the comparator end of oppisite phase of DC-DC conversion control chip 35 corresponding to an end that links to each other with the 3rd resistance R 3; The two ends of the two ends of the 3rd capacitor C 3 and battery pack 28 are in parallel.Power supply VC among the figure is the positive terminal of battery pack 28, the negative pole end ground connection of battery pack 28.First capacitor C 1 and the 3rd capacitor C 3 are electrochemical capacitor.

During work, the power output end of generator 14 is undertaken exporting after the rectification by current rectifying and wave filtering circuit 26, DC-DC conversion control chip 35 forms voltage stabilizing circuit 27 with corresponding circuit, after the 3rd capacitor C 3 batteries in parallel connection groups 28, can charge to battery pack 28, finish charging process battery pack 28.

As shown in Figure 7: be the schematic diagram of cell-phone charging module 30 of the present invention.Described cell-phone charging module 30 comprises charging management chip 34, and charging management chip 34 adopts the semi-conductive MC34671 of Freescale.The power end of described charging management chip 34 links to each other with battery pack 28, and the power end of charging management chip 34 links to each other with the anode tap of the first light-emitting diode V1, anode tap and the 4th capacitor C 4 of the second light-emitting diode V2 respectively; The cathode terminal of the first light-emitting diode V1 links to each other with the electric indication end of having of charging management chip 34 by the 4th resistance R 4, and the cathode terminal of the second light-emitting diode V2 links to each other with the charging indication end of charging management chip 34 by the 5th resistance R 5; The equal ground connection of the earth terminal of charging management chip 34 and Enable Pin, the 4th capacitor C 4 is corresponding to the other end ground connection that links to each other with charging management chip 34; The charging current of charging management chip 34 is provided with end by the 6th resistance R 6 ground connection, and the charging output of charging management chip 34 is by the 5th capacitor C 5 ground connection, and the parallel connection of the two ends of described the 5th capacitor C 5 forms mobile phone charging interface J1.Described mobile phone charging interface J1 is first jack 2 or second jack 3.VC among the figure is the positive terminal of battery pack 28.The first light-emitting diode V1 is used to have electricity indication, the second light-emitting diode V2 indication that is used to charge, and the first light-emitting diode V1, the second light-emitting diode V2 are corresponding with first indicator light 4 or second indicator light 5 respectively.Battery pack 28 forms mobile phone charging interface J1 by the charging output of charging management chip 34, thereby can charge to mobile phone easily.

As shown in Figure 8: the structural representation of adding up output for the present invention.The positive terminal of battery pack 28 is by the anode tap of first switch S 1 and the 3rd light-emitting diode V3, the collector electrode of phototriode Q1 and the 9th resistance R 9 link to each other, the cathode terminal of the 3rd light-emitting diode V3 is by the 7th resistance R 7 ground connection, the emitter of phototriode Q1 is by the 8th resistance R 8 ground connection, and the emitter of phototriode Q1 links to each other with the input of single-chip microcomputer 31, the other end that the 9th resistance R 9 links to each other corresponding to phototriode Q1 collector electrode respectively with the power end of single-chip microcomputer 31, the cathode terminal of the power end of display screen 6 and the second voltage stabilizing didoe D6 links to each other, the anode tap ground connection of the second voltage stabilizing didoe D6, the equal ground connection of earth terminal of single-chip microcomputer 31 and display screen 6; The output of single-chip microcomputer 31 links to each other with display screen 6, and single-chip microcomputer 31 is by the corresponding counting of display screen 6 outputs step number.First switch S 1 is display switch 1, and single-chip microcomputer 31 adopts the single-chip microcomputer of PIC.The 3rd light-emitting diode V3 outwards emits beam, when escapement 23 swings to the relevant position, the light of the 3rd light-emitting diode V3 is by loophole 24 directive phototriode Q1, make the emitter junction conducting of phototriode Q1, the emitter of phototriode Q1 is imported a pulse signal in single- chip microcomputer 31,31 pairs of corresponding input pulse signals of single-chip microcomputer are counted, and single-chip microcomputer 31 is by the corresponding counting of display screen 6 outputs structure.The second voltage stabilizing didoe D6 can be stabilized in 5V or 3V to the voltage voltage stabilizing of battery pack 28 outputs.

As Fig. 1 ~ shown in Figure 8: during use, housing 7 by bandage 8 and hair paste with 9, thorn pastes and is bundled on carrier's the shank or arm with 10.When carrier's stroll or running, the escapement 23 in the housing 7 is at gravity or carrier's motion effect lower swing, and after escapement 23 swings, ratchet mounting panel 11 is swung accordingly, and the detent mechanism on the ratchet mounting panel 11 21 promotes ratchet 20 rotations simultaneously.After ratchet 20 rotated, ratchet 20 compressed clockwork spring in the going barrel 18 by first gear train 13; After the clockwork spring in the going barrel 18 was pressed to a certain degree, clockwork spring made outwards generating output electric energy of generator 14 by the rotation axis high speed rotating of second gear train 16 and driven wheel 15 drive generators 14.The output of generator 14 is powered by current rectifying and wave filtering circuit 26,27 pairs of battery pack 28 of voltage stabilizing circuit.Battery pack 28 can be stored the electric energy of generator 14 output, and can outwards export in requisition for electric energy.Battery pack 28 can by 5V Voltage stabilizing module 33 output 5V voltages, can be charged by 30 pairs of mobile phones of cell-phone charging module by 3V Voltage stabilizing module 29 output 3V voltages simultaneously.Simultaneously, when escapement 23 is constantly swung, the light that the 3rd light-emitting diode V3 outwards sends can be by the directive phototriode Q1 of loophole 24 intermittences, phototriode Q1 receives collector junction conducting behind the light, the emitter of phototriode Q1 is the input pulse signal in single-chip microcomputer 31, and single-chip microcomputer 31 pulse signals are added up, and show output by display screen 6, thereby can finish the function of step number statistics output, thereby can the corresponding distance of accurate Calculation.

The present invention is provided with generator 14 in housing 7, generator 14 drives generating by generating counting driving mechanism 36; The electric energy that generator 14 sends charges by current rectifying and wave filtering circuit 26 and 27 pairs of battery pack 28 of voltage stabilizing circuit, can export 3V or 5V power supply by battery pack 28, by mobile phone charging interface J1 mobile phone is charged simultaneously; The driving energy that generating counting driving mechanism 36 produces produces down by carrier's motion and action of gravity, do not need to consume outside energy, battery pack 28 electric energy stored can also be used for outside urgent special circumstances, improve the utilization rate of portable power consumption equipment, energy-conserving and environment-protective, simple and compact for structure, portably use conveniently, safe and reliable.

Claims (10)

1. an automatic charge device comprises housing (7); It is characterized in that: be provided with generator (14) in the described housing (7), the output shaft of described generator (14) is provided with and is used to drive the generating counting driving mechanism (36) that generator (14) rotates generating; The output of generator (14) links to each other with battery pack (28), and the power output end of battery pack (28) is electrically connected with Voltage stabilizing module and cell-phone charging module (30) respectively.

2. automatic charge device according to claim 1 is characterized in that: the output of described generator (14) pass through current rectifying and wave filtering circuit (26), voltage stabilizing circuit (27) links to each other with battery pack (28).

3. automatic charge device according to claim 2 is characterized in that: described current rectifying and wave filtering circuit (26) comprises the bridge-type half-wave rectifying circuit that is made of first diode (D1), second diode (D2), the 3rd diode (D3) and the 4th diode (D4); Wherein, the cathode terminal of first diode (D1) links to each other with the anode tap of second diode (D2), the anode tap of first diode (D1) links to each other with the anode tap of the 4th diode (D4), the cathode terminal of the 4th diode (D4) links to each other with the anode tap of the 3rd diode (D3), and the cathode terminal of the 3rd diode (D3) links to each other with the cathode terminal of second diode (D2); One end of generator (14) output links to each other with the cathode terminal of first diode (D1), and the other end links to each other with the cathode terminal of the 4th diode (D4); The anode tap ground connection of first diode (D1) and the 4th diode (D4), the cathode terminal of second diode (D2) and the 3rd diode (D3) links to each other with an end of first electric capacity (C1) and first resistance (R1), the other end ground connection of first electric capacity (C1), the other end of first resistance (R1) link to each other with power end, switch collector electrode, current limliting collector electrode and the driving collector terminal of DC-DC conversion control chip (35) respectively; The switch transmitter terminal of DC-DC conversion control chip (35) links to each other with the cathode terminal and the inductance L of first voltage stabilizing didoe (D5), the anode tap ground connection of first voltage stabilizing didoe (D5); The earth terminal ground connection of DC-DC conversion control chip (35), the timing capacitor end of DC-DC conversion control chip (35) is by second electric capacity (C2) ground connection; The other end of inductance L links to each other with second resistance (R2) and the 3rd electric capacity (C3) respectively, by the 3rd resistance (R3) ground connection, the 3rd electric capacity (C3) is corresponding to the other end ground connection that links to each other with inductance L and second resistance (R2) corresponding to the other end that links to each other with inductance L for second resistance (R2); Second resistance (R2) links to each other with the comparator end of oppisite phase of DC-DC conversion control chip (35) corresponding to an end that links to each other with the 3rd resistance (R3); The two ends of the two ends of the 3rd electric capacity (C3) and battery pack (28) are in parallel.

4. automatic charge device according to claim 1 is characterized in that: described housing (7) is provided with bandage (8), and the two ends of described bandage (8) are provided with the hair of corresponding cooperation and paste band (9) and thorn stickup band (10).

5. automatic charge device according to claim 1, it is characterized in that: described generating counting driving mechanism (36) comprises the support that is positioned at housing (7), described support is provided with ratchet mounting panel (11), and described ratchet mounting panel (11) is provided with the detent mechanism (21) with the corresponding cooperation of ratchet (20); Described ratchet (20) is meshed with first gear train (13); First gear train (13) compresses the clockwork spring in the going barrel (18), clockwork spring in the going barrel (18) is meshed with driven wheel (15) on generator (14) rotation axis by second gear train (16), is used to drive the rotation axis rotation of generator (14).

6. automatic charge device according to claim 5 is characterized in that: described ratchet mounting panel (11) is provided with escapement (23) corresponding to the other end that detent mechanism (21) is set, and described escapement (23) is provided with loophole (24).

7. automatic charge device according to claim 1 is characterized in that: described Voltage stabilizing module comprises 3V Voltage stabilizing module (29) and 5V Voltage stabilizing module (33).

8. automatic charge device according to claim 7 is characterized in that: the output of described 5V Voltage stabilizing module (33) links to each other with the power end of optical circuit (32), single-chip microcomputer (31) and display screen (6); The output of optical circuit (32) links to each other with the input of single-chip microcomputer (31), and the output of single-chip microcomputer (31) links to each other with display screen (6); Single-chip microcomputer (31) is by display screen (6) output counting step number; Display screen (6) is installed on the housing (7).

9. automatic charge device according to claim 1, it is characterized in that: described cell-phone charging module (30) comprises charging management chip (34), the power end of described charging management chip (34) links to each other with battery pack (28), and the power end of charging management chip (34) links to each other with the anode tap of first light-emitting diode (V1), the anode tap and the 4th electric capacity (C4) of second light-emitting diode (V2) respectively; The cathode terminal of first light-emitting diode (V1) links to each other with the electric indication end that has of charging management chip (34) by the 4th resistance (R4), and the cathode terminal of second light-emitting diode (V2) links to each other with the charging indication end of charging management chip (34) by the 5th resistance (R5); The earth terminal of charging management chip (34) and the equal ground connection of Enable Pin, the 4th electric capacity (C4) is corresponding to the other end ground connection that links to each other with charging management chip (34); The charging current of charging management chip (34) is provided with end by the 6th resistance (R6) ground connection, the charging output of charging management chip (34) is by the 5th electric capacity (C5) ground connection, and the parallel connection of the two ends of described the 5th electric capacity (C5) forms mobile phone charging interface (J1).

10. automatic charge device according to claim 1, it is characterized in that: the positive terminal of described battery pack (28) is by the anode tap of first switch (S1) with the 3rd light-emitting diode (V3), the collector electrode of phototriode (Q1) and the 9th resistance (R9) link to each other, the cathode terminal of the 3rd light-emitting diode (V3) is by the 7th resistance (R7) ground connection, the emitter of phototriode (Q1) is by the 8th resistance (R8) ground connection, and the emitter of phototriode (Q1) links to each other with the input of single-chip microcomputer (31), the other end that the 9th resistance (R9) links to each other corresponding to phototriode (Q1) collector electrode respectively with the power end of single-chip microcomputer (31), the cathode terminal of the power end of display screen (6) and second voltage stabilizing didoe (D6) links to each other, the anode tap ground connection of second voltage stabilizing didoe (D6), the equal ground connection of earth terminal of single-chip microcomputer (31) and display screen (6); The output of single-chip microcomputer (31) links to each other with display screen (6), and single-chip microcomputer (31) is by the corresponding counting of display screen (6) output step number.

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