CN203839996U - Portable energy storage generating set - Google Patents

Abstract

The utility model discloses a portable energy storage generating set, including an energy storage module, a manpower generating module, an AC charging module and a control unit. The energy storage module includes at least one energy storage unit. The energy storage unit is provided with an input terminal set and an output terminal set. The electricity generated by the manpower generating module is connected to the input terminal set. The manpower generating module generates electric energy and transmits the electric energy to the energy storage module. The AC charging module is in electric connection with the input terminal set and is used for converting AC electric energy and transmitting the electric energy to the energy storage module. The control unit is in electric connection with the manpower generating module and is used for detecting characteristics of the electric energy generated by the manpower generating module to find a power point according with a preset threshold and transmitting the electric energy according with the power point to the energy storage module. The portable energy storage generating set can effectively collect and store electric energy and conveniently provide sufficient energy for users in regions without power supply facilities.

Description

Portable type energy-storage generating apparatus

Technical field

The utility model relates to a kind of energy-storage generating apparatus, espespecially a kind of easy to carry and can be by the portable type energy-storage generating apparatus of civil power or green energy (small-sized or portable generating electricity from manpower, solar energy and wind energy turn electricity collection) charging.

Background technology

Along with scientific and technological progress, in daily life, energy-output ratio correspondingly also expands fast in the electronic product extensive use of various difference in functionalitys.Traditional power supply facilities utilizes fossil fuel generating, but its cost is expensive and the danger that has resource to exhaust.Instead eco-friendly power source, large power generating equipments such as solar power generation, wind power generation builds difficult, and not each area can be installed.If while there are natural and man-made calamities, once the power supply facilities of fossil fuel and the power supply facilities of eco-friendly power source damage, just being difficult to obtain the enough energy, local resident drives daily required electrical home appliances.As a rule, diesel oil (petrochemical industry energy) generator is that modal urgent generating is put on record, but consider that diesel oil is not easily available resource, if natural energy effectively can be utilized, just the portable type energy-storage generating apparatus of green energy generating-charging is the effort target that relevant eco-friendly power source industry is needed development badly.

Utility model content

In view of this, the technical problems to be solved in the utility model is to provide a kind of easy to carry and can be by civil power or green portable type energy-storage generating apparatus that can charging.

For solving the problems of the technologies described above, the technical solution of the utility model is achieved in that

A portable type energy-storage generating apparatus, it includes:

One energy-storage module, comprises at least one energy-storage units, and this energy-storage units has an input subgroup and an output subgroup, and this output subgroup is used for connecting another energy-storage module in parallel or arbitrary external electronic;

One generating electricity from manpower module, be electrically connected to this input subgroup, this generating electricity from manpower module comprises a magnetic element and an induction coil, this induction coil is arranged on this magnetic element actively, this generating electricity from manpower module is utilized the generation electric energy that relatively moves of this magnetic element and this induction coil, and this electric energy is efficiently collected to electric energy through control unit with maximum power point tracking circuit is sent to this energy-storage module;

One AC charging module, is electrically connected to this input subgroup, and this AC charging module is sent to AC energy this energy-storage module after being converted to direct current energy;

One control unit, is electrically connected to this generating electricity from manpower module, and this control unit detects the characteristic of this electric energy of this generating electricity from manpower module generation, and finds out the power points that meets a preset threshold, and this electric energy that meets this power points is sent to this energy-storage module.

As preferred version, this AC charging module comprises a conversion element, and this conversion element is converted to direct current energy by this AC energy.

As preferred version, this portable type energy-storage generating apparatus separately comprises one or more dc-battery parallel interface and one or more DC12V output interface, this dc-battery parallel interface is electrically connected to this input subgroup, and this DC12V output interface is electrically connected to this output subgroup.

As preferred version, this input subgroup comprises an input positive terminal and an input negative terminal, and this output subgroup comprises an output cathode terminal and an output negative pole terminal.

As preferred version, this control unit receives this electric energy from this generating electricity from manpower module, and exports this electric energy to this another energy-storage module in parallel and this arbitrary external electronic simultaneously.

As preferred version, this energy-storage units separately have the maximum pd quantity of this energy-storage units of a control within discharge time be less than 2C or be less than total electric weight 85 percent in order to protect battery, increase the protective circuit of battery life.

As preferred version, this energy-storage module comprises two above energy-storage units in parallel, has respectively a self-balancing management circuit in parallel, and the output voltage that this parallel connection self-balancing management circuit orders about two above these energy-storage units in parallel is identical with input voltage.

As preferred version, this control unit judges when the magnitude of voltage of this electric energy and the combination of current value are greater than this preset threshold, drives this electric energy of this generating electricity from manpower module transmission tool maximum power point to this energy-storage module.

As preferred version, this portable type energy-storage generating apparatus separately comprises:

One solar power generation module, is electrically connected to this control unit and this energy-storage module, and the electric energy that this control unit drives this solar power generation module to transmit tool maximum power point arrives this energy-storage module.

As preferred version, this portable type energy-storage generating apparatus separately comprises:

One wind power generation module, is electrically connected to this control unit and this energy-storage module, and the electric energy that this control unit drives this wind power generation module to transmit tool maximum power point arrives this energy-storage module.

As preferred version, this portable type energy-storage generating apparatus separately comprises:

One light-emitting component, is electrically connected to this output subgroup of this energy-storage module.

The technique effect that the utility model reaches is as follows: the utility model can effectively be collected store electrical energy, adapter (ADAPTER) or direct current that collocation is used interchange to turn direct current turn AC inverter (INVERTER), and user still can be provided without power supply facilities area the sufficient energy expediently.

Accompanying drawing explanation

Fig. 1 is the schematic appearance of the utility model embodiment portable type energy-storage generating apparatus.

Fig. 2 is the functional block diagram of the utility model embodiment portable type energy-storage generating apparatus.

Fig. 3 is the schematic diagram of the energy-storage units of the utility model embodiment.

Fig. 4 is the schematic diagram of the energy-storage units of another embodiment of the utility model.

Fig. 5 is the functional block diagram of the energy-storage units of the utility model embodiment.

Fig. 6 is the generating electricity from manpower module diagram of the utility model embodiment.

[symbol description]

10 portable type energy-storage generating apparatus

12 energy-storage modules

14 generating electricity from manpower modules

16 AC charging modules

18 control units

20 energy-storage units

The charging hole of 201 DC 2.0 specifications

203 holding sections

22 input subgroups

221 input positive terminals

223 input negative terminals

24 output subgroups

241 output cathode terminals

243 output negative pole terminals

26 protective circuits

28 self-balancing management circuits in parallel

30 magnetic elements

32 induction coils

34 levers

36 solar power generation modules

38 wind power generation modules

40 housings

42 control panels

42a dc-battery parallel interface

42b commercial power interface

42c direct current supply interface

42d DC12V output interface

44 light-emitting components.

Embodiment

Refer to Fig. 1 and Fig. 2, Fig. 1 is the schematic appearance of the utility model embodiment portable type energy-storage generating apparatus 10, and Fig. 2 is the functional block diagram of the utility model embodiment portable type energy-storage generating apparatus 10.Portable type energy-storage generating apparatus 10 comprises energy-storage module 12, generating electricity from manpower module 14, AC charging module 16 and control unit 18.Wherein AC charging module 16 can be adapter (ADAPTER).Energy-storage module 12 can be formed with parallel connection or series system combination in any by one or more energy-storage units 20.When the quantity of energy-storage units 20 is plural number, a plurality of energy-storage units 20 connect with parallel way.Generating electricity from manpower module 14 is electrically connected on energy-storage module 12 with AC charging module 16, produces respectively electric energy and is sent to energy-storage module 12 and deposit.Generating electricity from manpower module 14 can comprise various types of manpowers (containing manually) electricity generation module.Control unit 18 is electrically connected on generating electricity from manpower module 14, is used for following the trail of the maximum power point of manpower electricity generation module 14 in power generation process and assembles electric energy, to improve the charge efficiency of energy-storage module 12.Portable type energy-storage generating apparatus 10 can utilize in the place with power supply facilities AC charging module 16 to receive civil power, can also utilize generating electricity from manpower module 14 to produce electric energy not having an area of power supply facilities, therefore, portable type energy-storage generating apparatus 10 of the present utility model allows user can obtain the sufficient energy at any environment.

Refer to Fig. 3, Fig. 3 is the schematic diagram of the energy-storage units 20 of the utility model embodiment.Each energy-storage units 20 has input subgroup 22 and output subgroup 24, is divided into the opposite side of energy-storage units 20.Input subgroup 22 comprises input positive terminal 221 and input negative terminal 223.Output subgroup 24 comprises output cathode terminal 241 and output negative pole terminal 243.Input subgroup 22 is electrically connected on generating electricity from manpower module 14 and AC charging module 16, and output subgroup 24 is used for connecting another energy-storage module in parallel or external electronic arbitrarily.External electronic is that any need are obtained electric energy to maintain the product of System Operation.Because energy-storage units 20 has, input is used and two terminal group of output use, when energy-storage module 12 self-balancing output electric energy are given other batteries in parallel connection or external electronic, the electric energy that also can simultaneously make energy-storage module 12 receive from generating electricity from manpower module 14 and/or AC charging module 16, meaning is that energy-storage units 20 possesses the function of charge and discharge simultaneously.Energy-storage units 20 is preferably the ternary lithium battery of tool specific standard.Energy-storage module 12 can be the tandem compound of three energy-storage units 20 (3.7V, 10Ah); Or the combination of the energy-storage units 20 (3.7V) of three series connection energy-storage units 20 (5Ah) in parallel with two, but not as limit.

Refer to Fig. 4, Fig. 4 is the schematic diagram of the energy-storage units 20 of another embodiment of the utility model.Input subgroup 22 and the output subgroup 24 of the energy-storage units 20 of this embodiment is divided into the opposite side of energy-storage units 20, but input subgroup 22 picks out two input positive terminals 221 and two input negative terminals 223 with shunting mode, and output subgroup 24 also picks out two output cathode terminals 241 and two output negative pole terminals 243 with shunting mode.Than previous embodiment, input subgroup 22 and the output subgroup 24 of the present embodiment comprises above (a plurality of) anode and cathode terminals, can supply in parallel energy-storage module or the external electronic of electric energy to other simultaneously.Energy-storage units 20 is the alternative charging hole 201 with DC2.0 specification also, so not as limit.Energy-storage units 20 utilizes the charging hole 201 of DC2.0 specification to receive civil power, and utilizes holding section 203 to be incorporated into other energy-storage units.In addition, the outward appearance of energy-storage units 20 is not limited to Fig. 3 and embodiment illustrated in fig. 4, and all input subgroups 22 with a plurality of terminals all belong to design category of the present utility model with the energy-storage units 20 of output subgroup 24.

Refer to Fig. 3 to Fig. 5, Fig. 5 is the functional block diagram of the energy-storage units 20 of the utility model embodiment.Energy-storage units 20 can have protective circuit 26 and self-balancing management circuit 28 in parallel.Protective circuit 26 selectivity provide overcharge protection, deep-discharge protection, over-temperature protection function, excess current protective function and/or short-circuit protection function.In the present embodiment; protective circuit 26 set each energy-storage units 20 discharge into 3.4 volts (or minimum to 3.0 volts) time cut-off; or the maximum pd quantity short time of controlling each energy-storage units 20 is no more than 2C (rated capacity part) or essence is not more than 85 percent of total electric weight, to guarantee the fail safe of energy-storage units 20 and to extend service life.The output voltage that self-balancing management circuit 28 in parallel orders about a plurality of energy-storage units 20 can maintain consistent standard with input voltage, for example, use voltage valve.By self-balancing management circuit 28 in parallel, energy-storage module 12 can increase arbitrarily the quantity of energy-storage units 20, and a plurality of energy-storage units 20 connect with parallel way, synchronously expands the standby charge capacity that carries of energy-storage module 12.In other words, self-balancing management circuit 28 in parallel can allow the input/output voltage levvl essence of each energy-storage units 20 be same as the input/output voltage levvl of other energy-storage units 20.Therefore energy-storage module 12 stably equipressure synchronously charge and discharge.

Refer to Fig. 6, Fig. 6 is generating electricity from manpower module 14 schematic diagrames of the utility model embodiment.Generating electricity from manpower module 14 comprises magnetic element 30 and induction coil 32, and induction coil 32 is arranged on magnetic element 30 actively.Induction coil 32 can be connected to lever 34, as shown in Figure 1.User operates lever 34, allows induction coil 32 move relative to magnetic element 30, and now induction coil 32 can produce electric energy because of electromagnetic induction principle.Generating electricity from manpower module 14 is sent to energy-storage module 12 to deposit accumulation of energy or to take for external electronic by the electric energy of generation.Special one carries, and the induction coil 32 of this embodiment rotates relative to magnetic element 30; But in other embodiments,, induction coil 32 is magnetic element 30 Linear-movings relatively separately, depending on the design of generating electricity from manpower module 14.The mechanism of power generation of generating electricity from manpower module 14 can be not limited to, shown in previous embodiment, in this, be illustrated no longer one by one.

Referring again to Fig. 2, AC charging module 16 comprises conversion element (not being shown in figure).Conversion element is a kind of AC-DC converter.The civil power that AC charging module 16 receives is AC energy, and energy-storage units 20 is used for storing direct current energy, so AC charging module 16 need convert AC energy to direct current energy by conversion element.As a rule, civil power is the AC energy of 100/250 volt, and the AC charging module of the present embodiment 16 can be converted to the direct current energy of 12V by civil power, and is sent to energy-storage module 12, so that energy-storage module 12 can be stablized and store electrical energy for a long time.

Control unit 18 can be a kind of maximum power point tracking circuit.For instance, control unit 18 can detect the electric energy characteristic that generating electricity from manpower module 14 produces, for example major loop direct voltage and output current, combination with multiplier calculating voltage value and current value obtains power instantly, by current perturbation, measuring generating electricity from manpower module 14 changes in the power output before and after disturbance, for example use comparator, to realize the tracking of maximum power point.The generated output of generating electricity from manpower module 14 can have aperiodicity to change because user's operation strength (corresponding to the rotating speed of induction coil 32) changes.Control unit 18 can detect the power of electric energy instantly of generating electricity from manpower module 14 immediately, and compares with the electric energy power of previous moment (or memory value).By adjusting metal-oxide-semifield-effect electric crystal (Metal-Oxide-Semiconductor Field-Effect Transistor, MOSFET) work period, change by the average current of disturbance resistance, produced the variation of output current/voltage, find out accordingly maximum power point, for example, when meaning finds out the power points that meets (being greater than) preset threshold.The numerical value of preset threshold is depending on kind and the place environment of electricity generation module.So, control unit 18 just can allow generating electricity from manpower module 14 always work in maximum power point, makes energy-storage module 12 full charging energy fast.Certainly, metal-oxide-semifield-effect electric crystal also can be replaced by diode or other electron component, depending on design requirement.

In addition, portable type energy-storage generating apparatus 10 further can comprise solar power generation module 36 and wind power generation module 38, is electrically connected on respectively control unit 18 and energy-storage module 12.Solar power generation module 36 and wind power generation module 38 are selectivity configuration, and each is collected electric power with maximum power point tracking circuit and is filled with energy-storage module 12, are used for replacing or coordinate generating electricity from manpower module 14 to produce together clean electric energy.Because the generated output of solar power generation module 36 is understood because sunlight power have aperiodicity to change, wind power generation module 38 also can change because wind-force size has aperiodicity, control unit 18 can detect the electric energy characteristic of solar power generation module 36 and wind power generation module 38 generations, follow the trail of the multiplier maximum of its magnitude of voltage and current value, to control solar power generation module 36, always work in maximum power point with wind power generation module 38.Wherein, solar power generation module 36 is preferably portable type folding solar panel, and wind power generation module 38 is preferably circumscribed small-sized efficient blower fan, is so not limited to this.

Referring again to Fig. 1, portable type energy-storage generating apparatus 10 also can comprise housing 40, control panel 42 and light-emitting component 44.Energy-storage module 12, generating electricity from manpower module 14 are all arranged in housing 40 with control unit 18.Control panel 42 is arranged at the outer surface of housing 40.Control panel 42 can have one or more dc-battery parallel interface 42a, is electrically connected to the input subgroup 22 of energy-storage module 12.Dc-battery parallel interface 42a is used for external solar power generation module 36 or wind power generation module 38 and collects with maximum power point tracking circuit the energy-storage module 12 that electric power was filled with.Control panel 42 also can have a commercial power interface 42b (as DC2.0), is electrically connected on AC charging module 16.Control panel 42 separately can have one or more direct current supply interface 42c and one or more DC12V output interface (as connect inverter) 42d, and it is electrically connected on the output subgroup 24 of energy-storage module 12.Direct current supply interface 42c can be the transmission interface of universal serial bus (USB), and low-voltage DC supply is used or provides in the charging that is typically used as the accompanied electronic products such as mobile phone.The configurable inverter INVERTER of DC12V output interface 42d (not being shown in figure), inverter (INVERTER) changes into AC energy by the direct current energy of energy-storage module 12, and output AC electric energy is given the electrical home appliances of 100 watts ~ 400 watts.So each interface configuration kenel of control panel 42 and relevant parameter are set and can be not limited to this.Light-emitting component 44 is the light-emitting diode that high brightness, height are drilled look, and it has low power consumption, high color rendering index (CRI), does not dodge contour photoelectric color quality characteristic frequently.Light-emitting component 44 is electrically connected on the output subgroup 24 of energy-storage module 12, and only needing to consume extremely low direct current is just enough to the outdoor lighting that provides required.

In sum, the utility model utilizes generating electricity from manpower module, solar power generation module and/or wind power generation module can independently generate electricity in the area without power supply facilities by portable type energy-storage generating apparatus, and by maximum power point detection technique, by control unit, immediately detected the generated output of each electricity generation module, make each electricity generation module all be operated in maximum power point, effectively improve the charging efficiency of energy-storage module.Energy-storage module utilizes protective circuit to maintain the task performance of energy-storage units, and self-balancing is pressed in the charge/discharge that utilizes self-balancing management circuit in parallel to maintain a plurality of energy-storage units.Energy-storage units has input subgroup and output subgroup, when electricity generation module is sent to the electric energy of generation energy-storage units and deposits via input subgroup, external electronic can obtain the store electrical energy of energy-storage units simultaneously by output subgroup, so energy-storage units has the function of charge/discharge simultaneously.Compare prior art, the utility model can effectively be collected store electrical energy, and collocation is used direct current to deliver stream or exchanged the unsteady flow design that turns direct current, and user still can be provided without power supply facilities area the sufficient energy expediently.

The above, be only preferred embodiment of the present utility model, is not intended to limit protection range of the present utility model.

Claims (11)

1. a portable type energy-storage generating apparatus, is characterized in that, it includes:

One energy-storage module, comprises at least one energy-storage units, and this energy-storage units has an input subgroup and an output subgroup, and this output subgroup is used for connecting another energy-storage module in parallel or arbitrary external electronic;

One generating electricity from manpower module, be electrically connected to this input subgroup, this generating electricity from manpower module comprises a magnetic element and an induction coil, this induction coil is arranged on this magnetic element actively, this generating electricity from manpower module is utilized the generation electric energy that relatively moves of this magnetic element and this induction coil, and this electric energy is efficiently collected to electric energy through control unit with maximum power point tracking circuit is sent to this energy-storage module;

One AC charging module, is electrically connected to this input subgroup, and this AC charging module is sent to AC energy this energy-storage module after being converted to direct current energy;

One control unit, is electrically connected to this generating electricity from manpower module, and this control unit detects the characteristic of this electric energy of this generating electricity from manpower module generation, and finds out the power points that meets a preset threshold, and this electric energy that meets this power points is sent to this energy-storage module.

2. portable type energy-storage generating apparatus as claimed in claim 1, is characterized in that, this AC charging module comprises a conversion element, and this conversion element is converted to direct current energy by this AC energy.

3. portable type energy-storage generating apparatus as claimed in claim 1, it is characterized in that, this portable type energy-storage generating apparatus separately comprises one or more dc-battery parallel interface and one or more DC12V output interface, this dc-battery parallel interface is electrically connected to this input subgroup, and this DC12V output interface is electrically connected to this output subgroup.

4. portable type energy-storage generating apparatus as claimed in claim 1, is characterized in that, this input subgroup comprises an input positive terminal and an input negative terminal, and this output subgroup comprises an output cathode terminal and an output negative pole terminal.

5. the portable type energy-storage generating apparatus as described in claim 1 or 4, is characterized in that, this control unit receives this electric energy from this generating electricity from manpower module, and exports this electric energy to this another energy-storage module in parallel and this arbitrary external electronic simultaneously.

6. portable type energy-storage generating apparatus as claimed in claim 1; it is characterized in that; this energy-storage units separately have the maximum pd quantity of this energy-storage units of a control within discharge time be less than 2C or be less than total electric weight 85 percent in order to protect battery, increase the protective circuit of battery life.

7. portable type energy-storage generating apparatus as claimed in claim 1, it is characterized in that, this energy-storage module comprises two above energy-storage units in parallel, have respectively a self-balancing management circuit in parallel, the output voltage that this parallel connection self-balancing management circuit orders about two above these energy-storage units in parallel is identical with input voltage.

8. portable type energy-storage generating apparatus as claimed in claim 1, it is characterized in that, this control unit judges when the magnitude of voltage of this electric energy and the combination of current value are greater than this preset threshold, drives this electric energy of this generating electricity from manpower module transmission tool maximum power point to this energy-storage module.

9. portable type energy-storage generating apparatus as claimed in claim 1, is characterized in that, this portable type energy-storage generating apparatus separately comprises:

One solar power generation module, is electrically connected to this control unit and this energy-storage module, and the electric energy that this control unit drives this solar power generation module to transmit tool maximum power point arrives this energy-storage module.

10. portable type energy-storage generating apparatus as claimed in claim 1, is characterized in that, this portable type energy-storage generating apparatus separately comprises:

One wind power generation module, is electrically connected to this control unit and this energy-storage module, and the electric energy that this control unit drives this wind power generation module to transmit tool maximum power point arrives this energy-storage module.

11. portable type energy-storage generating apparatus as claimed in claim 1, is characterized in that, this portable type energy-storage generating apparatus separately comprises:

One light-emitting component, is electrically connected to this output subgroup of this energy-storage module.