CN209184302U - A kind of heatable portable energy-storing system - Google Patents

Abstract

The utility model relates to technical field of energy storage, more particularly to a kind of heatable portable energy-storing system.The system includes: solar panels；Solar controller is connect with solar panels；Battery management system is connect with solar controller；Battery is connect with battery management system；System controller is connect with battery management system；Inverter is connect with battery management system and system controller respectively；Heater circuit is connect with solar controller, battery management system and system controller respectively.The portable energy-storing system of the utility model embodiment can heat itself as a result, to meet more use environments, it is ensured that the use of user in cold environments promotes user experience.

Description

A kind of heatable portable energy-storing system

Technical field

The utility model embodiment is related to technical field of energy storage, more particularly to a kind of heatable portable energy-storing system System.

Background technique

With social development, electric power seems essential in daily life and work, but can usually encounter outdoor electricity consumption, equipment A series of problems, such as standby electricity, power failure.Due to out of power, power cut problem, cause work that can not continue, daily life It is affected.Especially in the summer of peak of power consumption, have a power failure the normal potluck that gets married；Or it is some remote districts, endure chaos caused by war to the fullest extent Country, be also usually faced with power-off and electricity consumption problem, the product of portable energy-storing power supply, which becomes, solves these problems for them One of selection.

Portable energy-storing is widely used various fields, such as: field is encamped, open air is taken photo by plane, scientific investigation and search and rescue are lived Dynamic, outdoor office, field photography, outdoor construction, backup power source, emergency power supply fire-fighting and rescue, the anti-dangerous disaster relief, automobile starting, number The scenes such as code charging and mobile power source.The potential consumer group and field energetically will be become in the following this product.

But inventor is in the process of implementing the utility model, there are following technical problems for the discovery prior art: existing Have in technology, existing small energy storage is generally influenced by temperature, cannot be charged when battery core temperature is lower than 0 degree, otherwise will The damage of unrepairable is caused to battery core.So small portable energy storaging product in the market, environment temperature is scheduled on 0 by general limitation Du or more could charge.Lead to that such product cannot be used in the low area of temperature in this way, using by strong influence.

Utility model content

The utility model embodiment mainly solving the technical problems that provide a kind of heatable portable energy-storing system, Aim to solve the problem that the problem of existing portable energy-storing system can not heat.

In order to solve the above technical problems, the technical solution that the utility model embodiment uses is: providing one kind can The portable energy-storing system of heating, comprising:

Solar panels；

Solar controller is connect with the solar panels；

Battery management system is connect with the solar controller；

Battery is connect with the battery management system；

System controller is connect with the battery management system；

Inverter is connect with the battery management system and the system controller respectively；

Heater circuit is connect with the solar controller, the battery management system and system controller respectively；

Wherein, the solar panels convert solar energy into the first direct current and are transmitted to the solar controller, institute Solar controller is stated to be the second direct current to match with the battery management system by first DC conversion and pass The battery management system is transported to charge to the battery, the system controller can control the battery management system The working condition of system, the inverter and the heater circuit, the heater circuit are used to be the portable energy-storing system Heat supply, the inverter are used for the conversion of direct current and alternating current.

Optionally, the heater circuit includes first switch tube, second switch, the first inductance, first capacitor and first Adding thermal resistance；

Wherein, the input terminal of the first switch tube is connect with the output cathode of the solar controller, and described first The control terminal of switching tube is connect with the system controller, the output end of the first switch tube respectively with the second switch Input terminal, first inductance one end connection, the other end of first inductance respectively with one end of the first capacitor, One end of first adding thermal resistance connects, and the control terminal of the second switch is connect with the system controller, and described the The other end of the output end of two switching tubes, the other end of the first capacitor and first adding thermal resistance with the sun It can control the input cathode connection of device.

Optionally, the first switch tube and the second switch include triode.

Optionally, the heater circuit includes third switching tube, the second inductance, diode, the second capacitor and the second heating Resistance；

One end of second inductance is connect with the output cathode of the solar controller, second inductance it is another End connect with the input terminal of the input terminal of the third switching tube, the diode, the output end of the diode respectively with institute State one end connection of the second capacitor, second adding thermal resistance, the control terminal of the third switching tube and the system controller Connection, the output end of the third switching tube, the other end of second capacitor, second adding thermal resistance the other end with The input cathode of the solar controller connects.

Optionally, the third switching tube includes triode.

Optionally, the heater circuit includes switch and third adding thermal resistance；

One contact of the switch is connect with the output cathode of the solar controller, another contact of the switch with One end of the third adding thermal resistance connects, and the other end of the third adding thermal resistance and the input of the solar controller are negative Pole connection.

Optionally, portable energy-storing system further include:

Load, the load are connect with the inverter.

Optionally, the load includes single-phase load electrical equipment.

Optionally, the single-phase load electrical equipment includes light bulb, computer, refrigerator or electromagnetic oven.

Optionally, the battery includes rechargeable lithium battery.

The beneficial effect of the utility model embodiment is: being in contrast to the prior art, the utility model embodiment party A kind of heatable portable energy-storing system of formula, comprising: solar panels；Solar controller connects with the solar panels It connects；Battery management system is connect with the solar controller；Battery is connect with the battery management system；System Controller is connect with the battery management system；Inverter is controlled with the battery management system and the system respectively Device connection；Heater circuit is connect with the solar controller, the battery management system and system controller respectively； Wherein, the solar panels convert solar energy into the first direct current and are transmitted to the solar controller, the solar energy First DC conversion is the second direct current to match with the battery management system and is transmitted to described by controller For battery management system to charge to the battery, the system controller can control the battery management system, described The working condition of inverter and the heater circuit, the heater circuit are used to be the portable energy-storing system heat supply, institute State conversion of the inverter for direct current and alternating current.The portable energy-storing system of the utility model embodiment can be right as a result, Itself is heated, to meet more use environments, it is ensured that the use of user in cold environments promotes user experience.

Detailed description of the invention

One or more embodiments are illustrated by the picture in corresponding attached drawing, these are exemplary Illustrate not constitute the restriction to embodiment, the element in attached drawing with same reference numbers label is expressed as similar member Part, unless there are special statement, composition does not limit the figure in attached drawing.

Fig. 1 is the structural schematic diagram of the heatable portable energy-storing system of the utility model embodiment；

Fig. 2 is a structural representation of the heater circuit in the heatable portable energy-storing system of the utility model embodiment Figure；

Fig. 3 is that the another structure of the heater circuit in the heatable portable energy-storing system of the utility model embodiment is shown It is intended to；

Fig. 4 is that another structure of the heater circuit in the heatable portable energy-storing system of the utility model embodiment is shown It is intended to.

Specific embodiment

For the ease of understanding the utility model, with reference to the accompanying drawings and detailed description, the utility model is carried out more Detailed description.It should be noted that it can be directly in another element when element is expressed " being fixed on " another element Upper or placed in the middle there may be one or more therebetween elements.When an element is expressed " connection " another element, it can To be directly to another element or elements placed in the middle there may be one or more therebetween.This specification is used Term "vertical", "horizontal", "left" and "right" and similar statement for illustrative purposes only.

Unless otherwise defined, technical and scientific term all used in this specification and the skill for belonging to the utility model The normally understood meaning of the technical staff in art field is identical.Art used in the description of the utility model in this specification Language is only for the purpose of describing specific embodiments, and is not intended to limitation the utility model.Art used in this specification Language "and/or" includes any and all combinations of one or more related listed items.

Referring to Fig. 1, Fig. 1 is the structural schematic diagram of the heatable portable energy-storing system of the utility model embodiment, The utility model embodiment provides a kind of heatable portable energy-storing system 100, comprising: solar panels 10, solar energy control Device 20, battery management system 30, battery 40, system controller 50, inverter 60, heater circuit 70 and load 80 processed.The sun It can control device 20 to connect with solar panels 10；Battery management system 30 is connect with solar controller 20；Battery 40 and battery Management system 30 connects；System controller 50 is connect with battery management system 30；Inverter 60 respectively with battery management system 30 It is connected with system controller 50；Heater circuit 70 is controlled with solar controller 20, battery management system 30 and system respectively Device 50 connects.

Wherein, solar panels 10 are that luminous energy caused by the sun is converted to available direct current energy, realize photoelectricity The device of conversion, specifically, solar panels 10 convert solar energy into the first direct current and are transmitted to solar controller 20.

Solar controller 20 by the first DC conversion be the second direct current for matching with battery management system 30 simultaneously Battery management system 30 is transmitted to charge to battery 40, battery 40 is storage electric energy and can be releasable by electricity Chemical devices, optionally, battery 40 include rechargeable lithium battery.Battery management system 30 is to have both to carry out pipe to battery 40 A kind of device of reason and monitoring.

System controller 50 can control the working condition of battery management system 30, inverter 60 and heater circuit 70, add Heater circuit 70 be used for for portable energy-storing system heat, specifically to battery 40 heat, inverter 60 for direct current with exchange The conversion of electricity.Inverter 60 be direct current energy can be converted to AC energy, for load or power grid using or by AC energy Be converted to the direct current energy to match with cell voltage and the device for being stored into battery.Further, system controller 50 is controlled Heater circuit 70 processed works, and specifically energy is provided by solar panels, to heat to battery 40.When temperature reaches 0 degree More than, stop heating, starts to charge to battery 40 by solar panels 10.

Load 80 is connect with inverter 60, and battery 40 is put by the 60 pairs of loads of battery management system 30 and inverter Electricity.Optionally, load 80 includes 80 electrical equipment of single-phase load.Optionally, 80 electrical equipment of single-phase load includes light bulb, electricity Brain, refrigerator or electromagnetic oven.

Fig. 2 is please referred to, Fig. 2 is the heater circuit in the heatable portable energy-storing system of the utility model embodiment One structural schematic diagram, in some embodiments, specifically, heater circuit 70 includes first switch tube Q1, second switch Q2, the One inductance L1, first capacitor C1 and the first adding thermal resistance R1；Wherein, the input terminal of first switch tube Q1 and solar controller 20 Output cathode connection, the control terminal of first switch tube Q1 connect with system controller 50, and the output end of first switch tube Q1 divides It is not connect with one end of the input terminal of second switch Q2, the first inductance L1, the other end of the first inductance L1 is electric with first respectively Hold one end of C1, one end connection of the first adding thermal resistance R1, the control terminal of second switch Q2 is connect with system controller 50, the The other end of the output end of two switching tube Q2, the other end of first capacitor C1 and the first adding thermal resistance R1 is and solar control The input cathode of device 20 connects.Optionally, first switch tube Q1 and second switch Q2 includes triode.Wherein, solar energy Controller 20 controls the on-off of first switch tube Q1 and second switch Q2, and then controls the working condition of heater circuit 70.Tool Body, when solar controller 20 controls first switch tube Q1 conducting, second switch Q2 shutdown, the first adding thermal resistance R1 is opened Begin to heat, and first capacitor C1 starts energy storage, when solar controller 20 controls first switch tube Q1 shutdown, second switch Q2 When conducting, first capacitor C1 starts to discharge and adding thermal resistance R1 is made to be heated to first capacitor C1 electric discharge to stop.

Fig. 3 is please referred to, Fig. 3 is the heater circuit in the heatable portable energy-storing system of the utility model embodiment Another structural schematic diagram, in yet other embodiments, specifically, heater circuit 70 include third switching tube Q3, the second inductance L2, Diode D, the second capacitor C2 and the second adding thermal resistance R2；One end of second inductance L2 and the output cathode of solar controller 20 Connection, the other end of the second inductance L2 are connect with the input terminal of the input terminal of third switching tube Q3, diode D, and diode D's is defeated Outlet is connect with one end of the second capacitor C2, the second adding thermal resistance R2 respectively, and the control terminal and system of third switching tube Q3 controls Device 50 connects, the output end of third switching tube Q3, the other end of the second capacitor C2, the second adding thermal resistance R2 the other end and too Sun can control the input cathode connection of device 20.Optionally, third switching tube Q3 includes triode.Wherein, solar controller 20 The on-off of third switching tube Q3 is controlled, and then controls the working condition of heater circuit 70.Specifically, when solar controller 20 is controlled When third switching tube Q3 processed is turned off, the second adding thermal resistance R2 is begun to warm up, when solar controller 20 controls third switching tube Q3 When conducting, the second adding thermal resistance R2 stops heating, while the second inductance L2 starts energy storage, when the secondary control again of solar controller 20 When third switching tube Q3 is turned off, the second inductance L2 starts to discharge, and promotes voltage for the second adding thermal resistance R2, and the present embodiment is applicable in In the occasion for needing to improve voltage.

Fig. 4 is please referred to, Fig. 4 is the heater circuit in the heatable portable energy-storing system of the utility model embodiment Another structural schematic diagram, in still other embodiments, specifically, heater circuit 70 includes switch K and third adding thermal resistance R3；It opens The output cathode of the contact and solar controller that close K connects, another contact of switch K and one end of third adding thermal resistance R3 Connection, the other end of third adding thermal resistance R3 and the input cathode of solar controller connect.Wherein, user can manually control The folding of switch K, so that the working condition of control heater circuit 70 is realized, it is of course also possible to be controlled by solar controller 20 The folding of switch K.

In the utility model embodiment, heatable portable energy-storing system includes: solar panels 10；Solar energy control Device 20 processed, connect with solar panels 10；Battery management system 30 is connect with solar controller 20；Battery 40, with Battery management system 30 connects；System controller 50 is connect with battery management system 30；Inverter 60, respectively with battery Management system 30 and system controller 50 connect；Heater circuit 70, respectively with solar controller 20, battery management system 30 And system controller 50 connects；Wherein, solar panels 10 convert solar energy into the first direct current and are transmitted to solar energy control First DC conversion is the second direct current to match with battery management system 30 and passed by device 20 processed, solar controller 20 Battery management system 30 is transported to charge to battery 40, system controller 50 can control battery management system 30, inversion The working condition of device 60 and heater circuit 70, heater circuit 70 are used to be the heat supply of portable energy-storing system, and inverter 60 is used for The conversion of direct current and alternating current.The portable energy-storing system of the utility model embodiment can heat itself as a result, To meet more use environments, it is ensured that the use of user in cold environments solves small portable energy storage in the prior art Product cannot allow product use scope to become wider, promote user experience the problem of low temperature environment charges.

The foregoing is merely the embodiments of the present invention, and therefore it does not limit the scope of the patent of the utility model, all It is equivalent structure or equivalent flow shift made based on the specification and figures of the utility model, directly or indirectly uses In other related technical areas, it is also included in the patent protection scope of the utility model.

Claims (10)

1. a kind of heatable portable energy-storing system characterized by comprising

Solar panels；

Solar controller is connect with the solar panels；

Battery management system is connect with the solar controller；

Battery is connect with the battery management system；

System controller is connect with the battery management system；

Inverter is connect with the battery management system and the system controller respectively；

Heater circuit is connect with the solar controller, the battery management system and system controller respectively；

Wherein, the solar panels convert solar energy into the first direct current and are transmitted to the solar controller, it is described too Sun can control device and be the second direct current to match with the battery management system by first DC conversion and be transmitted to The battery management system to charge to the battery, the system controller can control the battery management system, The working condition of the inverter and the heater circuit, the heater circuit are used to add for the portable energy-storing system Heat, the inverter are used for the conversion of direct current and alternating current.

2. portable energy-storing system according to claim 1, which is characterized in that

The heater circuit includes first switch tube, second switch, the first inductance, first capacitor and the first adding thermal resistance；

Wherein, the input terminal of the first switch tube is connect with the output cathode of the solar controller, the first switch The control terminal of pipe is connect with the system controller, and the output end of the first switch tube is defeated with the second switch respectively Enter one end connection at end, first inductance, the other end of first inductance respectively with one end of the first capacitor, described One end of first adding thermal resistance connects, and the control terminal of the second switch is connect with the system controller, and described second opens Close the other end of the output end of pipe, the other end of the first capacitor and first adding thermal resistance with the solar energy control The input cathode of device processed connects.

3. portable energy-storing system according to claim 2, which is characterized in that

The first switch tube and the second switch include triode.

4. portable energy-storing system according to claim 1, which is characterized in that

The heater circuit includes third switching tube, the second inductance, diode, the second capacitor and the second adding thermal resistance；

One end of second inductance is connect with the output cathode of the solar controller, the other end of second inductance with The input terminal connection of the input terminal of the third switching tube, the diode, the output end of the diode is respectively with described the One end connection of two capacitors, second adding thermal resistance, the control terminal of the third switching tube are connect with the system controller, The output end of the third switching tube, the other end of second capacitor, second adding thermal resistance the other end with it is described The input cathode of solar controller connects.

5. portable energy-storing system according to claim 4, which is characterized in that

The third switching tube includes triode.

6. portable energy-storing system according to claim 1, which is characterized in that

The heater circuit includes switch and third adding thermal resistance；

One contact of the switch is connect with the output cathode of the solar controller, another contact of the switch with it is described One end of third adding thermal resistance connects, and the other end of the third adding thermal resistance and the input cathode of the solar controller connect It connects.

7. according to claim 1 to portable energy-storing system described in 6 any one, which is characterized in that further include:

Load, the load are connect with the inverter.

8. portable energy-storing system according to claim 7, which is characterized in that

The load includes single-phase load electrical equipment.

9. portable energy-storing system according to claim 8, which is characterized in that

The single-phase load electrical equipment includes light bulb, computer, refrigerator or electromagnetic oven.

10. according to claim 1 to portable energy-storing system described in 6 any one, which is characterized in that

The battery includes rechargeable lithium battery.