CN105896696A - Rechargeable battery - Google Patents

Abstract

The invention discloses a rechargeable battery, which comprises a rectifier bridge D1, resistors R1 and R2, voltage-stabilizing tubes VD1 and VD2, a field-effect tube G1, a capacitor C1, a switch K and a load L, wherein the resistor R1 and R2, the voltage-stabilizing tubes VD1 and VD2, the field-effect tube G1 and the capacitor C1 form an energy storage and voltage stabilizing circuit; and the resistor R2, the voltage-stabilizing tube VD2 and the field-effect tube G1 form a voltage and current stabilizing circuit. The rechargeable battery integrates the rechargeable battery, a control circuit and a charger, can freely charge within a short period of time and can charge at a high speed within a very short period of time from a few seconds to ten seconds; and the battery which is being charged is not damaged or no side effect is generated.

Description

Rechargeable battery

Technical field

The present invention relates to chargeable nickel-cadmium cell, nickel-hydrogen cell and field of lithium ion battery, specifically one can fill Electricity battery.

Background technology

Rechargeable battery such as nickel-cadmium accumulator, nickel-hydrogen cell or lithium ion battery is permissible within their service life Repeatedly charge, above-mentioned rechargeable battery is recharged, need 6 hours, the most even need 16 hours, i.e. use The so-called quick charge of relative short time, it is still desirable to 1 to 2 hours.Owing to using rechargeable battery as the electrical equipment of power supply Product is more and more universal, so the demand of the system for calculating in minutes rather than calculate the charging interval in hours is continuous Increase.

In prior art, when so-called rechargeable battery is recharged according to their designed use, although It also is intended to make the charging interval the shortest, but the inside battery caused due to the internal chemical reaction occurred of rechargeable battery The raising of temperature and pressure does not only result in the damage for battery, and can reduce the electrical property of battery, i.e. output performance and fill Electrical property thus define a kind of restriction.But also have a problem that, it is simply that need to convert charging method or charging device With the type of applicable rechargeable battery, this makes it difficult to use single charging method, and time-consumingly, and cost is high, and manganese/zinc electricity Pond is non-rechargeable, uses a large amount of, causes a large amount of environmental pollution.

Summary of the invention

It is an object of the invention to provide a kind of rechargeable battery, enough at short notice with arbitrarily charging, and can be from several Second to rapid charge in the extremely short time of tens seconds, the battery charged without damage, secondary work also will not be produced With.

Technical scheme is as follows:

A kind of rechargeable battery, include rectifier bridge D1, resistance R1, R2, voltage-stabiliser tube VD1, VD2, FET G1, electric capacity C1, Switch K and load L, it is characterised in that: two ac input end external AC power supplies of described rectifier bridge D1, described resistance R1, voltage-stabiliser tube VD1 and electric capacity C1 are connected to after being in series successively between two DC output ends of described rectifier bridge D1, described Resistance R2, voltage-stabiliser tube VD2 and switch K are connected to after being in series successively between two terminals of described electric capacity C1, and described is negative Carry between two terminals that L is connected to described electric capacity C1；The electric capacity C1 described in drain electrode access of described FET G1 and electricity Between resistance R2, between resistance R2 and the voltage-stabiliser tube VD2 described in grid access of FET G1, the source electrode of FET G1 and institute The load L stated is connected.

Described rechargeable battery, it is characterised in that: described resistance R1, R2, voltage-stabiliser tube VD1, VD2, FET G1 Energy storage, mu balanced circuit is formed with electric capacity C1.

Described rechargeable battery, it is characterised in that: described resistance R2, voltage-stabiliser tube VD2 and FET G1 composition is steady Pressure, current stabilization circuit.

Beneficial effects of the present invention:

The present invention integrates rechargeable battery, control circuit and charger, and can the most arbitrarily charge, it is possible to The charging of high speed from the extremely short time of several seconds to tens seconds, without damaging the battery charged or producing pair Effect, has high power capacity, small size and a long service life cycle, and remains to continue recharge-discharge after transient discharge and follow The feature that ring uses；The present invention has high discharge capacity when its initial discharge, has long service life cycle；Work as over-discharge Time, in further recycling, there is restorability and do not have too much performance loss；When using as power supply not Need to use to cutting off battery or the electric discharge of battery pack during predetermined limits, even battery short circuit does not the most damage battery；The present invention Service life more than 5000 hours, charging times is any, reaches more than ten thousand times, low cost, and volume is little, miniaturization, easy to manufacture.

Accompanying drawing explanation

Fig. 1 is circuit structure schematic diagram of the present invention.

Fig. 2 is object construction schematic diagram of the present invention.

Detailed description of the invention

See Fig. 1, a kind of rechargeable battery, include rectifier bridge D1, resistance R1, R2, voltage-stabiliser tube VD1, VD2, field-effect Pipe G1, electric capacity C1, switch K and two ac input end external AC power supplies of load L, rectifier bridge D1, resistance R1, voltage-stabiliser tube VD1 and electric capacity C1 is connected to after being in series successively between two DC output ends of rectifier bridge D1, resistance R2, voltage-stabiliser tube VD2 and Switch K is connected between two terminals of electric capacity C1 after being in series successively, load L be connected to electric capacity C1 two terminals it Between；The drain electrode of FET G1 accesses between electric capacity C1 and resistance R2, and the grid of FET G1 accesses resistance R2 and voltage-stabiliser tube Between VD2, the source electrode of FET G1 is connected with load L.

In the present invention, resistance R1, R2, voltage-stabiliser tube VD1, VD2, FET G1 and electric capacity C1 form energy storage, mu balanced circuit； Resistance R2, voltage-stabiliser tube VD2 and FET G1 form voltage stabilizing, current stabilization circuit.

Below in conjunction with Fig. 1, the present invention is further illustrated:

220V alternating current is carried out full-wave rectification output by rectifier bridge D1, is depressured to required through resistance R1 current limliting, voltage-stabiliser tube VD1 Voltage, for electric capacity C1 charging energy-storing, as rechargeable battery after electric capacity C1 charging energy-storing, energy storage capacity is Q=CU, owing to electric capacity is intrinsic Characteristic, can unlimited repeated charge, have without dissipative cell, the feature of life-span length.After switch K closes, electric capacity C1 warp After resistance R2 current limliting, voltage-stabiliser tube VD2 voltage stabilizing, it is provided that suitably control voltage to FET G1, make the electricity that circuit output is stable Press for load L.Adjust the size of voltage-stabiliser tube VD2 voltage stabilizing value, the height of circuit output voltage can be changed.

The circuit plasticization sealing of the present invention becomes battery, becomes any type of battery moulding in prior art.Ginseng See Fig. 2, in the material object of the present invention, anode 1, charging plug 2, housing 3, switch K4, GND 5.When charging plug 2 connects Upper 220V alternating current can carry out battery charging, and now switch K4 is off, and the operation principle by circuit of the present invention can Knowing, circuit is only to electric capacity C1 charging energy-storing, discharge off loop after electric capacity C1 charging energy-storing, as long as not using electric capacity C1 energy storage just Straight holding, charging plug 2 can only singly turn on due to rectifier bridge D1's, and charging plug 2 also cannot be charged, i.e. exists without electricity.Use Time, GND 5 depresses switch K4 under external force, after switch K4 closes, and the device of battery just normal power supply.

Claims (3)

1. a rechargeable battery, includes rectifier bridge D1, resistance R1, R2, voltage-stabiliser tube VD1, VD2, FET G1, electric capacity C1, switch K and load L, it is characterised in that: two ac input end external AC power supplies of described rectifier bridge D1, described electricity Resistance R1, voltage-stabiliser tube VD1 and electric capacity C1 is connected to after being in series successively between two DC output ends of described rectifier bridge D1, described Resistance R2, voltage-stabiliser tube VD2 and switch K be in series successively after be connected between two terminals of described electric capacity C1, described Load L is connected between two terminals of described electric capacity C1；Described FET G1 drain electrode access described in electric capacity C1 and Between resistance R2, the grid of FET G1 access described in resistance R2 and voltage-stabiliser tube VD2 between, the source electrode of FET G1 with Described load L is connected.

Rechargeable battery the most according to claim 1, it is characterised in that: described resistance R1, R2, voltage-stabiliser tube VD1, VD2, FET G1 and electric capacity C1 forms energy storage, mu balanced circuit.

Rechargeable battery the most according to claim 1, it is characterised in that: described resistance R2, voltage-stabiliser tube VD2 and field-effect Pipe G1 forms voltage stabilizing, current stabilization circuit.