CN204809356U - Energy -saving batteryization becomes equipment - Google Patents

Abstract

The utility model provides an energy -saving batteryization becomes equipment, it includes rectifier circuit, controller, voltage measurement module, super capacitor, a plurality of two -way DCDC circuit and battery, the controller is connected with voltage measurement module and the communication of a plurality of two -way DCDC circuit, the alternating current interface is connected to rectifier circuit's input, carries out rectification, post -filter, formation galvanic current to the alternating current to export super capacitor and a plurality of two -way DCDC circuit to, the controller acquires the voltage signal that the voltage measurement module was gathered to according to the battery characteristic, the electric quantity of calculation battery. The utility model provides an energy -saving batteryization becomes equipment of built -in super capacitor and DCDC transfer circuit, the component that utilizes super capacitor to regard as the electric energy of keeping in is preserved the batteryization and is become the electric energy that the in -process discharges and releases to the circulation with the electrical energy conversion of storage for the batteryization becomes the in -process required electric energy that charges, reach dynamic balance, practiced thrift the electric power energy, reduced the operation cost of battery manufacturing enterprise.

Description

A kind of energy-saving battery formation device

Technical field

The utility model relates to storage battery and manufactures field, is specifically related to a kind of energy-saving battery formation device.

Background technology

A kind of device of storage battery to be a kind of by chemical energy be electric energy, is widely used in each corner of people's lives.Storage battery chemical synthesis technology, be the very important procedure in storage battery production process, this operation needs to carry out repeatedly discharge and recharge to storage battery.

Typical high power battery production still uses energy-dissipating type formation device to carry out discharge and recharge to storage battery, and this equipment adopts resistive load, and battery discharge is converted into heat energy release by resistive load, and this mode wastes a large amount of electric power energies.Part improved equipment, uses inverter to replace resistive load, by being alternating current by the electric energy inversion of storage battery, feeding back to electrical network, reaching energy-conservation object.But inverter, while generation alternating current, can cause harmonic pollution, and this mode needs examination & approval and the assistance of power department, causes great inconvenience to electrical network.

Utility model content

The utility model is large in order to solve the above-mentioned existing resistance-type formation device power consumption mentioned, and converter type formation device can pollute electrical network and be unfavorable for the shortcoming of actual enforcement, provide the energy-saving battery formation device of a kind of built-in super capacitor and DC/DC translation circuit, it is by the element of super capacitor as temporary transient storage of electrical energy, during battery discharging, the electric energy of release is charged to super capacitor, charge in batteries is, super capacitor charges to storage battery, recycle electric energy, effectively save a large amount of electric power energies.

Concrete, the utility model provides a kind of energy-saving battery formation device, it comprises housing and is arranged on the rectification circuit of described enclosure interior, controller, voltage measurement module, super capacitor, multiple two-way DC/DC circuit and storage battery, and described controller is connected with described voltage measurement module and the communication of multiple two-way DC/DC circuit;

The input of described rectification circuit connects alternating current interface, after carrying out rectification, filtering to alternating current, forms galvanic current, and exports super capacitor and multiple two-way DC/DC circuit to;

Described voltage measurement module for gathering the voltage signal of described storage battery, and is connected with described controller communication;

Described super capacitor is for depositing the electric energy discharged in storage battery chemical synthesis technology;

The electric energy that described two-way DC/DC circuit is used for super capacitor stores charges to storage battery, or is charged to super capacitor by the electric energy discharged in described storage battery chemical synthesis technology.

Preferably, storage battery comprises charging group and electric discharge group.

Preferably, described super capacitor is used for temporary transient store electrical energy, when charging group is less than electric discharge group, the electric energy that electric discharge group produces is transported to main AC line by the described two-way DC/DC circuit of correspondence, then by described two-way DC/DC circuit corresponding to charging group, charges to charging group, because release electricity is greater than required charge capacity, more than electricity super capacitor is charged, when charging group is more than electric discharge group, super capacitor discharges to storage battery.

Preferably, described controller is connected with the communication of described two-way DC/DC circuit.

Advantage of the present utility model is as described below:

The utility model provides the energy-saving battery formation device of a kind of built-in super capacitor and DC/DC translation circuit, utilize super capacitor as the element of temporary electric energy, preserve in battery forming process the electric energy of release of discharging, and the electric energy of storage is converted in battery forming process the required electric energy that charges by circulation, reach dynamic equilibrium, save electric power energy, reduce the operation cost of storage battery production enterprise.

Be provided with controller; controller passes through voltage acquisition module; Real-Time Monitoring accumulator charging/discharging process; and control the sense of current of two-way DC/DC circuit; in time battery forming process is controlled, save manpower, improve automatization level; to improving production efficiency, the safety of the protection producer provides guarantee.

Accompanying drawing explanation

Fig. 1 is structural schematic block diagram of the present utility model;

Fig. 2 is circuit diagram of the present utility model.

Embodiment

Below in conjunction with accompanying drawing and embodiment, structure and working principle of the present utility model is further explained:

As shown in Figures 1 and 2, the utility model provides a kind of energy-saving battery formation device, it comprises rectification circuit 1, controller 2, voltage measurement module 3, super capacitor 4, multiple two-way DC/DC circuit 5 and storage battery 6, and described controller 2 is connected with described voltage measurement module 3 and the communication of multiple two-way DC/DC circuit 5.

The input of described rectification circuit 1 connects alternating current interface, after carrying out rectification, filtering, forms galvanic current, and exports super capacitor and multiple two-way DC/DC circuit to alternating current;

Described voltage measurement module 3 for gathering the voltage signal of described storage battery, and is connected with described controller communication, sends collection voltage signal to described controller 2;

Described super capacitor 4 is for depositing the electric energy discharged in storage battery 6 chemical synthesis technology;

Described two-way DC/DC circuit 5 charges to storage battery 6 for the electric energy stored by super capacitor, or is charged to super capacitor 4 by the electric energy discharged in described storage battery 6 chemical synthesis technology;

Described controller 2 obtains the voltage signal that described voltage measurement module 3 gathers, and according to battery behavior, the electricity of calculating accumulator 6, to judge whether storage battery 6 completes Battery formation processing step.

Preferably, storage battery 6 is divided into charging group and electric discharge group, and the storage battery of described two-way DC/DC circuit 5 to charging group charges, and changes, and charge to super capacitor to the electric energy of electric discharge group storage battery release.

Preferably, described controller 2, according to the electricity of described storage battery 6, controls described two-way DC/DC circuit 5, carries out charge or discharge operation to described storage battery 6.

Preferably, described super capacitor 4 is for temporary transient store electrical energy, when charging group is less than electric discharge group, the electric energy that electric discharge group produces is transported to main AC line by corresponding described two-way DC/DC circuit 5, then by described two-way DC/DC circuit 5 corresponding to charging group, charges to charging group, because release electricity is greater than required charge capacity, more than electricity super capacitor 4 is charged, when charging group is more than electric discharge group, super capacitor discharges to storage battery 6.

Preferably, described controller 2 is connected with the communication of described two-way DC/DC circuit, controls the sense of current of described two-way DC/DC circuit 5, to control the quantity of the storage battery 6 as charging group or electric discharge group.

Advantage of the present utility model is as described below:

The utility model provides the energy-saving battery formation device of a kind of built-in super capacitor and DC/DC translation circuit, utilize super capacitor as the element of temporary electric energy, preserve in battery forming process the electric energy of release of discharging, and the electric energy of storage is converted in battery forming process the required electric energy that charges by circulation, reach dynamic equilibrium, save electric power energy, reduce the operation cost of storage battery production enterprise.

Be provided with controller; controller passes through voltage acquisition module; Real-Time Monitoring accumulator charging/discharging process; and control the sense of current of two-way DC/DC circuit; in time battery forming process is controlled, save manpower, improve automatization level; to improving production efficiency, the safety of the protection producer provides guarantee.

Last it is noted that above-described each embodiment is only for illustration of the technical solution of the utility model, be not intended to limit; Although be described in detail the utility model with reference to previous embodiment, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in previous embodiment, or to wherein partly or entirely technical characteristic carry out equivalent replacement; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of each embodiment technical scheme of the utility model.

Claims (4)

1. an energy-saving battery formation device, it is characterized in that: it comprises housing and is arranged on the rectification circuit of described enclosure interior, controller, voltage measurement module, super capacitor, multiple two-way DC/DC circuit and storage battery, and described controller is connected with described voltage measurement module and the communication of multiple two-way DC/DC circuit;

The input of described rectification circuit connects alternating current interface, after carrying out rectification, filtering to alternating current, forms galvanic current, and exports super capacitor and multiple two-way DC/DC circuit to;

Described voltage measurement module for gathering the voltage signal of described storage battery, and is connected with described controller communication;

Described super capacitor is for depositing the electric energy discharged in storage battery chemical synthesis technology;

The electric energy that described two-way DC/DC circuit is used for super capacitor stores charges to storage battery, or is charged to super capacitor by the electric energy discharged in described storage battery chemical synthesis technology.

2. energy-saving battery formation device according to claim 1, is characterized in that: storage battery comprises charging group and electric discharge group.

3. energy-saving battery formation device according to claim 2, it is characterized in that: described super capacitor is used for temporary transient store electrical energy, when charging group is less than electric discharge group, the electric energy that electric discharge group produces is transported to main AC line by corresponding described two-way DC/DC circuit, again by described two-way DC/DC circuit that charging group is corresponding, charging group is charged, because release electricity is greater than required charge capacity, more than electricity be used for super capacitor is charged, when charging group is more than electric discharge group, super capacitor discharges to storage battery.

4. energy-saving battery formation device according to claim 1, is characterized in that: described controller is connected with the communication of described two-way DC/DC circuit.