CN105552998A - Electric power feedback supply device for battery formation and supply method of electric power feedback supply device - Google Patents

Abstract

The invention belongs to an electric power feedback supply device for battery formation and a supply method for the electric power feedback supply device. The electric power feedback supply device for battery formation comprises a power transmission part and a control part, wherein the power transmission part comprises a public network and multiple groups of parallel circuits for battery formation, wherein a transmission port of the public network is connected with one end of each of multiple groups of parallel circuits for battery formation through a transformer and a rectifier; the other ends of the multiple groups of parallel circuits for battery formation are connected with a power supply inlet of a circuit control module; a power supply outlet of the circuit control module is connected with an energy storage battery pack and an inverter; the inverter is connected with the transmission port of the public network and a production system through a public network and production detection system respectively; the control part comprises the public network and production detection system and the circuit control module; and a signal transmission end of the public network and production detection system is connected with a receiving end of the circuit control module. The electric power feedback supply device for battery formation has the advantages of being reasonable in design, simple in structure and high in controllability, reduces energy consumption and reduces the manufacturing cost.

Description

A kind of Battery formation electric energy feedback device for supplying and replenishing method thereof

Technical field

The invention belongs to storage battery manufacturing technology field, be specifically related to reasonable in design, energy efficient, reduction manufacturing cost, be applied to secondary cell and change into or a kind of Battery formation electric energy feedback device for supplying of operation of charging and replenishing method thereof.

Background technology

Changing into or all relating to the charging and discharging stage in charge technology in the production process of current storage battery, in the charging stage, by constant voltage or constant current charger to connect battery pack or battery positive/negative plate change into or the production line that charges charges, at discharge regime, carry out invariable power or permanent resistance or other modes by constant voltage or constant-current discharge machine to production line to discharge, in discharge process, electric energy in production line entrained by battery is slatterned by Electrical Discharge Machine, any economic benefit can not be produced, also can improve production cost because of Electrical Discharge Machine power consumption on the contrary.Also expert and scholar is had to carry out collection and the feedback use of Battery formation stage electric energy in industry, but all well can not reach the object of electric power " peak load shifting ", even if at unnecessary electric energy feedback grid, can not be fully utilized, such as: at night, electrical network is inherently in " low ebb " stage, and now unnecessary electrical network feedback grid just loses the meaning of feedback grid, can not the good conservation of power energy.

Summary of the invention

The object of the invention is to overcome defect of the prior art and provide can be applied to secondary cell change into or operation of charging, have reasonable in design, structure is simple, controllability is strong, a kind of Battery formation electric energy feedback device for supplying of energy efficient, reduction manufacturing cost and replenishing method thereof.

The object of the present invention is achieved like this: comprise transmission of electricity part and control section, a, power transmission section divide comprise utility network and some groups of parallel connections change into battery circuit, utility network transmission of electricity mouth is connected with one end changing into battery circuit of some groups of parallel connections with rectifier by transformer, the other end changing into battery circuit of some groups of parallel connections is connected with circuit control module power import, described circuit control module power outlet is connected with inverter with energy-storage battery group respectively, described inverter is connected with production system with utility network power transmission mouth respectively by utility network and production testing system, b, control section comprises utility network and production testing system and circuit control module, the first switch is provided with between circuit control module and inverter, the shortcut power line being with second switch is provided with between energy-storage battery group and inverter, the 3rd switch is provided with between inverter and utility network and production testing system, utility network and be provided with the 4th switch between production testing system and utility network, utility network and be provided with the 5th switch between production testing system and production system, the 5th switch is provided with between shortcut power line and energy-storage battery group, the Signal transmissions end of utility network and production testing system is connected with circuit control module receiving terminal, the control end of described circuit control module respectively with the first switch, second switch, 3rd switch, 4th switch, 5th switch is connected with the 6th switch.

A replenishing method for Battery formation electric energy feedback device for supplying, comprises the steps:

Step one: utility network is charged to changing into battery by transmit electricity mouth, transformer, rectifier of utility network, discharges after charging;

Step 2: when battery discharges in formation process, the whether electricity consumption of utility network and production testing systems axiol-ogy production system, whether utility network is in the peak of power consumption stage;

Step 3: when production system does not need electricity consumption, and utility network is when being in the low power consumption stage, signal is delivered in circuit control module by utility network and production testing system, circuit control module closes the first switch, second switch, the 3rd switch, the 4th switch and the 5th switch, open the 6th switch, the electricity making battery discharge be enters energy-storage battery group and stores;

Step 4: when after the group of energy-storage battery described in step 3 accumulate, utility network and production testing system detect production system whether electricity consumption in real time, and whether utility network is in the peak of power consumption stage; When production system needs electricity consumption, signal is delivered in circuit control module by utility network and production testing system, circuit control module opens second switch, the 3rd switch, the 5th switch and the 6th switch, makes the electric current of energy-storage battery group inside enter in production system by the 6th switch, second switch, inverter, the 3rd switch, utility network and production testing system and the 5th switch; When utility network is in the peak of power consumption stage, signal is delivered in circuit control module by utility network and production testing system, second switch described in circuit control module rate-determining steps three, the 3rd switch, the 4th switch and the 6th switch open, make the electric current of energy-storage battery group inside enter into utility network by the 6th switch, second switch, inverter, the 3rd switch, utility network and production testing system and the 4th switch;

Step 5: when utility network described in step 2 and production testing systems axiol-ogy go out production system need electricity consumption time, signal is delivered in circuit control module by utility network and production testing system, circuit control module opens the first switch, the 3rd switch and the 5th switch, closed second switch, the 4th switch and the 6th switch, the electric current making battery in formation process carry out discharging enters in production system by circuit control module, the first switch, inverter, the 3rd switch, utility network and production testing system and the 5th switch successively;

Step 6: when utility network described in step 2 and production testing systems axiol-ogy go out utility network be in the peak of power consumption stage time, signal is delivered in circuit control module by utility network and production testing system, circuit control module opens the first switch, the 3rd switch and the 4th switch, closed second switch, the 5th switch and the 6th switch, the electric current making battery in formation process carry out discharging enters into utility network by circuit control module, the first switch, inverter, the 3rd switch, utility network and production testing system and the 4th switch successively.

The present invention has rational in infrastructure and can manipulate strong feature, when utility network and production system do not need electricity consumption by the energy storage of energy-storage battery group, the situation of discharging can be carried out according to battery in formation process when utility network and production system need electricity consumption, if do not have battery to carry out discharging and to discharge by energy-storage battery group, if battery carries out electric discharge and discharges in formation process, can directly discharge to utility network and production system; Therefore the present invention can abundant saves energy and reduce the production cost of enterprise, have reasonable in design, structure is simple, controllability is strong, the advantage of energy efficient, reduction manufacturing cost.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention;

Fig. 2 is control principle drawing of the present invention.

Embodiment

In order to there be understanding clearly to technical characteristic of the present invention, object and effect, now contrast accompanying drawing and the specific embodiment of the present invention is described, label identical in the various figures represents identical parts.For making simplified form, only schematically show and invent relevant part in each figure, they do not represent its practical structures as product.

As Fig. 1, shown in 2, the present invention includes transmission of electricity part and control section, a, power transmission section divide comprise utility network 1 and some groups of parallel connections change into battery circuit 4, utility network 1 mouth of transmitting electricity is connected with one end changing into battery circuit 4 of some groups of parallel connections with rectifier 3 by transformer 2, the other end changing into battery circuit 4 of some groups of parallel connections is connected with circuit control module 5 power import, described circuit control module 5 power outlet is connected with inverter 7 with energy-storage battery group 6 respectively, described inverter 7 is connected with production system 9 with utility network 1 power transmission mouth respectively by utility network and production testing system 8, b, control section comprises utility network and production testing system 8 and circuit control module 5, the first switch 10 is provided with between circuit control module 5 and inverter 7, the shortcut power line 15 being with second switch 11 is provided with between energy-storage battery group 6 and inverter 7, the 3rd switch 12 is provided with between inverter 7 and utility network and production testing system 8, utility network and be provided with the 4th switch 13 between production testing system 8 and utility network 1, utility network and be provided with the 5th switch 14 between production testing system 8 and production system 9, the 5th switch 16 is provided with between shortcut power line 15 and energy-storage battery group 6, the Signal transmissions end of utility network and production testing system 8 is connected with circuit control module 5 receiving terminal, the control end of described circuit control module 5 respectively with the first switch 10, second switch 11, 3rd switch 12, 4th switch 13, 5th switch 14 is connected with the 6th switch 16.

A replenishing method for Battery formation electric energy feedback device for supplying, comprises the steps:

Step one: utility network 1 is charged to changing into battery by transmit electricity mouth, transformer 2, rectifier 3 of utility network, discharges after charging;

Step 2: when battery discharges in formation process, utility network and production testing system 8 detect production system 9 whether electricity consumption, and whether utility network 1 is in the peak of power consumption stage;

Step 3: when production system 9 does not need electricity consumption, and utility network 1 is when being in the low power consumption stage, signal is delivered in circuit control module 5 by utility network and production testing system 8, circuit control module 5 closes the first switch 10, second switch 11, the 3rd switch 12, the 4th switch 13 and the 5th switch 14, open the 6th switch 16, the electricity making battery discharge be enters energy-storage battery group 6 and stores;

Step 4: when after the group 6 of energy-storage battery described in step 3 accumulate, utility network and production testing system 8 detect production system 9 whether electricity consumption in real time, and whether utility network 1 is in the peak of power consumption stage; When production system 9 needs electricity consumption, signal is delivered in circuit control module 5 by utility network and production testing system 8, circuit control module 5 opens second switch 11, the 3rd switch 12, the 5th switch 14 and the 6th switch 16, makes the electric current of energy-storage battery group 6 inside enter in production system 9 by the 6th switch 16, second switch 11, inverter 7, the 3rd switch 12, utility network and production testing system 8 and the 5th switch 14; When utility network 1 is in the peak of power consumption stage, signal is delivered in circuit control module 5 by utility network and production testing system 8, second switch 11 described in circuit control module 5 rate-determining steps three, the 3rd switch 12, the 4th switch 13 and the 6th switch 16 are opened, and make the electric current of energy-storage battery group 6 inside enter into utility network 1 by the 6th switch 16, second switch 11, inverter 7, the 3rd switch 12, utility network and production testing system 8 and the 4th switch 13;

Step 5: when utility network described in step 2 and production testing system 8 detect that production system 9 needs electricity consumption, signal is delivered in circuit control module 5 by utility network and production testing system 8, circuit control module 5 opens the first switch 10, 3rd switch 12 and the 5th switch 14, closed second switch 11, 4th switch 13 and the 6th switch 16, the electric current making battery in formation process carry out discharging is successively by circuit control module 5, first switch 10, inverter 7, 3rd switch 12, utility network and production testing system 8 and the 5th switch 14 enter in production system 9,

Step 6: when utility network described in step 2 and production testing system 8 detect that utility network 1 is in the peak of power consumption stage, signal is delivered in circuit control module 5 by utility network and production testing system 8, circuit control module 5 opens the first switch 10, 3rd switch 12 and the 4th switch 13, closed second switch 11, 5th switch 14 and the 6th switch 16, the electric current making battery in formation process carry out discharging is successively by circuit control module 5, first switch 10, inverter 7, 3rd switch 12, utility network and production testing system 8 and the 4th switch 13 enter into utility network 1.

In order to more detailed explanation the present invention, now the present invention is further elaborated in conjunction with the embodiments.Specific embodiment is as follows:

Embodiment one

A replenishing method for Battery formation electric energy feedback device for supplying, comprises the steps:

Step one: utility network 1 is charged to changing into battery by transmit electricity mouth, transformer 2, rectifier 3 of utility network, discharges after charging;

Step 2: when battery discharges in formation process, utility network and production testing system 8 detect production system 9 whether electricity consumption, and whether utility network 1 is in the peak of power consumption stage;

Step 3: when production system 9 does not need electricity consumption, and utility network 1 is when being in the low power consumption stage, signal is delivered in circuit control module 5 by utility network and production testing system 8, circuit control module 5 closes the first switch 10, second switch 11, the 3rd switch 12, the 4th switch 13 and the 5th switch 14, open the 6th switch 16, the electricity making battery discharge be enters energy-storage battery group 6 and stores.

Embodiment two

A replenishing method for Battery formation electric energy feedback device for supplying, comprises the steps:

Step one: utility network 1 is charged to changing into battery by transmit electricity mouth, transformer 2, rectifier 3 of utility network, discharges after charging;

Step 2: when battery discharges in formation process, utility network and production testing system 8 detect production system 9 whether electricity consumption, and whether utility network 1 is in the peak of power consumption stage;

Step 3: when production system 9 does not need electricity consumption, and utility network 1 is when being in the low power consumption stage, signal is delivered in circuit control module 5 by utility network and production testing system 8, circuit control module 5 closes the first switch 10, second switch 11, the 3rd switch 12, the 4th switch 13 and the 5th switch 14, open the 6th switch 16, the electricity making battery discharge be enters energy-storage battery group 6 and stores;

Step 4: when after the group 6 of energy-storage battery described in step 3 accumulate, utility network and production testing system 8 detect production system 9 whether electricity consumption in real time, and whether utility network 1 is in the peak of power consumption stage; When production system 9 needs electricity consumption, signal is delivered in circuit control module 5 by utility network and production testing system 8, circuit control module 5 opens second switch 11, the 3rd switch 12, the 5th switch 14 and the 6th switch 16, and the electric current of energy-storage battery group 6 inside is entered in production system 9 by the 6th switch 16, second switch 11, inverter 7, the 3rd switch 12, utility network and production testing system 8 and the 5th switch 14.

Embodiment three

A replenishing method for Battery formation electric energy feedback device for supplying, comprises the steps:

Step one: utility network 1 is charged to changing into battery by transmit electricity mouth, transformer 2, rectifier 3 of utility network, discharges after charging;

Step 2: when battery discharges in formation process, utility network and production testing system 8 detect production system 9 whether electricity consumption, and whether utility network 1 is in the peak of power consumption stage;

Step 3: when production system 9 does not need electricity consumption, and utility network 1 is when being in the low power consumption stage, signal is delivered in circuit control module 5 by utility network and production testing system 8, circuit control module 5 closes the first switch 10, second switch 11, the 3rd switch 12, the 4th switch 13 and the 5th switch 14, open the 6th switch 16, the electricity making battery discharge be enters energy-storage battery group 6 and stores;

Step 4: when after the group 6 of energy-storage battery described in step 3 accumulate, utility network and production testing system 8 detect production system 9 whether electricity consumption in real time, and whether utility network 1 is in the peak of power consumption stage; When utility network 1 is in the peak of power consumption stage, signal is delivered in circuit control module 5 by utility network and production testing system 8, second switch 11 described in circuit control module 5 rate-determining steps three, the 3rd switch 12, the 4th switch 13 and the 6th switch 16 are opened, and make the electric current of energy-storage battery group 6 inside enter into utility network 1 by the 6th switch 16, second switch 11, inverter 7, the 3rd switch 12, utility network and production testing system 8 and the 4th switch 13.

Embodiment four

A replenishing method for Battery formation electric energy feedback device for supplying, comprises the steps:

Step one: utility network 1 is charged to changing into battery by transmit electricity mouth, transformer 2, rectifier 3 of utility network, discharges after charging;

Step 2: when battery discharges in formation process, utility network and production testing system 8 detect production system 9 whether electricity consumption, and whether utility network 1 is in the peak of power consumption stage;

Step 3: when utility network described in step 2 and production testing system 8 detect that production system 9 needs electricity consumption, signal is delivered in circuit control module 5 by utility network and production testing system 8, circuit control module 5 opens the first switch 10, 3rd switch 12 and the 5th switch 14, closed second switch 11, 4th switch 13 and the 6th switch 16, the electric current making battery in formation process carry out discharging is successively by circuit control module 5, first switch 10, inverter 7, 3rd switch 12, utility network and production testing system 8 and the 5th switch 14 enter in production system 9.

Embodiment five

A replenishing method for Battery formation electric energy feedback device for supplying, comprises the steps:

Step one: utility network 1 is charged to changing into battery by transmit electricity mouth, transformer 2, rectifier 3 of utility network, discharges after charging;

Step 2: when battery discharges in formation process, utility network and production testing system 8 detect production system 9 whether electricity consumption, and whether utility network 1 is in the peak of power consumption stage;

Step 3: when utility network described in step 2 and production testing system 8 detect that utility network 1 is in the peak of power consumption stage, signal is delivered in circuit control module 5 by utility network and production testing system 8, circuit control module 5 opens the first switch 10, 3rd switch 12 and the 4th switch 13, closed second switch 11, 5th switch 14 and the 6th switch 16, the electric current making battery in formation process carry out discharging is successively by circuit control module 5, first switch 10, inverter 7, 3rd switch 12, utility network and production testing system 8 and the 4th switch 13 enter into utility network 1.

In describing the invention, it will be appreciated that, orientation or the position relationship of term " one end ", " other end " etc. instruction are based on orientation shown in the drawings or position relationship, only the present invention for convenience of description and simplified characterization, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as limitation of the present invention.In describing the invention, it should be noted that, unless otherwise clearly defined and limited, term " to be provided with " etc. and should to be interpreted broadly, and such as, can be fixedly connected with, connect integratedly, also can be removably connect; Also can be the connection of two element internals; Can be directly be connected, also indirectly can be connected by intermediary, for the ordinary skill in the art, above-mentioned term concrete meaning in the present invention can be understood as the case may be.It is to be noted in this article, " first ", " second ", " the 3rd " etc. only for differentiation each other, but not represent they significance level and order etc.Detailed description is above only illustrating for feasibility execution mode of the present invention; they are also not used to limit the scope of the invention, and allly do not depart from equivalent implementations that skill of the present invention spirit does, change and transformation all should be included within protection scope of the present invention.

Claims (2)

1. a Battery formation electric energy feedback device for supplying, comprises transmission of electricity part and control section, it is characterized in that:

A, power transmission section divide comprise utility network (1) and some groups of parallel connections change into battery circuit (4), utility network (1) transmission of electricity mouth is connected with one end changing into battery circuit (4) of some groups of parallel connections with rectifier (3) by transformer (2), the other end changing into battery circuit (4) of some groups of parallel connections is connected with circuit control module (5) power import, described circuit control module (5) power outlet is connected with inverter (7) with energy-storage battery group (6) respectively, described inverter (7) is connected with production system (9) with utility network (1) power transmission mouth respectively by utility network and production testing system (8),

B, control section comprises utility network and production testing system (8) and circuit control module (5), the first switch (10) is provided with between circuit control module (5) and inverter (7), the shortcut power line (15) being with second switch (11) is provided with between energy-storage battery group (6) and inverter (7), the 3rd switch (12) is provided with between inverter (7) and utility network and production testing system (8), utility network and be provided with the 4th switch (13) between production testing system (8) and utility network (1), utility network and be provided with the 5th switch (14) between production testing system (8) and production system (9), the 5th switch (16) is provided with between shortcut power line (15) and energy-storage battery group (6), the Signal transmissions end of utility network and production testing system (8) is connected with circuit control module (5) receiving terminal, the control end of described circuit control module (5) respectively with the first switch (10), second switch (11), 3rd switch (12), 4th switch (13), 5th switch (14) is connected with the 6th switch (16).

2. the replenishing method of a kind of Battery formation electric energy feedback device for supplying according to claim 1, is characterized in that: this replenishing method comprises the steps:

Step one: utility network (1) is charged to changing into battery by transmit electricity mouth, transformer (2), rectifier (3) of utility network, discharges after charging;

Step 2: when battery discharges in formation process, utility network and production testing system (8) detect production system (9) whether electricity consumption, and whether utility network (1) is in the peak of power consumption stage;

Step 3: when production system (9) does not need electricity consumption, and utility network (1) is when being in the low power consumption stage, signal is delivered in circuit control module (5) by utility network and production testing system (8), circuit control module (5) closes the first switch (10), second switch (11), the 3rd switch (12), the 4th switch (13) and the 5th switch (14), open the 6th switch (16), the electricity making battery discharge be enters energy-storage battery group (6) and stores;

Step 4: when after the group of energy-storage battery described in step 3 (6) accumulate, utility network and production testing system (8) detect production system (9) whether electricity consumption in real time, and whether utility network (1) is in the peak of power consumption stage, when production system (9) needs electricity consumption, signal is delivered in circuit control module (5) by utility network and production testing system (8), circuit control module (5) opens second switch (11), 3rd switch (12), 5th switch (14) and the 6th switch (16), the electric current making energy-storage battery group (6) inner is by the 6th switch (16), second switch (11), inverter (7), 3rd switch (12), utility network and production testing system (8) and the 5th switch (14) enter in production system (9), when utility network (1) is in the peak of power consumption stage, signal is delivered in circuit control module (5) by utility network and production testing system (8), second switch (11) described in circuit control module (5) rate-determining steps three, 3rd switch (12), 4th switch (13) and the 6th switch (16) are opened, the electric current making energy-storage battery group (6) inner is by the 6th switch (16), second switch (11), inverter (7), 3rd switch (12), utility network and production testing system (8) and the 4th switch (13) enter into utility network (1),

Step 5: when utility network described in step 2 and production testing system (8) detect that production system (9) needs electricity consumption, signal is delivered in circuit control module (5) by utility network and production testing system (8), circuit control module (5) opens the first switch (10), 3rd switch (12) and the 5th switch (14), closed second switch (11), 4th switch (13) and the 6th switch (16), the electric current making battery in formation process carry out discharging is successively by circuit control module (5), first switch (10), inverter (7), 3rd switch (12), utility network and production testing system (8) and the 5th switch (14) enter in production system (9),

Step 6: when utility network described in step 2 and production testing system (8) detect that utility network (1) is in the peak of power consumption stage, signal is delivered in circuit control module (5) by utility network and production testing system (8), circuit control module (5) opens the first switch (10), 3rd switch (12) and the 4th switch (13), closed second switch (11), 5th switch (14) and the 6th switch (16), the electric current making battery in formation process carry out discharging is successively by circuit control module (5), first switch (10), inverter (7), 3rd switch (12), utility network and production testing system (8) and the 4th switch (13) enter into utility network (1).