CN105552998B - A kind of Battery formation electric energy feedback device for supplying and its replenishing method - Google Patents

Abstract

The invention belongs to a kind of Battery formation electric energy feedback device for supplying and its replenishing method；Including transmission of electricity part and control section, power transmission section point includes utility network and several groups of chemical conversion battery circuits in parallel, utility network transmission of electricity mouth is connected by transformer and rectifier with one end of several groups of chemical conversion battery circuits in parallel, the other end of several groups of chemical conversion battery circuits in parallel is connected with circuit control module power import, circuit control module power outlet is connected respectively with energy-storage battery group and inverter, and inverter is connected by utility network and production detecting system with utility network power transmission mouth and production system respectively；Control section includes utility network and produces detecting system and circuit control module, and the signal transmission end of utility network and production detecting system is connected with circuit control module receiving terminal；Have the advantages that reasonable design, simple in structure, controllability is strong, save energy consumption, reduces manufacture cost.

Description

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

Technical field

The invention belongs to accumulator manufacturing technology fields, and in particular to and reasonable design saves energy consumption, reduces manufacture cost, Applied to secondary cell chemical conversion or a kind of Battery formation electric energy feedback device for supplying and its replenishing method of the process that charges.

Background technology

The charging and discharging stage is all referred in the chemical conversion in the production process of accumulator or charge technology at present, is being charged Stage fills the chemical conversion or charging production line that connect battery pack or battery positive/negative plate by constant pressure or constant current charger Electricity in discharge regime, carries out production line invariable power or permanent resistance by constant pressure or constant-current discharge machine or other modes is put Electricity, in discharge process, the electric energy in production line entrained by battery is slatterned by Electrical Discharge Machine, it is impossible to generate any economic effect Benefit also can improve production cost due to Electrical Discharge Machine power consumption instead.Also expert and scholar carry out the Battery formation stage in industry The collection and feedback of electric energy use, but cannot all achieve the purpose that electric power " peak load shifting " well, even if in extra electric energy Feedback grid, can not be fully utilized, such as：At night, power grid is extra at this time inherently in " low ebb " stage Power grid feedback grid just lose the meaning of feedback grid, electric power energy can not be saved well.

Invention content

The purpose of the present invention is to overcome the defects in the prior art and provides and can be applied to secondary cell chemical conversion or fill Electrician's sequence has a kind of Battery formation electricity consumption that reasonable design, simple in structure, controllability are strong, save energy consumption, reduce manufacture cost It can feedback device for supplying and its replenishing method.

The object of the present invention is achieved like this：Including transmission of electricity part and control section, a, power transmission section point include public power The chemical conversion battery circuits in parallel of net and several groups, utility network transmission of electricity mouth are in parallel with several groups by transformer and rectifier One end of chemical conversion battery circuit is connected, the other end and the circuit control module electricity of several groups of chemical conversion battery circuits in parallel Source inlet is connected, and the circuit control module power outlet is connected respectively with energy-storage battery group and inverter, and the inverter leads to It crosses utility network and production detecting system is connected respectively with utility network power transmission mouth and production system；B, control section includes public Power grid and production detecting system and circuit control module are equipped with first switch, energy storage electricity between circuit control module and inverter It is equipped between pond group and inverter between the shortcut power cord with second switch, inverter and utility network and production detecting system It is switched equipped with third, the 4th switch, utility network and production is equipped between utility network and production detecting system and utility network The 5th switch is equipped between detecting system and production system, the 5th switch is equipped between shortcut power cord and energy-storage battery group, it is public It is connected with power grid and the signal transmission end for producing detecting system with circuit control module receiving terminal, the control of the circuit control module End processed is connected respectively with first switch, second switch, third switch, the 4th switch, the 5th switch and the 6th switch.

A kind of Battery formation replenishing method of electric energy feedback device for supplying, includes the following steps：

Step 1：Utility network charges to chemical conversion battery by utility network transmission of electricity mouth, transformer, rectifier, fills It discharges after electricity；

Step 2：When battery is discharged in formation process, utility network and production detecting system detection production system Whether electricity consumption, utility network whether be in the peak of power consumption stage；

Step 3：When production system does not need to electricity consumption, and utility network is in the low power consumption stage, utility network and life Signal is delivered in circuit control module by production detecting system, and circuit control module is closed first switch, second switch, third and opened It closes, the 4th switch and the 5th switch, the 6th switch of opening, the electricity that making battery discharge is enter energy-storage battery group and stored；

Step 4：Described in the step 3 after energy-storage battery group storing up electricity, utility network and production detecting system detect in real time Production system whether electricity consumption, utility network whether be in the peak of power consumption stage；When production system needs electricity consumption, utility network and Signal is delivered in circuit control module by production detecting system, and circuit control module opens second switch, third switch, the 5th Switch and the 6th switch, make the electric current inside energy-storage battery group pass through the 6th switch, second switch, inverter, third switch, Utility network and production detecting system and the 5th switch enter in production system；When utility network is in the peak of power consumption stage, Signal is delivered in circuit control module by utility network and production detecting system, described in circuit control module rate-determining steps three Second switch, third switch, the 4th switch and the 6th switch open, the electric current inside energy-storage battery group is made to pass through the 6th and is opened Pass, second switch, inverter, third switch, utility network and production detecting system and the 4th switch are entered in utility network；

Step 5：When the utility network described in the step 2 and production detecting system detect that production system needs electricity consumption, Signal is delivered in circuit control module by utility network and production detecting system, and circuit control module opens first switch, the Three switches and the 5th switch are closed second switch, the 4th switch and the 6th switch, make the electricity that battery discharges in formation process Stream passes sequentially through circuit control module, first switch, inverter, third switch, utility network and production detecting system and the 5th Switch enters in production system；

Step 6：The utility network described in the step 2 and production detecting system detect that utility network is in peak of power consumption During the stage, signal is delivered in circuit control module by utility network and production detecting system, and circuit control module opens first Switch, third switch and the 4th switch are closed second switch, the 5th switch and the 6th switch, carry out battery in formation process The electric current of electric discharge passes sequentially through circuit control module, first switch, inverter, third switch, utility network and production detection system System and the 4th switch are entered in utility network.

The present invention has the characteristics that rational in infrastructure and controllable strong, leads to when utility network and production system do not need to electricity consumption Energy-storage battery group energy storage is crossed, can be discharged when utility network and production system need electricity consumption according to battery in formation process Situation, if no battery carries out electric discharge and can be discharged by energy-storage battery group, if battery discharges in formation process It discharges, can directly discharge utility network and production system；Therefore the present invention can fully save electric energy and reduce and look forward to The production cost of industry has the advantages that reasonable design, simple in structure, controllability is strong, save energy consumption, reduces manufacture cost.

Description of the drawings

Fig. 1 is the structural diagram of the present invention；

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

Specific embodiment

For a clearer understanding of the technical characteristics, objects and effects of the present invention, now control illustrates this hair Bright specific embodiment, in the various figures identical label represent identical component.To make simplified form, in each figure only schematically Ground is indicated with inventing relevant part, they do not represent its practical structures as product.

As shown in Figure 1, 2, the present invention includes transmission of electricity part and control section, if a, power transmission section point include utility network 1 and Dry group chemical conversion battery circuit 4 in parallel, the transmission of electricity mouth of utility network 1 pass through the change in parallel with several groups of transformer 2 and rectifier 3 It is connected into battery with one end of circuit 4, the other end and 5 electricity of circuit control module of several groups of chemical conversion battery circuits 4 in parallel Source inlet is connected, and 5 power outlet of circuit control module is connected respectively with energy-storage battery group 6 and inverter 7, the inverter 7 are connected by utility network and production detecting system 8 with 1 power transmission mouth of utility network and production system 9 respectively；B, control unit subpackage Utility network and production detecting system 8 and circuit control module 5 are included, is opened between circuit control module 5 and inverter 7 equipped with first It closes and the shortcut power cord 15 with second switch 11, inverter 7 and utility network is equipped between 10, energy-storage battery group 6 and inverter 7 And third is equipped between production detecting system 8 and switchs 12, it is equipped between utility network and production detecting system 8 and utility network 1 4th switch 13 is equipped with the 5th switch 14, shortcut power cord 15 between utility network and production detecting system 8 and production system 9 The 5th switch 16, utility network and the signal transmission end of production detecting system 8 and circuit control are equipped between energy-storage battery group 6 5 receiving terminal of module is connected, and the control terminal of the circuit control module 5 switchs respectively with first switch 10, second switch 11, third 12nd, the 13, the 5th switch 14 of the 4th switch is connected with the 6th switch 16.

A kind of Battery formation replenishing method of electric energy feedback device for supplying, includes the following steps：

Step 1：Utility network 1 charges to chemical conversion battery by utility network transmission of electricity mouth, transformer 2, rectifier 3, It discharges after charging；

Step 2：When battery is discharged in formation process, utility network and production detecting system 8 detect production system 9 whether electricity consumption, utility network 1 whether be in the peak of power consumption stage；

Step 3：When production system 9 does not need to electricity consumption, and utility network 1 is in the low power consumption stage, utility network and Signal is delivered in circuit control module 5 by production detecting system 8, and circuit control module 5 closes first switch 10, second switch 11st, the 12, the 4th switch 13 of third switch and the 5th switch 14, open the 6th switch 16, the electricity that making battery discharge is enters storage Energy battery pack 6 is stored；

Step 4：Described in the step 3 after energy-storage battery 6 storing up electricity of group, utility network and production detecting system 8 are examined in real time Survey production system 9 whether electricity consumption, utility network 1 whether be in the peak of power consumption stage；It is public when production system 9 needs electricity consumption Signal is delivered in circuit control module 5 by power grid and production detecting system 8, and circuit control module 5 opens second switch 11, the The 12, the 5th switch 14 of three switches and the 6th switch 16 make the electric current inside energy-storage battery group 6 pass through the 6th switch 16, second and open 11, inverter 7, third switch 12, utility network and production detecting system 8 and the 5th switch 14 is closed to enter in production system 9；When When utility network 1 is in the peak of power consumption stage, signal is delivered to circuit control module 5 by utility network and production detecting system 8 In, second switch 11, the 12, the 4th switch 13 of third switch and the 6th switch described in 5 rate-determining steps three of circuit control module 16 open, and the electric current inside energy-storage battery group 6 is made to pass through the 6th switch 16, second switch 11, inverter 7, third switch 12, public affairs It is entered in utility network 1 with power grid and production detecting system 8 and the 4th switch 13；

Step 5：The utility network described in the step 2 and production detecting system 8 detect that production system 9 needs electricity consumption When, signal is delivered in circuit control module 5 by utility network and production detecting system 8, and circuit control module 5 is opened first and opened 10, third switch, 12 and the 5th switch 14 is closed, 13 and the 6th switch 16 of the switch of second switch the 11, the 4th is closed, makes formation process The electric current that middle battery discharges pass sequentially through circuit control module 5, first switch 10, inverter 7, third switch 12, it is public Power grid and production detecting system 8 and the 5th switch 14 enter in production system 9；

Step 6：It is high that the utility network described in the step 2 and production detecting system 8 detect that utility network 1 be in electricity consumption During the peak stage, signal is delivered in circuit control module 5 by utility network and production detecting system 8, and circuit control module 5 is opened First switch 10,12 and the 4th switch 13 of third switch, are closed 14 and the 6th switch 16 of the switch of second switch the 11, the 5th, making The electric current that battery discharges into process passes sequentially through circuit control module 5, first switch 10, inverter 7, third switch 12nd, utility network and production detecting system 8 and the 4th switch 13 are entered in utility network 1.

For the more detailed explanation present invention, the present invention is further elaborated in conjunction with embodiment.Specific embodiment It is as follows：

Embodiment one

A kind of Battery formation replenishing method of electric energy feedback device for supplying, includes the following steps：

Step 1：Utility network 1 charges to chemical conversion battery by utility network transmission of electricity mouth, transformer 2, rectifier 3, It discharges after charging；

Step 2：When battery is discharged in formation process, utility network and production detecting system 8 detect production system 9 whether electricity consumption, utility network 1 whether be in the peak of power consumption stage；

Step 3：When production system 9 does not need to electricity consumption, and utility network 1 is in the low power consumption stage, utility network and Signal is delivered in circuit control module 5 by production detecting system 8, and circuit control module 5 closes first switch 10, second switch 11st, the 12, the 4th switch 13 of third switch and the 5th switch 14, open the 6th switch 16, the electricity that making battery discharge is enters storage Energy battery pack 6 is stored.

Embodiment two

A kind of Battery formation replenishing method of electric energy feedback device for supplying, includes the following steps：

Step 1：Utility network 1 charges to chemical conversion battery by utility network transmission of electricity mouth, transformer 2, rectifier 3, It discharges after charging；

Step 2：When battery is discharged in formation process, utility network and production detecting system 8 detect production system 9 whether electricity consumption, utility network 1 whether be in the peak of power consumption stage；

Step 3：When production system 9 does not need to electricity consumption, and utility network 1 is in the low power consumption stage, utility network and Signal is delivered in circuit control module 5 by production detecting system 8, and circuit control module 5 closes first switch 10, second switch 11st, the 12, the 4th switch 13 of third switch and the 5th switch 14, open the 6th switch 16, the electricity that making battery discharge is enters storage Energy battery pack 6 is stored；

Step 4：Described in the step 3 after energy-storage battery 6 storing up electricity of group, utility network and production detecting system 8 are examined in real time Survey production system 9 whether electricity consumption, utility network 1 whether be in the peak of power consumption stage；It is public when production system 9 needs electricity consumption Signal is delivered in circuit control module 5 by power grid and production detecting system 8, and circuit control module 5 opens second switch 11, the The 12, the 5th switch 14 of three switches and the 6th switch 16 make the electric current inside energy-storage battery group 6 pass through the 6th switch 16, second and open 11, inverter 7, third switch 12, utility network and production detecting system 8 and the 5th switch 14 is closed to enter in production system 9.

Embodiment three

A kind of Battery formation replenishing method of electric energy feedback device for supplying, includes the following steps：

Step 1：Utility network 1 charges to chemical conversion battery by utility network transmission of electricity mouth, transformer 2, rectifier 3, It discharges after charging；

Step 2：When battery is discharged in formation process, utility network and production detecting system 8 detect production system 9 whether electricity consumption, utility network 1 whether be in the peak of power consumption stage；

Step 3：When production system 9 does not need to electricity consumption, and utility network 1 is in the low power consumption stage, utility network and Signal is delivered in circuit control module 5 by production detecting system 8, and the closing of circuit control module 5 first switch 10, second open The 12, the 4th switch 13 of 11, third switch and the 5th switch 14 are closed, opens the 6th switch 16, the electricity that making battery discharge is enters Energy-storage battery group 6 is stored；

Step 4：Described in the step 3 after energy-storage battery 6 storing up electricity of group, utility network and production detecting system 8 are examined in real time Survey production system 9 whether electricity consumption, utility network 1 whether be in the peak of power consumption stage；When utility network 1 is in the peak of power consumption stage When, signal is delivered in circuit control module 5 by utility network and production detecting system 8,5 rate-determining steps three of circuit control module Described in second switch 11, third switch the 12, the 4th switch 13 and the 6th switch 16 open, make inside energy-storage battery group 6 Electric current passes through the 6th switch 16, second switch 11, inverter 7, third switch 12, utility network and production detecting system 8 and the Four switches 13 are entered in utility network 1.

Example IV

A kind of Battery formation replenishing method of electric energy feedback device for supplying, includes the following steps：

Step 1：Utility network 1 charges to chemical conversion battery by utility network transmission of electricity mouth, transformer 2, rectifier 3, It discharges after charging；

Step 2：When battery is discharged in formation process, utility network and production detecting system 8 detect production system 9 whether electricity consumption, utility network 1 whether be in the peak of power consumption stage；

Step 3：The utility network described in the step 2 and production detecting system 8 detect that production system 9 needs electricity consumption When, signal is delivered in circuit control module 5 by utility network and production detecting system 8, and circuit control module 5 is opened first and opened 10, third switch, 12 and the 5th switch 14 is closed, 13 and the 6th switch 16 of the switch of second switch the 11, the 4th is closed, makes formation process The electric current that middle battery discharges pass sequentially through circuit control module 5, first switch 10, inverter 7, third switch 12, it is public Power grid and production detecting system 8 and the 5th switch 14 enter in production system 9.

Embodiment five

A kind of Battery formation replenishing method of electric energy feedback device for supplying, includes the following steps：

Step 1：Utility network 1 charges to chemical conversion battery by utility network transmission of electricity mouth, transformer 2, rectifier 3, It discharges after charging；

Step 2：When battery is discharged in formation process, utility network and production detecting system 8 detect production system 9 whether electricity consumption, utility network 1 whether be in the peak of power consumption stage；

Step 3：It is high that the utility network described in the step 2 and production detecting system 8 detect that utility network 1 be in electricity consumption During the peak stage, signal is delivered in circuit control module 5 by utility network and production detecting system 8, and circuit control module 5 is opened First switch 10,12 and the 4th switch 13 of third switch, are closed 14 and the 6th switch 16 of the switch of second switch the 11, the 5th, making The electric current that battery discharges into process passes sequentially through circuit control module 5, first switch 10, inverter 7, third switch 12nd, utility network and production detecting system 8 and the 4th switch 13 are entered in utility network 1.

In the description of the present invention, it is to be understood that the orientation or position of term " one end ", " other end " etc. instruction Relationship is based on orientation shown in the drawings or position relationship, is for only for ease of the description present invention and simplifies description, without referring to Show or imply that the device of meaning or element there must be specific orientation, with specific azimuth configuration and operation, therefore cannot manage It solves as limitation of the present invention.In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, art Language " being equipped with " etc. should be interpreted broadly, for example, it may be being fixedly connected, being integrally connected or being detachably connected； It can be the connection inside two elements；It can be directly connected, can also be indirectly connected by intermediary, for this field Those of ordinary skill for, can understand the concrete meaning of above-mentioned term in the present invention as the case may be.It may be noted that Be it is herein, " first ", " second ", " third " etc. be only used for mutual differentiation rather than represent they significance level and Sequence etc..Foregoing detailed description is illustrated only for the feasibility embodiment of the present invention, they not to It limits the scope of the invention, all equivalent implementations made without departing from skill spirit of the present invention, change and transformation should all It is included within protection scope of the present invention.

Claims (2)

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

A, power transmission section point includes utility network (1) and several groups of chemical conversion battery circuits (4) in parallel, utility network (1) transmission of electricity Mouth is connected by transformer (2) and rectifier (3) with several groups of chemical conversion batteries in parallel with one end of circuit (4), and several groups simultaneously The other end of the chemical conversion battery of connection circuit (4) is connected with circuit control module (5) power import, the circuit control module (5) power outlet is connected respectively with energy-storage battery group (6) and inverter (7), and the inverter (7) passes through utility network and production Detecting system (8) is connected respectively with utility network (1) power transmission mouth and production system (9)；

B, control section includes utility network and production detecting system (8) and circuit control module (5), circuit control module (5) It is equipped between inverter (7) between first switch (10), energy-storage battery group (6) and inverter (7) and is equipped with band second switch (11) third is equipped between shortcut power cord (15), inverter (7) and utility network and production detecting system (8) to switch (12), the 4th switch (13), utility network and life are equipped between utility network and production detecting system (8) and utility network (1) It produces and the 5th switch (14), shortcut power cord (15) and energy-storage battery group (6) is equipped between detecting system (8) and production system (9) Between be equipped with the 6th switch (16), utility network and production detecting system (8) signal transmission end connect with circuit control module (5) Receiving end is connected, and the control terminal of the circuit control module (5) switchs respectively with first switch (10), second switch (11), third (12), the 4th switch (13), the 5th switch (14) are connected with the 6th switch (16).

2. a kind of replenishing method of Battery formation electric energy feedback device for supplying according to claim 1, it is characterised in that：It should Replenishing method includes the following steps：

Step 1：Utility network (1) fills chemical conversion battery by utility network transmission of electricity mouth, transformer (2), rectifier (3) Electricity discharges after charging；

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

Step 3：When production system (9) does not need to electricity consumption, and utility network (1) is in the low power consumption stage, utility network and Signal is delivered in circuit control module (5) by production detecting system (8), circuit control module (5) closing first switch (10), Second switch (11), third switch (12), the 4th switch (13) and the 5th switch (14), open the 6th switch (16), make battery Electricity during electric discharge enters energy-storage battery group (6) and is stored；

Step 4：Described in step 3 after energy-storage battery group (6) storing up electricity, utility network and production detecting system (8) are examined in real time Survey production system (9) whether electricity consumption, utility network (1) whether be in the peak of power consumption stage；When production system (9) needs electricity consumption When, signal is delivered in circuit control module (5) by utility network and production detecting system (8), and circuit control module (5) is opened Second switch (11), third switch (12), the 5th switch (14) and the 6th switch (16), the electricity for making energy-storage battery group (6) internal Stream passes through the 6th switch (16), second switch (11), inverter (7), third switch (12), utility network and production detecting system (8) and the 5th switch (14) is interior into production system (9)；When utility network (1) is in the peak of power consumption stage, utility network and Signal is delivered in circuit control module (5) by production detecting system (8), described in circuit control module (5) rate-determining steps three Second switch (11), third switch (12), the 4th switch (13) and the 6th switch (16) open, make energy-storage battery group (6) interior The electric current in portion is examined by the 6th switch (16), second switch (11), inverter (7), third switch (12), utility network and production Examining system (8) and the 4th switch (13) are entered in utility network (1)；

Step 5：The utility network described in the step 2 and production detecting system (8) detect that production system (9) needs electricity consumption When, signal is delivered in circuit control module (5) by utility network and production detecting system (8), and circuit control module (5) is opened First switch (10), third switch (12) and the 5th switch (14) disconnect second switch (11), the 4th switch (13) and the 6th is opened It closes (16), the electric current that battery discharges in formation process is made to pass sequentially through circuit control module (5), first switch (10), inverse Become device (7), third switch (12), utility network and production detecting system (8) and the 5th switch (14) into production system (9) It is interior；

Step 6：The utility network described in the step 2 and production detecting system (8) detect utility network (1) in electricity consumption height During the peak stage, signal is delivered in circuit control module (5) by utility network and production detecting system (8), circuit control module (5) first switch (10), third switch (12) and the 4th switch (13) are opened, disconnects second switch (11), the 5th switch (14) With the 6th switch (16), the electric current that battery discharges in formation process is made to pass sequentially through circuit control module (5), first switch (10), inverter (7), third switch (12), utility network and production detecting system (8) and the 4th switch (13) enter public In power grid (1).