CN207852832U - Lithium ion battery parallel connection formation system/lithium ion battery parallel connection chemical synthesis technology - Google Patents

Abstract

It includes formation cabinet, formation device and gas circulation part that the utility model, which discloses a kind of lithium ion battery parallel connection formation system,；Formation device includes electrolytic bath, adjusting rod, electrode plate, lifters and clamping plate；Formation device is placed in formation cabinet, and battery to be changed is positioned in electrolytic bath and is allowed in parallel with the cooperation of formation device remaining part, and gas-circulating system makes the gas that Battery formation generates constantly be discharged from formation cabinet.The utility model of the application makes battery to be changed form parallel connection, multiple batteries can be disposably melted into, chemical conversion space is saved, operation is reduced, formation cabinet and gas circulation part make Battery formation generate gas and be discharged rapidly, so that SEI films are formed uniformly, formation effect, and worker will not be in direct contact the gas of chemical conversion discharge, ensure that the health of worker, adjusting rod makes the positive and negative lug for being melted into battery respectively maintain point-blank so that the consistency of Battery formation is high.

Description

Lithium ion battery parallel connection formation system/lithium ion battery parallel connection chemical synthesis technology

Technical field

The utility model is related to lithium ion battery production technical fields, are specifically related to a kind of lithium ion battery parallel connection chemical conversion System/lithium ion battery parallel connection chemical synthesis technology.

Background technology

Among the production technology of lithium ion battery, chemical conversion is one and extremely important process, after chemical conversion refers to fluid injection Battery carry out first charge-discharge process, main function is by the electrochemical reaction in initial charge in negative terminal surface shape At fine and close SEI films (SolidElectrolyte Interface, solid electrolytic interfacial film), while excluding to form SEI film mistakes Generated gas in journey, prevents battery from the bad phenomenons such as air expansion drum shell occur.Battery is taken to be placed in vehicle mostly in industry at present In open formation technique, the gas generated in the formation process of such mode is gathered in due to cannot adequately be discharged Inside battery forms SEI films to chemical conversion and is affected；In addition one channel of existing formation cabinet can only once be melted into an electricity Pond, and the electrolytic corrosion battery case to be taken out of when preventing the battery moisture absorption and chemical conversion exhaust, every battery are both needed in fluid injection Mouthful paper handkerchief is pricked, and need to clean battery case according to humidity and the situation that leaks, so not only production efficiency bottom, but also Also add artificial and production cost.

Utility model content

In view of the deficiencies of the prior art, the utility model provides a kind of lithium ion battery parallel connection formation system.

A kind of lithium ion battery parallel connection formation system includes：

Formation cabinet, it is interior to be equipped with multiple hothouses, two neighboring hothouse connection；

With the same number of formation device of hothouse, a formation device is equipped in each hothouse；Formation device includes：

One electrolytic bath a comprising bottom wall, two cell walls and being respectively perpendicular being respectively perpendicular set on bottom wall opposite end are set In two battery retaining boards of the another opposite end of bottom wall；Two cell walls and two battery retaining boards are located at bottom wall same side；Battery Fixed plate offers multiple strip-shaped clamp grooves, and multiple strip-shaped clamp grooves are arranged in order along the length direction of battery retaining boards；Each Shape card slot is parallel with bottom wall, and the face one by one of the strip-shaped clamp groove on two battery retaining boards；

Adjusting rod, both ends are arranged on two battery retaining boards respectively in two strip-shaped clamp grooves of face；Adjusting rod and bottom Wall is parallel；

Multiple electrodes plate is covered on electrolytic bath and is arranged in order along the length direction of battery retaining boards；Each electricity The both ends of pole plate are bonded with two battery retaining boards respectively；

One lifters comprising support plate, lifting actuator, guide runner and guiding slide bar；Support plate is set to chemical conversion The top of slot, lifting actuator are set to support plate, and guide runner is set to support plate and positioned at the side of lifting actuator；It is oriented to and slides Bar is parallel with lifting actuator, and one end is slidably connected guide runner；And

One clamping plate is located above electrolytic bath and is connected to the output end of lifting actuator, and clamping plate is parallel with bottom wall, clamping plate The one side of face bottom wall is equipped with multiple copper bars；Multiple copper bars are arranged in order along battery retaining boards length direction；Copper bar and electrode The quantity of plate is consistent, and a copper bar and an electrode plate face；And

Gas circulation part above formation cabinet, gas circulation part include air intake and exhaust part；Air intake includes Admission line, the air intake valve set on admission line and the drying machine that is connected to admission line one end；Admission line it is another End is connected to a hothouse；Exhaust part include discharge duct, set on discharge duct drain tap and with discharge duct one end The suction ventilator of connection；The other end of discharge duct is connected to another hothouse.

According to one embodiment of the utility model, the height of two cell walls of electrolytic bath is more than the height of battery retaining boards；Two Cell wall it is highly consistent, support plate is covered on two cell walls.

According to one embodiment of the utility model, guide runner and the quantity for being oriented to slide bar are two, two guiding Sliding block is located at the both sides of lifting actuator, and two guiding slide bars are parallel with lifting actuator；Two are oriented to one end of slide bar Be slidably connected two guide runners respectively, and the other end is respectively and fixedly connected in clamping plate.

According to one embodiment of the utility model, the bottom wall of electrolytic bath is aluminum plate.

According to one embodiment of the utility model, electrode plate is aluminum plate.

According to one embodiment of the utility model, the cell wall of electrolytic bath is bakelite material plate.

According to one embodiment of the utility model, it is connected to by two ventholes between two hothouses.

According to one embodiment of the utility model, multiple hothouses are arranged in order along the short transverse of formation cabinet.

According to one embodiment of the utility model, multiple hothouses are arranged successively along the height and length direction of formation cabinet Row；It is connected to by two ventholes along two adjacent hothouses of formation cabinet short transverse.

According to one embodiment of the utility model, admission line and discharge duct are located at the top with formation cabinet respectively Multiple hothouse connections.

Compared with the existing technology：Bottom wall and electrode plate make battery to be changed form parallel connection, can disposably be melted into more A battery saves chemical conversion space, reduces operation, and fitted closely between battery, limit cell expansion, reduce note Liquid leaks out, and formation cabinet and gas circulation part make Battery formation generate gas and be discharged rapidly so that SEI films are formed uniformly, are changed At effect, and worker will not be in direct contact the gas of chemical conversion discharge, ensure that the health of worker, adjusting rod to be melted into The positive and negative lug of battery respectively maintains point-blank so that the consistency of Battery formation is high.

Description of the drawings

Attached drawing described herein is used for providing further understanding of the present application, constitutes part of this application, this Shen Illustrative embodiments and their description please do not constitute the improper restriction to the application for explaining the application.In the accompanying drawings：

Fig. 1 is the structural schematic diagram of lithium ion battery parallel connection formation system in the present embodiment；

Fig. 2 be the electrolytic bath of lithium ion battery parallel connection formation system in the present embodiment, electrode plate, lifters, clamping plate and The structural schematic diagram of adjusting rod；

Fig. 3 is the structural schematic diagram of the electrolytic bath of lithium ion battery parallel connection formation system in the present embodiment.

Reference sign：

1, formation cabinet；11, hothouse；111, venthole；2, formation device；21, electrolytic bath；211, bottom wall；212, cell wall； 213, battery retaining boards；2131, strip-shaped clamp groove；22, adjusting rod；23, electrode plate；24, lifters；241, support plate；242, it rises Actuator drops；243, guide runner；244, it is oriented to slide bar；25, clamping plate；251, copper bar；3, gas circulation part；31, air intake； 311, admission line；312, air intake valve；313, drying machine；32, exhaust part；321, discharge duct；322, drain tap；323、 Suction ventilator.

Specific implementation mode

Multiple embodiments that the utility model will be disclosed with schema below, as clearly stated, in many practices Details will be explained in the following description.It should be appreciated, however, that the details in these practices is not applied to limit this practicality newly Type.That is, in some embodiments of the utility model, the details in these practices is non-essential.In addition, for letter For the sake of changing schema, some known usual structures will be painted it in a manner of simply illustrative in the drawings with component.

It is to be appreciated that the directional instruction (such as up, down, left, right, before and after ...) of institute in the utility model embodiment It is only used for explaining relative position relation, the motion conditions etc. under a certain particular pose (as shown in the picture) between each component, such as When the fruit particular pose changes, then directionality instruction also correspondingly changes correspondingly.

In addition, the description for being such as related to " first ", " second " in the present invention is used for description purposes only, and non-specifically The meaning of order or cis-position is censured, it is also non-to limit the utility model, it is retouched with same technique term just for the sake of difference The component stated or operation are not understood to indicate or imply its relative importance or implicitly indicate indicated technology The quantity of feature." first " is defined as a result, the feature of " second " can explicitly or implicitly include at least one spy Sign.In addition, the technical solution between each embodiment can be combined with each other, but must be with those of ordinary skill in the art's energy It is enough realize based on, when the knot that conflicting or cannot achieve when will be understood that this technical solution occurs in the combination of technical solution Conjunction is not present, also not within the protection domain of the requires of the utility model.

For that can further appreciate that the contents, features and effects of the utility model, the following examples are hereby given, and coordinates attached drawing Detailed description are as follows：

Referring to FIG. 1, FIG. 2 and FIG. 3, Fig. 1 is the structural schematic diagram of lithium ion battery parallel connection formation system in the present embodiment, figure 2 be the knot of the electrolytic bath of lithium ion battery parallel connection formation system, electrode plate, lifters, clamping plate and adjusting rod in the present embodiment Structure schematic diagram, Fig. 3 are the structural schematic diagram of the electrolytic bath of lithium ion battery parallel connection formation system in the present embodiment；In the present embodiment Lithium ion battery parallel connection formation system includes：Formation cabinet 1, formation device 2 and gas circulation part 3；Formation cabinet 1 is used for placementization At device, and the gas discharge that when formation device is melted into together with gas circulation part 3 generates；It is equipped in formation cabinet 1 multiple dry Dry room 11, formation cabinet 1 is rectangular box in the present embodiment, and hothouse 11 is rectangular box, and the quantity of hothouse 11 is four, often Two hothouses 11 are setting up and down along 1 short transverse of formation cabinet, two groups of hothouses 11 being arranged along 1 short transverse of formation cabinet Left and right settings, four hothouses 11 form sphere of movements for the elephants shape structures, along the setting of 1 short transverse of formation cabinet two hothouses 11 it Between open up two ventholes 111, venthole 111 is so that two hothouses 11 connection be arranged along 1 short transverse of formation cabinet；Change It is identical as the number of hothouse 11 at the number of device 2, a formation device is equipped in each hothouse 11；Formation device 2 includes One electrolytic bath 21, adjusting rod 22, multiple electrodes plate 23, a lifters 24 and a clamping plate 25；Electrolytic bath 21 includes a bottom wall 211, two cell walls 212 and two battery retaining boards 213, wherein bottom wall 211 are rectangular aluminum plate, and the bottom wall 211 of aluminum has There is good electric conductivity, cell wall 212 is rectangular bakelite material plate, and the cell wall 212 of bakelite has a good insulating properties, two Cell wall 212 is that size and shape are consistent, the size and the consistent rectangular slab of shape of two battery retaining boards 213, cell wall 212 Height is more than the height of battery retaining boards 213, and two cell walls 212 and two battery retaining boards 213 are located at 211 upper side of bottom wall, In two cell walls 212 be respectively perpendicular set on two opposite short sides of bottom wall 211, two battery retaining boards 213 are respectively perpendicular set on bottom wall 211 another two opposite long sides, two cell walls 212 and two battery retaining boards 213 are bonded with bottom wall 211, battery retaining boards 213 Multiple strip-shaped clamp grooves 2131 are offered, multiple strip-shaped clamp grooves 2131 are arranged in order along the length direction of battery retaining boards 213, often One strip-shaped clamp groove 2131 is parallel with bottom wall 211, and the face one by one of the strip-shaped clamp groove 2131 on two battery retaining boards 213；It adjusts The both ends of pole 7 are arranged in respectively in the strip-shaped clamp groove 331 of two 33 faces of battery retaining boards；Adjusting rod 22 and bottom wall 211 are flat Row, both ends are arranged in respectively in two strip-shaped clamp grooves 2131 of face on two battery retaining boards 213, and adjusting rod 22 can be It is moved along horizontal direction in strip-shaped clamp groove 2131；Electrode plate 23 is specially rectangular aluminum plate, and the electrode plate 23 of aluminum has Have good electric conductivity, multiple electrodes plate 23 be covered on electrolytic bath 21 and along the length direction of battery retaining boards 213 successively Arrangement, the both ends of each solar panel 23 are bonded with the long side of two battery retaining boards 213 respectively；Lifters 24 include support plate 241, actuator 242, guide runner 243 are lifted and is oriented to slide bar 244；Support plate 241 is rectangular slab, is covered on two slots On wall 212, support plate 241 is parallel with bottom wall 211, and the both ends of support plate 241 are bonded with two cell walls 212 respectively；Lift actuator 242 be specially telescopic cylinder, is set to the intermediate position of support plate 241, output end face electrolytic bath 21, guide runner 243 And it is two to be oriented to the quantity of slide bar 244, two guide runners 243 are set to support plate 241 and are located at lifting driving The both sides of part 242, two guiding slide bars 244 are parallel with lifting actuator 242, and one end of two guiding slide bars 244 is slided respectively One guide runner 243 of dynamic connection；Clamping plate 25 is specially rectangular slab, and clamping plate 25 is located at 21 top of electrolytic bath, clamping plate 25 and bottom wall 211 is parallel, and the intermediate position of 25 top surface of clamping plate is connected to the output end of lifting actuator 242, two guiding slide bars 244 it is another One end is respectively fixedly connected with 25 top surface of clamping plate, and the bottom surface of 25 face bottom wall 211 of clamping plate is equipped with multiple copper bars 251, multiple copper bars 251 are arranged in order along 213 length direction of battery retaining boards, and copper bar 251 is consistent with the quantity of electrode plate 23, and a copper bar 251 With 23 face of an electrode plate；In chemical conversion, lifting actuator 242 drives clamping plate 25 to be moved towards lower section, and synchronous drive is thereon The electrode plate 23 that copper bar 251 faces lower section moves so that each copper bar 251 is bonded with an electrode plate 23；Gas circulation part 3 Above formation cabinet 1, gas circulation part 3 includes air intake 31 and exhaust part 32；Air intake 31 in the present embodiment is two A, an air intake 31 includes admission line 311, air intake valve 312 and drying machine 313, wherein 31 admission line of an air intake 311 one end is connected to drying machine 313, and a hothouse is located above in the other end of this admission line 311 and four hothouses 11 11 connections, one end of the admission line 311 of another air intake 31 are connected to drying machine 313, the other end of this admission line 311 with The connection of another hothouse 11 is located above in four hothouses 11, air intake valve 312 is set on admission line 311, passes through air inlet Valve 312 can control the circulation of the gas in admission line 311 and the flowing speed of gas；Exhaust part 32 includes exhaust pipe Road 321, drain tap 322 and discharge duct 321, the suction ventilator 323 of one end connection of discharge duct 321, discharge duct 321 The other end be arranged with two sub- discharge ducts 3211, two sub- discharge ducts 3211 are located above with four hothouses respectively Two hothouses 11 connection, drain tap 322 be set to discharge duct 321 on, exhaust can be controlled by drain tap 322 The speed of the circulation of gas in pipelines and gas flowing；The dry gas specifically used in hothouse 11 in the present embodiment for Nitrogen, external nitrogen first pass around the drying for entering 1 top of formation cabinet after drying machine 313 is dried by admission line 311 In room 11, then nitrogen is entered by a wherein venthole 111 in the hothouse 11 of lower section, and nitrogen is by yet another later Venthole 111 returns to the hothouse 11 of top, then successively after sub- discharge duct 3211 and discharge duct 321 by air draught Machine 223 siphons away, and is discharged outside formation cabinet 1, and the circulatory system of a nitrogen is so formed in formation cabinet 1, and the physical state of nitrogen is non- Often stablize, will not generate and react with other gases under normal temperature state, nitrogen circulating system can be in hothouse 11 because of electricity Gas is completely exhausted out formation cabinet produced by the chemical conversion of pond, avoids impacting Battery formation quality, and entire formation cabinet 1 and The setting of gas circulation part 3 makes worker not directly contact gas with foreign flavor produced by chemical conversion in operation process, ensure that The health of worker；

A kind of lithium ion battery parallel connection chemical synthesis technology, includes the following steps：Battery to be changed is divided by step 1, worker Multiple row, the adjacent two battery fitting in each row battery, each row battery arranges the length direction along cell wall 212 set on being located at In 11 container formation slot 21 of hothouse, the battery of front end and rearmost end is bonded with battery retaining boards 213 in each row battery, more Row battery is arranged in order along the length direction of battery retaining boards 213, and the positive face of each battery to be changed fits in bottom Wall 211；Step 2, multiple electrodes plate 23 are covered on electrolytic bath 21, and the equal face fitting of cathode of each row battery to be changed In the bottom surface of electrode plate 23；Step 3, adjustment adjusting rod 22 move in strip-shaped clamp groove 2131 along horizontal direction so that step Battery in rapid two in each row battery is total to straight line and is arranged, and the anode ear of battery and negative electrode lug are located at together in each row battery On straight line；Step 4, starts drying machine 313 and suction ventilator 323, and dry nitrogen is from 311 entering of admission line At in the hothouse 11 in cabinet 1, then it is discharged from discharge duct 321 after four hothouses 11, after 3-5 minutes, four The drying regime of only nitrogen is kept in a hothouse 11；Step 5, lifting actuator 242 drive clamping plate 25 to move down, often Face fits in the top surface of multiple electrodes plate 23 in step 2 one by one for multiple copper bars 251 on one clamping plate 25；Step 6, step Bottom wall 211 is connected with external power supply in copper bar 251 and step 2 in five, and bottom wall 211 and electrode plate 23 are so that electrolytic bath Together, external power supply carries out onstant current voltage limiting to charge to cell parallel in 21 to the battery in electrolytic bath 21；Onstant current voltage limiting to charge Specific forming current is the lithium ion battery for being melted into required charging current and parallel connection in advance according to each lithium ion battery Depending on quantity, formation voltage depending on pre- chemical conversion cell voltage charging upper limit, such as：It is filled needed for single lithium ion battery chemical conversion Electric current is 50mA, and chemical conversion cell voltage charging upper limit is 3V, then the forming current needed for 100 lithium ion battery parallel connection chemical conversions For 5A, then pressure limiting is 3V to formation voltage；Step 7, the connection of the external power supply in break step six, lifters 5 in step 5 Clamping plate 6 is driven to rise；Step 8, drying machine 313 and suction ventilator 323 again after continuous service 3-5 minutes close drying machine 313 with And suction ventilator 323, worker open formation cabinet 1, remove motor plate 23, take out the electricity that chemical conversion is completed in step 7 in electrolytic bath 21 Pond.

To sum up：Bottom wall 211 and electrode plate 23 make battery to be changed form parallel connection, can disposably be melted into multiple electricity Pond saves chemical conversion space, reduces operation, and fitted closely between battery, limit cell expansion, reduces fluid injection leakage Go out, formation cabinet 1 and gas circulation part 3 are so that Battery formation generates gas and is discharged rapidly so that SEI films are formed uniformly, chemical conversion Effect, and worker will not be in direct contact the gas of chemical conversion discharge, ensure that the health of worker, and adjusting rod 22 is so that chemical conversion The positive and negative lug of battery respectively maintains point-blank so that the consistency of Battery formation is high.

The embodiment of upper described only the utility model, is not intended to limit the utility model.For this field For technical staff, various modifications and changes may be made to the present invention.The interior institute of all spirit and principle in the utility model Any modification, equivalent substitution, improvement and etc. of work should all be included within the right of the utility model.

Claims (10)

1. a kind of lithium ion battery parallel connection formation system, which is characterized in that including：

Formation cabinet (1), it is interior to be equipped with multiple hothouses (11), two neighboring hothouse (11) connection；

With the hothouse (11) the same number of formation device (2), a formation device is equipped in each hothouse (11) (2)；The formation device (2) includes：

One electrolytic bath (21) a comprising bottom wall (211) is respectively perpendicular two cell walls set on the bottom wall (211) opposite end (212) two battery retaining boards (213) set on the another opposite end of the bottom wall (211) are respectively perpendicular and；Two cell walls (212) and two battery retaining boards (213) are located at the bottom wall (211) same side；The battery retaining boards (213) are opened Equipped with multiple strip-shaped clamp grooves (2131), multiple strip-shaped clamp grooves (2131) along the battery retaining boards (213) length side To being arranged in order；Each strip-shaped clamp groove (2131) is parallel with the bottom wall (211), and two battery retaining boards (213) strip-shaped clamp groove (2131) on face one by one；

Adjusting rod (22), both ends are arranged in two strip-shaped clamp grooves of face on two battery retaining boards (213) respectively (2131) in；The adjusting rod (22) is parallel with the bottom wall (211)；

Multiple electrodes plate (23) is covered on the electrolytic bath (21) and along the length side of the battery retaining boards (213) To being arranged in order；The both ends of each electrode plate (23) are bonded with two battery retaining boards (213) respectively；

One lifters (24) comprising support plate (241), lifting actuator (242), guide runner (243) and guiding slide bar (244)；The support plate (241) is set to the top of the electrolytic bath (21), and the lifting actuator (242) is set to the support Plate (241), the guide runner (243) are set to the support plate (241) and positioned at the sides of the lifting actuator (242)； The guiding slide bar (244) is parallel with lifting actuator (242), and one end is slidably connected the guide runner (243)；With And

One clamping plate (25) is located above the electrolytic bath (21) and is connected to the output end of the lifting actuator (242), institute State that clamping plate (25) is parallel with the bottom wall (211), the one side of bottom wall (211) described in clamping plate (25) face is equipped with multiple copper Item (251)；Multiple copper bars (251) are arranged in order along the battery retaining boards (213) length direction；The copper bar (251) consistent with the quantity of the electrode plate (23), and a copper bar (251) and electrode plate (23) face；And

Gas circulation part (3) above the formation cabinet (1), the gas circulation part (3) include air intake (31) and Exhaust part (32)；The air intake (31) includes admission line (311), the air intake valve for being set to the admission line (311) (312) and with the admission line (311) one end the drying machine (313) being connected to；The other end of the admission line (311) with One hothouse (11) is connected to；The exhaust part (32) includes discharge duct (321), the exhaust for being set to the discharge duct (321) Valve (322) and the suction ventilator (323) being connected to the discharge duct (321) one end；The discharge duct (321) it is another End is connected to another hothouse (11).

2. lithium ion battery parallel connection formation system according to claim 1, which is characterized in that the two of the electrolytic bath (21) The height of cell wall (212) is more than the height of the battery retaining boards (213)；Highly consistent, the branch of two cell walls (212) Fagging (241) is covered on two cell walls (212).

3. lithium ion battery parallel connection formation system according to claim 1, which is characterized in that the guide runner (243) And it is two to be oriented to the quantity of slide bar (244), two guide runners (243) are located at the lifting actuator (242) both sides, two guiding slide bars (244) are parallel with lifting actuator (242)；The two guiding slide bars (244) one end is slidably connected two guide runners (243) respectively, and the other end is respectively and fixedly connected in the clamping plate (25).

4. lithium ion battery parallel connection formation system according to claim 1, which is characterized in that the bottom of the electrolytic bath (21) Wall (211) is aluminum plate.

5. lithium ion battery parallel connection formation system according to claim 1, which is characterized in that the electrode plate (23) is aluminium Making sheet.

6. lithium ion battery parallel connection formation system according to claim 1, which is characterized in that the slot of the electrolytic bath (21) Wall (212) is bakelite material plate.

7. lithium ion battery parallel connection formation system according to claim 1, which is characterized in that two hothouses (11) Between pass through the connection of two ventholes (111).

8. lithium ion battery parallel connection formation system according to claim 1, which is characterized in that multiple hothouses (11) It is arranged in order along the short transverse of the formation cabinet (1).

9. lithium ion battery parallel connection formation system according to claim 1, which is characterized in that multiple hothouses (11) It is arranged in order along the height and length direction of the formation cabinet (1)；Along the formation cabinet (1) short transverse it is adjacent two A hothouse (11) is connected to by two ventholes (111).

10. lithium ion battery parallel connection formation system according to claim 9, which is characterized in that the admission line (311) And discharge duct (321) is located at multiple hothouses (11) of the top with the formation cabinet (1) and is connected to respectively.