CN110155479A - A kind of lithium ion battery storage device and automatic feed mechanism and batch testing mechanism - Google Patents

Abstract

This invention describes a kind of lithium ion battery storage device and automatic feed mechanism and batch testing mechanisms, belong to lithium ion battery equipment technical field.Concrete scheme is as follows: a kind of lithium ion battery storage device, including framework, at least one piece left side baffle and at least one piece of right-hand apron, left side baffle and right-hand apron are successively disposed alternately inside framework, the right lateral surface of left side baffle is vertically arranged with several battery slots I, the left-hand face of right-hand apron is vertically arranged with several battery slots II, battery slot I and battery slot II are oppositely arranged one by one, limit plate I is arranged in the bottom of battery slot I, limit plate II is arranged in the bottom of battery slot II, battery pole ear is placed between the battery slot I being oppositely arranged and battery slot II downward and is located on limit plate I and limit plate II.One storage device stores a large amount of battery and battery pole ear stretches out material frame, process batch partial volume or OCV test after convenience.

Description

A kind of lithium ion battery storage device and automatic feed mechanism and batch testing mechanism

Technical field

The invention belongs to lithium ion battery equipment technical fields, and in particular to a kind of lithium ion battery storage device and automatic Feed mechanism and batch testing mechanism.

Background technique

Lithium battery has the advantages that energy is high, cell voltage is high, operating temperature range is wide, storage life is long and small in size, It has been widely used in military and civilian compact electric apparatus.There are two types of existing battery storage modes, and one is battery lies low to put It sets in vacuum formed box, a battery is placed in position in each vacuum formed box hole；Another kind is that battery lies low to be superimposed with battery and is placed on bullet In folder.The former storage battery quantity is very little, needs largely to have enough to meet the need magazine, increase manufacturing cost to manufacturing enterprise, Hou Zhe electricity The mode that pond and cell stack are placed is very easy to topple over and lead to battery short circuit.In addition, both modes there is also one very Big drawback, rear process test with assorting room in, it is necessary to battery is taken out one by one from storage device, then again into Row test, this mode heavy workload, while also resulting in battery bad order.

Summary of the invention

The first purpose of this invention is to facilitate taking for lithium ion battery to save memory space, and the present invention provides A kind of lithium ion battery storage device.

A second object of the present invention is to provide a kind of automatic feed mechanisms comprising the lithium ion battery storage device.

Third object of the present invention is to provide a kind of batch testing mechanisms comprising the lithium ion battery storage device.

To achieve the above object, the technical solution adopted by the present invention is as follows:

A kind of lithium ion battery storage device, including framework, at least one piece left side baffle and at least one piece of right-hand apron, institute It states left side baffle and right-hand apron is successively disposed alternately inside framework, if the right lateral surface of the left side baffle is vertically arranged with Dry battery slot I, the left-hand face of the right-hand apron are vertically arranged with several battery slots II, the battery slot I It is oppositely arranged one by one with battery slot II, limit plate I, the bottom of the battery slot II is arranged in the bottom of the battery slot I Limit plate II is set, and battery pole ear is placed between the battery slot I being oppositely arranged and battery slot II downward and is located at limit On plate I and limit plate II.

Further, the lithium ion battery storage device further includes left side barrier driving mechanism and right-hand apron driving machine Structure, left side barrier driving mechanism are mounted on the left side wall of framework, and all left side baffles and the left side baffle drive The drive rod of motivation structure is connected and is moved along drive rod driving direction, and the right-hand apron driving mechanism is mounted on the right side of framework On wall, all right-hand aprons connect with the drive rod of the right-hand apron driving mechanism and transport along drive rod driving direction Dynamic, the left side baffle and right-hand apron are slidably arranged in inside framework.

Further, the lithium ion battery storage device further includes that I, two piece of two pieces of connecting plates connecting plate II, two is led To axis I and two piece guiding axis II, the rear and front end of all left side baffles passes through connecting plate I and is fixedly connected, all described The rear and front end of right-hand apron passes through connecting plate II and is fixedly connected, and is provided in left-right direction on two pieces of connecting plates I Through-hole I, two guiding axis I are each passed through the through-hole I on two pieces of connecting plates I, and the both ends of the every guiding axis I are separately fixed at In the left and right sidewall of the framework, through-hole II, two guiding axis II are provided on two pieces of connecting plates II in left-right direction The both ends of the through-hole II being each passed through on two pieces of connecting plates II, the every guiding axis II are fixed on the left and right sidewall of the framework On.

Further, the battery slot I is identical with the structure of battery slot II, the upper opening of the battery slot I Greater than lower openings.

Further, the bottom of the framework is provided with several blend stops, and the both ends of several blend stops are fixed respectively In the left and right sidewall of the framework, limiting slot is provided between left side baffle bottom each adjacent two battery slot I I, be provided with limiting slot II between right-hand apron bottom each adjacent two battery slot II, multiple limiting slots I with Multiple limiting slots II are arranged in a one-to-one correspondence, and each blend stop is located at the limiting slot I and limiting slot II of corresponding setting Inside, battery pole ear are located between the gap of adjacent two blend stops.

Further, any wall outer surface of the framework is provided with storage device bar code, the storage device bar code Pass through external memory barcode scanning mechanism automatic identification.

A kind of automatic feed mechanism containing the lithium ion battery storage device, including workbench and it is mounted on the work Make battery loading mechanism, battery loading waterwheel, battery code scanning mechanism and the lithium ion battery storage device on platform, the electricity The manipulator of pond feed mechanism is back and forth in the battery loading waterwheel and the lithium ion battery storage device, the battery code scanning Mechanism is mounted on the side of the battery loading waterwheel, and the battery code scanning mechanism is to each battery for being placed on battery loading waterwheel It carries out barcode scanning and is uploaded to outer testing system.

Further, the automatic feed mechanism further includes storage device barcode scanning mechanism I, storage device barcode scanning mechanism I is fixed on the workbench and positioned at the side of the storage device bar code, and storage device barcode scanning mechanism I is to lithium ion Battery storage device carries out barcode scanning and is simultaneously uploaded to outer testing system, and outer testing system is by storage device bar code and battery code scanning The battery bar code of mechanism scanning is bound together.

A kind of batch testing mechanism containing the lithium ion battery storage device, including supporting mechanism, mechanism for testing, survey Test system, mechanism for testing lifting device and the lithium ion battery storage device；The supporting mechanism includes support frame and support Plate, the support plate are fixed on support frame as described above, and the middle part of the support plate is hollow structure, the lithium ion battery storage The top of hollow structure is arranged in device, and the mechanism for testing corresponds to the lithium ion battery storage device and is mounted on hollow structure Lower section, the mechanism for testing is mounted on the top of the mechanism for testing lifting device, the mechanism for testing and test system System electrical connection, the mechanism for testing include the test clip with the storage device storage battery equivalent, it is ensured that each battery matches one Group test clip.

Further, the batch testing mechanism further includes storage device barcode scanning mechanism II, the storage device scanning machine Structure II is fixed on the side in the support plate and being located at the storage device bar code, and storage device barcode scanning mechanism II is to lithium Ion battery storage device carries out barcode scanning and is simultaneously uploaded to test macro, and test macro is by the survey of storage device bar code and each battery Test result is bound together.

The beneficial effect of the present invention compared with the existing technology is:

1. storage device bar code and battery bar code in device are bound together, battery code scanning number is reduced；

2. can be saved since a storage device can store a large amount of battery and battery pole ear stretching material frame Hall space, while process batch partial volume and OCV are tested after convenience；

3. framework generalization can satisfy the battery of plurality of specifications；

4. model is switched fast, without manually adjusting material frame；

5. battery is inserted into during material frame, there are enough spaces, prevents from scratching battery.

Detailed description of the invention

Fig. 1 is lithium ion battery memory device structure schematic diagram；

Fig. 2 is lithium ion battery storage device perspective view of the explosion；

Fig. 3 is left side baffle arrangement schematic diagram；

Fig. 4 is the enlarged drawing of A in Fig. 3；

Fig. 5 is right-hand apron structural schematic diagram；

Fig. 6 is the enlarged drawing of B in Fig. 5；

Fig. 7 is lithium ion battery storage device bottom view；

Fig. 8 is A-A cross-sectional view in Fig. 7；

Fig. 9 is the enlarged drawing of C in Fig. 8；

Figure 10 is the enlarged drawing of D in Fig. 8；

Figure 11 is battery structure schematic diagram；

Figure 12 is automatic feed mechanism structural schematic diagram；

Figure 13 is batch testing mechanism structure schematic diagram；

In figure: 1, framework, 2, left side baffle, 3, right-hand apron, 4, left side barrier driving mechanism, 5, right-hand apron driving machine Structure, 6, connecting plate I, 7, connecting plate II, 8, guiding axis I, 9, guiding axis II, 10, blend stop, 11, storage device bar code, 12, battery, 21, battery slot I, 22, limit plate I, 23, limiting slot I, 31, battery slot II, 32, limit plate II, 33, limiting slot II, 41, Servo motor I, 42, screw rod I, 43, bearing block I, 44, bearing I, 45, bearing snap spring I, 46, nut I, 51, servo motor II, 52, screw rod II, 53, bearing block II, 54, bearing II, 55, bearing snap spring II, 56, nut II, 61, through-hole I, 71, through-hole II, 1201, battery body；1202, battery pole ear；1203, battery bar code；101, workbench, 102, battery loading waterwheel, 103, deposit Storage device position-limit mechanism I, 104, displacement sensor I, 105, displacement sensor II, 106, battery loading mechanism, 107, storage dress Set barcode scanning mechanism I, 108, battery code scanning mechanism, 201, supporting mechanism, 202, mechanism for testing, 203, storage device position-limit mechanism II, 204, storage device barcode scanning mechanism II, 205, test macro, 206, mechanism for testing lifting device, 2011, support frame, 2012, Support plate.

Specific embodiment

The present invention will be further described for 1-13 and specific embodiment with reference to the accompanying drawing, it is to be understood that art The indicating positions such as language "front", "rear", "left", "right" or positional relationship are to be based on the orientation or positional relationship shown in the drawings, and are only It is of the invention for ease of description, and be not that the device of indication or suggestion meaning or element must have particular orientation, with specific Orientation constructor be thus not considered as limiting the invention.

Embodiment 1

A kind of lithium ion battery storage device, including framework 1, at least one piece left side baffle 2 and at least one piece of right-hand apron 3, the left side baffle 2 and right-hand apron 3 are successively disposed alternately inside framework 1, and the right lateral surface of the left side baffle 2 is vertical Several battery slots I 21 are provided with, the left-hand face of the right-hand apron 3 is vertically arranged with several battery slots II 31, The battery slot I 21 and battery slot II 31 are oppositely arranged one by one, and limit plate I 22 is arranged in the bottom of the battery slot I 21, Limit plate II 32 is arranged in the bottom of the battery slot II 31, and battery pole ear 1202 is placed on the battery slot being oppositely arranged downward Between I 21 and battery slot II 31 and it is located on limit plate I 22 and limit plate II 32, it is therefore an objective to battery 12 be stopped to prevent it from falling It falls, the battery slot I 21 and II 31 surface of battery slot are smooth, prevent from spoiling battery surface.

Further, when the quantity of left side baffle 2 is greater than 3, all left side baffles 2 are equidistantly vertically arranged And it is parallel to each other；When the quantity of right-hand apron 3 is greater than 3, all right-hand aprons 3 are equidistantly vertically arranged simultaneously mutually In parallel.

Further, the lithium ion battery storage device further includes left side barrier driving mechanism 4 and right-hand apron driving Mechanism 5, left side barrier driving mechanism 4 are mounted on the left side wall of framework 1, all left side baffles 2 and the left side The drive rod of barrier driving mechanism 4 connects and along drive rod driving direction side-to-side movement, and the right-hand apron driving mechanism 5 is installed On the right side wall of framework 1, all right-hand aprons 3 are connect and with the drive rod of the right-hand apron driving mechanism 5 along drive Lever driving direction side-to-side movement, the left side baffle 2 and right-hand apron 3 are slidably arranged in inside framework 1.

Further, the lithium ion battery storage device further includes two pieces of connecting plates I 6 and two pieces of connecting plates II 7, is owned The rear and front end of the left side baffle 2 passes through connecting plate I 6 and is fixedly connected, and the rear and front end of all right-hand aprons 3 is logical Connecting plate II 7 is crossed to be fixedly connected.

Further, the lithium ion battery storage device further includes two guiding axis I 8 and two guiding axis II 9, described Through-hole I 61 is provided on two pieces of connecting plates I 6 in left-right direction, two guiding axis I 8 are each passed through on two pieces of connecting plates I 6 Through-hole I 61, the both ends of the every guiding axis I 8 are separately fixed in the left and right sidewall of the framework 1, two pieces of connecting plates Through-hole II 71 is provided on II 7 in left-right direction, two guiding axis II 9 are each passed through the through-hole II on two pieces of connecting plates II 7 72, the both ends of the every guiding axis II 9 are fixed in the left and right sidewall of the framework 1；During replacing model, the left side Baffle 2 and the right-hand apron 3 are slided respectively along guiding axis I 8 and guiding axis II 9.

Further, the battery slot I 21 is identical with the structure of battery slot II 31, the battery slot I 21 it is upper Portion's opening is greater than lower openings, and opening gradually becomes smaller from top to bottom, it is therefore an objective to provide guiding during being put into for battery, facilitate electricity Pond 12 is put into inside battery slot I 21 and battery slot II 31.

Further, the bottom of the framework 1 is provided with several blend stops 10, the both ends difference of several blend stops 10 It is fixed in the left and right sidewall of the framework 1, battery pole ear 1202 is located between the gap of adjacent two blend stops 10.Battery pole ear 1202 are completely in exposed vacant state, in order to prevent lithium ion battery storage device exposed tab 1202 in the handling process Do not interfere with other objects, battery pole ear 1202 must not exceed the base contact surface of framework 1.

Further, it is provided with limiting slot I 23 between 2 bottom each adjacent two battery slot I 21 of left side baffle, Limiting slot II 33, multiple limiting slots I are provided between 3 bottom each adjacent two battery slot II 31 of right-hand apron 23 are arranged in a one-to-one correspondence with multiple limiting slots II 33, and each blend stop 10 is located at I 23 He of limiting slot of corresponding setting The inside of limiting slot II 33.

Preferably, left side barrier driving mechanism 4 includes servo motor I 41 and screw rod I 42, the servo motor I 41 It is fixed on the left side wall of the framework 1, one end of the screw rod I 42 is fixed on the output shaft of the servo motor I 41, institute Screw rod I 42 is stated to be sequentially connected on the left side baffle 2 by nut I 46；The right-hand apron driving mechanism 5 includes servo electricity Machine II 51 and screw rod II 52, the servo motor II 51 are fixed on the right side wall of the framework 1, one end of the screw rod II 52 It is fixed on the output shaft of the servo motor II 51, the screw rod II 52 is sequentially connected by nut II 56 and is kept off on the right side On plate 3.

Preferably, left side barrier driving mechanism 4 includes handle I and screw rod I 42, and one end of the screw rod I 42 passes through The left side wall of framework 1 is fixedly connected with the handle I, and the other end of the screw rod I 42 is sequentially connected by nut I 46 described On left side baffle 2；The right-hand apron driving mechanism 5 includes handle II and screw rod II 52, and one end of the screw rod II 52 passes through The right side wall of the framework 1 is fixedly connected with the handle II, and the other end of the screw rod II 52 is connected by the transmission of nut II 56 It connects on the right-hand apron 3, the left side baffle 2 and right-hand apron 3 by turning handle drives manually.

Further, left side barrier driving mechanism 4 further includes bearing block I 43, bearing I 44 and bearing snap spring I 45, institute It states bearing block I 43 to be fixed on the left side wall of the framework 1, the outer ring of the bearing I 44 and the fixed company of the inner ring of bearing block I 43 It connects, the inner ring of the bearing I 44 is fixedly connected with the screw rod I 42, and the bearing snap spring I 45 is located at the left side of bearing I 44 simultaneously It is mounted on screw rod I 42；The right-hand apron driving mechanism 5 includes bearing block II 53, bearing II 54 and bearing snap spring II 55, institute It states bearing block II 53 to be fixed on the right side wall of the framework 1, the outer ring of the bearing II 54 and the inner ring of bearing block II 53 are solid Fixed connection, the inner ring of the bearing II 54 are fixedly connected with the screw rod II 52, and the bearing snap spring II 55 is located at bearing II 54 Right side and be mounted on screw rod II 52.

Further, any wall outer surface of the framework 1 is provided with storage device bar code 11, the storage device item Code 15 passes through external memory barcode scanning mechanism automatic identification.

Embodiment 2

As shown in figure 12, a kind of automatic feed mechanism containing the lithium ion battery storage device includes workbench 101 With battery loading mechanism 106, battery loading waterwheel 102, battery code scanning mechanism 108 and the institute being mounted on the workbench 101 Lithium ion battery storage device is stated, the manipulator of the battery loading mechanism 106 is back and forth in the battery loading waterwheel 102 and institute Lithium ion battery storage device is stated, the battery code scanning mechanism 108 is mounted on the side of the battery loading waterwheel 102, described Battery code scanning mechanism 108 carries out barcode scanning to each battery 12 for being placed on battery loading waterwheel 102 and is uploaded to outer testing system. Battery 12 is arranged in a column after completing barcode scanning in a certain order on feeding waterwheel 102, and battery loading mechanism 106 is from feeding Permutation battery body 1201 is once grabbed in waterwheel 102 to be put into lithium ion battery storage device, is placed into battery in battery 12 Before storage device, servo motor I 41 drives the driving of screw rod I 42 left side baffle 2 to move to predetermined position, at the same time, servo Motor II 51 drives II 52 screw rod of screw rod driving right-hand apron 3 to move to predetermined position, and guarantee has enough space placing batteries Ontology 1201 simultaneously makes limit plate I 22 and limit plate II 32 support battery 12.

Further, the automatic feed mechanism further includes storage device barcode scanning mechanism I 107, the storage device barcode scanning Mechanism I 107 is fixed on the side on the workbench 101 and being located at the storage device bar code 11, the storage device barcode scanning I 107 pairs of lithium ion battery storage devices of mechanism carry out barcode scanning and are uploaded to outer testing system, and outer testing system fills storage The battery bar code 1203 that bar code 11 is scanned with battery code scanning mechanism 108 is set to bind together.

Further, the automatic feed mechanism further includes the displacement sensor I 104 being mounted on the workbench 101 With displacement sensor II 105, the front or rear side of the servo motor I 41, the displacement is arranged in institute's displacement sensors I 104 The front or rear side of the servo motor II 51 is arranged in sensor II 105, and the laser that institute's displacement sensors I 104 are launched is logical The instrument connection for crossing 1 side wall of the framework setting is irradiated to 2 surface of left side baffle to measure left side baffle 2 with respect to framework 1 Position, the laser that institute's displacement sensors II 105 are launched is irradiated to described by the instrument connection that 1 side wall of framework is arranged Position of the 3 surface measurement right-hand apron of right-hand apron with respect to framework 1, institute's displacement sensors I 104 and displacement sensor II 105 It is electrically connected with outer testing system, the servo motor I 41 and servo motor II 51 are electrically connected with outer testing system, institute Outer testing system is stated according to the work of the feedback adjustment servo motor I 41 of displacement sensor I 104 to control left side baffle 2 Moving distance, the outer testing system according to the work of the feedback adjustment servo motor II 51 of displacement sensor II 105 from And control the moving distance of right-hand apron 3.Institute's displacement sensors I 104 and displacement sensor II 105 are standard component, are passed through It can be with the positional relationship of rapid survey testee in its laser irradiation to testee emitted.

Further, the automatic feed mechanism further includes storage device position-limit mechanism I 103, the storage device limit Mechanism I 103 includes the limit plate of four pieces of 90 ° of bendings, and four pieces of limit plates are each attached on the workbench 101 and difference position In the corner angle position of the lithium ion battery storage device framework for being limited to the lithium ion battery storage device.

Further, the battery loading mechanism 106 is feeding robot, the feeding waterwheel 102, battery code scanning mechanism 108, storage device barcode scanning mechanism I 107 and test macro are the prior art.

Embodiment 3

A kind of batch testing mechanism containing the lithium ion battery storage device

As shown in figure 13, it needs to carry out various performance tests to battery 12 in lithium ion battery production process, and needs Test result and battery bar code 1203 are bound together, therefore, barcode scanning first must be carried out to battery 12 in test process, then Test result is bound with corresponding battery 12 again.Existing test mode is all to take out battery 12 from storage device, is completed Another one test after barcode scanning.This mode has at least the following problems a little: frequent fetching battery 12 be easy to cause battery 12 Bad order；Single battery 12 is tested, and testing efficiency is low.

Batch testing mechanism containing lithium ion battery storage device can solve the above problem, one kind containing the lithium from The batch testing mechanism of sub- battery storage device, including supporting mechanism 201, mechanism for testing 202, test macro 205, mechanism for testing Lifting device 206 and the lithium ion battery storage device；The supporting mechanism 201 includes support frame 2011 and support plate 2012, the support plate 2012 is fixed on support frame as described above 2011, and the middle part of the support plate 2012 is hollow structure, described The top of hollow structure, the corresponding lithium ion battery storage of the mechanism for testing 202 is arranged in lithium ion battery storage device Device is mounted on the lower section of hollow structure, and the mechanism for testing 202 is mounted on the top of the mechanism for testing lifting device 206, The mechanism for testing 202 is electrically connected with the test macro 205, and the mechanism for testing 202 includes to store with the storage device The test clip of 12 equivalent of battery, it is ensured that each battery 12 matches one group of test clip.

Further, the batch testing mechanism further includes storage device barcode scanning mechanism II 204, the storage device barcode scanning Mechanism II 204 is fixed on the side in the support plate 2012 and being located at the storage device bar code 11, and the storage device is swept Ink recorder structure II (204) carries out barcode scanning to lithium ion battery storage device and is uploaded to test macro 205, and test macro 205 will deposit Storage device bar code 11 and the test result of each battery 12 are bound together.

Further, the batch testing mechanism further includes storage device position-limit mechanism II 203, the storage device limit Mechanism II 203 includes the limit plate of four pieces of 90 ° of bendings, and four pieces of limit plates are each attached in the support plate 2012 and difference Positioned at the corner angle position of storage device framework for being limited to lithium ion battery storage device.

Further, the mechanism for testing 202 is OCV test machine, voltage tester machine, o5 test machine or partial volume machine.

Further, the mechanism for testing lifting device 206 is that be able to achieve the device of elevating function in the prior art suitable For the present invention.

Further, the mechanism for testing 202, test macro 205, storage device barcode scanning mechanism 204 and mechanism for testing liter Falling unit 206 is the prior art.

During batch testing, the lithium ion battery storage device of fully loaded battery 12 is placed in support plate 2012, is led to Cross storage device position-limit mechanism II 203 complete limit after, storage device barcode scanning mechanism 204 first to lithium ion battery storage device into Row barcode scanning, then mechanism for testing 202 is jacked upwards and arrives predetermined position by mechanism for testing lifting device 206, on mechanism for testing 202 Test clip closure clamps battery pole ear 1202 and starts accordingly to test, and the test result of all batteries 12 remaines in survey after the completion of test Test system 205.Since the battery bar code 1203 in storage device is bundled in together with storage device bar code 11, batch is surveyed It only needs to carry out barcode scanning to storage device during examination test result can be bound with corresponding battery 5, no longer need to battery 5 Re-test is taken out from storage device.

Working principle:

The storage placement of lithium ion battery storage device provided by the invention, battery is changed to erect by the existing placement that lies low It places, this modes of emplacement is conducive to save space, is also beneficial to protection battery appearance.Battery is placed on left side baffle 2 Between battery slot I 21 and the battery slot of right-hand apron 3 II 31, battery body 1201,1202 direction court of battery pole ear are clamped Under, the limit plate I 22 of left side baffle 2 and the limit plate II 32 of right-hand apron 3 support 1201 two sides of battery body respectively, prevent electricity Pond 12 is fallen, and guarantees to remain upright state in 12 placement process of battery；During remodeling, in order to meet the electricity of different size Pond, manually or servo motor I 41 drives the driving of screw rod I 42 left side baffle 2 mobile, and manually or servo motor II 51 drives screw rod II 52 driving right-hand aprons 3 are mobile, adjustment left side the distance between baffle 2 and right-hand apron 3.

Lithium ion battery storage device bar code 11 is bundled with battery 12 all in framework 1, the electricity in the storage device Pond tab 1202 stretch out 1 bottom of framework, therefore can in the case where not taking out battery 12 after the completion of batch process test and point Choosing can be since the battery bar code 1203 in the storage device is bound together with the storage device bar code 11 Only to storage device barcode scanning in the case where test result can be bound together with corresponding battery bar code 1203.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any to repair Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (10)

1. a kind of lithium ion battery storage device, it is characterised in that: including baffle (2) on the left of framework (1), at least one piece and at least One piece of right-hand apron (3), the left side baffle (2) and right-hand apron (3) are successively disposed alternately at framework (1) inside, the left side The right lateral surface of side baffle (2) is vertically arranged with several battery slots I (21), and the left-hand face of the right-hand apron (3) is perpendicular Several battery slots II (31) are directly provided with, the battery slot I (21) and battery slot II (31) are oppositely arranged one by one, institute Bottom setting limit plate I (22) of battery slot I (21) is stated, limit plate II is arranged in the bottom of the battery slot II (31) (32), battery pole ear (1202) is placed between the battery slot I (21) being oppositely arranged and battery slot II (31) simultaneously position downward In on limit plate I (22) and limit plate II (32).

2. a kind of lithium ion battery storage device according to claim 1, it is characterised in that: the lithium ion battery storage Device further includes left side barrier driving mechanism (4) and right-hand apron driving mechanism (5), left side barrier driving mechanism (4) peace On the left side wall of framework (1), the drive rod of all left side baffles (2) and left side barrier driving mechanism (4) connects It connects and is moved along drive rod driving direction, the right-hand apron driving mechanism (5) is mounted on the right side wall of framework (1), owns The right-hand apron (3) connect and moves along drive rod driving direction, institute with the drive rod of the right-hand apron driving mechanism (5) It states left side baffle (2) and right-hand apron (3) is slidably arranged in framework (1) inside.

3. a kind of lithium ion battery storage device according to claim 2, it is characterised in that: the lithium ion battery storage Device further includes two pieces of connecting plates I (6), two pieces of connecting plates II (7), two guiding axis I (8) He Lianggen guiding axis II (9), is owned The rear and front end of the left side baffle (2) passes through connecting plate I (6) and is fixedly connected, the front and back two of all right-hand aprons (3) End is fixedly connected by connecting plate II (7), is provided with through-hole I (61) in left-right direction on two pieces of connecting plates I (6), Two guiding axis I (8) are each passed through the through-hole I (61) on two pieces of connecting plates I (6), the both ends point of the every guiding axis I (8) It is not fixed in the left and right sidewall of the framework (1), is provided with through-hole II in left-right direction on two pieces of connecting plates II (7) (71), two guiding axis II (9) are each passed through the through-hole II (72) on two pieces of connecting plates II (7), the every guiding axis II (9) Both ends be fixed in the left and right sidewall of the framework (1).

4. a kind of lithium ion battery storage device according to claim 1, it is characterised in that: the battery slot I (21) Identical with the structure of battery slot II (31), the upper opening of the battery slot I (21) is greater than lower openings.

5. a kind of lithium ion battery storage device according to claim 1, it is characterised in that: the bottom of the framework (1) Several blend stops (10) are provided with, the both ends of several blend stops (10) are separately fixed at the left and right sidewall of the framework (1) On, limiting slot I (23), the right side are provided between left side baffle (2) bottom each adjacent two battery slot I (21) Limiting slot II (33), multiple limiting slots I are provided between baffle (3) bottom each adjacent two battery slot II (31) (23) it is arranged in a one-to-one correspondence with multiple limiting slots II (33), each blend stop (10) is located at the limiting slot of corresponding setting The inside of I (23) and limiting slot II (33), battery pole ear (1202) are located between the gap of adjacent two blend stops (10).

6. a kind of lithium ion battery storage device according to claim 1, it is characterised in that: any of the framework (1) Wall outer surface is provided with storage device bar code (11), and the storage device bar code (15) passes through external memory barcode scanning mechanism Automatic identification.

7. a kind of automatic feed mechanism containing lithium ion battery storage device described in claim 1-6 any claim, It is characterized by comprising on workbench (101) and the battery loading mechanism (106) being mounted on the workbench (101), battery Expect waterwheel (102), battery code scanning mechanism (108) and the lithium ion battery storage device, the battery loading mechanism (106) Manipulator is back and forth in the battery loading waterwheel (102) and the lithium ion battery storage device, the battery code scanning mechanism (108) it is mounted on the side of the battery loading waterwheel (102), the battery code scanning mechanism (108) is to being placed on battery loading Each battery (12) of waterwheel (102) carries out barcode scanning and is uploaded to outer testing system.

8. a kind of automatic feed mechanism according to claim 7, it is characterised in that: the automatic feed mechanism further includes depositing Storage device barcode scanning mechanism I (107), storage device barcode scanning mechanism I (107) are fixed on the workbench (101) and are located at The side of the storage device bar code (11), storage device barcode scanning mechanism I (107) carry out lithium ion battery storage device Barcode scanning is simultaneously uploaded to outer testing system, and outer testing system sweeps storage device bar code (11) and battery code scanning mechanism (108) The battery bar code (1203) retouched is bound together.

9. a kind of batch testing mechanism containing lithium ion battery storage device described in claim 1-6 any claim, It is characterized by comprising supporting mechanism (201), mechanism for testing (202), test macros (205), mechanism for testing lifting device (206) and the lithium ion battery storage device；The supporting mechanism (201) includes support frame (2011) and support plate (2012), the support plate (2012) is fixed on support frame as described above (2011), and the middle part of the support plate (2012) is hollow Structure, the lithium ion battery storage device are arranged in the top of hollow structure, the corresponding lithium of the mechanism for testing (202) from Sub- battery storage device is mounted on the lower section of hollow structure, and the mechanism for testing (202) is mounted on the mechanism for testing lifting dress The top of (206) is set, the mechanism for testing (202) is electrically connected with the test macro (205), mechanism for testing (202) packet Containing the test clip with storage device storage battery (12) equivalent, it is ensured that each battery (12) matches one group of test clip.

10. a kind of batch testing mechanism according to claim 9, it is characterised in that: the batch testing mechanism further includes Storage device barcode scanning mechanism II (204), storage device barcode scanning mechanism II (204) are fixed on the support plate (2012) simultaneously Positioned at the side of the storage device bar code (11), storage device barcode scanning mechanism II (204) stores lithium ion battery and fills It sets and barcode scanning and be uploaded to test macro (205), test macro (205) is by storage device bar code (11) and each battery (12) Test result bind together.