CN208068288U - A kind of battery modules automation grabbing device - Google Patents

Abstract

The utility model provides a kind of battery modules automation grabbing device, includes at least：Clamp system captures battery modules by frictional force；First cylinder, the first cylinder push clamp system to utilize lever principle, expand and deform and contacted with battery modules generation frictional force；Substrate, for installing clamp system and the first cylinder.The utility model goes out very compact grasping mechanism using regulations and parameters principle ingehious design, and guarantee in the process of grasping can be with limit of utilization space.Using self-locking cylinder, in the case where power-off is died self-locking cylinder can locking, prevent from falling.Centering body ensures that all module size and geometric tolerance can be contained before capturing weight, and fixture being capable of automatic centering under no-load condition.Anti-falling mechanism prevents battery modules from being fallen in quick motion process.

Description

A kind of battery modules automation grabbing device

Technical field

The utility model is related to a kind of grabbing devices more particularly to a kind of battery modules to automate grabbing device, for electricity Automation cartonning of the pond module in battery pack, belongs to new energy lithium dynamical battery technical field.

Background technology

New energy battery is broadly divided into three big core manufacturing processes：Battery core, module, battery pack, new energy producer is single at present Money battery pack is about tens thousand of yield, and radix is smaller, and a battery pack corresponds to dozens of module, and a module correspond to it is several Ten battery cores, so the high number of module and battery core, and the installation environment of battery core and module is harsh, so all big portions Divide and realizes unmanned fully-automatic production.And battery pack quantity is small, installation environment require it is low, almost also in it is manual assembly and The hand push production line stage.With the continuous improvement of future production, so battery packet portion station must also realize full-automation, it is no Cost of labor can be then greatly increased, and the probability that safety accident occurs is big.

The a great problem of new energy battery pack design is exactly the problem of continuing a journey, based on current battery core technology, only way Exactly increase the ratio energy of battery pack, and in order to increase the design that must lead to battery pack than energy potential closely, lead to mould Group arrangement is very intensive, other each arrangement of parts are also very close.So automation equipment exploitation is also abnormal difficult.It is a kind of typical Battery pack housing is equipped with 32 modules, and module is divided into two kinds, and mounting hole column pitch differs 1mm.Module is more currently on the market For this standardization module, and each battery pack has 20 or more modules.Average each module probably weighs about 10 kilograms, The way of low side is manually to carry at present, then ergonomics is too poor, and another slightly advanced point is then sub-arm, still Semi-automatic exactitude position is highly difficult.

Therefore, it is necessary to develop a full-automatic module grasp handling device.

Utility model content

Technical problem to be solved in the utility model is：Realize the automation grasp handling of battery modules, and in electricity Automation cartonning in the packet of pond.

In order to solve the above-mentioned technical problem, the utility model provides a kind of battery modules automation grabbing device, at least Including：

Clamp system captures battery modules by frictional force；

First cylinder, the first cylinder pushes clamp system since lever principle expands deformation, and is connect with battery modules It touches and generates frictional force；

Substrate, for installing clamp system and the first cylinder.

Preferably, a crawl hole is respectively provided at four vertical ribs of battery modules；Grabbing device shares four sets of clamp systems With four the first cylinders, each clamp system and the first cylinder are used cooperatively with a crawl hole, and clamp system is in crawl hole It expands the inner wall after deforming with crawl hole and generates frictional force.

Further, clamp system includes：

The top of jig main body, jig main body is equipped with cavity, and middle part is equipped with vertical through-hole, and lower part is equipped with circular shape hole；

Drive link can move up and down in cavity；

The top of lever piece, lever piece is equipped with inclined via-hole, and middle part is embedded in stepped hole, and lower part is friction side.

Apical axis, is fixed on the end of drive link, and is each passed through vertical through-hole and strip through-hole.

Further, in substrate close to the first of the longitudinally mounted up and down motion for being used to detect drive link in the position of drive link Displacement sensor and second displacement sensor.

Further, automation grabbing device further includes：

Centering body and centering holder, centering body are installed on substrate by centering holder；

Centering body is made of centering orifice plate and jackscrew, is provided with centering through-hole in the middle part of centering orifice plate, centering through-hole it is interior straight Diameter is more than the overall diameter of jig main body, and jig main body is penetrated in centering through-hole and contacted with jackscrew, and the outer wall of jig main body is equipped with Limit the longitudinal fluting of the head movement range of jackscrew.

Further, part of the drive link between centering holder and jig main body is set with return spring.

Further, automation grabbing device further includes：

Anti-fall component and rotating mechanism；

Anti-fall component is made of semi-surrounding frame, Anti-fall bottom plate and rotary shaft；

Rotating mechanism is made of the second cylinder, sliding slot, gear and rack, and the second cylinder and sliding slot are mounted on substrate, gear It is fixed on rotary shaft, rack is installed in sliding slot, and the piston driving rack of the second cylinder slides, and then with moving gear and Anti-fall group Part is rotated around rotary shaft.

Further, substrate is equipped with the angular transducer of the rotation amplitude for detecting Anti-fall component.

Further, automation grabbing device further include for position capture hole site vision system, vision system by Photographic means and lighting device composition.

Further, substrate top is equipped with the connecting flange for grabbing device to be connected to robot arm.

The beneficial effects of the utility model：

1. cleverly designing very compact grasping mechanism using regulations and parameters principle, guarantee in the process of grasping can be with limit of utilization Space；

2. utilize self-locking cylinder, in the case where power-off is died self-locking cylinder can locking, prevent from falling；

3. floating centering body ensures that all module size and geometric tolerance can be contained before capturing weight, and Fixture being capable of automatic centering under no-load condition；

4. anti-falling mechanism main function is in order to which robot prevents module from falling in quick movement.

Description of the drawings

Fig. 1 is the structural schematic diagram for the battery modules that the automation grabbing device of the utility model is suitble to crawl；

Fig. 2 is the preceding upward angle of visibility structural representation of the automation grabbing device in a preferred embodiment of the utility model Figure；

Fig. 3 is the front lower viewing angle constructions schematic diagram that grabbing device is automated shown in Fig. 2；

Fig. 4 is the inverted structure schematic diagram that grabbing device is automated shown in Fig. 2；

Fig. 5 is the left side structure schematic diagram that grabbing device is automated shown in Fig. 2；

Fig. 6 is the enlarged structure schematic diagram that dotted ellipse irises out part in Fig. 2；

Fig. 7 is the monomer structure schematic diagram of the jig main body in Fig. 6；

Fig. 8 is the monomer structure schematic diagram of the lever piece in Fig. 6；

Fig. 9 is the monomer structure schematic diagram of the drive link in Fig. 6；

Figure 10 is the structural schematic diagram for the centering body for automating grabbing device；

Figure 11 is positioning compensation schematic diagram of the vision system to battery modules hole position for automating grabbing device.

Figure 12 is the stress diagram for the lever piece for automating grabbing device；

Figure 13 is the schematic diagram automated shown in Fig. 2 after grabbing device crawl battery modules.

In above-mentioned each figure：

100 main frame structures

110 substrates

120 connecting flanges

200 crawl function modules

210 cylinders

220 clamp systems

221 drive links

221a apical axis

222 jig main bodies

The vertical through-holes of 222a

222b stepped holes

222c grooves

222d clamp heads

223 lever pieces

223a inclined via-holes

223b embedded divisions

223c friction sides

224 displacement sensors

225 displacement sensors

230 centering bodies

231 centering orifice plates

232 jackscrews

233 return springs

300 vision systems

310 photographic attachments

320 light fixtures

400 Anti-fall function modules

410 Anti-fall components

411 L-shaped frames

412 Anti-fall bottom plates

413 rotary shafts

420 rotating mechanisms

421 gears

422 racks

423 cylinders

424 driver plates

Specific implementation mode

The technique effect of the design of the utility model, concrete structure and generation is made furtherly below with reference to attached drawing It is bright, to be fully understood from the purpose of this utility model, feature and effect.

Fig. 1 is a kind of common battery modules, is in rectangular shape.At four vertical ribs of battery modules 500 it is each there are one Capture hole 510.In order to make the install compact as far as possible of the battery modules in battery pack, this four crawl holes 510 are designed more thin It is small, it is not take up too many space.

As shown in Fig. 2, in order to realize the automation crawl of above-mentioned battery modules 500, present embodiments provide a kind of automatic Change grabbing device, mainly by four module compositions：Main frame structure 100, crawl function module 200, vision system 300 and anti-lost Drop module 400.

Main frame structure 100 includes mainly substrate 110, connecting flange 120 and other big and small each connectors. Main frame structure 100 plays the effects that load-bearing, connection.Substrate 110 is one piece of rectangular thick sheet metal, is a connection thereon Flange 120.The lower flange of connecting flange 120 is fixed on by nut in the screw hole of 110 upper surface of substrate, and upper flange plate is same It is fixed on robot arm (not shown) by nut.The battery modules 500 being crawled in producing line, this grabbing device by Up to lower landing, close to battery modules 500.Therefore, function module 200 is captured, vision system 300 is installed in substrate 110 Surrounding makes their action direction downward, and respective function is realized for battery modules 500.Anti-fall function module 400 is lifted on The lower section of substrate 110.

As shown in figure 3, crawl function module includes cylinder 210, clamp system 220, centering body 230 etc..210 He of cylinder Clamp system 220 docks vertically, and the active force of cylinder 210 can discharge completely.Entire automation grabbing device mechanism is complicated, electricity The mutual close arrangement of pond module, so 210 type selecting of cylinder chooses small cylinder as possible.In the present embodiment, according to design size size The small cylinder of a diameter of 16mm of SMC is chosen, SMC is that world-class pneumatic element is researched and developed, manufactured, retailer.Cylinder is born Load rate is calculated according to 0.8, and industrial gas sources pressure is 0.4~0.6MPa, and it is 85 degree that median 0.5MPa, θ value is chosen when design.

Clamp system 220 is most important innovative point in the core component and the utility model for automate grabbing device, As shown in Figure 5 and Figure 6, wherein Fig. 5 is the enlarged drawing of the region A irised out with dotted ellipse in Fig. 6.Clamp system 220 mainly by Drive link 221, jig main body 222, lever piece 223 form.222 top of jig main body is equipped with cavity, and drive link 221 is generally round Cylindricality (as shown in Figure 9), drive link 221 move up and down in cavity, and the upper end of drive link 221 and the piston of cylinder 210 go out Power end in contact.As shown in Figure 4 and Figure 5, in the longitudinally mounted displacement sensor 224 in position and displacement sensing close to drive link 221 Device 225 is respectively used to upper limit position and lower position that detecting drive link 221 moves up and down.

As shown in fig. 7,222 middle part of jig main body is equipped with vertical through-hole 222a, lower part is equipped with stepped hole 222b, for the ease of Alignment crawl hole, the least significant end of jig main body 222 are the clamp head 222d of cone.As shown in figure 8, the top of lever piece 223 Equipped with inclined via-hole 223a, it is used cooperatively with above-mentioned vertical through-hole 222a.Apical axis 221a is fixed on the hole of 221 end of drive link It is interior, and also cross vertical through-hole 222a and inclined via-hole 223a, as shown in Figure 6.Vertical through-hole 222a and inclined via-hole 223a Between angular range be between 5~30 degree.The centre of lever piece 223 is circular embedded division 223b, is embedded in jig main body In 222 circular shape hole 222b, lever piece 223 makees Small-angle Rotation by axis of the center of stepped hole 222b, drives lever piece The friction side 223c of 223 lower parts is contacted with the inner wall in the crawl hole 510 of battery component 500, generates great frictional force.At this point, I.e. so-called dilatancy has occurred in clamp system 220.

Centering body 230 is installed on substrate 110 by centering holder.As shown in Figure 10, centering body 230 is by centering orifice plate 231, four jackscrews 232 and return spring 233 form, and 231 middle part of centering orifice plate is provided with centering through-hole, the interior diameter of centering through-hole More than the overall diameter of jig main body 222, jig main body 222 penetrates in centering through-hole, and four jackscrews 232 are separately mounted to centring hole Four sides of plate 231, jackscrew 232 are contacted with jig main body 222, so that jig main body 222 is had some horizontal anomalous movement ranges in this way, have more Good adaptability.

The presence of centering body 230 is to ensure that the position degree in crawl hole 510 within 1mm, can float adaptive Answer the crawl hole 510 of battery modules 500.In order to obtain suitable design size, a series of accurately calculating for following articles have passed through Process.

Due to not allowing to switch fixture during battery modules 500 grip, so needing in the x-direction and the z-direction Compatible two kinds of tolerances, 339mm~341mm in X-direction, so need to meet 2mm tolerances, 132mm~134mm in Y-direction, so It is 2mm to need satisfaction 132~134mm tolerances.

The adaptive ability of X-direction is analyzed：

The diameter 2.24mm of clamp head 222d thickness, the center of circle spacing of two clamp heads is (339+342)/2 in X-direction =340.5mm, after head end touches in hole, clamp system 220 can adaptively slide on the sliding rail of installation.

In X to the spacing at crawl hole center is 339mm~342mm, and the size for capturing hole is 8.2 ± 0.2mm, so hole Minimum spacing between wall surface is 339-8.2-0.2=330.6mm, and maximum spacing is 342+8.2+0.2=between wall surface of the hole 350.4mm.Therefore, the minimum spacing 340.5-2.24=338.26mm between the wall surface of clamp head, between the wall surface of clamp head Maximum spacing 340.5+2.24=342.74mm.Sliding rail can free-moving distance be 3m, so being fully able in X-direction The size of compatible two kinds of modules.

It is 132~134mm in the spacing of Y-direction, crawl hole center, the size for capturing hole is 8.2 ± 0.2mm, and fixture is automatic Import there is no problem, after putting in the size of cylinder be 7.52mm~7.58mm, the centre distance 133mm of fixture Y-direction, so Minimum spacing between wall surface of the hole is 132-8.2-0.2=123.6mm, and maximum spacing is 134+8.2+0.2 between wall surface of the hole =142.4mm.Minimum 133-7.58=125.42mm after clamp head is put in crawl hole, clamp head put in maximum spacing behind hole 133+7.58=140.58mm.

Although can ensure normally to grip, the clamp central of 133mm is away from being that equipment assembly manipulation is needed to be total to accurate adjustment Out, so accumulated tolerance can also exist, in order to ensure the limit is possible, the installation activity jackscrew on each clamp system 220 232, it can be ensured that jig main body 222 is inserted into the self-correction that Y-direction is realized in hole position, it is unilateral can be with self-correction 0.8mm, so Y-direction Adaptive ability can also solve.222 outer wall of jig main body is equipped with the longitudinal fluting of the head movement range of limitation jackscrew 232 222b is shown in Fig. 7.

But after having grabbed battery modules 500 every time, clamp system 220 is possible to meeting can not Self-resetting.In order to ensure each It allows clamp system 220 all straight down, the suit on the drive link 221 of 222 upper end of jig main body is selected to be used for jig main body 222 The return spring 233 of reset, and ensure that centering holder pushes down return spring 233, it is ensured that in the case of zero load, fixture master Body 222 being capable of Self-resetting.

Complete Anti-fall function module is as shown in Figure 3 and Figure 4, including Anti-fall component 410 and rotating mechanism are (in figure not It marks).Rotating mechanism is made of gear 421, rack 422, cylinder 423 and sliding slot (not shown).Cylinder 423 and sliding slot Mounted on the lower surface of substrate 110, gear 423 is fixed on rotary shaft 413, and rack 422 is installed in sliding slot, the piston of cylinder 423 It is connect by driver plate 424 between rack 422.Cylinder 423 is slided with carry-over bar 422, and then with moving gear 421 and Anti-fall Component 410 is rotated around rotary shaft 413.Anti-fall component 410 by each L-shaped frame 411 in left and right, be placed on L-shaped frame 411 Nylon material Anti-fall bottom plate 412 and rotary shaft 413 form.It is equipped on substrate 110 for detecting Anti-fall component 410 The angular transducer of rotation process.

Vision system 300 is clearly demonstrated in Fig. 3, it is automation grabbing device " eyes ".Vision system includes Photographic means 310 and light fixture 320.It includes one that photographic means 310, which selects high-resolution camera, light fixture 320, Intermediate round-meshed disk, hundreds of LED are radially distributed under disk, play the nothing being commonly used in similar surgical operation The effect of shadow lamp.Light is passed to by circular hole in camera, and the image information positioned for battery modules 500 is obtained.

Below for capturing the battery modules of 12.5 kilogram weights, illustrate the complete job step for automating grabbing device.

Step 1 first positions the crawl feature of battery modules 500 before crawl using vision system 300, carries out High accuracy positioning compensates, as shown in figure 11.Internal algorithm calculates the crawl position of module crawl after vision system 300 is taken pictures.

The main position coordinates for calculating central point (X_center, Y_center).

The position at normal place midpoint is (0,0,0), the centre coordinates of two hole lines of random site be (X, Y, Ang),

X_center=X-L*cos (90-Ang)；

Y_center=Y+L*sin (90-Ang)；

Ang_c=Ang

Step 2: ensureing that Anti-fall component 410 is i.e. clamp head 222d in the state of far from jig main body 222 first Lower space is without any blocking.Jig main body 222 declines, and into the crawl hole 510 of battery modules 500, then cylinder 210 is dynamic Make, pushes drive link 221 downward.Because apical axis 221a is each passed through vertical through-hole 222a and inclined via-hole 223a simultaneously, Lever piece 223 can utilize lever principle, rotate a few degrees, at the same time, friction side 223c around the center of stepped hole 222b It is in close contact with crawl 510 inner wall of hole, generates huge frictional force.

It is parameters when lever piece 223 works shown in Figure 12：

Lever ratio L/l=30/17.8=1.7

Inclined plane force increasing ratio k=9.77/3.07=3.2

Then F1=PAk=0.5*10⁶*π*8²*10^-6* 0.8*3.2=257N

Contact point is 2 when general extraction calculates

F2=1.7F1=437N

F_n=F2cos θ=437N (approximation)

F=uF_n* 2=0.15*437*2=131N

Total frictional force is 4*131N=524N

So safety coefficient n=524/G=4.2

Step 3: after robot lifts battery modules 500, cylinder 423 acts, and Anti-fall component 410 is driven to rotate to Position, Anti-fall bottom plate 412 is located at the underface of battery modules 500 at this time, plays and prevents its purpose fallen.

Step 4: robot rapid extraction battery modules 500, after reaching above designated position, cylinder 423 is first opened, Anti-fall bottom plate 412 is again far from immediately below battery modules.Then, cylinder 210 is decontroled again, friction side 223c playback, battery mould Group 500 is laid down, and completes the overall process of crawl and carrying.Cylinder 210 and cylinder 423 select self-locking cylinder, die in power-off In the case of self-locking cylinder can locking, prevent the operational hazards unsuccessfully brought of crawl.

The utility model quickly positions the crawl hole 510 of battery modules by vision system 500, passes through before module crawl Vision is taken pictures, and ensures to capture successful first-time qualification rate.

Cleverly design makes clamp system 220 be expanded by regulations and parameters principle, can clamp 12.5 kilograms of weights, which can It, can be adaptive with tolerance to meet the deviation of crawl Kong Kongwei position degrees 1mm.The mechanism solves in extremely tight space Module installation question.It should be noted that the use occasion of grabbing device in the utility model, is not limited to crawl battery modules, Other porose weights can be crawled.

By return spring 233 and a whole set of adaptive centering body 230, fixture can be ensured in module crawl hole position position Spend it is overproof in the case of also can self-adapting grasping, under no-load condition can automatic centering, when ensureing crawl next time, fixture can be with Vertically.

By Anti-fall component 410 and rotating mechanism 420, ensure in the motion process that battery modules 500 capture not It can drop.

The preferred embodiment of the utility model described in detail above.It should be appreciated that the ordinary skill people of this field Member according to the present utility model can conceive without creative work makes many modifications and variations.Therefore, all this technology necks Technical staff passes through logic analysis, reasoning or limited reality on the basis of existing technology according to the design of the utility model in domain Available technical solution is tested, it all should be in the protection domain being defined in the patent claims.

Claims (10)

1. a kind of battery modules automate grabbing device, which is characterized in that include at least：

Clamp system captures battery modules by frictional force；

First cylinder pushes the clamp system since lever principle generates dilatancy and contacts generation with the battery modules The frictional force；

Substrate, for installing the clamp system and first cylinder.

2. a kind of battery modules according to claim 1 automate grabbing device, which is characterized in that the battery modules A crawl hole is respectively provided at four vertical ribs, the grabbing device shares four sets of clamp systems, and the clamp system is in institute It states the inner wall after expanding deformation in crawl hole with the crawl hole and generates the frictional force.

3. a kind of battery modules according to claim 2 automate grabbing device, which is characterized in that the clamp system packet It includes：

The top of jig main body, the jig main body is equipped with cavity, and middle part is equipped with vertical through-hole, and lower part is equipped with circular shape hole；

Drive link can move up and down in the cavity；

The top of lever piece, the lever piece is equipped with inclined via-hole, and middle part is embedded in the stepped hole, and lower part is friction side；

Apical axis, is fixed on the end of the drive link, and is each passed through the vertical through-hole and the strip through-hole.

4. a kind of battery modules according to claim 3 automate grabbing device, which is characterized in that close in the substrate Longitudinally mounted the first displacement sensor and second for detecting the up and down motion of the drive link in position of the drive link Displacement sensor.

5. a kind of battery modules according to claim 3 automate grabbing device, which is characterized in that further include：

Centering body and centering holder, the centering body are installed on the substrate by the centering holder；

The centering body is made of centering orifice plate and jackscrew, and centering through-hole is provided in the middle part of the centering orifice plate, and the centering is logical The interior diameter in hole is more than the overall diameter of the jig main body, the jig main body penetrate in the centering through-hole and with the jackscrew Contact, the outer wall of the jig main body are equipped with the longitudinal fluting for the head movement range for limiting the jackscrew.

6. a kind of battery modules according to claim 5 automate grabbing device, which is characterized in that the drive link is upper Part between the centering holder and the jig main body is set with return spring.

7. a kind of battery modules according to claim 3 automate grabbing device, which is characterized in that further include Anti-fall group Part and rotating mechanism；

The Anti-fall component is made of semi-surrounding frame, Anti-fall bottom plate and rotary shaft；

The rotating mechanism is made of the second cylinder, sliding slot, gear and rack, and second cylinder and the sliding slot are mounted on institute Substrate is stated, the gear is fixed on the rotary shaft, and the rack is installed in the sliding slot, the piston driving of second cylinder The rack sliding, and then the gear and the Anti-fall component is driven to be rotated around the rotary shaft.

8. a kind of battery modules according to claim 7 automate grabbing device, which is characterized in that the substrate is equipped with Angular transducer for the rotation amplitude for detecting the Anti-fall component.

9. a kind of battery modules according to claim 3 automate grabbing device, which is characterized in that further include for positioning The vision system of the crawl hole site, the vision system are made of photographic means and lighting device.

10. a kind of battery modules according to claim 3 automate grabbing device, which is characterized in that the substrate top Connecting flange for the grabbing device to be connected to robot arm is installed.