CN209312940U - Battery turn-over rig - Google Patents

Abstract

The utility model relates to a kind of battery turn-over rigs.The battery turn-over rig, comprising: support frame；Clamp assemblies, including bottom plate, top plate and actuator, bottom plate are rotatably connected at support frame, and actuator is sequentially connected in bottom plate, to drive bottom plate to rotate；Top plate in face of bottom plate be arranged, and can opposed bottom it is separate or close；Loading assembly is set between bottom plate and top plate, and for loading battery；Top plate includes compacted position in opposed bottom approach process, and when top plate is in compacted position, loading assembly is pressed in bottom plate by top plate.Above-mentioned battery turn-over rig, loading assembly load battery for fixed, and the top plate of clamp assemblies is used to for loading assembly being fixed in bottom plate, and actuator driving bottom plate is rotated about axis, to realize the turn-over to battery.In this way, battery turn-over rig can be driven by actuator and carry out turn-over to battery automatically, compared with using artificial turn-over in the prior art, production efficiency is improved, security risk is eliminated.

Description

Battery turn-over rig

Technical field

The utility model relates to cell manufacturing techniques fields, more particularly to a kind of battery turn-over rig.

Background technique

Lithium battery in the world today using more and more extensive, it is also more and more mature to the correlative study of lithium battery.Lithium battery Middle electrolyte is to ensure that, in the carrier that ion transmits between positive and negative anodes in charge and discharge process, electrolyte effect of impregnation in battery core is got over Good, more thorough, more uniform, lithium battery electrolyte liquid loss amount during at change is fewer, the SEI film (solid electrolytic of negative terminal surface Matter interfacial film, Solid Electrolyte Interface) formed more uniform, fine and close, stable, further just it can guarantee Manufactured lithium battery internal resistance is small, and good rate capability, cycle performance are excellent etc..

In order to make electrolyte sufficiently infiltrate battery core, needs to increase high temperature after fluid injection process and shelve process.Actual production In, it is needed during shelving to battery especially when battery size is larger in order to further enhance the effect that high temperature is shelved Carry out turn-over.But in the prior art, general using manually turn-over is carried out to battery, efficiency is lower, and there are security risks.

Utility model content

Based on this, it is necessary to which, in the prior art, using manually turn-over is carried out to battery, efficiency is lower, and there is peace The problem of full hidden danger, provides a kind of battery turn-over rig for improving drawbacks described above.

Battery turn-over rig, comprising:

Support frame；

Clamp assemblies, including bottom plate, top plate and actuator, the bottom plate are rotatably connected at the support around an axis Frame, the actuator transmission connection is in the bottom plate, to drive the bottom plate to rotate around the axis；The top plate faces institute State bottom plate setting, and can the relatively described bottom plate it is separate or close；

Loading assembly is set between the bottom plate and the top plate, and for loading battery；

The top plate includes compacted position in the relatively described bottom plate approach process, when the top plate is in the compression position It sets, the loading assembly is pressed in the bottom plate by the top plate.

Above-mentioned battery turn-over rig, loading assembly load battery for fixed, and the top plate of clamp assemblies will be for that will load group Part is fixed in bottom plate, and actuator driving bottom plate is rotated about axis, to realize the turn-over to battery.In this way, above-mentioned battery Turn-over rig can be driven by actuator and carry out automatic turnover to battery, compared with using artificial turn-over in the prior art, be improved Production efficiency, eliminates security risk.

In one embodiment, the loading assembly includes load frame and two positioning in the load frame Mechanism；

Two positioning mechanisms are intervally arranged along first direction, are formed between two positioning mechanisms for loading The fixed bit of battery is stated, and two positioning mechanisms are movably attached to the load frame along the first direction.

In one embodiment, the load frame includes bottom frame, top frame and multiple connectors；

The bottom frame and the top frame are arranged along the second direction interval perpendicular with the first direction, and each described The opposite end of connector is respectively fixedly connected in the bottom frame and the top frame；

The opposite end of each positioning mechanism respectively along the first direction be movably attached to the bottom frame and The top frame.

In one embodiment, the positioning mechanism includes the first locating rod, the second locating rod and two locating pieces；

First locating rod and second locating rod are parallel to the third direction, and the third direction is perpendicular to institute State first direction and the second direction；And first locating rod and second locating rod respectively can along the first direction It is movably attached in the bottom frame and the top frame；The opposite end of each locating piece can be slided along the third direction respectively It is connected to first locating rod and second locating rod dynamicly.

In one embodiment, the bottom frame includes support plate and multiple end to end first side plates, multiple sides Plate is fixedly connected on the side of the bottom plate；The top frame includes cover board and multiple end to end second side plates, the cover board Conjunction can be covered or open the opening that multiple second side plates surround.

In one embodiment, two be oppositely arranged, first side plate offers the extended along the first direction One waist-shaped hole, the opposite end of first locating rod are arranged in first waist-shaped hole, and prolonging along first waist-shaped hole Stretch direction slidably；

Two be oppositely arranged, second side plate offers the second waist-shaped hole extended along the first direction, and described the The opposite end of two locating rods is arranged in second waist-shaped hole, and slidably along the extending direction of second waist-shaped hole.

In one embodiment, the positioning mechanism further includes multiple locking members, first locating rod and described second The opposite end of locating rod is fixedly connected to locking member, and first locating rod and the second locating rod are locked respectively In first side plate and second side plate.

In one embodiment, first locating rod and second locating rod are arranged in the phase of the locating piece respectively To both ends；

The positioning mechanism further includes fixing piece, and one end of the fixing piece is arranged in the locating piece, and with it is described fixed Position part is threadedly coupled, and the fixing piece penetrates one end of the locating piece and first locating rod or the second locating rod offset.

In one embodiment, the clamp assemblies further include guide part, and described guide part one end is fixedly connected on described Bottom plate, the top plate offer the pilot hole worn for the guide part.

In one embodiment, the clamp assemblies further include jacking part, and the jacking part is fixedly installed in the bottom plate, The telescopic end of the jacking part is fixedly connected on the top plate, to drive the relatively described bottom plate of the top plate separate or close.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of battery turn-over rig in one embodiment of the utility model；

Fig. 2 is the structural schematic diagram of the bottom plate of battery turn-over rig shown in FIG. 1；

Fig. 3 is the structural schematic diagram of the loading assembly of battery turn-over rig shown in FIG. 1；

Fig. 4 is the bottom frame of loading assembly shown in Fig. 3 and the structural schematic diagram of positioning mechanism.

Specific embodiment

The utility model is more fully retouched below with reference to relevant drawings for the ease of understanding the utility model, It states.The preferred embodiment of the utility model is given in attached drawing.But the utility model can come in many different forms It realizes, however it is not limited to embodiment described herein.On the contrary, purpose of providing these embodiments is makes to the utility model The understanding of disclosure is more thorough and comprehensive.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side " and similar statement are for illustrative purposes only.

Unless otherwise defined, all technical and scientific terms used herein are led with the technology for belonging to the utility model The normally understood meaning of the technical staff in domain is identical.Terminology used in the description of the utility model herein only be The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term " and or " used herein includes Any and all combinations of one or more related listed items.

Fig. 1 shows the structural schematic diagram of battery turn-over rig in an embodiment of the present invention.Fig. 2 is shown in FIG. 1 The structural schematic diagram of the bottom plate of battery turn-over rig.Fig. 3 is the structural representation of the loading assembly of battery turn-over rig shown in FIG. 1 Figure.Fig. 4 is the bottom frame of loading assembly shown in Fig. 3 and the structural schematic diagram of positioning mechanism.For ease of description, attached drawing illustrates only Structure relevant to the utility model.

As shown in Figure 1, the battery turn-over rig provided in an embodiment of the utility model, including (figure is not for support frame Show), loading assembly 10 and clamp assemblies 20.

Loading assembly 10 is for loading battery.Clamp assemblies 20 include bottom plate 22, top plate 24 and actuator (not shown).Bottom Plate 22 is rotatably connected at support frame around an axis.Actuator is sequentially connected in bottom plate 22, for driving bottom plate 22 around axis Rotation.Top plate 24 in face of bottom plate 22 be arranged, and can opposed bottom 22 close to or far from.Loading assembly 10 is set to bottom plate 22 and top Between plate 24.Optionally, actuator can be motor.

Top plate 24 includes compacted position in 22 approach process of opposed bottom, when top plate 24 is in compacted position, top plate Loading assembly 10 is pressed in bottom plate 22 by 24.

Above-mentioned battery turn-over rig, loading assembly 10 is for loading battery, and the top plate 24 of clamp assemblies 20 will be for that will load Component 10 is fixed in bottom plate 22, and actuator driving bottom plate 22 is rotated about axis, to realize the turn-over to battery.In this way, Above-mentioned battery turn-over rig can by actuator drive and automatically to battery carry out turn-over, in the prior art use artificial turn-over phase Than improving production efficiency, eliminating security risk.

Further, since loading assembly 10 being pressed on bottom plate 22 using top plate 24, when high temperature shelves process After the completion, 24 opposed bottom 22 of top plate can will be made separate, transported to remove and be fixed with the loading assembly of battery to subsequent processing, Such as formation process.In this way, being convenient for the transport of battery, battery is prevented to be damaged during transportation.

It should be noted that can be intermittent to carry out turn-over to battery by controlling actuator.Interval time and every The angle of secondary turn-over can according to the actual situation depending on.Preferably, turn-over interval time can be 4 to 8 hours, the overturning of each turn-over Angle can be 45 ° to 180 °.

It should be noted that top plate 24 includes open position far from during in opposed bottom 22, beaten when top plate 24 is in When open position, the distance between top plate 24 and bottom plate 22 are larger, in order to which loading assembly 10 is set to bottom plate 22 and top plate 22 Between.

In the embodiments of the present invention, clamp assemblies 20 further include guide part 26, and 26 one end of guide part is fixedly connected on Bottom plate 22.Top plate 24 offers the pilot hole (not shown) worn for guide part 26.In this way, movement of the guide part 26 to top plate 24 Play the role of guiding.Optionally, guide part 26 is guide rod.Guide part 26 can be fixedly connected on bottom plate by threaded fastener 22.The threaded fastener can be bolt etc..

In order to enhance guide effect, settable multiple guide parts 26 may generally be 2 to 8.

It is understood that the guide part 26 is slidably matched with pilot hole, led to realize that the movement of more top plates 24 is played To effect.

Specific in embodiment, clamp assemblies 20 further include jacking part 28.The jacking part 28 is fixedly installed in bottom plate 22, top The telescopic end for rising part 28 is fixedly connected on top plate 24, to pass through flexible 24 opposed bottom of drive top plate of the telescopic end of jacking part 28 22 is separate or close.Optionally, which can be cylinder, hydraulic cylinder etc..

In order to enable the movement of top plate 24 is more steady, multiple jacking parts 28 can be set between top plate 24 and bottom plate 22.

Please also refer to shown in Fig. 2, specific in one embodiment, loading assembly 10 can be fixed by positioning pin (not shown) Positioned at bottom plate 22.Specifically, top plate 24 and loading assembly 10 offer mutual corresponding pin hole 224, and positioning pin is arranged in top plate 24 and loading assembly 10 pin hole 224 in, so that loading assembly 10 is positioned on bottom plate 22.

Specific in one embodiment, settable multiple loading assemblies 10, multiple loading groups between bottom plate 22 and top plate 24 Part 10 is laid along the longitudinally interval of bottom plate 22.In this way, further improving production efficiency.

Please also refer to shown in Fig. 3 and Fig. 4, in the embodiments of the present invention, loading assembly 10 includes load frame (figure Do not mark) and two positioning mechanisms 18 in the load frame.

Two positioning mechanisms are intervally arranged along first direction, and the fixation for loading battery is formed between two positioning mechanisms Position.Two positioning mechanisms are movably attached to load frame along first direction.In this way, the position of adjusting positioning mechanism 18 can be passed through It sets, realizes for loading length dimension of the fixed bit of battery on first direction, to adapt to various sizes of battery 100, mention The high versatility of battery turn-over rig.

In some embodiments, load frame includes bottom frame 12, top frame 14 and multiple connectors 16.Bottom frame 12 and top frame 14 Along the second direction interval setting perpendicular with first direction, and the opposite end of every a connection piece 16 is respectively fixedly connected with the bottom of in Frame 12 and top frame 14, to realize being fixedly connected for bottom frame 12 and top frame 14.The opposite end of each positioning mechanism 18 is respectively along One direction is movably attached to bottom frame 12 and top frame 14.

In this way, fixed bit is formed by two positioning mechanisms 18 between top frame 14 and bottom frame 12, for fixing battery 100.Also, two positioning mechanisms 18 are removable along first direction, so that the length dimension of fixed bit in a first direction It is adjustable, to adapt to the battery 100 of different outer dimensions, improve the versatility of battery turn-over rig.

Specific in embodiment, positioning mechanism 18 includes the first locating rod 182, the second locating rod 184 and two locating pieces 186.First locating rod 182 and the second locating rod 184 are parallel to third direction, and the third direction is perpendicular to first direction and second Direction.First locating rod and the second locating rod are movably attached to bottom frame 12 and top frame 14 along first direction respectively.Per certain The opposite end of position part 186 is slidably connected to the first locating rod 182 and the second locating rod 184 along third direction respectively.Such as This, the first locating rod 182 and the second locating rod 184 are movably attached to bottom frame 12 and top frame 14 along first direction respectively, and Two locating pieces 186 can be slided along third direction, thus adjustable length ruler of the fixed bit on first direction and third direction It is very little, to adapt to the battery 100 of different outer dimensions, further improve the versatility of battery turn-over rig.Specifically, determine for two Four locating pieces 186 of position mechanism 18 are enclosed a rectangle fixed bit.Optionally, the cross section of locating piece 186 is L-shaped.

Specific in embodiment, bottom frame 12 includes support plate 122 and multiple end to end first side plates 124, localization machine Structure 18 is located in the range of multiple first side plates 124 are enclosed.

Top frame 14 includes multiple end to end second side plates 142 and cover board 144, which can cover conjunction or open more The opening that a second side plate 142 surrounds.

It is understood that openable cover board 144, is put into the fixed bit that two positioning mechanisms 18 are formed for battery, then Cover cover board.When top plate 24 is in compacted position, loading assembly 10 is fixed on bottom plate 22, while also by cover board 144 compress, and to close the opening that multiple second side plates 142 surround, prevent during turn-over, battery 100 is skidded off from the opening.

Specific in embodiment, the pin hole 224 of loading assembly 10 is opened in support plate 122.

It is understood that in order to position loading assembly 10 and top plate 24, in one embodiment, cover board 144 and top Plate 24 also offers relatively corresponding pin hole 224, and positioning pin is inserted into the corresponding pin hole 224, to realize to loading group The positioning of part 10 and top plate 24.

The first waist extended in a first direction is offered specific to two the first side plates 124 in embodiment, being oppositely arranged Type hole 1242, the opposite end of the first locating rod 182 are arranged in the first waist-shaped hole 1242, and along the extension of the first waist-shaped hole 1242 Direction is slidably.

Two the second side plates 142 being oppositely arranged offer the second waist-shaped hole 1422 extended in a first direction, and second is fixed The opposite end of position bar 184 is arranged in the second waist-shaped hole 1422, and slidably along the extending direction of the second waist-shaped hole 1422.Such as This, realizes positioning mechanism 18 and moves along first direction, thus length dimension of the adjustable fixed bit along first direction.

Specific in embodiment, positioning mechanism 18 further includes multiple locking member (not shown), the first locating rod 182 and second The opposite end of locating rod 184 is fixedly connected to locking member, and the first locating rod 182 and the second locating rod 184 are locked respectively It is tightly fixed on the first side plate 124 and the second side plate 142.In this way, being completed when positioning mechanism 18 is adjusted along the position of first direction, then By the locking of locking member, positioning mechanism 18 is locked in top frame 14 and bottom frame 12.Optionally, which can be locking Nut.

Specific in embodiment, the first locating rod 182 and the second locating rod 184 are arranged in the opposite of locating piece 186 respectively Both ends.Positioning mechanism 18 further includes fixing piece (not shown), and one end of fixing piece is arranged in locating piece 186, and with locating piece 186 It is threadedly coupled, one end that fixing piece penetrates locating piece 186 can offset with the first locating rod 182 or the second locating rod 184, will determine Position part 186 is fixed with respect to the first locating rod 182 or the second locating rod 184.In this way, when fixed bit is along the length dimension of third direction It adjusts and completes, then can pass through fixing piece fixed positioning piece 186.Optionally, which can be screw rod.It is understood that fixed The opposite end of position part 186 is provided with fixing piece, and two fixing pieces respectively can be with the first locating rod 182 and the second locating rod 184 offset, so that locating piece 186 is fixed with respect to the first locating rod 182 and the second locating rod 184.

Specific in embodiment as shown in Figure 3, first direction is front-rear direction, and second direction is up and down direction, third Direction is left and right directions.

In the embodiments of the present invention, the lengthwise both ends of bottom plate 22 all have installation axle 222, and installation axle 222 passes through axis It holds and is rotatably installed on support frame, installation axle 222 is parallel to above-mentioned axis, to realize bottom plate 22 around axis rotationally It is installed on support frame.

In the embodiments of the present invention, clamp assemblies further include transmission mechanism, and transmission mechanism is sequentially connected in actuator And between bottom plate 22, so that the power of actuator is transferred to bottom plate 22 by transmission mechanism, to drive bottom plate 22 to be rotated about axis.

Specific in embodiment, transmission mechanism can be gear drive, chain transminssion mechanism, belt gear etc., It is not limited thereto.It is described in detail so that transmission mechanism is gear drive as an example below:

Gear drive includes driving gear and driven gear, and driving gear is installed in the output shaft of actuator, with Output shaft synchronous rotation.Driven gear is installed in an installation axle 222 of bottom plate 22, to rotate synchronously with the installation axle 222.Actively Gear is meshed with driven gear.When the output shaft of actuator rotates, so that driving gear drives driven gear rotation, and then band Dynamic bottom plate 22 is rotated about axis.

Specific in embodiment, clamp assemblies further include controller, and controller is electrically connected to actuator, with to actuator into Row control.It is shelved outside battery workshop it is understood that controller is mountable to high temperature, so that operator does not have to be in high temperature It is operated under environment, creates a further reduction labor intensity.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But it cannot be understood as the limitations to utility model patent range.It should be pointed out that for the common skill of this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The protection scope of the utility model.Therefore, the scope of protection shall be subject to the appended claims for the utility model patent.

Claims (10)

1. battery turn-over rig characterized by comprising

Support frame；

Clamp assemblies, including bottom plate, top plate and actuator, the bottom plate are rotatably connected at support frame as described above around an axis, The actuator transmission connection is in the bottom plate, to drive the bottom plate to rotate around the axis；The top plate is in face of described Bottom plate setting, and can the relatively described bottom plate it is separate or close；

Loading assembly is set between the bottom plate and the top plate, and for loading battery；

The top plate includes compacted position in the relatively described bottom plate approach process, when the top plate is in the compacted position, The loading assembly is pressed in the bottom plate by the top plate.

2. battery turn-over rig according to claim 1, which is characterized in that the loading assembly includes load frame and position In two positioning mechanisms in the load frame；

Two positioning mechanisms are intervally arranged along first direction, to be formed between two positioning mechanisms for loading State the fixed bit of battery；

Two positioning mechanisms are movably attached to the load frame along the first direction.

3. battery turn-over rig according to claim 2, which is characterized in that the load frame include bottom frame, top frame with And multiple connectors；

The bottom frame and the top frame are arranged along the second direction interval perpendicular with the first direction, and each connection The opposite end of part is respectively fixedly connected in the bottom frame and the top frame；

The opposite end of each positioning mechanism is movably attached to the bottom frame and described along the first direction respectively Top frame.

4. battery turn-over rig according to claim 3, which is characterized in that the positioning mechanism include the first locating rod, Second locating rod and two locating pieces；

First locating rod and second locating rod are parallel to third direction, and the third direction is perpendicular to the first party To and the second direction；And first locating rod and second locating rod movably connect along the first direction respectively It is connected to the bottom frame and the top frame；The opposite end of each locating piece is slidably connected along the third direction respectively In first locating rod and second locating rod.

5. battery turn-over rig according to claim 4, which is characterized in that the bottom frame includes support plate and multiple head and the tail The first connected side plate, multiple side plates are fixedly connected on the side of the bottom plate；The top frame includes cover board and multiple head The second connected side plate of tail, the cover board can cover conjunction or open the opening that multiple second side plates surround.

6. battery turn-over rig according to claim 5, which is characterized in that two be oppositely arranged, first side plate is opened Equipped with the first waist-shaped hole extended along the first direction, the opposite end of first locating rod is arranged in the first waist type Hole, and slidably along the extending direction of first waist-shaped hole；

Two be oppositely arranged, second side plate offers the second waist-shaped hole extended along the first direction, and described second is fixed The opposite end of position bar is arranged in second waist-shaped hole, and slidably along the extending direction of second waist-shaped hole.

7. battery turn-over rig according to claim 6, which is characterized in that the positioning mechanism further includes multiple lockings The opposite end of part, first locating rod and second locating rod is fixedly connected to locking member, and described first is determined Position bar and the second locating rod are locked respectively in first side plate and second side plate.

8. battery turn-over rig according to claim 4, which is characterized in that first locating rod and second positioning Bar is arranged in the opposite end of the locating piece respectively；

The positioning mechanism further includes fixing piece, and one end of the fixing piece is arranged in the locating piece, and with the locating piece It is threadedly coupled, the fixing piece penetrates one end of the locating piece and first locating rod or the second locating rod offset.

9. battery turn-over rig according to any one of claims 1 to 8, which is characterized in that the clamp assemblies further include Guide part, described guide part one end are fixedly connected on the bottom plate, and the top plate offers the guiding worn for the guide part Hole.

10. battery turn-over rig according to claim 9, which is characterized in that the clamp assemblies further include jacking part, institute It states jacking part and is fixedly installed in the bottom plate, the telescopic end of the jacking part is fixedly connected on the top plate, to drive the top The relatively described bottom plate of plate is separate or close.