CN104370144A - Slice conveying line and conveying system using same - Google Patents

Abstract

The invention relates to a slice conveying line and a conveying system using the same. The slice conveying line comprises an upper slice conveying device, a lower slice conveying device, rear elevators and front elevators. The rear elevators are used for conveying unloaded slice trays to corresponding slicing machines and outputting slice trays loaded with slices from the slicing machines. The front elevators are used for conveying the slice trays loaded with the slices to corresponding slice laminating machines and outputting the unloaded slice trays from the slice laminating machines. A first upper transplanting mechanism is arranged between the upper slice conveying device and the rear elevators, and a first lower transplanting mechanism is arranged between the lower slice conveying device and the rear elevators. A second upper transplanting mechanism is arranged between the upper slice conveying device and the front elevators, and a second lower transplanting mechanism is arranged between the lower slice conveying device and the front elevators. The slice conveying line and the conveying system using the same solve the problems that the labor intensity is high and slices can be possibly polluted by moisture due to manual slicing when the slices are transferred between the slicing machines and the slice laminating machines in the prior art.

Description

Slices synthesis method line and use the delivery system of this slices synthesis method line

Technical field

The present invention relates to slices synthesis method line and use the delivery system of this slices synthesis method line.

Background technology

In recent years, domestic lithium cell industry development is swift and violent, the single devices degree of lithium cell manufacturing line is also more and more higher, such as occurred realizing auto slice and automatic laminating section and and laminating machine, chopping machine has section return of empty pallets import and the outlet of section loaded pallets, laminating machine has section loaded pallets entrance, the outlet of section return of empty pallets, the import of lamination pallet and lamination pallet exit, pallet of cutting into slices during work enters chopping machine by return of empty pallets import of cutting into slices, auto slice in chopping machine, the section pallet being mounted with section is just gone out by the fully loaded outlet of section, artificial subsequently the section pallet being mounted with section is transported in the section loaded pallets import of laminating machine, and lamination pallet is also by manually delivering in the lamination pallet import of laminating machine, laminating machine is to after section automatic laminating, section forms battery core, the lamination pallet being mounted with battery core is just sent by lamination pallet exit, then artificial the lamination pallet being mounted with battery core is transported to feeding position, feeding position is provided with feeding platform, after battery core is taken out by operating personal, manually again the lamination pallet of sky is transported back to laminating machine.The transport process of that is cutting into slices relies on manpower completely, the Main Bottleneck that section transhipment is set up lithium cell production line automation, enhanced productivity; In addition because moisture is very large to the quality influence of battery, cell production process is high to environmental requirement, cut into slices by hand haulage, the breathing of operating personal in transportation and body fluids evaporation all can affect the quality problems of battery, and this can dewater to subsequent handling battery and bring very large difficulty.

Summary of the invention

The object of the present invention is to provide a kind of slices synthesis method line, with solve in prior art because of use artificial realize section between chopping machine and laminating machine transhipment and cause that labour intensity is large, section is likely by the problem of moisture contamination; The present invention also aims to provide a kind of delivery system using this slices synthesis method line.

In order to solve the problem, the technical scheme of the slices synthesis method line in the present invention is:

Slices synthesis method line, comprise for being mounted with the upper chip conveying device of the section pallet of section and the lower chip conveying device for carrying unloaded section pallet be from front to back positioned at below upper chip conveying device to front conveying by rear, slices synthesis method line also comprises for the section pallet of zero load being delivered to respective slice machine and being used for the rear gig that exported by described chopping machine by the section pallet being mounted with section, slices synthesis method line also comprises for the section pallet being mounted with section being delivered to corresponding laminating machine and gig before being used for the section pallet of zero load to be exported by laminating machine, transplanting mechanism in section first is provided with between upper chip conveying device and rear gig, transplanting mechanism in section second is provided with between upper chip conveying device and front gig, section first time transplanting mechanism is provided with between lower chip conveying device and rear gig, section second time transplanting mechanism is provided with between lower chip conveying device and front gig.

Upper chip conveying device comprises chip conveying device and chip conveying device on the second segment be on first paragraph on front side of chip conveying device on first paragraph, lower chip conveying device to comprise under first paragraph chip conveying device under chip conveying device and the second segment under being in first paragraph on front side of chip conveying device, under first paragraph, chip conveying device is positioned at the below of chip conveying device on first paragraph, under second segment, chip conveying device is positioned at the below of chip conveying device on second segment, on first paragraph, under chip conveying device and first paragraph, chip conveying device is aerial conveying line, on first paragraph, on lower chip conveying device and second segment, the first elevator is provided with between lower chip conveying device, on first paragraph, lower chip conveying device is with in section first, the second elevator is provided with between lower transplanting mechanism.

Described front gig has two, each front gig is corresponding with corresponding left and right laminating machine respectively, the upper and lower chip conveying device of second segment includes the spaced left load-transfer device in left and right, right load-transfer device, in section second, transplanting mechanism comprises the upper shunting jacking transplanter that the throughput direction between the left and right load-transfer device being arranged at chip conveying device on second segment extends in left-right direction, and the second time transplanting mechanism of cutting into slices comprises the lower shunting jacking transplanter that the throughput direction between the left and right load-transfer device being arranged at chip conveying device under second segment extends in left-right direction.

Rear gig has two, each rear gig is corresponding with corresponding left and right chopping machine respectively, after two, gig is between left and right every setting, upper and lower chip conveying device and the cut into slices number of the first upper and lower transplanting mechanism and the number one_to_one corresponding of rear gig, the throughput direction of the first upper and lower transplanting mechanism of cutting into slices extends in left-right direction, the rear gig in left side is positioned at the left end of the upper and lower transplanting mechanism of section first in left side, and the rear gig on right side is positioned at the right-hand member of the upper and lower transplanting mechanism of section first on right side.

In the present invention, the technical scheme of delivery system is:

Delivery system, the laminating machine arranged before and after comprising and chopping machine, also comprise slices synthesis method line, slices synthesis method line comprises for being mounted with the upper chip conveying device of the section pallet of section and the lower chip conveying device for carrying unloaded section pallet be from front to back positioned at below upper chip conveying device to front conveying by rear, chip conveying device also comprises for the section pallet of zero load being delivered to respective slice machine and being used for the rear gig that exported by described chopping machine by the section pallet being mounted with section, chip conveying device also comprises for the section pallet being mounted with section being delivered to corresponding laminating machine and gig before being used for the section pallet of zero load to be exported by laminating machine, transplanting mechanism in section first is provided with between upper chip conveying device and rear gig, transplanting mechanism in section second is provided with between upper chip conveying device and front gig, section first time transplanting mechanism is provided with between lower chip conveying device and rear gig, section second time transplanting mechanism is provided with between lower chip conveying device and front gig.

Upper chip conveying device comprises chip conveying device and chip conveying device on the second segment be on first paragraph on front side of chip conveying device on first paragraph, lower chip conveying device to comprise under first paragraph chip conveying device under chip conveying device and the second segment under being in first paragraph on front side of chip conveying device, under first paragraph, chip conveying device is positioned at the below of chip conveying device on first paragraph, under second segment, chip conveying device is positioned at the below of chip conveying device on second segment, on first paragraph, under chip conveying device and first paragraph, chip conveying device is aerial conveying line, on first paragraph, on lower chip conveying device and second segment, the first elevator is provided with between lower chip conveying device, on first paragraph, lower chip conveying device is with in section first, the second elevator is provided with between lower transplanting mechanism.

Described laminating machine has two, two laminating machines are respectively left laminating machine and right laminating machine, described front gig has two, each front gig respectively with a left side, right laminating machine is corresponding, on second segment, lower chip conveying device includes the spaced left load-transfer device in left and right, right load-transfer device, in section second, transplanting mechanism comprises the left side being arranged at chip conveying device on second segment, the upper shunting jacking transplanter that throughput direction between right load-transfer device extends in left-right direction, the second time transplanting mechanism of cutting into slices comprises the left side being arranged at chip conveying device under second segment, the lower shunting jacking transplanter that throughput direction between right load-transfer device extends in left-right direction.

Described chopping machine has two, two chopping machines are respectively left chopping machine and right chopping machine, rear gig has two, each rear gig respectively with a left side, right chopping machine is corresponding, after two, gig is between left and right every setting, on, lower chip conveying device is with in section first, the number of lower transplanting mechanism and the number one_to_one corresponding of rear gig, in section first, the throughput direction of lower transplanting mechanism extends in left-right direction, the rear gig in left side is positioned in the section first in left side, the left end of lower transplanting mechanism, the rear gig on right side is positioned in the section first on right side, the right-hand member of lower transplanting mechanism.

Beneficial effect of the present invention is: during use, the section pallet being mounted with section exported by chopping machine through after gig, transplanting mechanism in section first, upper slices synthesis method assembling device, in section second, transplanting mechanism and front gig are transported in laminating machine, and the premenstrual gig of section pallet of the zero load exported by laminating machine, to cut into slices second time transplanting mechanism, lower chip conveying device, cut into slices first time transplanting mechanism and rear gig is transmitted back to chopping machine, achieve section like this, the mechanization transportation of section pallet, reduce the labour intensity of operating personal, efficiently solving section may by the problem of moisture contamination, by the use of forward and backward gig, chip conveying device is gone on when section pallet transports to laminating machine direction, chip conveying device is gone down when section pallet transports in tangential section machine direction, lower chip conveying device is in the below of chip conveying device, make the structure of whole slices synthesis method line compacter like this, effectively reduce and take up room.

Accompanying drawing explanation

Fig. 1 is the structural representation of the embodiment transport portion at the middle and upper levels of delivery system of the present invention;

Fig. 2 is the structural representation of lower floor's transport portion of delivery system of the present invention.

Detailed description of the invention

The embodiment of delivery system is as shown in Figure 1 and 2: delivery system comprises left chopping machine 1, right chopping machine 43, left laminating machine 14, right laminating machine 32, feeding platform and transport portion, left chopping machine is used for cutting out positive pole section, right chopping machine is used for cutting out cathode slicing, left, right laminating machine is used for will just, cathode slicing builds up battery core, transport portion is then for will just, cathode slicing is delivered in corresponding laminating machine, battery core is delivered to feeding platform, lamination pallet is transmitted back to corresponding laminating machine, the section pallet that section is housed is transported to corresponding laminating machine, then the section pallet of zero load is transmitted back to corresponding chopping machine.In order to save space, transport portion entirety in the present invention is divided into upper strata transport portion and lower floor's transport portion, transport portion between laminating machine and feeding platform comprises battery core feedway, battery core feedway comprises for being mounted with the upper battery core feedway 21 of the lamination pallet of battery core and the lower battery core feedway 59 for carrying unloaded lamination pallet be from front to back positioned at below upper battery core feedway to front conveying by rear, feeding platform is then positioned at the delivery stroke end of battery core feedway, the delivery stroke head end of lower battery core feedway, battery core feedway also comprises the second gig 19 being positioned at described upper battery core feedway delivery stroke end and lower battery core feedway delivery stroke head end, after battery core is taken out by operating personal, lamination pallet can reduce height by the second gig, lamination pallet is delivered on lower battery core feedway 59 by the second gig, in the present embodiment, the 3rd gig is for returning plate elevator.Upper and lower battery core feedway includes the spaced left load-transfer device 18 in left and right, the right load-transfer device 20 placed for lamination pallet.The right side of left laminating machine and the left side of right laminating machine are provided with the first gig 15, transplanting mechanism in battery core is provided with between each first gig and upper battery core feedway 21, transplanting mechanism under battery core is provided with between each first gig 15 and lower battery core feedway 59, under battery core, transplanting mechanism is positioned at the below of transplanting mechanism in battery core, in battery core, transplanting mechanism comprises the left side being arranged at battery core feedway, the first jacking transplanter 22 that throughput direction between right load-transfer device extends in left-right direction, in battery core, transplanting mechanism also comprises the first horizontal transplanter 17 being arranged at the second other jacking transplanter 16 of corresponding first gig and being arranged between the second jacking transplanter 16 and the first jacking transplanter 22, in two battery cores, transplanting mechanism shares same first jacking transplanter 22.Under battery core, transplanting mechanism is identical with the structure of transplanting mechanism in battery core, and that is under battery core, transplanting mechanism comprises the 7th jacking transplanter 58 that the throughput direction between the left and right load-transfer device being arranged at lower battery core feedway extends in left-right direction, the second horizontal transplanter 60 being arranged at the 8th other jacking transplanter 61 of corresponding first gig and being arranged between the 7th, the 8th jacking transplanter.Wherein with right laminating machine with the use of the second jacking transplanter 16 and the 8th jacking transplanter 61 be the jacking transplanter of rotating 180 deg.

Transport portion between chopping machine and laminating machine comprises slices synthesis method line, and slices synthesis method line comprises for being contained in the upper chip conveying device of the section pallet of section and the lower chip conveying device for carrying unloaded section pallet be from front to back positioned at below upper chip conveying device to front conveying by rear.Because chopping machine is divided into two, so slices synthesis method line also corresponding be two, for convenience of description, by with left chopping machine with the use of slices synthesis method line called after positive pole slices synthesis method line, by with right chopping machine with the use of slices synthesis method line called after cathode slicing travel line, that is positive pole chip conveying device to comprise on positive pole chip conveying device under chip conveying device and positive pole, on positive pole, chip conveying device comprises chip conveying device 6 and chip conveying device 13 on the positive pole second segment be on positive pole first paragraph on front side of chip conveying device on positive pole first paragraph, under positive pole, chip conveying device to comprise under positive pole first paragraph chip conveying device 62 under chip conveying device 66 and the positive pole second segment under being in positive pole first paragraph on front side of chip conveying device, under positive pole first paragraph, chip conveying device to be positioned on positive pole first paragraph immediately below chip conveying device, under positive pole second segment, chip conveying device to be positioned on positive pole second segment immediately below chip conveying device, wherein on positive pole first paragraph, lower chip conveying device is aerial conveying line, on positive pole first paragraph, on lower chip conveying device and positive pole second segment, transferred by the first elevator 7 between lower chip conveying device.The upper and lower chip conveying device of positive pole second segment is between left laminating machine and battery core feedway.Cathode slicing feedway to comprise on negative pole chip conveying device under chip conveying device and negative pole, on negative pole, chip conveying device comprises chip conveying device 8 and chip conveying device 25 on the negative pole second segment be on negative pole first paragraph on front side of chip conveying device on negative pole first paragraph, under negative pole, chip conveying device to comprise under negative pole first paragraph chip conveying device 55 under chip conveying device 88 and the negative pole second segment under being in negative pole first paragraph on front side of chip conveying device, under negative pole first paragraph, chip conveying device to be positioned on negative pole first paragraph immediately below chip conveying device, under negative pole second segment, chip conveying device to be positioned on negative pole second segment immediately below chip conveying device, wherein on negative pole first paragraph, lower chip conveying device is aerial conveying line, on negative pole first paragraph, on lower chip conveying device and negative pole second segment, transferred by the 3rd elevator 38 between lower chip conveying device.The upper and lower chip conveying device of negative pole second segment is between right laminating machine 32 and battery core feedway 21.Because laminating machine has two, in order to realize each chip conveying device all to each laminating machine conveying section, each chip conveying device all can corresponding two front gigs, definition with positive pole chip conveying device with the use of two front gigs be respectively the 3rd gig 11 and the 4th gig 31, with cathode slicing feedway with the use of two front gigs be respectively the 5th gig 9 and the 6th gig 33, 5th gig 9 and the 3rd gig 11 are in the right side of left laminating machine, 6th gig 33 and the 4th gig are in the left side of right laminating machine, chip conveying device with corresponding before in section second between gig, lower transplanting mechanism is also divided in positive pole section, on lower transplanting mechanism and cathode slicing, lower transplanting mechanism, the upper transplanting mechanism of positive pole section is for being equipped with the section pallet of positive pole section by chip conveying device on positive pole second segment being delivered to the 3rd gig, 4th gig, then a left side is entered, right laminating machine, the lower transplanting mechanism of positive pole section is used for will by a left side, the section pallet of the zero load that right laminating machine exports is by the 3rd, to be transmitted back under positive pole second segment on chip conveying device after 4th gig, on corresponding cathode slicing transplanting mechanism for by the section pallet that cathode slicing is housed by chip conveying device on negative pole second segment being delivered to the 5th gig, then the 6th gig enters left and right laminating machine, transplanting mechanism chip conveying device under the section pallet of the zero load exported by left and right laminating machine being transmitted back to after the 5th, the 6th gig negative pole second segment under cathode slicing.Each feedway is a left side, right conveyer belt structure, a left side for chip conveying device 13 on positive pole second segment, the 3rd jacking transplanter 12 that throughput direction extends in left-right direction is provided with between right load-transfer device, a left side for chip conveying device under positive pole second segment, the 4th jacking transplanter 63 that throughput direction extends in left-right direction is provided with between right load-transfer device, 3rd jacking transplanter is in above the 4th jacking transplanter, therefore the 3rd jacking transplanter can be called upper jacking transplanter, 4th jacking transplanter is called lower jacking transplanter, 3rd horizontal transplanter 27 of order setting from left to right on the right side of the 3rd jacking transplanter 12, 5th jacking transplanter 28, 4th horizontal transplanter 29 and the 6th jacking transplanter 30, 6th jacking transplanter is the jacking transplanter of rotatable 180, 3rd jacking transplanter, 3rd horizontal transplanter 27, 5th jacking transplanter 28, 4th horizontal transplanter 29 and the 6th jacking transplanter 30 form chip conveying device on positive pole second segment with corresponding before positive pole between gig to cut into slices transplanting mechanism on second.The right side of the 4th jacking transplanter 63 is sequentially set with the 5th horizontal transplanter 54, the 9th jacking transplanter 53, the 6th horizontal transplanter 52 and the tenth jacking transplanter 51 from left to right, tenth jacking transplanter is the jacking transplanter of rotatable 180, the 4th jacking transplanter 63, the 5th horizontal transplanter 54, the 9th jacking transplanter 53, the 6th horizontal transplanter 52 and the tenth jacking transplanter 51 form chip conveying device under positive pole second segment with corresponding before positive pole between gig to cut into slices second time transplanting mechanism.A left side for chip conveying device on negative pole second segment, the 11 jacking transplanter 10 that throughput direction extends in left-right direction is provided with between right load-transfer device, a left side for chip conveying device under negative pole second segment, the 14 jacking transplanter 64 that throughput direction extends in left-right direction is provided with between right load-transfer device, the right side of the 11 jacking transplanter 10 is sequentially set with the 7th horizontal transplanter 37 from left to right, 12 jacking transplanter 36, 8th horizontal transplanter the 35 and the 13 jacking transplanter 34, the right side of the 14 jacking transplanter 64 is sequentially set with the 9th horizontal transplanter 47 from left to right, 15 jacking transplanter 48, tenth horizontal transplanter the 49 and the 16 jacking transplanter 50, 13 jacking transplanter the 34 and the 16 jacking transplanter 50 is the jacking transplanter of rotating 180 deg, 11 jacking transplanter 10, 7th horizontal transplanter 37, 12 jacking transplanter 36, 8th horizontal transplanter the 35 and the 13 jacking transplanter 34 form chip conveying device on negative pole second segment with corresponding before transplanting mechanism on cathode slicing second between gig, 14 jacking transplanter 64, 9th horizontal transplanter 47, 15 jacking transplanter 48, tenth horizontal transplanter the 49 and the 16 jacking transplanter 50 form chip conveying device under negative pole second segment with corresponding before cathode slicing second time transplanting mechanism between gig.

Transplanting mechanism in section first is provided with between upper chip conveying device with corresponding chopping machine, lower chip conveying device with section first time transplanting mechanism is set between corresponding chopping machine, because chopping machine has two, so transplanting mechanism is divided into positive pole to cut into slices on first transplanting mechanism 40 on transplanting mechanism 4 and cathode slicing first in section first, the first time transplanting mechanism of cutting into slices is divided into positive pole to cut into slices first time transplanting mechanism 67 and cathode slicing first time transplanting mechanism 46, in section first, the throughput direction of lower transplanting mechanism extends in left-right direction, in positive pole section first, on lower transplanting mechanism and positive pole first paragraph, transferred by the second elevator 5 between lower chip conveying device, cathode slicing first, on vertical transplanting mechanism and negative pole first paragraph, transferred by the 4th elevator 39 between lower chip conveying device.Left and right chopping machine is other is provided with rear gig, after two, gig is respectively positive pole gig 2 and negative pole gig 42, positive pole the first upper and lower transplanting mechanism of cutting into slices is transferred by jacking transplanter under jacking transplanter on positive pole 3 and positive pole 68 and positive pole gig 2, and the upper and lower transplanting mechanism of cathode slicing first is transferred by jacking transplanter under jacking transplanter on negative pole 41 and negative pole 45 and negative pole gig.

Be described for the working process of course of conveying to this delivery system of positive pole section between left and right laminating machine below: 1, positive pole gig rises, the section pallet that section is housed that right left chopping machine of plugging into exports; 2, on positive pole, jacking transplanter rises, plug into lower after section pallet will, section pallet to be placed in positive pole section first on transplanting mechanism, in positive pole section first, section pallet is propped up the right side by a left side and is delivered to the one 90 degree jacking transplanter 44 by transplanting mechanism, and the one 90 degree of jacking transplanter refers to that rotatable 90 degree and change are cut into slices the throughput direction of pallet; 3, the hanging basket upper strata of the second elevator 5 sent into by section pallet by the one 90 degree of jacking transplanter; 4, the second elevator rises to aerial and docks with chip conveying device on positive pole first paragraph, and section pallet is continued to transport forward by chip conveying device on positive pole first paragraph; 5, the switching of section pallet is come by the first elevator, and is transported on positive pole second segment on chip conveying device by section pallet, and section pallet traffic is to the 3rd jacking transplanter 12 place; 6, pallet of cutting into slices subsequently can branch to left laminating machine and right laminating machine, such as during towards left shunt, section pallet is delivered to the 3rd gig 11 in left side through the 3rd jacking transplanter, and the 3rd gig through left side is delivered in left laminating machine, towards when parting stream on the right side, section pallet is delivered to the 6th gig 33 on right side through the 3rd horizontal transplanter, the 5th jacking transplanter, the 4th horizontal transplanter and the 6th jacking transplanter, be then delivered in right laminating machine through the 6th gig 33.Left, the section that correspondence is cut into slices in pallet by right laminating machine is taken out, three gig of section pallet through left side of the zero load that left laminating machine exports, chip conveying device under 4th jacking transplanter to positive pole, the section pallet of the zero load that right laminating machine exports is through the 6th gig, tenth jacking transplanter, 6th horizontal transplanter, 9th jacking transplanter, chip conveying device under 5th horizontal transplanter and the 4th jacking transplanter to positive pole second segment, then through chip conveying device under positive pole second segment by after to front conveying, when being delivered to the first elevator 7, the section pallet of zero load is delivered to chip conveying device under positive pole first paragraph by the first elevator 7, then under positive pole first paragraph, chip conveying device is delivered to the second elevator, the 2 90 degree of jacking transplanter place below the one 90 degree of jacking transplanter is forwarded to by the second elevator, and be delivered to positive pole through the 2 90 degree of jacking transplanter and cut into slices on first time transplanting mechanism, then jacking transplanter under positive pole is delivered to from right to left, and the final section return of empty pallets import being delivered to left chopping machine through positive pole gig, complete a circulation of section pallet like this.The transportation of the section pallet that right chopping machine exports is identical with the transportation principle of the section pallet that left chopping machine exports, and is not described in detail in this.First gig in left side is plugged into the lamination pallet that battery core is housed exported by left laminating machine, then through the second jacking transplanter, first horizontal transplanter, first jacking transplanter to be delivered on battery core feedway and by rear to front conveying, first gig on right side plugs into the section pallet that exported by right laminating machine then through the second jacking transplanter, first horizontal transplanter, first jacking transplanter to be delivered on battery core feedway and by rear to front conveying, by final arrival feeding platform, battery core in lamination pallet is taken out by operating personal, unloaded tab (s) pallet through the second gig drop on lower battery core feedway by after be transmitted back to a left side to front, right laminating machine.Feedway, elevator, gig, horizontal transplanter and jacking transplanter involved in the present embodiment all belong to prior art, the present invention utilizes the ingenious unitized design of these ripe supply units, complete and the most difficultly in Production Process of Lithium Battery realize the section of automation, the automation of battery core conveying process, and efficiently avoid the impact of travel line on logistics corridor by aerial line, greatly reduce the labour intensity of operating personal, improve production efficiency; The cut into slices throughput direction of the first upper and lower transplanting mechanism of positive pole is left and right directions, the throughput direction of the upper and lower transplanting mechanism of cathode slicing first is left and right directions, the distance between left and right chopping machine can be pulled open like this, avoid two chopping machines to cross the problem closely and easily polluted.

In other embodiment of this delivery system: the second gig also can not be established, now lamination pallet can be positioned on lower battery core feedway by operating personal by hand; Laminating machine also can only have one, if now upper and lower battery core feedway distance the first gig is comparatively near, can directly use jacking transplanter to realize the transfer of lamination pallet between the first gig and upper and lower battery core feedway; When usage space is more abundant, aerial conveying line also can not be established, and does not now need to arrange each elevator; Chip conveying device in this delivery system also can only for positive pole section or cathode slicing conveying.

The embodiment of slices synthesis method line is as shown in Figure 1 and 2: the concrete structure of slices synthesis method line is identical with the slices synthesis method line described in above-mentioned each delivery system embodiment, is not described in detail in this.

Claims (8)

1. slices synthesis method line, it is characterized in that: comprise for being mounted with the upper chip conveying device of the section pallet of section and the lower chip conveying device for carrying unloaded section pallet be from front to back positioned at below upper chip conveying device to front conveying by rear, slices synthesis method line also comprises for the section pallet of zero load being delivered to respective slice machine and being used for the rear gig that exported by described chopping machine by the section pallet being mounted with section, slices synthesis method line also comprises for the section pallet being mounted with section being delivered to corresponding laminating machine and gig before being used for the section pallet of zero load to be exported by laminating machine, transplanting mechanism in section first is provided with between upper chip conveying device and rear gig, transplanting mechanism in section second is provided with between upper chip conveying device and front gig, section first time transplanting mechanism is provided with between lower chip conveying device and rear gig, section second time transplanting mechanism is provided with between lower chip conveying device and front gig.

2. slices synthesis method line according to claim 1, it is characterized in that: upper chip conveying device comprises chip conveying device and chip conveying device on the second segment be on first paragraph on front side of chip conveying device on first paragraph, lower chip conveying device to comprise under first paragraph chip conveying device under chip conveying device and the second segment under being in first paragraph on front side of chip conveying device, under first paragraph, chip conveying device is positioned at the below of chip conveying device on first paragraph, under second segment, chip conveying device is positioned at the below of chip conveying device on second segment, on first paragraph, under chip conveying device and first paragraph, chip conveying device is aerial conveying line, on first paragraph, on lower chip conveying device and second segment, the first elevator is provided with between lower chip conveying device, on first paragraph, lower chip conveying device is with in section first, the second elevator is provided with between lower transplanting mechanism.

3. slices synthesis method line according to claim 2, it is characterized in that: described front gig has two, each front gig respectively with a corresponding left side, right laminating machine is corresponding, on second segment, lower chip conveying device includes the spaced left load-transfer device in left and right, right load-transfer device, in section second, transplanting mechanism comprises the left side being arranged at chip conveying device on second segment, the upper shunting jacking transplanter that throughput direction between right load-transfer device extends in left-right direction, the second time transplanting mechanism of cutting into slices comprises the left side being arranged at chip conveying device under second segment, the lower shunting jacking transplanter that throughput direction between right load-transfer device extends in left-right direction.

4. the slices synthesis method line according to claim 1 ~ 3 any one, it is characterized in that: rear gig has two, each rear gig respectively with a corresponding left side, right chopping machine is corresponding, after two, gig is between left and right every setting, on, lower chip conveying device is with in section first, the number of lower transplanting mechanism and the number one_to_one corresponding of rear gig, in section first, the throughput direction of lower transplanting mechanism extends in left-right direction, the rear gig in left side is positioned in the section first in left side, the left end of lower transplanting mechanism, the rear gig on right side is positioned in the section first on right side, the right-hand member of lower transplanting mechanism.

5. delivery system, the laminating machine arranged before and after comprising and chopping machine, it is characterized in that: also comprise slices synthesis method line, slices synthesis method line comprises for being mounted with the upper chip conveying device of the section pallet of section and the lower chip conveying device for carrying unloaded section pallet be from front to back positioned at below upper chip conveying device to front conveying by rear, chip conveying device also comprises for the section pallet of zero load being delivered to respective slice machine and being used for the rear gig that exported by described chopping machine by the section pallet being mounted with section, chip conveying device also comprises for the section pallet being mounted with section being delivered to corresponding laminating machine and gig before being used for the section pallet of zero load to be exported by laminating machine, transplanting mechanism in section first is provided with between upper chip conveying device and rear gig, transplanting mechanism in section second is provided with between upper chip conveying device and front gig, section first time transplanting mechanism is provided with between lower chip conveying device and rear gig, section second time transplanting mechanism is provided with between lower chip conveying device and front gig.

6. delivery system according to claim 5, it is characterized in that: upper chip conveying device comprises chip conveying device and chip conveying device on the second segment be on first paragraph on front side of chip conveying device on first paragraph, lower chip conveying device to comprise under first paragraph chip conveying device under chip conveying device and the second segment under being in first paragraph on front side of chip conveying device, under first paragraph, chip conveying device is positioned at the below of chip conveying device on first paragraph, under second segment, chip conveying device is positioned at the below of chip conveying device on second segment, on first paragraph, under chip conveying device and first paragraph, chip conveying device is aerial conveying line, on first paragraph, on lower chip conveying device and second segment, the first elevator is provided with between lower chip conveying device, on first paragraph, lower chip conveying device is with in section first, the second elevator is provided with between lower transplanting mechanism.

7. delivery system according to claim 6, it is characterized in that: described laminating machine has two, two laminating machines are respectively left laminating machine and right laminating machine, described front gig has two, each front gig respectively with a left side, right laminating machine is corresponding, on second segment, lower chip conveying device includes the spaced left load-transfer device in left and right, right load-transfer device, in section second, transplanting mechanism comprises the left side being arranged at chip conveying device on second segment, the upper shunting jacking transplanter that throughput direction between right load-transfer device extends in left-right direction, the second time transplanting mechanism of cutting into slices comprises the left side being arranged at chip conveying device under second segment, the lower shunting jacking transplanter that throughput direction between right load-transfer device extends in left-right direction.

8. the delivery system according to claim 5 ~ 7 any one, it is characterized in that: described chopping machine has two, two chopping machines are respectively left chopping machine and right chopping machine, rear gig has two, each rear gig respectively with a left side, right chopping machine is corresponding, after two, gig is between left and right every setting, on, lower chip conveying device is with in section first, the number of lower transplanting mechanism and the number one_to_one corresponding of rear gig, in section first, the throughput direction of lower transplanting mechanism extends in left-right direction, the rear gig in left side is positioned in the section first in left side, the left end of lower transplanting mechanism, the rear gig on right side is positioned in the section first on right side, the right-hand member of lower transplanting mechanism.