CN206241235U - A kind of fixed amount formula mould of lead-acid storage battery busbar - Google Patents

Abstract

The utility model discloses a kind of fixed amount formula mould of lead-acid storage battery busbar,Mould including being provided with multiple bus-bar die cavities,Multiple quantitative grooves are additionally provided with mould,One end of each quantitative groove connects with a bus-bar die cavity corresponding to described each quantitative groove,Be additionally provided between a bus-bar die cavity corresponding to one end of each quantitative groove and described each quantitative groove can control each quantitative groove and a bus-bar die cavity corresponding to described each quantitative groove between lead to,Disconnected controlling switch,Multiple overfalls are additionally provided with mould,One quantitative groove of overfall correspondence one,The other end of each quantitative groove is connected with an overfall corresponding to described each quantitative groove,Multiple shaping liquid flow inlets are additionally provided with mould,One shaping liquid flow inlet is connected with a quantitative groove.The utility model can be very accurately to bus-bar quantity of formed be controlled.

Description

A kind of fixed amount formula mould of lead-acid storage battery busbar

Technical field

The utility model is related to a kind of former of storage battery busbar, more particularly to a kind of lead-acid storage battery busbar Fixed amount formula mould.

Background technology

Nearly ten years with the rapid growth of new-energy automobile and regenerative resource energy storage demand, China's lead-acid accumulator is produced Amount and export amount are increased with every year about 20% speed, are ranked first place in starting, energy storage, electrokinetic cell, and total amount is about 1.5 Hundred million KVA.H/.Relative to other batteries, lead-acid accumulator mainly has following advantage：1）, realize that the industrialization production time is most long, Technology is most ripe, and stable performance, reliability, safety, application field are wide；2）, production cost it is minimum, only lithium battery and Ni-H cell 1/3 or so；3）, regeneration and resources reserve it is with the obvious advantage.Therefore, lead-acid accumulator will rise within 20 years futures The application fields such as dynamic, energy storage, power occupy dominant position.

At present, most lead-acid accumulators are made up of shell and its interior some poles group, and each pole group is by positive pole Plate replaces closed assembly and forms with negative plate, is separated by AGM dividing plates between positive and negative pole plate, bus-bar between the group of some poles, just, Negative electrode lug is welded together by cast welding technique, and its processing step is：（1）, lead that mould is put into molten condition closes In golden cast welding liquid, forming unit and pole of the shaping dope full of mould are cheated, struck off die surface with resistant to elevated temperatures scraper plate； （2）, the battery electrode group being fixed together is aligned in corresponding forming unit insertion mould, positive and negative electrode lug is inserted respectively In shaping dope in mould；（3）, liquid to be formed solidification, slough mould.

But, in existing bus-bar moulding process, forming bottom die need to integrally be immersed high-temperature lead by traditional former In stove, it is seen then that the quantity of formed of its bus-bar can not accurately be controlled very much, such as Authorization Notice No. is CN204584234U, is awarded The power day for announcing is that in August, 2015 Chinese utility model patent of 26 days discloses a kind of cast-weld mould of lead-acid storage battery, including this Body and the handle for being arranged on body two ends, are provided with some forming units for current collecting tier of casting, the shaping list on body Unit is made up of positive pole recessed channel and negative pole recessed channel, positive pole recessed channel and the spaced setting of negative pole recessed channel of adjacent forming unit, previous It is connected by gap bridge recessed channel between positive pole recessed channel and the negative pole recessed channel of adjacent forming unit in forming unit, the shaping list at two ends Pole hole is set, and body perimeter is provided with location hole, the positive pole recessed channel of the forming unit, negative pole recessed channel and gap bridge recessed channel in first Corner be fillet, the radius of corner is 1.5 to 2.0mm.

In addition, application publication number is CN105290378A, Shen Qing Publication day is the Chinese invention patent of on 2 3rd, 2016 A kind of lead-acid accumulator lug cast welding method is disclosed, is comprised the following steps：Accumulator plate is placed on cast welded mold, the mould At least provided with a mold cavity, the side or bottom of mold cavity is by injecting the molten lead liquid of a certain amount of V, institute communicating pipe for tool The lead liquid measure V for stating is the lead liquid measure for precalculating cast welded mold tab welding needs, and the porch of communicating pipe is provided with lead rod and sense Answer heater, induction heating apparatus quickly heats one section of lead rod and forms lead drop and enter to be injected into communicating pipe mold cavity and reaches Quantitative V, then carries out lug forming operation.

Foregoing invention patent document is that the molten lead liquid for being melted into a certain amount of V using the method for heating and melting lead rod is carried out into Type, although lead liquid measure V is precalculated, but error occurs during actual lead rod heating and melting so that Can not be very accurate equal between the actual melted mass of lead rod and the lead liquid measure V for calculating, so that actually also cannot be very smart The true quantity of formed to bus-bar carries out quantitative control.

A kind of fixed amount formula mould of lead-acid storage battery busbar to sum up how is designed, can very accurately to converging The quantity of formed for flowing row is controlled, and improves the product quality of lead-acid accumulator, and the product cost for reducing lead-acid accumulator is to be badly in need of The technical problem of solution.

Utility model content

Technical problem to be solved in the utility model is directed to defect present in prior art, there is provided a kind of plumbic acid stores The fixed amount formula mould of battery bus, the quantity of formed that it can be very accurately to bus-bar is controlled, and improves plumbic acid The product quality of battery, reduces the product cost of lead-acid accumulator.

In order to solve the above technical problems, technical solution adopted in the utility model is：A kind of lead-acid storage battery busbar Fixed amount formula mould, including mould and multiple bus-bar die cavities for being arranged on mould, in mould On be additionally provided with multiple quantitative grooves, a quantitative groove is correspondingly arranged at a bus-bar die cavity, each quantitative groove One end connects with a bus-bar die cavity corresponding to described each quantitative groove, on mould and quantitative positioned at each Being additionally provided between a bus-bar die cavity corresponding to one end of groove and described each quantitative groove can control each to quantify The controlling switch of switching between a bus-bar die cavity corresponding to groove and described each quantitative groove, on mould Multiple overfalls are additionally provided with, an overfall is correspondingly arranged at an other end for quantitative groove, each quantitative groove Other end be connected with an overfall corresponding to described each quantitative groove, multiple is additionally provided with mould Shaping liquid flow inlet, a shaping liquid flow inlet is connected with a quantitative groove.

Preferably, the mould includes die ontology and die cover plate；Quantitative groove is arranged on die ontology, is overflow Outlet be arranged on die cover plate, each overfall is groove-like, the other end of each quantitative groove with it is described each determine One end of a groove-like overfall corresponding to amount groove is connected；A plurality of overflow channel is additionally provided with die ontology, One overflow channel is correspondingly arranged at an other end for groove-like overfall, and each groove-like overfall is in addition One end is connected with an overflow channel corresponding to described each groove-like overfall.

Preferably, one end of each quantitative groove is opening shape, and a plurality of shaping channel is additionally provided with die ontology, One shaping channel is correspondingly arranged at an end for quantitative groove, and one end of each quantitative groove passes through a shaping channel It is connected with a bus-bar die cavity corresponding to described each quantitative groove；

Quantify on die ontology and positioned at multiple and guide groove one, the control are provided between groove and a plurality of shaping channel It is plate to switch, and plate is arranged in guide groove one and plate can in the horizontal direction come up along guide groove one, it is dynamic to move back；Plate includes plate Body and the multiple openings being arranged on plate, the corresponding control one in each opening are quantitative between groove and a shaping channel Switching state.

Preferably, multiple shaping liquid flow inlets are arranged on die cover plate, and multiple shaping liquid flow inlet is groove-like, Each quantitative groove is connected with one end of the groove-like shaping liquid flow inlet corresponding to described each quantitative groove, in institute State and be additionally provided with die ontology a plurality of flow channel, one groove-like shaping liquid flow inlet of a flow channel correspondence, each The other end of groove-like shaping liquid flow inlet and a flow channel corresponding to described each groove-like shaping liquid flow inlet It is connected.

Preferably, the bottom surface of each quantitative groove is higher than and a shaping channel corresponding to described each quantitative groove Bottom surface, every bottom surface of shaping channel is higher than and a bottom surface for bus-bar forming cavity corresponding to every shaping channel.

Preferably, the bottom surface of the bottom surface of each quantitative groove and every shaping channel is all provided with being set to inclined-plane.

Preferably, inflow overall channel is additionally provided with die ontology, a plurality of flow channel is connected with inflow overall channel It is logical；Passage integration module is additionally provided with the sidepiece of die ontology, passage one and passage are provided with passage integration module Two, flow into overall channel and be connected with passage two, passage two is connected with lead stove again；

Control valve is provided with passage integration module, passage two includes horizontal channel and vertical passage, horizontal channel One end with flow into overall channel be connected, the other end of horizontal channel is connected with one end of vertical passage, vertical passage it is another Outer one end is connected with lead stove；Control valve includes actuating unit and the bar that dams being connected with actuating unit, in actuating unit Under drive, the bar that dams can be moved up and down vertically；

The other end of horizontal channel is set to circular cone shape vestibule with one end place of being connected of vertical passage, control valve Dam one end of bar is connected with actuating unit, and the other end of the bar that dams is set to circular cone shape, in the drive of actuating unit Under, the other end of the bar circular cone shape that dams can be inserted into circular cone shape vestibule or be extracted out from circular cone shape vestibule, so that Switching state between controlled level passage and vertical passage.

The beneficial effects of the utility model are：The utility model, can very accurately to confluxing by setting quantitative groove The quantity of formed of row is controlled, and improves the product quality of lead-acid accumulator, reduces the product cost of lead-acid accumulator.Pass through Set plate controlling switch structure, feed liquor can be synchronized to multiple bus-bar die cavities, it is ensured that the Forming Quality of bus-bar and Improve the shaping efficiency of bus-bar.Using the switching state controlled between valve controlled level passage and vertical passage, so as to Fluid injection is conveniently carried out to quantitative groove or stops fluid injection.To quantify between groove, shaping channel and bus-bar forming cavity It is arranged to step-like structure, can cause that the shaping liquid energy in quantitative groove is all smoothly flowed into bus-bar die cavity is carried out into Type, improves the Forming Quality and shaping efficiency of bus-bar.

Brief description of the drawings

Fig. 1 is three-dimensional for the quantitative mould after removing integrated pipeline module and control valve in the utility model embodiment more Structural representation；

Fig. 2 is the main structure diagram of Fig. 1；

Fig. 3 is A portions mplifying structure schematic diagram in Fig. 1；

Fig. 4 is that the theory structure of fixed amount formula lead-acid storage battery busbar forming method in the utility model embodiment is illustrated Figure；

Fig. 5 is the dimensional structure diagram one of quantitative mould in the utility model embodiment；

Fig. 6 quantifies groove, shaping liquid flow inlet and stream to be located in the quantitative mould of the utility model embodiment Enter the connectivity structure schematic diagram between passage；

Fig. 7 is the dimensional structure diagram of die cover plate in the utility model embodiment；

Fig. 8 is the dimensional structure diagram of plate in the utility model embodiment；

Fig. 9 is the dimensional structure diagram two of quantitative mould in the utility model embodiment；

Figure 10 be the utility model embodiment in integrated pipeline module along its longitudinal cross section structure diagram；

Figure 11 shows for the control principle structure in the utility model embodiment between horizontal channel, vertical passage and control valve It is intended to；

In figure：1. bus-bar die cavity, 2. mould, 211. die ontologies, 212. die cover plates are 3. quantitative recessed Groove, 4. controlling switch, 5. overfall, is 6. molded liquid flow inlet, 7. overflow channel, 8. shaping channel, 9. guide groove one, 10. plate body, 11. openings, 12. overflow overall channels, 13. flow channels, 14. passage integration modules, 141. passages one, 142. passages two, 1421. horizontal channels, 1422. vertical passages, 15. actuating units, 16. dam bar, 17. frustums of a cone Shape vestibule.

Specific embodiment

Further details of elaboration is done to the technical solution of the utility model with specific embodiment below in conjunction with the accompanying drawings.

Embodiment 1：As shown in Figures 1 to 6, the utility model discloses a kind of fixed amount formula lead-acid storage battery busbar first Forming method, it is that multiple quantitative grooves 3 are provided with the mould 2 with multiple bus-bar die cavities 1, and one quantitative recessed Groove 3 is correspondingly arranged at a bus-bar die cavity 1, one end of each quantitative groove 3 with corresponding to described each quantitative groove A bus-bar die cavity 1 connect, with described each is quantitative recessed on mould 2 and positioned at one end of each quantitative groove 3 Being additionally provided between a bus-bar die cavity 1 corresponding to groove can control each quantitative groove 3 with described each quantitative groove institute The controlling switch 4 of switching, is additionally provided with multiple overfalls 5, one on mould 2 between a corresponding bus-bar die cavity 1 Individual overfall 5 is correspondingly arranged at an other end for quantitative groove 3, and the other end of each quantitative groove 3 is every with described An overfall 5 corresponding to individual quantitative groove is connected, and multiple shaping liquid flow inlets 6, one are additionally provided with mould 2 Individual shaping liquid flow inlet 6 is connected with a quantitative groove 3；

When being molded, first pass through controlling switch 4 control each quantitative groove 3 with corresponding to described each quantitative groove It is off between one bus-bar die cavity 1, then by multiple shaping liquid flow inlet 6 respectively in the quantitative groove 3 of multiple Injection moulding liquid, when in each quantitative groove 3 shaping dope from described each quantitative groove corresponding to an overfall 5 overflow When, stop shaping dope injection, then by controlling switch 4 control each quantitative groove 3 with corresponding to described each quantitative groove A bus-bar die cavity 1 between be in connected state so that the shaping dope homomergic flow in each quantitative groove 3 enter it is described each Forming operation is carried out in a bus-bar die cavity 1 corresponding to quantitative groove.

In the present embodiment, eight quantitative grooves 3 are provided with altogether, and it is divided into two that two rows are symmetricly set on mould 2 On side, often the amount of being ranked groove 3 is provided with four.The capacity of quantitative groove 3 is that shaping dope capacity as needed is designed in advance , when injection moulding liquid in the quantitative groove of the present embodiment, shaping dope can slowly go up from the bottom of quantitative groove, when quantitative When shaping dope in groove is full of, unnecessary a part of shaping dope will overflow from the notch of quantitative groove, then by overfall Discharge, it is quantitatively recessed so as to the volume controlled of shaping dope in quantitative groove be caused by controlling switch again in a certain amount, then Connected state is between groove and bus-bar die cavity so that in quantitative groove in the shaping dope inflow bus-bar die cavity of certain capacity Cast molding is carried out, therefore, the quantity of formed that the present embodiment can be very accurately to bus-bar is controlled, and improves lead-acid accumulator Product quality, reduce the product cost of lead-acid accumulator.

As shown in Fig. 3, Fig. 4 and Fig. 7, the mould 2 includes die ontology 211 and die cover plate 212, die cover plate 212 by screw connection on die ontology 211；Quantitative groove 3 is arranged on die ontology 211, and overfall 5 is arranged on mould Tool cover plate 212 on, each overfall 5 is groove-like, the other end of top of each quantitative groove 3 with it is described each quantify One end of a groove-like overfall 5 corresponding to groove is connected；A plurality of overflow channel is additionally provided with die ontology 211 7, an overflow channel 7 is correspondingly arranged at an other end for groove-like overfall 5, each groove-like overfall 5 Other end be connected with an overflow channel 7 corresponding to described each groove-like overfall；

It is that shaping dope sequentially passes through the another of one quantitative groove 3 when the shaping dope in a quantitative groove 3 overflows One end of a groove-like overfall 5 corresponding to the top of outer one end and one quantitative groove and one quantitative The other end of a groove-like overfall 5 corresponding to groove and overflow with one corresponding to one groove-like overfall Go out the spilling of passage 7.Above-mentioned setting so that when shaping dope overflows from the top of quantitative groove, rapid, smoothly can pass through excessive Outlet is discharged in overflow channel, is conducive to the capacity further accurately to shaping dope in quantitative groove to be controlled.

As shown in Fig. 1, Fig. 3, Fig. 4 and Fig. 8, one end of each quantitative groove 3 is opening shape, on die ontology 211 A plurality of shaping channel 8 is additionally provided with, a shaping channel 8 is correspondingly arranged at an end for quantitative groove 3, and each is quantitative recessed One end of groove 3 is connected by a shaping channel 8 with a bus-bar die cavity 1 corresponding to described each quantitative groove；

Quantify on die ontology 211 and positioned at multiple and guide groove 1, institute are provided between groove 3 and a plurality of shaping channel 8 Controlling switch 4 is stated for plate, plate is arranged in guide groove 1 and plate can in the horizontal direction come up along guide groove 1, it is dynamic to move back； Plate includes plate body 10 and the multiple openings 11 being arranged on plate 10, the quantitative groove 3 of the corresponding control one in each opening 11 And the switching state between a shaping channel 8；

Plate is moved by along guide groove 1, each opening 11 on plate is moved to positioned at a quantitative He of groove 3 Between one shaping channel 8（Each opening that will be on plate is moved at an one end open for quantitative groove）, so that Be in connected state between each quantitative groove 3 and a shaping channel 8 corresponding to described each quantitative groove, this When, the shaping dope in each quantitative groove 3 just can be flowed into a bus-bar die cavity 1 by an opening 11 on plate It is interior；By the plate body 10 of plate be moved to each quantitative groove 3 and a shaping channel 8 corresponding to described each quantitative groove it Between, so that being in disconnecting between each quantitative groove 3 and a shaping channel 8 corresponding to described each quantitative groove State, the one end open of each quantitative groove 3 is stopped using plate body 10, so that the shaping dope in each quantitative groove 3 Will not outflow.Therefore, the present embodiment can synchronize feed liquor to multiple bus-bar die cavities, it is ensured that the Forming Quality of bus-bar and Improve the shaping efficiency of bus-bar.

In the present embodiment, one end of plate body 10 connects with plate cylinders, in the presence of plate cylinder, drives plate body 10 along gathering sill 1, return it is dynamic（In Fig. 3 and Fig. 4 the plate body of plate be moved to each quantitative groove with it is described each quantify The position between a bus-bar die cavity corresponding to groove, now, each quantitative groove is right with described each quantitative groove institute Off-state is between the bus-bar die cavity answered）.

As shown in Figures 1 to 6, the utility model is also disclosed a kind of fixed amount formula shaping mould of lead-acid storage battery busbar Tool, including mould 2 and the multiple bus-bar die cavities 1 being arranged on mould 2, are additionally provided with many on mould 2 Individual quantitative groove 3, a quantitative groove 3 is correspondingly arranged at a bus-bar die cavity 1, one end of each quantitative groove 3 with A bus-bar die cavity 1 corresponding to described each quantitative groove is connected, on mould 2 and positioned at each quantitative groove 3 One end and described each quantitative groove corresponding to a bus-bar die cavity 1 between be additionally provided with and can control each quantitative groove 3 and described each quantitative groove corresponding to a bus-bar die cavity 1 between switching controlling switch 4, on mould 2 Multiple overfalls 5 are additionally provided with, an overfall 5 is correspondingly arranged at an other end for quantitative groove 3, and each is quantitative recessed The other end of groove 3 is connected with an overfall 5 corresponding to described each quantitative groove, is also set up on mould 2 There are multiple shaping liquid flow inlets 6, a shaping liquid flow inlet 6 is connected with a quantitative groove 3.

As shown in Fig. 3, Fig. 4, Fig. 9 and Figure 10, spilling overall channel 12, a plurality of spilling are additionally provided with die ontology 211 Passage 7 with overflow overall channel 12 and connect, overflow overall channel 12 and connected with passage one again, passage one and recovery furnace（Do not show in figure Go out）Connection.When the shaping dope for overflowing flows out from a plurality of overflow channel, the shaping dope of spilling is flowed into spilling overall channel, then It is flowed into recovery furnace by passage one.So energy repetitive cycling uses shaping dope, saves production cost.

As shown in Fig. 5, Fig. 6, Fig. 7, Fig. 9 and Figure 10, multiple shaping liquid flow inlet 6 is arranged on die cover plate 212, many Individual shaping liquid flow inlet 6 is groove-like, and the top of each quantitative groove 3 is recessed with corresponding to described each quantitative groove One end of channel-shaped shaping liquid flow inlet 6 is connected, and a plurality of flow channel 13, one are additionally provided with the die ontology 211 The correspondence of flow channel 13 one groove-like shaping liquid flow inlet 6, the other end of each groove-like shaping liquid flow inlet 6 with it is described A flow channel 13 corresponding to each groove-like shaping liquid flow inlet is connected.

As shown in Figures 9 to 11, inflow overall channel is additionally provided with die ontology 211（Not shown in figure）, a plurality of stream Enter passage 13 to be connected with inflow overall channel；Passage integration module 14 is additionally provided with the sidepiece of die ontology 211, logical Passage 1 and passage 2 142 independent mutually is provided with road integration module 14, overall channel is flowed into and is connected with passage 2 142 It is logical, passage 2 142 again with lead stove（Not shown in figure）It is connected.Shaping dope in lead stove sequentially passes through passage 2 142, flows into always Passage, a plurality of flow channel 13 and multiple shaping liquid flow inlets 6 are injected into multiple quantitative grooves 3.In the present embodiment, passage Integration module is strip, and the longitudinal section of passage integration module is rectangle, and passage one and passage two are exactly in passage integration module Inside opens up two passes formation.

Control valve is provided with passage integration module 14, passage 2 142 includes horizontal channel 1421 and vertical passage 1422, one end of horizontal channel 1421 is connected with overall channel is flowed into, the other end and vertical passage of horizontal channel 1421 1422 one end is connected, and the other end of vertical passage 1422 is connected with lead stove；Control valve includes actuating unit 15（Such as gas Cylinder or servomotor mechanism）And the bar 16 that dams being connected with actuating unit 15, under the drive of actuating unit 15, dam bar 16 Can vertically move up and down；

The other end of horizontal channel 1421 is set to circular cone shape vestibule with one end place of being connected of vertical passage 1422 17, control one end of the bar 16 that dams of valve to be connected with actuating unit 15, the other end of the bar 16 that dams is set to circular cone shape, Under the drive of actuating unit 15, the other end of the circular cone shape of bar 16 that dams can be inserted into circular cone shape vestibule 17 or from circle Extracted out in frustum vestibule 17, so that the switching state between controlled level passage 1421 and vertical passage 1422.Using control Switching state between valve controlled level passage and vertical passage, so as to conveniently quantitative groove is carried out fluid injection or Stop fluid injection.

As shown in Figure 3 and Figure 4, the bottom surface of each quantitative groove 3 is higher than and corresponding to described each quantitative groove Lined up higher than confluxing with corresponding to every shaping channel the bottom surface of shaping channel 8, every bottom surface of shaping channel 8 The bottom surface of die cavity 1.So set so that quantitative to form step-like structure between groove, shaping channel and bus-bar forming cavity, To in bus-bar die cavity during injection moulding liquid, by the setting of above-mentioned step-like structure, the shaping in quantitatively groove can be just caused Liquid energy is all smoothly flowed into bus-bar die cavity and is molded, and improves the Forming Quality and shaping efficiency of bus-bar.

The bottom surface of the bottom surface of each quantitative groove 3 and every shaping channel 8 is all provided with being set to inclined-plane, so that shaping dope Flow more smooth, further increase the Forming Quality and shaping efficiency of bus-bar.

It should be noted that be provided with electric heating tube and warming plate on mould entirely quantifying, to ensure that it is tieed up Hold in certain condition of high temperature so that work can be smooth." multiple " described in the present embodiment be refer to " two or The quantity of two or more ".

To sum up, the utility model is controlled, carries by setting quantitative groove, quantity of formed that can be very accurately to bus-bar The product quality of lead-acid accumulator high, reduces the product cost of lead-acid accumulator.By setting plate controlling switch structure, Feed liquor can be synchronized to multiple bus-bar die cavities, it is ensured that the Forming Quality of bus-bar and improve bus-bar shaping effect Rate.Using the switching state controlled between valve controlled level passage and vertical passage, so as to conveniently to quantitative groove Carry out fluid injection or stop fluid injection.Step-like structure will be arranged between quantitative groove, shaping channel and bus-bar forming cavity, can be made Whole being smoothly flowed into bus-bar die cavity of the shaping liquid energy in groove must be quantified to be molded, the shaping of bus-bar is improve Quality and shaping efficiency.

Above example is only for illustration of the utility model, rather than to limitation of the present utility model, relevant technical field Technical staff in the case where spirit and scope of the present utility model are not departed from, can also make a variety of changes or convert, because This all equivalent technical scheme should also belong to protection domain of the present utility model, and protection domain of the present utility model should be by Each claim is limited.

Claims (7)

1. a kind of fixed amount formula mould of lead-acid storage battery busbar, including mould and it is arranged on mould Multiple bus-bar die cavities, it is characterised in that：Multiple quantitative grooves are additionally provided with mould, a quantitative groove correspondence sets Put at a bus-bar die cavity, one end of each quantitative groove with a bus-bar corresponding to described each quantitative groove Die cavity is connected, on mould and positioned at one end of each quantitative groove and a remittance corresponding to described each quantitative groove Being additionally provided between stream row's die cavity can control each quantitative groove with a bus-bar type corresponding to described each quantitative groove The controlling switch of switching between chamber, is additionally provided with multiple overfalls on mould, and an overfall is correspondingly arranged at one At the other end of quantitative groove, the other end of each quantitative groove and a spilling corresponding to described each quantitative groove Mouth is connected, and multiple shaping liquid flow inlets, a shaping liquid flow inlet and a quantitative groove are additionally provided with mould It is connected.

2. the fixed amount formula mould of lead-acid storage battery busbar according to claim 1, it is characterised in that：It is described into Pattern tool includes die ontology and die cover plate；Quantitative groove is arranged on die ontology, and overfall is arranged on die cover plate, Each overfall is groove-like, the other end of each quantitative groove and a groove corresponding to described each quantitative groove One end of shape overfall is connected；A plurality of overflow channel is additionally provided with die ontology, an overflow channel is correspondingly arranged at At an other end for groove-like overfall, the other end of each groove-like overfall is overflow with described each groove-like A corresponding overflow channel of outlet is connected.

3. the fixed amount formula mould of lead-acid storage battery busbar according to claim 2, it is characterised in that：Each is determined The one end for measuring groove is opening shape, and a plurality of shaping channel is additionally provided with die ontology, and a shaping channel is correspondingly arranged In an end for quantitative groove, one end of each quantitative groove passes through a shaping channel and described each quantitative groove institute A corresponding bus-bar die cavity is connected；

Quantify on die ontology and positioned at multiple and guide groove one, the controlling switch are provided between groove and a plurality of shaping channel It is plate, plate is arranged in guide groove one and plate can in the horizontal direction come up along guide groove one, it is dynamic to move back；Plate include plate body and Be arranged on the multiple openings on plate, the corresponding control one in each opening it is quantitative between groove and a shaping channel it is logical, Disconnected state.

4. the fixed amount formula mould of lead-acid storage battery busbar according to claim 3, it is characterised in that：It is multiple into Type liquid flow inlet is arranged on die cover plate, and multiple shaping liquid flow inlet is groove-like, and each quantitative groove is every with described One end of groove-like shaping liquid flow inlet corresponding to individual quantitative groove is connected, and is additionally provided with the die ontology A plurality of flow channel, one groove-like shaping liquid flow inlet of a flow channel correspondence, each groove-like shaping liquid flow inlet Other end is connected with a flow channel corresponding to described each groove-like shaping liquid flow inlet.

5. the fixed amount formula mould of lead-acid storage battery busbar according to claim 4, it is characterised in that：Each is determined The bottom surface for measuring groove is higher than and a bottom surface for shaping channel corresponding to described each quantitative groove, every bottom of shaping channel Face is higher than and a bottom surface for bus-bar forming cavity corresponding to every shaping channel.

6. the fixed amount formula mould of lead-acid storage battery busbar according to claim 5, it is characterised in that：Each is determined The bottom surface of the bottom surface and every shaping channel of measuring groove is all provided with being set to inclined-plane.

7. the fixed amount formula mould of the lead-acid storage battery busbar according to claim 4,5 or 6, it is characterised in that： Inflow overall channel is additionally provided with die ontology, a plurality of flow channel is connected with inflow overall channel；In die ontology Passage integration module is additionally provided with sidepiece, passage one and passage two is provided with passage integration module, flow into overall channel with Passage two is connected, and passage two is connected with lead stove again；

Control valve is provided with passage integration module, passage two includes horizontal channel and vertical passage, one end of horizontal channel It is connected with overall channel is flowed into, the other end of horizontal channel is connected with one end of vertical passage, other the one of vertical passage End is connected with lead stove；Control valve includes actuating unit and the bar that dams being connected with actuating unit, in the drive of actuating unit Under, the bar that dams can be moved up and down vertically；

The other end of horizontal channel is set to circular cone shape vestibule with one end place of being connected of vertical passage, controls damming for valve One end of bar is connected with actuating unit, and the other end of the bar that dams is set to circular cone shape, under the drive of actuating unit, cuts The other end of flow post circular cone shape can be inserted into circular cone shape vestibule or be extracted out from circular cone shape vestibule, so as to control water Switching state between flat passage and vertical passage.