CN203721821U

CN203721821U - Equipment for manufacturing continuous curved surface grid of lead-acid storage battery

Info

Publication number: CN203721821U
Application number: CN201320722134.5U
Authority: CN
Inventors: 张戌有; 王二帅; 胡勇; 冉顺治; 冯占生; 马辉; 王廷光; 张明岩; 何清
Original assignee: BAODING GOLDEN SUNLIGHT POWER EQUIPMENT TECHNOLOGY Co Ltd
Current assignee: BAODING GOLDEN SUNLIGHT POWER EQUIPMENT TECHNOLOGY Co Ltd
Priority date: 2013-11-17
Filing date: 2013-11-17
Publication date: 2014-07-16
Anticipated expiration: 2023-11-17

Abstract

The utility model discloses equipment for manufacturing a continuous curved surface grid of a lead-acid storage battery. The equipment comprises an uncoiler, a speed regulation component A, a leveling buffer machine, a feeder, a curved surface grid multi-station progressive stamping die, a press, a speed regulation component B, a winding machine or a buffer feeder and a control system, wherein the curved surface grid multi-station progressive stamping die comprises a guide hole blanking module, a planar mesh blanking module, an embossing module, a bending module and a tab hole and scrap edge blanking module which are arranged on a same overall die carrier and performs guide hole punching, planar mesh punching, surface embossing, planar mesh bending deformation and tab and cut scrap edge punching on lead or lead alloy strips fed into the press through the uncoiler, the speed regulation component A, the leveling buffer machine and the feeder to form the continuous curved surface grid. High-efficiency processing and high-precision processing of the continuous curved surface grid are realized, so that the production of continuous polar plates with high active substance full-filling ratio and high bonding strength is met.

Description

A kind of manufacturing equipment of lead acid accumulator continuous curve surface grid

Technical field

The utility model belongs to storage battery and manufactures field, relates to a kind of manufacturing equipment of lead acid accumulator plate grid.

Background technology

Grid plays a part carrying active material and conduction in polar plate of lead acid storage battery, and the gauge of grid has determined the amount of its active material that can carry, and the planform of grid affects grid and the bond strength of the active material that carries.At present, grid for lead-acid storage batteries is mostly plane grid, so-called plane grid is that the inner rib thickness of grid equates with slab lattice thickness or about equally, whole grid is porous flat plate shape, the grid of this plane makes active material attached to it be divided into some approximate independently unit by rib and frame, due to reasons such as the bending in the dry contraction of active material and use procedure, vibrations, the bond strength of active material and grid is lower, thereby easily causes coming off of active material to affect battery.In addition, because the full-filling thickness of active material can only exceed 0.1～0.2mm of grid face, therefore the full-filling amount of plane grid active material is less, if increasing active material full-filling amount, wish needs to increase slab lattice thickness, the increase of slab lattice thickness and weight can make the full-filling ratio of active material decline, and the method for this increase active material can not meet the demand of high-performance power type or the production of accumulating type lead acid accumulator.

In order to increase full-filling ratio, people are studying a kind of Curved-surface grid, attempt, on the basis of plane grid, grid flexural deformation is formed to curved face type grid, the integral thickness of curved face type grid depends on crooked maximum height, thereby curved face type slab lattice thickness is greater than rib thickness, under the constant prerequisite of grid dimensional weight, its active material full-filling amount will be far longer than plane grid, and because the curved shape of grid makes active material to be interconnected and to be formed an integral body by sweep, strengthened the bond strength of active material and grid, curved face type grid is a kind of mode of optimizing structure that increases active material full-filling ratio and guarantee to have between active material and grid good bond strength.

At present, curved face type grid is a research direction, and the manufacturing equipment of existing plane grid can only complete the manufacture of plane grid, and it can not complete the manufacture of curved face type grid, there is no at present the manufacturing equipment of curved face type grid.If while adopting punching mode to manufacture Curved-surface grid, the stress influence being out of shape by bending in forming process can change original size of grid, although can be before brake forming pre-compensation, but because of interrelated between flexural deformation degree and grid precompensation size, need repeatedly test and can determine its amount of pre-compensation, its scale error is difficult control more greatly and extremely; In addition, storage battery manufacture is at present to low consumption, efficient future development, the making of grid has become the main flow of current grid development continuously, continuously in the brake forming process of grid, adjacent twice brake forming meeting produces mutually to be interfered, and makes in type part again produce interference deformation, affects the geomery of molded part.Therefore, a kind of rationally efficient Curved-surface grid manufacturing equipment becomes the key that high-performance curved face type accumulator plate is manufactured.

Utility model content

The purpose of this utility model is to provide a kind of manufacturing equipment of lead acid accumulator continuous curve surface grid, realizes highly-efficient processing and the high accuracy processing of continuous curve surface grid, to meet the production of the continuous pole plate of high activity material full-filling ratio and high bond strength.

For achieving the above object, technical solution of the present utility model is: a kind of manufacturing equipment of lead acid accumulator continuous curve surface grid, it comprises uncoiler, the speed governing assembly A of displacement transducer is installed, smoothing buffer, feeder, forcing press, Curved-surface grid multi-station progressive stamping mould, the speed governing assembly B of displacement transducer is installed, winder and control system or comprise uncoiler, the speed governing assembly A of displacement transducer is installed, smoothing buffer, feeder, forcing press, Curved-surface grid multi-station progressive stamping mould, the speed governing assembly B of displacement transducer is installed, buffering feeder and control system, the lead of rolling in advance or lead alloy web-like band are launched by uncoiler and deliver to smoothing buffer behind the detection control areas of speed governing assembly A, lead or lead alloy band are delivered to the feeder that is installed on forcing press front end after smoothing buffer smoothing, feeder is sent into lead or lead alloy band in the Curved-surface grid multi-station progressive stamping mould being installed on forcing press in step feeding mode, by the continuous band-shaped Curved-surface grid of mould punching moulding behind the detection control area of speed governing assembly B, deliver to winder batch or deliver to buffering feeder export subsequent handling to, speed governing assembly A, speed governing assembly B, smoothing buffer, transducer on forcing press and winder is controlled uncoiler by control system, smoothing buffer, feeder, speeds match between forcing press and winder, so that lead or lead alloy band are at uncoiler, speed governing assembly A, between smoothing buffer and feeder, continuous curve surface grid is at forcing press, between speed governing assembly B and winder, can not pile up or break, or speed governing assembly A, speed governing assembly B, smoothing buffer, transducer on forcing press and buffering feeder is controlled uncoiler by control system, smoothing buffer, feeder, speeds match between forcing press and buffering feeder, so that lead or lead alloy band are at uncoiler, speed governing assembly A, between smoothing buffer and feeder, continuous curve surface grid is at forcing press, between speed governing assembly B and buffering feeder, can not pile up or break, the step motion frequency of the stepping type intermittent motion of feeder is identical with the ramming motion frequency of forcing press,

Described Curved-surface grid multi-station progressive stamping mould is arranged in forcing press, and it comprises correcting hole stamping-out module, plane net grid stamping-out module, embossing module, crooked module and lug hole and the rim charge stamping-out module being arranged on same whole mould bases; The feeding step pitch of mould is that a stamping-out unit is along the length on feed direction; Modular mould structure is convenient to maintenance, the maintenance of mould, saves die cost; In plane net grid stamping-out module, crooked module and lug hole and rim charge stamping-out module, be all provided with grid on the pilot pin that matches of the correcting hole of punching;

Described plane net grid stamping-out module comprises four stamping-out work steps, and by interlacing, the leapfrog mode of leaving a blank every row distributes the blanking punch on each stamping-out work step, and the blanking punch on four stamping-out work steps adds up and is a blanking punch that stamping-out unit is required; Stamping-out unit is comprised of a slice, two or Multi-piece slab lattice;

Described crooked module comprises upper and lower mould bases, upper and lower bending die, upper and lower elastic material plate and two groups upper and lower spacing; Two groups upper and lower spacing is separately fixed on upper and lower mould bases, and it respectively and between upper and lower mould bases, form spacing die cavity one young, that chamber is large matches with upper and lower elastic material plate outer wall; Upper and lower elastic material plate is placed in spacing die cavity, and it is provided with compression elastic element respectively and between upper and lower mould bases; On upper and lower elastic material plate, be respectively equipped with the upper and lower perforation groove matching with upper and lower bending die, upper and lower bending die is placed in respectively in upper and lower perforation groove, and is separately fixed on upper and lower mould bases; Upper and lower elastic material plate can slide along upper and lower spacing madial wall and upper and lower bending die sidewall respectively; On upper elastic material plate lower surface and lower elastic material plate upper surface, be respectively equipped with the binder surface that matches of frame that does not need distortion with Curved-surface grid; The lower position of upper elastic material plate binder surface is lower than the minimum point of upper bending die flexure plane, and the upper limit position of lower elastic material plate binder surface is higher than the peak of lower bending die flexure plane; On the flexure plane of upper and lower bending die, be distributed with shape between two flexure planes after matched moulds with by a male and fomale(M&F) that stamping-out cell configuration matches of bending continuous curve surface grid; The frictional force that the elastic pressure of upper and lower elastic material plate makes upper and lower elastic material plate and do not carry out producing between crooked frame is greater than attenuation bend tension power all the time.

The binder surface of described upper elastic material plate lower surface and the binder surface of lower elastic material plate upper surface are along distributing on feed direction, the length dimension of its binder surface is greater than the flexure plane of upper and lower bending die along the length dimension on feed direction, and difference in size is greater than 2 times of continuous strand veil grid flexural deformation interference radius; The flexure plane of upper and lower bending die is greater than the feeding step pitch of mould along the length dimension on feed direction, and difference in size is greater than 2 times of continuous strand veil grid flexural deformation interference radius; Continuous strand veil grid when described continuous strand veil grid flexural deformation interferes radius to refer to flexural deformation outside deformed region are affected by deformation force and produce the maximum extension width of interfering deformation part.It is applicable to longitudinal frame and all manufactures of crooked Curved-surface grid of lengthways of rod.

Described Curved-surface grid, establishes with frame and the rib of lug place frame perpendicular and is respectively longitudinal frame and lengthways of rod, and lug place frame is respectively horizontal frame and horizontal rib with frame and the rib parallel with lug place frame; Described by the flexural deformation of plane grid is bends to two longitudinal frames and lengthways of rod to meet the desired full curve shape with obvious crest and trough of Curved-surface grid; Laterally rib is rectilinear form, and it is between the adjacent peaks and trough of lengthways of rod, and laterally the upper surface of rib or lower surface and grid plane have angle.

The curve with obvious crest and trough described above, its crest is identical with size with trough shape, layout is reverse, and the spacing between adjacent peaks and trough equates.Its making is easier, carries cream more even.

Each longitudinal frame described above and each lengthways of rod or each lengthways of rod are to be parallel to the crest or the trough that distribute on the same position of horizontal frame consistent.

Adjacent lengthways of rod described above is to be parallel to the crest or the trough that distribute on the same position of horizontal frame contrary.

The curve with obvious crest and trough described above is formed separately or is constituted by circular arc line, straight line, formula curve, arbitrary curve.

The binder surface of upper elastic material plate lower surface described above and the binder surface of lower elastic material plate upper surface are having distribution along feed direction with on perpendicular to feed direction, at the binder surface along on feed direction and the flexure plane that is more than or equal to respectively upper and lower bending die perpendicular to the length dimension of the binder surface on feed direction along on feed direction and perpendicular to the length dimension on feed direction; And the flexure plane of upper and lower bending die equals the poor of the feeding step pitch of mould and 2 times of longitudinal edge width of frame T at the length dimension along on feed direction.It is applicable to only have the manufacture of the Curved-surface grid of lengthways of rod bending.

Described Curved-surface grid, establishes with frame and the rib of lug place frame perpendicular and is respectively longitudinal frame and lengthways of rod, and lug place frame is respectively horizontal frame and horizontal rib with frame and the rib parallel with lug place frame; Described is that lengthways of rod is bent to and meets the desired full curve shape with obvious crest and trough of Curved-surface grid by the flexural deformation of plane grid; Laterally rib is rectilinear form, and it is between the adjacent peaks and trough of lengthways of rod, and laterally the upper surface of rib or lower surface and grid plane have angle.

The distance of the lower position of upper elastic material plate binder surface described above and the minimum point of upper bending die flexure plane is of a size of H1S, the distance of the upper surface of upper elastic material plate and top mold frame bottom surface is of a size of H2S, the distance of the upper limit position of lower elastic material plate binder surface and the peak of lower bending die flexure plane is of a size of H1X, the distance of the lower surface of lower elastic material plate and lower mold holder upper surface is of a size of H2X, the gauge of Curved-surface grid is H, lead alloy band or plumbous tape thickness are of a size of S, have following relation: H2X-H1X=(H-S)/2 between its size; H2S-H1S>(H-S)/2.Its size is for guaranteeing that the symmetrical centre face of the unbent seal ring thickness direction of curved face type grid is consistent with the symmetrical centre face of curved face type slab lattice thickness direction, and the binder effect of holding pad can not produce and interfere the flecition of grid, has guaranteed crooked accuracy of gauge.

In plane net grid bending deformation process of the present utility model, do not carry out crooked frame all the time upper, under the elastic pressure effect of lower elastic material plate, and this elastic pressure makes, lower elastic material plate and the frictional force of not carrying out producing between crooked frame are greater than attenuation bend tension power all the time, thereby do not carry out crooked grid frame in the effect of the frictional force movement that can not deform, it is crooked that flexural deformation part produces even attenuation, therefore the outside dimension of the Curved-surface grid after flexural deformation is consistent with the plane grid outside dimension before bending, thereby guaranteed the dimensional accuracy of Curved-surface grid, and needn't pre-compensation distortion.And for being only parallel to the upper of binder surface that distribute on feed direction, lower elastic material plate, because the length dimension of binder surface is greater than, the flexure plane of lower bending die is along the length dimension on feed direction, on, when lower bending die carries out flexural deformation to banded continuous net grid, upper, the interference deformation that adjoins flexural deformation position under the pressure limit effect of lower elastic material plate can not exert an influence to net grid outside dimension, again due to upper, the flexure plane of lower bending die is being parallel to length dimension on feed direction and is being greater than the feeding step pitch of mould, therefore can proofread and correct the interference deformation of last time crooked generation, thereby guaranteed the size accuracy of continuous net grid.Device structure of the present utility model is simple, easy to use, and cost is low.Multi-station progressive stamping mould is used on same whole mould bases, the functional modules such as correcting hole stamping-out module, plane net grid stamping-out module, embossing module, crooked module, lug hole and rim charge stamping-out module are relatively independent, can be according to each functional module of the different demand change different structures of grid moulding, modular mould structure is convenient to maintenance, the maintenance of mould, saves die cost.

Accompanying drawing explanation

Fig. 1 is the rough package drawing of the utility model the first embodiment;

Fig. 2 is the rough package drawing of the utility model the second embodiment;

Fig. 3 is the structural representation of the utility model mean camber grid multi-station progressive stamping mould;

Fig. 4 is the structural representation of a stamping-out unit in the utility model;

Fig. 5 is the structural representation of the utility model midplane net grid stamping-out module;

Fig. 6 be in the utility model upper and lower bending die perpendicular to the cross section structure schematic diagram of feed direction;

Fig. 7 be in the utility model longitudinally frame and lengthways of rod all crooked upper and lower bending die along the cross section structure schematic diagram of feed direction;

The structural representation of upper and lower bending die when Fig. 8 is the utility model mean camber grid multi-station progressive stamping mould matched moulds;

Fig. 9 be the longitudinal frame of the utility model and lengthways of rod all the axle of crooked single Curved-surface grid measure intention;

Figure 10 is the AA cutaway view of Fig. 9;

Figure 11 be the longitudinal frame of the utility model and lengthways of rod all the axle of crooked continuous curve surface grid measure intention;

Figure 12 is the utility model mean camber grid multi-station progressive stamping die stamping process schematic representation;

Figure 13 is the structural representation of the upper bending die of a lengthways of rod bending in the utility model;

Figure 14 is the structural representation of the lower bending die of a lengthways of rod bending in the utility model;

Figure 15 is that the upper and lower bending die of a lengthways of rod bending in the utility model is along the cross section structure schematic diagram of feed direction.

Embodiment

Below in conjunction with embodiment and accompanying drawing, the utility model is described further.

The embodiment 1 of the manufacturing equipment of the continuous net type slab lattice of lead acid accumulator as shown in Fig. 1, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, Fig. 9, Figure 10, Figure 11 and Figure 12, it comprises uncoiler 1, the speed governing assembly A 2 of displacement transducer is installed, smoothing buffer 3, feeder 4, forcing press 5, Curved-surface grid multi-station progressive stamping mould 6, speed governing assembly B 9, winder 7 and the control system of displacement transducer are installed.The lead of rolling in advance or lead alloy web-like band 10 are launched and deliver to behind the detection control area of speed governing assembly A 2 smoothing buffer 3 by uncoiler 1, again by delivering to the feeder 4 that is installed on forcing press 5 front ends after 3 smoothings of smoothing buffer, feeder 4 is sent in the Curved-surface grid multi-station progressive stamping mould 6 being installed on forcing press 5 by lead or lead alloy band 10 in step feeding mode, by mould 6, carry out punching correcting hole, the punching plane net grid that four stamping-out work steps that distribute every the leapfrog mode of leaving a blank of arranging by interlacing complete, surface embossed, by the flexural deformation of plane net grid, punching lug and cut rim charge and form continuous curve surface grid, lead or the punch machining process of lead alloy band 10 in mould 6 are as shown in figure 12.The continuous band-shaped Curved-surface grid 11 of punch forming is delivered to winder 7 behind the detection control area of speed governing assembly B 9 to be batched.Transducer on speed governing assembly A 2, speed governing assembly B 9, smoothing buffer 3, forcing press 5 and winder 7 is controlled the speeds match between uncoiler 1, smoothing buffer 3, feeder 4, forcing press 5 and winder 7 by control system, so that lead or lead alloy band 10 between uncoiler 1, smoothing buffer 3 and feeder 4, continuous curve surface grid 11 transmits with harmonious speed between forcing press 5 and winder 7, can not pile up or break.The step motion frequency of the stepping type intermittent motion of feeder 4 is identical with the ramming motion frequency of forcing press 5.Described punching plane net grid, by the flexural deformation of plane net grid, to make lug and cut rim charge be all to do baseline positioning hole with the correcting hole of punching on grid.

Described Curved-surface grid multi-station progressive stamping mould 6 is arranged in forcing press 5, if it comprises that correcting hole stamping-out module 6-1, plane net grid stamping-out module 6-2, embossing module 6-3, crooked module 6-4 and the lug hole and the rim charge stamping-out module 6-5(grid that are arranged on the same whole mould bases being comprised of the guidance set 6-7 being comprised of guide pillar, guide pin bushing, lining and spring, upper and lower die holder 6-6 and 6-8 do not need embossing, can remove embossing module; If do not need rim charge stamping-out, lug hole and rim charge stamping-out module only have lug hole stamping-out function).The feeding step pitch of mould is that a stamping-out unit is along the length on feed direction.On plane net grid stamping-out module 6-2, crooked module 6-4 and lug hole and rim charge stamping-out module 6-5, have with grid on the pilot pin that matches of correcting hole.Plane net grid stamping-out module 6-2 comprises that four stamping-out work step 6-21,6-22,6-23 and 6-24 form, by interlacing, the leapfrog mode of leaving a blank every row distributes the upper blanking punch 12,13,14 of each stamping-out work step 6-21,6-22,6-23 or 6-24 and 15, and the blanking punch 12,13,14 on four stamping-out work step 6-21,6-22,6-23 and 6-24 and 15 stacks are a blanking punch (1/4 left and right that the blanking punch on each stamping-out work step is required whole blanking punches) that stamping-out unit 17 is required.A stamping-out unit 17 of the present embodiment is comprised of a slice grid, and it also can be as required comprised of two or Multi-piece slab lattice.16 is the grid hole of punching on stamping-out unit 17, and 18 is lug.

Crooked module 6-4 comprises upper and lower mould bases 6-14,6-15, upper and lower bending die 6-11,6-13, upper and lower elastic material plate 6-9,6-12 and two groups of upper and lower spacing 6-16,6-17.It is upper that two groups of upper and lower spacing 6-16,6-17 are fixed on upper and lower mould bases 6-14,6-15 by screw respectively, forms spacing die cavity one young, that chamber is large matches with upper and lower elastic material plate 6-9,6-12 outer wall between itself and upper and lower mould bases 6-14,6-15.Upper and lower elastic material plate 6-9,6-12 are placed in spacing die cavity, and also other compression elastic element of Compress Spring 6-10(is installed between itself and upper and lower mould bases 6-14,6-15).It is upper that Compress Spring 6-10 is enclosed within spring stack 6-18, and spring stack 6-18 is fixed on upper and lower elastic material plate 6-9,6-12 upper (also can remove as required spring stack 6-18).On upper and lower elastic material plate 6-9,6-12, be respectively equipped with the perforation groove matching with upper and lower bending die 6-11,6-13.Upper and lower bending die 6-11,6-13 are placed in respectively and connect in groove, and are fixed on upper and lower mould bases 6-14,6-15 by screw.Upper and lower elastic material plate 6-9,6-12 can slide along upper and lower spacing 6-16,6-17 madial wall and upper and lower bending die 6-11,6-13 sidewall respectively.On upper elastic material plate 6-9 lower surface and lower elastic material plate 6-12 upper surface along being respectively equipped with the binder surface 6-20 that matches of horizontal frame 19 that does not need distortion with Curved-surface grid on feed direction.The length dimension L1 of its binder surface 6-20 is greater than the flexure plane 6-28 of upper and lower bending die along the length dimension L on feed direction, and difference in size L1-L is greater than 2 times of continuous strand veil grid flexural deformation interference radius.The flexure plane 6-28 of upper and lower bending die is greater than the feeding step pitch of mould along the length dimension L on feed direction, and difference in size is greater than 2 times of continuous strand veil grid flexural deformation interference radius.The lower position of upper elastic material plate 6-9 binder surface 6-20 is lower than the minimum point of lower bending die flexure plane 6-28, and the upper limit position of lower elastic material plate 6-12 binder surface 6-20 is higher than the peak of lower bending die flexure plane 6-28.The distance of the lower position of upper elastic material plate 6-9 binder surface 6-20 and the minimum point of upper bending die flexure plane 6-28 is of a size of H1S, the distance of the upper surface of upper elastic material plate 6-9 and top mold frame 6-14 bottom surface is of a size of H2S, the distance of the upper limit position of lower elastic material plate 6-12 binder surface 6-20 and the peak of lower bending die flexure plane 6-28 is of a size of H1X, the distance of the lower surface of lower elastic material plate 6-12 and lower mold holder 6-15 upper surface is of a size of H2X, the gauge of Curved-surface grid is H, lead alloy band or plumbous tape thickness are of a size of S, between its size, there is following relation: H2X-H1X=(H-S)/2, H2S-H1S>(H-S)/2.On the flexure plane 6-28 of upper and lower bending die 6-11,6-13, be distributed with respectively shape between two flexure planes after matched moulds with by a male and fomale(M&F) that stamping-out unit 17 shapes match of bending continuous curve surface grid.And upper and lower elastic material plate 6-9,6-12 elastic pressure make the frictional force producing between upper and lower elastic material plate 6-9,6-12 and horizontal frame 19 be greater than all the time attenuation bend tension power.

As shown in Figure 9 and Figure 10, it comprises the lug 18 arranging on the inner many ribs that arrange of frame, frame and frame to a slice Curved-surface grid shape that the present embodiment is made.Be respectively longitudinal frame 20 and lengthways of rod 21 with frame and the rib of lug 18 place frame perpendicular, lug place frame is respectively horizontal frame 19 and horizontal rib 22 with frame and the rib parallel with lug place frame.Frame comprises longitudinal frame 20 and horizontal frame 19, and rib comprises lengthways of rod 21 and horizontal rib 22.Lengthways of rod 21 and laterally rib 22 are woven into rib net.Longitudinally frame 20 and lengthways of rod 21 are for having the full curve shape of obvious crest and trough.Laterally rib 22 be rectilinear form, and it and has angle between the upper surface 23 of horizontal rib 22 and grid plane between the adjacent peaks and trough of lengthways of rod 21, and the angle in the present embodiment is 45° angle, and it also can be set to other angle as required.It makes the adhesive ability of active material and grid best.(laterally rib 22 along grid longitudinally upper surface 23 also can arrange as required parallel with grid plane.) curve in the present embodiment with obvious crest and trough is continuous arc curve, its crest is identical with size with trough shape, arrange oppositely, and the spacing between adjacent peaks and trough equates; Crest or the trough on the same position that is parallel to horizontal frame 19, (namely making the parallel lines of horizontal frame 19, each longitudinal frame 20 and each lengthways of rod 21 position crossing with these parallel lines) and distribute are consistent.(its adjacent lengthways of rod also can be set as required to be parallel to the crest or the trough that distribute on the same position of horizontal frame contrary.) curve in addition with obvious crest and trough can form separately or be constituted by circular arc line, straight line, formula curve, arbitrary curve.

As Fig. 1, Fig. 3, Fig. 4, Fig. 5, Fig. 8, Figure 12, Figure 13, the embodiment 2 of the manufacturing equipment of the continuous net type slab lattice of lead acid accumulator shown in Figure 14 and Figure 15, other structure is with embodiment 1, the binder surface 6-25 of just upper elastic material plate 6-9 lower surface and the binder surface 6-25 of lower elastic material plate 6-12 upper surface are having distribution along feed direction with on perpendicular to feed direction, at the binder surface 6-25 along on feed direction with perpendicular to the length dimension of the binder surface 6-25 on feed direction, be more than or equal to respectively, lower bending die 6-11, the flexure plane 6-26 of 6-13 is along on feed direction and perpendicular to the length dimension on feed direction, and the flexure plane 6-26 of upper and lower bending die 6-11,6-13 equals the poor of the feeding step pitch of mould and 2 times of longitudinal edge width of frame T at the length dimension along on feed direction.It is applicable to only have the manufacture of the Curved-surface grid of lengthways of rod bending.The shape of crooked Curved-surface grid is also with embodiment 1, and only crooked lengthways of rod becomes to meet the desired full curve shape with obvious crest and trough of Curved-surface grid, and two longitudinal frames are not crooked.6-27 is arranged on lower bending die 6-13 above and is arranged on the correcting circular groove that the pilot pin 6-29 on bending die 6-11 matches.

The embodiment 3 of the manufacturing equipment of the continuous net type slab lattice of lead acid accumulator as shown in Figure 2, except winder 7 being replaced with buffering feeder 8, other structure is with embodiment 1 or embodiment 2, and embodiment 3 is applicable to directly be connected with postorder equipment use.

Stamping-out unit in above-mentioned three kinds of embodiment when more than two and two grid forms, the monoblock that the upper and lower bending die of crooked module matches with each stamping-out unit, it is arranged in the perforation groove on upper and lower elastic material plate; Also by a plurality of upper and lower minute bending dies that match with monolithic grid each stamping-out unit, formed, and the number of perforation groove on upper and lower elastic material plate is identical with the number of upper and lower minute bending die, a upper and lower minute bending die is arranged on one and connects in groove, to the unbending Curved-surface grid of two longitudinal frames, at the binder surface 6-25 perpendicular on feed direction, there is setting the position between its two ends and perforation groove to upper and lower elastic material plate.

Above-described embodiment is only preferred and exemplary, according to manufacture process requirement of the present utility model, can make various changes to manufacturing equipment of the present utility model, as changed the shape of the flexure plane of upper and lower bending die according to the change of the shape of buckling curve on Curved-surface grid, so that it matches with the shape of the buckling curve of the crooked Curved-surface grid going out.These changes and distortion are all in protection range of the present utility model.

Claims

1. a manufacturing equipment for lead acid accumulator continuous curve surface grid, it comprises uncoiler, the speed governing assembly A of displacement transducer is installed, smoothing buffer, feeder, forcing press, the speed governing assembly B that displacement transducer is installed and winder or comprise uncoiler, speed governing assembly A, smoothing buffer, feeder, forcing press, the speed governing assembly B that displacement transducer is installed and the buffering feeder of displacement transducer are installed, it is characterized in that: it also comprises Curved-surface grid multi-station progressive stamping mould and control system, speed governing assembly A, speed governing assembly B, smoothing buffer, transducer on forcing press and winder is controlled uncoiler by control system, smoothing buffer, feeder, speeds match between forcing press and winder, so that lead or lead alloy band are at uncoiler, speed governing assembly A, between smoothing buffer and feeder, continuous curve surface grid is at forcing press, between speed governing assembly B and winder, can not pile up or break, or speed governing assembly A, speed governing assembly B, smoothing buffer, transducer on forcing press and buffering feeder is controlled uncoiler by control system, smoothing buffer, feeder, speeds match between forcing press and buffering feeder, so that lead or lead alloy band are at uncoiler, speed governing assembly A, between smoothing buffer and feeder, continuous curve surface grid is at forcing press, between speed governing assembly B and buffering feeder, can not pile up or break, the step motion frequency of the stepping type intermittent motion of feeder is identical with the ramming motion frequency of forcing press,

Described Curved-surface grid multi-station progressive stamping mould is arranged in forcing press, and it comprises correcting hole stamping-out module, plane net grid stamping-out module, embossing module, crooked module and lug hole and the rim charge stamping-out module being arranged on same whole mould bases; The feeding step pitch of mould is that a stamping-out unit is along the length on feed direction; In plane net grid stamping-out module, crooked module and lug hole and rim charge stamping-out module, be all provided with grid on the pilot pin that matches of the correcting hole of punching;

2. the manufacturing equipment of lead acid accumulator continuous curve surface grid according to claim 1, it is characterized in that: the binder surface of described upper elastic material plate lower surface and the binder surface of lower elastic material plate upper surface are along distributing on feed direction, the length dimension of its binder surface is greater than the flexure plane of upper and lower bending die along the length dimension on feed direction, and difference in size is greater than 2 times of continuous strand veil grid flexural deformation interference radius; The flexure plane of upper and lower bending die is greater than the feeding step pitch of mould along the length dimension on feed direction, and difference in size is greater than 2 times of continuous strand veil grid flexural deformation interference radius; Continuous strand veil grid when described continuous strand veil grid flexural deformation interferes radius to refer to flexural deformation outside deformed region are affected by deformation force and produce the maximum extension width of interfering deformation part.

3. the manufacturing equipment of lead acid accumulator continuous curve surface grid according to claim 1, it is characterized in that: the binder surface of described upper elastic material plate lower surface and the binder surface of lower elastic material plate upper surface are having distribution along feed direction with on perpendicular to feed direction, at the binder surface along on feed direction and the flexure plane that is more than or equal to respectively upper and lower bending die perpendicular to the length dimension of the binder surface on feed direction along on feed direction and perpendicular to the length dimension on feed direction; And the flexure plane of upper and lower bending die equals the poor of the feeding step pitch of mould and 2 times of longitudinal edge width of frame T at the length dimension along on feed direction.

4. according to the manufacturing equipment of the lead acid accumulator continuous curve surface grid described in claim 1 or 2 or 3, it is characterized in that: the distance of the lower position of described upper elastic material plate binder surface and the minimum point of upper bending die flexure plane is of a size of H1S, the distance of the upper surface of upper elastic material plate and top mold frame bottom surface is of a size of H2S, the distance of the upper limit position of lower elastic material plate binder surface and the peak of lower bending die flexure plane is of a size of H1X, the distance of the lower surface of lower elastic material plate and lower mold holder upper surface is of a size of H2X, the gauge of Curved-surface grid is H, lead alloy band or plumbous tape thickness are of a size of S, between its size, there is following relation: H2X-H1X=(H-S)/2, H2S-H1S>(H-S)/2.