CN207651356U - The manufacturing equipment of capacitor battery core - Google Patents

Abstract

A kind of manufacturing equipment of capacitor battery core, including installation frame body, pressing mechanism, cutting mechanism, winding mechanism, gumming mechanism and electronic box, pressing mechanism are set in installation frame body；Cutting mechanism includes conveying positioning module and cuts module, and conveying positioning module is set in installation frame body, is cut module and is set on a side of conveying positioning module；Winding mechanism is set in installation frame body；Gumming mechanism is set in installation frame body, and electronic box is electrically connected with pressing mechanism, cutting mechanism, winding mechanism and gumming mechanism respectively.When manufacturing capacitor battery core, pass through the manufacturing equipment of the capacitor battery core of the utility model, the outer diameter for the capacitor battery core that the production processes such as feeding, extruding, cut-out, winding can be carried out on it successively, not only greatly improve production efficiency, and produced is up to Φ 110；Meanwhile the manufacturing equipment floor space is small, manufacturing cost is low, greatly improves the competitiveness of enterprise.

Description

The manufacturing equipment of capacitor battery core

Technical field

The utility model belongs to the technical field of capacitor, and more specifically, the utility model is related to a kind of capacitor electricity The manufacturing equipment of core.

Background technology

Capacitor is to be formed by oxide film using anodic oxidation in its surface using the aluminum metal of high-purity as anode (oxide film) be used as dielectric (dielectric medium), so that the electrolyte of liquid is close contact in oxide film, separately with the moon The dc capacitor that pole aluminium foil is constituted.But two anode combinations can also be got up, and constitute non-polarized electrolytic capacitor or Exchange with electrolytic capacitor.

Meanwhile because aluminium electrolutic capacitor has the advantages that small, capacity is big and cheap, therefore it is widely used In the bypass (by-pass) of e-machine, coupling circuit (coupling), the guiding principle road (net-work) of horn system, flash lamp, The circuits such as motor starting, continuous exchange.The increased quality of especially recent main material, the progress of manufacturing technology and perfect quality Management.Aluminium electrolutic capacitor is widely used in people's livelihood electrical appliance and various industry electricity consumption devices.With current alminium electrolytic condenser The most commonly used product of device is respectively motherboard, monitor, power supply unit, CD, VCD, DVD sound equipment, television set, channel radio The industries such as news, video recorder, telephone set, modem.

The production procedure of currently manufactured capacitor battery core substantially stocks up, squeezes, cutting off, winding, gluing and blanking, and every A production process needs the corresponding corresponding process equipment of outfit, such as extrusion process to need accordingly to be equipped with extrusion press, cuts off work Sequence, then need to be equipped with cut-out machine, and each production process needs to feed again, feeding, in this way, entire capacitor battery core Production line not only takes up a large area, and production cost is high, and low production efficiency, meanwhile, outside the capacitor battery core produced Diameter size is limited, it is difficult to meet user demand.

As it can be seen that at least having the following defects in the prior art：There are occupation of land faces for the production line of currently manufactured capacitor battery core Accumulate the limited problem of the outer diameter of big, production cost height, low production efficiency and the capacitor battery core produced.

Therefore, it is necessary to provide a kind of technological means to solve drawbacks described above.

Utility model content

The purpose of the utility model is to overcome the defects of the prior art, provide a kind of manufacturing equipment of capacitor battery core, Production line presence to solve manufacture capacitor battery core in the prior art takes up a large area, production cost is high, low production efficiency And the limited problem of outer diameter for the capacitor battery core produced.

The utility model is realized in this way a kind of manufacturing equipment of capacitor battery core, including：

Installation frame body；

Pressing mechanism, the pressing mechanism is set in the installation frame body, to needed for the capacitor battery core sent Positive and negative pole material carries out extrusion process, to mold required proximate matter；

Cutting mechanism, the cutting mechanism is including conveying positioning module and cuts module；The conveying positioning module is set to In the installation frame body, specified location will be delivered to simultaneously via the positive and negative pole material after the pressing mechanism extrusion process The positive and negative pole material is set to position；The module that cuts is set on a side of the conveying positioning module, to will be by described defeated It send positioning module conveying and the positive and negative pole material having good positioning carries out processing of cutting, to cut out needed for the positive and negative pole material Width；

Winding mechanism, the winding mechanism is set in the installation frame body, to the capacitor battery core institute sent The electrolytic paper that needs and coiling process is combined by the positive and negative pole material after the cutting mechanism processing of cutting, with needed for winding The sub-prime of specification；

Gumming mechanism, the gumming mechanism is set in the installation frame body, to the sub-prime wound by winding mechanism It is glued；

Electronic box, the electronic box respectively with the pressing mechanism, the cutting mechanism, the winding mechanism and the gluing machine Structure is electrically connected, to control the work of the pressing mechanism, the cutting mechanism, the winding mechanism and the gumming mechanism.

The technique effect of the manufacturing equipment of the capacitor battery core of the utility model is：

When manufacturing capacitor battery core, by carrying out feeding, extruding, cut-out, winding etc. successively in a manufacturing equipment Production process not only greatly improves production efficiency, and the outer diameter for the capacitor battery core produced is up to Φ 110；Meanwhile the manufacturing equipment floor space is small, manufacturing cost is low, greatly improves the competitiveness of enterprise.

Description of the drawings

Fig. 1 is the stereogram of the manufacturing equipment for the capacitor battery core that the utility model preferred embodiment provides；

Fig. 2 is that the feeding of the feed mechanism of the manufacturing equipment for the capacitor battery core that the utility model preferred embodiment provides drives The arrangement schematic diagram in dynamic source；

Fig. 3 is the signal of the cutting mechanism of the manufacturing equipment for the capacitor battery core that the utility model preferred embodiment provides Figure；

Fig. 4 is the explosive view of the cutting mechanism of the manufacturing equipment of the capacitor battery core of Fig. 3；

Fig. 5 is the signal of the winding mechanism of the manufacturing equipment for the capacitor battery core that the utility model preferred embodiment provides Figure；

Fig. 6 is the explosion of the winding mechanism of the manufacturing equipment for the capacitor battery core that the utility model preferred embodiment provides Figure；

The winding mechanism of the manufacturing equipment for the capacitor battery core that Fig. 7 provides for the utility model preferred embodiment cuts group The schematic diagram of part；

Fig. 8 is the signal of the gumming mechanism of the manufacturing equipment for the capacitor battery core that the utility model preferred embodiment provides Figure.

Specific implementation mode

It should be noted that when element is referred to as " being fixed on " or " being set to " another element, it can be directly another On one element or it may be simultaneously present centering elements.When an element is known as " being connected to " another element, it can To be directly to another element or may be simultaneously present centering elements.

It please refers to Fig.1 to Fig. 8, is a preferred embodiment of the utility model, and the present embodiment provides a kind of capacitor electricity The manufacturing equipment 1 of core, wherein it should be noted that the capacitor battery core is capacitor element.Capacitor element (capacitor element) will be sandwiched among the anode aluminium foil (positive foil) of rivet conductor terminal and cathode aluminum foil (negative foil) Two width electrolytic paper more slightly wider than aluminium foil, and wind together, and the product clung with paste or adhesive tape in end.Most Then the just first winding number layer electrolytic paper on scroll bar sandwiches positive foil and negative foil and being wound to together and needs the length to be respectively again Only.The outermost layer of sub-prime is electrolytic paper, then but negative foil, electrolytic paper, positive foil.Below to the composition component of capacitor element make into One step explanation：

1. anode aluminium foil (Anode Foil)

Also known as positive foil, for aluminium purity 99.9% or more, thickness is about 40-105um, all need to be after galvanic corrosion with chemical conversion treatment Make Surface Creation layer oxide film.

2. cathode aluminum foil (Cathode Foil)

Also known as negative foil, for aluminium purity 99.4% or more, thickness is about 15-60um, is not applied generally in addition to specific use Row chemical conversion treatment, but stabilization processing is implemented, with surface also with the presence of thin film.

3. electrolytic paper or barrier paper (Separator Paper)

Between electrolytic capacitor anode and cathode, the amount for keeping electrolyte abundant prevents from the two poles of the earth from short circuit etc. occurs being Its purpose paper used.For electrolytic capacitor principle of compositionality, as long as there is anode, cathode and in-between electrolyte are It can.But anode need to be made with cathode close proximity to configuring in the business of actual production occasions that manufacture, main reason is still two electricity If the distance of interpolar is too far, then resistance therebetween will be such that the loss of capacitor finished product significantly increases, if while two interpolars only Electrolyte is filled, then shell is just necessary for complete watertightness, and complete watertightness is exceedingly difficult construction.So just having out It has sent out and has sandwiched the capacitor of the Porous electrolytic paper containing dipped electrolyte at the two poles of the earth, such method can not only be such that the two poles of the earth are not sending out It is close as possible under raw short-circuit conditions, and electrolytic paper can fully absorb the electrolyte of slightly viscosity, the watertight of capacitor case Property just need not be excessively harsh.

The manufacture of electrolytic paper is mainly plant fiber with material, with brown paper (Kraft) and abaca in plant fiber The usage amount of (Manika Hemp) is maximum.Brown paper is very tough and cheap, so because its fiber is more flat, so that electrolyte Current path after impregnation is longer, and resistance is still its disadvantage greatly.The fiber shape of abaca circle slightly more close than brown paper, with It is shorter to send a telegraph logical circulation road, resistance is smaller, but higher price；In addition, brown paper and the electrolytic paper of abaca mixed are also extensive It is used.General electrolytic capacitor provided according to its specification in capacitance, the requirement of voltage and resistance selects above-mentioned electrolysis Paper.

4. conductor terminal or guide pin (Lead Wire)

The electrolytic capacitor of rubber sealing construction using conductor terminal be do external terminal --- -- by aluminum steel and CP lines with It is completed after again flattening one end of aluminum steel after high frequency welding.

(1) CP cable architectures system steel core is completed after copper sheet is tin plating.

(2) aluminum steel system is made of the aluminum steel of high-purity, the conductor terminal made by the higher aluminum steel of purity, since it prolongs Malleability is good, and complete with it is left after aluminium foil stud petal, the purity of the good aluminum steels of impedance effect is classified as follows:

G1:90% or more purity

G2:99% or more purity

G3:99.9% or more purity

G4:99.99% or more purity

Aluminum steel should be G3 grades used in general conductor terminal

Specifically, the manufacturing equipment 1 of the capacitor battery core in the present embodiment includes installation frame body 10, feed mechanism, extruding Mechanism 20, cutting mechanism 30, winding mechanism 40 and electronic box 50, below to each composition portion of the manufacturing equipment 1 of the capacitor battery core Part is described further：

Installation frame body 10 is mainly to be made of metal material for component installation settings；

Feed mechanism be set to installation frame body 10 on, to for needed for capacitor battery core electrolytic paper and positive and negative pole material stop It places, and is sent to specified location；Wherein, feed mechanism includes the rotatable feeding transmission active in installation frame body 10 Axis, the rotatable feeding in installation frame body 10 transmit driven shaft and are transmitted actively in installation frame body 10 and with feeding Axis connection is to drive the feeding of feeding transmission driving shaft work to transmit driving source 91, and feeding transmission driving source 91 is preferably electricity Machine, in order to draw materials and installation settings；

Pressing mechanism 20 is set in installation frame body 10, to be carried out to the positive and negative pole material needed for the capacitor battery core sent Extrusion process, to mold required proximate matter；Wherein, which is preferably positive and negative anodes aluminium foil；In addition, the pressing mechanism 20 include an extrusion die, is provided on the extrusion die and squeezes slot 21；

Cutting mechanism 30 is including conveying positioning module 31 and cuts module 32；It conveys positioning module 31 and is set to installation frame body 10 On, will be delivered to specified location via the positive and negative pole material after 20 extrusion process of pressing mechanism and the positive and negative anodes material can be made Anticipate position；It cuts module 32 to be set on a side of conveying positioning module 31, will be conveyed come simultaneously by conveying positioning module 31 The positive and negative pole material having good positioning carries out processing of cutting, to cut out the width needed for the positive and negative pole material；

Winding mechanism 40 be set to installation frame body 10 on, to needed for the capacitor battery core sent electrolytic paper and by cutting off Positive and negative pole material after 30 processing of cutting of mechanism is combined coiling process, to wind the sub-prime of required specification；

Electronic box 50 is electrically connected with feed mechanism, pressing mechanism 20, cutting mechanism 30 and winding mechanism 40 respectively, in control Expect the work of mechanism, pressing mechanism 20, cutting mechanism 30 and winding mechanism 40.

When manufacturing capacitor battery core using the manufacturing equipment 1 of the capacitor battery core of the present embodiment, by ready manufacture electricity Positive and negative pole material and electrolytic paper needed for container battery core are placed at the upper discharge position specified in the manufacturing equipment 1 of capacitor battery core； Then, extrusion process is carried out to positive and negative pole material by pressing mechanism 20, to mold required proximate matter；Followed by by cutting Positive and negative pole material after extrusion process is delivered to specified location by breaking mechanism 30, and the positive and negative pole material is made to position, then will be determined The good positive and negative pole material in position is cut, to cut out the width needed for the positive and negative pole material；By winding mechanism 40 to electrolysis Positive and negative pole material after paper and processing of cutting is combined coiling process, to wind the sub-prime of required specification.As it can be seen that at this The production processes such as feeding, extruding, cut-out, winding are carried out successively in the manufacturing equipment 1 of the capacitor battery core of embodiment, not only significantly Production efficiency is improved, and the outer diameter for the capacitor battery core produced is up to Φ 110；Meanwhile the manufacturing equipment Floor space is small, and manufacturing cost is low, greatly improves the competitiveness of enterprise.

Fig. 3 and Fig. 4 are please referred to, the preferred structure of the conveying positioning module 31 in the present embodiment is comprising conveying positioning Mounting base 311, positive electrode conveying roller component 312, negative material conveying roller component 313, positioning rollers component 314 and fixed Position pushing component 315, and each building block of the conveying positioning module 31 is specially：

Conveying fixed mounted seat 311 is connected in installation frame body 10；

Positive electrode conveying roller component 312 is movable to be set on a side of conveying fixed mounted seat 311, to just Positive electrode in negative material is conveyed；

Negative material conveying roller component 313 it is movable be set to conveying fixed mounted seat 311 another side on, and with just Pole material conveying roller component 312 is oppositely arranged, to be conveyed to the negative material in positive and negative pole material；

Positioning rollers component 314 is set on conveying fixed mounted seat 311, and is located at positive electrode conveying roller component 312 Between negative material conveying roller component 313, to be positioned respectively to positive electrode and negative material；

Positioning pushing component 315 can be set on positioning rollers component 314, and positioning pushing component 314 is moved and touched just Pole material conveying roller component 312, negative material conveying roller component 313, with push positive electrode conveying roller component 312, Negative material conveying roller component 313 makes to be placed in positive electrode conveying roller component 312 and positioning rollers to specified location Positive electrode between component 314, the cathode being placed between negative material conveying roller component 313 and positioning rollers component 314 Material is tightened up positioning.

Wherein, in cut off operation, in order to quick and precisely be cut off to positive electrode and negative material, generally require by Positive electrode and negative material are accurately delivered to specified location, meanwhile, it will also be to being delivered to the positive electrode of specified location It is positioned with negative material, in favor of accurately cutting.Accordingly, defeated by positive electrode conveying roller component 312, negative material The setting for sending roller assembly 313 is conducive to the corresponding conveying to positive electrode and negative material；And by positioning rollers component 314 and positioning pushing component 315 setting, can enable to positive electrode and negative material to be transported to specified location quick Positioning, to ensure the implementation of cut-out step.

And the preferred structure of the positive electrode conveying roller component 312 is comprising positive electrode conveying mounting plate 3121, Above roller bearing 3122 and the lower roller bearing 3123 of positive electrode conveying, positive electrode conveying mounting plate are removable set on defeated for positive electrode conveying It send on a side of fixed mounted seat 311；The upper roller bearing 3122 of positive electrode conveying is rotatably set to positive electrode by a bearing It conveys on mounting plate 3121；The lower roller bearing 3123 of positive electrode conveying is rotatably set to positive electrode by a bearing and conveys mounting plate On 3121, and positioned at upper 3122 lower section of roller bearing of positive electrode conveying, as a result, to ensure the steady conveying of positive electrode.

The preferred structure of negative material conveying roller component 313 is comprising negative material conveys mounting plate 3131, cathode The upper roller bearing 3132 of material conveying and negative material convey lower roller bearing 3133, and negative material conveying installation, 3131 is removable set on defeated It send on another side of fixed mounted seat 311；The upper roller bearing 3132 of negative material conveying is rotatably set to cathode material by a bearing On material conveying mounting plate 3131；The lower roller bearing 3133 of negative material conveying is rotatably set to negative material conveying installation by a bearing On plate 3131, and positioned at upper 3132 lower section of roller bearing of negative material conveying, as a result, to ensure the steady conveying of negative material.

Referring again to Fig. 3 and Fig. 4, the preferred structure of positioning rollers component 314 is comprising location and installation bearing 3141, First positioning rollers 3142 and the second positioning rollers 3143, location and installation bearing 3141 are set on conveying fixed mounted seat 311；The One positioning rollers 3142 by a bearing rotatably be set to location and installation bearing 3141 a side on, to positive electrode into Row positioning；Second positioning rollers 3143 are rotatably set on another side of location and installation bearing 3141 by a bearing, and with First positioning rollers 3142 are oppositely arranged, to be positioned to the negative material.

Positioning pushing component 315 preferred structure be comprising at least two positioning pusher cylinders 3151, and preferably, In order to push positive electrode conveying roller component 312, negative material conveying roller component 313 with ensureing balance and stability, in this reality It applies in example, there are four which sets, also can according to actual needs, and drop positioning pusher cylinder 3151 and set certainly Set two, three, five, six etc., and these embodiments also belong to the protection category of the present embodiment, in addition, below also with Four positioning pusher cylinders 3151 are used as and state；Two of which in four positioning pusher cylinders 3151 is symmetrically set in location and installation Both sides on one side of bearing 3141, and the removable anode for touching positive electrode conveying roller component 312 of its output shaft Material conveys mounting plate 3121；Other two in four positioning pusher cylinders 3151 is symmetrically set in location and installation bearing 3141 Both sides on another side, and the removable negative material conveying for touching negative material conveying roller component 313 of its output shaft Mounting plate 3131.

To sum up, in cut off operation, for positive electrode and negative material conveying position, specifically, positive electrode according to It is secondary that first positioning rollers 3142 are delivered to by roller bearing 3123 under the upper roller bearing 3122 of positive electrode conveying, positive electrode conveying, then, Positive electrode is pushed to convey mounting plate 3121 by positioning pusher cylinder 3151, so that positive electrode is tightened up positioning；Similarly, it bears Pole material conveys roller bearing 3133 under upper roller bearing 3132, negative material conveying by negative material successively and is delivered to the second positioning rollers 3143, then, pushes negative material to convey mounting plate 3131 by positioning pusher cylinder 3151, determine so that negative material is tightened up Position.

Please continue to refer to Fig. 3 and Fig. 4, the preferred structure for cutting module 32 in the present embodiment is comprising positive electrode Cutting means 321 and negative material cutting means 322, positive electrode cutting means 321 are set to the one of conveying fixed mounted seat 311 On side, to be opposite between positive electrode conveying roller component 312 and positioning rollers component 314 and by positioning pushing component 315 positive electrodes for tensing positioning are cut；Negative material cutting means 322 are set to the side of conveying fixed mounted seat 311 It on end, and is oppositely arranged with positive electrode cutting means 321, to be opposite to negative material conveying roller component 313 and positioning The negative material that positioning is tensed between roller assembly 314 and by positioning pushing component 315 is cut.

Due to the setting of positive electrode cutting means 321 and negative material cutting means 322, to positive electrode and cathode When material is cut, the two can cut and be independent of each other simultaneously.

And the preferred structure of positive electrode cutting means 321 comprising positive electrode cuts mounting plate 3211, positive electrode Cutter 3212, positive electrode cutter fixed seat 3213 and positive electrode cutter driving source 3214；Positive electrode cuts mounting plate 3211 are set on a side of conveying fixed mounted seat 311；Positive electrode cutter fixed seat 3213 cuts peace set on positive electrode In loading board 3211；Positive electrode cutter 3212 is removable to be set in positive electrode cutter fixed seat；Positive electrode cutter driving source 3214 are set in positive electrode cutter fixed seat 3213, and connect positive electrode cutter 3212, preferably, for the ease of materials and Installation, the positive electrode cutter driving source 3214 are a telescopic cylinder, the output axis connection positive electrode cutter of the telescopic cylinder 3212。

When being cut to positive electrode, electronic box 50 controls positive electrode cutter driving source 3214 and works, and positive material After expecting that cutter driving source 3214 works, positive electrode cutter 3212 can be driven to cut positive electrode, whole operation letter Folk prescription is just.

In order to simply and effectively realize that the mobile setting of positive electrode cutter 3212, positive electrode cutter 3212 are equipped with just Pole material knife sliding block 3215, positive electrode cutter fixed seat 3213 are equipped with and are slidably matched with positive electrode knife sliding block 3215 Positive electrode cutting knife slide rail 3216, positive electrode cutter 3212 passes through positive electrode knife sliding block 3215 and positive electrode cutter Being slidably matched for sliding rail 3216 and removable be set in positive electrode cutter fixed seat 3213.

And further, positive electrode cutting means 321 further include adjusting positive electrode cutter 3212 to be bonded closely The positive electrode cutter adjustment part 3217 of degree, to ensure the accurate cutting to positive electrode；Positive electrode cutter adjustment part 3217 Between positive electrode knife sliding block 3215 and positive electrode cutter 3212, and the one of positive electrode cutter adjustment part 3217 End connection positive electrode knife sliding block 3215, the other end connects positive electrode cutter 3212.

Moreover, there are two the positive electrode cutter adjustment part 3217 sets, which divides Both sides between positive electrode knife sliding block 3215 and positive electrode cutter 3212, to ensure to positive electrode cutter 3212 Steady adjustment.For the ease of materials and installation settings, positive electrode cutter adjustment part 3217 is an elastic component, specifically, should Elastic component is a compressed spring.

And the preferred structure of negative material cutting means 322 is comprising negative material cuts mounting plate 3221, cathode material Expect cutter 3222, negative material cutter fixed seat 3223 and negative material cutter driving source 3224；Negative material cuts mounting plate 3221 are set on a side of conveying fixed mounted seat 311, and cut mounting plate 3211 with positive electrode and be oppositely arranged；Cathode material Material cutter fixed seat 3223 is cut set on negative material on mounting plate 3221；Negative material cutter 3222 is removable to be set to cathode material Expect in cutter fixed seat 3223；Negative material cutter driving source 3224 is set in negative material cutter fixed seat 3223, and is connected Negative material cutter 3222, preferably, for the ease of drawing materials and installing, which is a flexible gas Cylinder, the output axis connection negative material cutter 3222 of the telescopic cylinder.

When being cut to negative material, electronic box 50 controls negative material cutter driving source 3224 and works, and cathode material After expecting that cutter driving source 3224 works, negative material cutter 3222 can be driven to cut negative material, whole operation letter Folk prescription is just.

In order to simply and effectively realize that the mobile setting of negative material cutter 3222, negative material cutter 3222 are equipped with negative Pole material knife sliding block 3225, negative material cutter fixed seat 3223 are equipped with and are slidably matched with negative material knife sliding block 3225 Negative material cutting knife slide rail 3226, negative material cutter 3222 passes through negative material knife sliding block 3225 and negative material cutter Being slidably matched for sliding rail 3226 and removable be set in negative material cutter fixed seat 3223.

And further, negative material cutting means 322 further include adjusting negative material cutter 3222 to be bonded closely The negative material cutter adjustment part 3227 of degree, to ensure the accurate cutting to negative material；Negative material cutter adjustment part 3227 Between negative material knife sliding block 3225 and negative material cutter 3222, and the one of negative material cutter adjustment part 3227 End connection negative material knife sliding block 3225, the other end connects negative material cutter 3222.

Moreover, there are two the negative material cutter adjustment part 3227 sets, which divides Both sides between negative material knife sliding block 3225 and negative material cutter 3222, to ensure to negative material cutter 3222 Steady adjustment.For the ease of materials and installation settings, negative material cutter adjustment part 3227 is an elastic component, specifically, should Elastic component is a compressed spring.

Fig. 5 and Fig. 6 are please referred to, the preferred structure of the winding mechanism 40 of the present embodiment is comprising winding mounting bracket 41, electricity Winding assembly 43, winding driving source 44 and winding transmission component 45, the winding mechanism 40 outside core inner winding assembly 42, battery core The composition of each component be specially：

It winds mounting bracket 41 to be set in installation frame body 10, and it includes the first volume around mounting plate 411 and the to wind mounting bracket 41 Two winding mounting plates 412；

Winding assembly 42 is set to the first volume on mounting plate 411 inside battery core, to needed for the capacitor battery core sent Electrolytic paper and winding is combined by the positive and negative pole material after 30 processing of cutting of cutting mechanism, in coiling and molding sub-prime Portion；

Winding assembly 43 is set to volume Two on mounting plate 412 outside battery core, to needed for the capacitor battery core sent Electrolytic paper and winding is combined by the positive and negative pole material after 30 processing of cutting of cutting mechanism, with the outer of coiling and molding sub-prime Portion；

It winds driving source 44 to be set on the winding mounting bracket, to drive battery core inside winding assembly 42, inside battery core 43 rotation work of winding assembly；And preferably, the winding driving source 44 is motor, in order to draw materials and install；

One end connection winding driving source 44 of transmission component 45 is wound, the other end is separately connected winding assembly inside battery core The power of the winding driving source is reached winding assembly 42, battery core inside the battery core by 42, winding assembly 43 outside battery core On external winding assembly 43.

It accordingly, can quilt on winding assembly 42 and battery core outside winding assembly 43 inside battery core when processing to be wound It sends electrolytic paper and by the positive and negative pole material after 30 processing of cutting of cutting mechanism, then, winding transmission component 45 can be by control work Make, and after winding the work of transmission component 45, winding assembly 42 inside battery core, the rotation of winding assembly 43 work outside battery core can be driven Make, to correspond to the inside of coiling and molding sub-prime, the outside of sub-prime, thus simply and effectively coiling and molding sub-prime.Moreover, by electricity The setting of winding assembly 43 outside core inner winding assembly 42, battery core is conducive to the sub-prime for being molded different size, to meet client Different demands；And the outer diameter for the sub-prime that the present embodiment is produced is up to Φ 110.

And the preferred structure of winding assembly 42 is inside battery core comprising winding needle 421 and internal winding needle inside battery core Driving source 422, the winding needle 421 removable first volume that is set in battery core inside is on mounting plate 411；Internal winding needle driving source 422 It is rotatablely connected by winding needle 421 inside a bearing and battery core, to drive the movement of winding needle 421 inside battery core.And preferably, For the ease of drawing materials and installing, which is a telescopic cylinder, the output axis connection electricity of the telescopic cylinder Core inner winding needle 421.

The preferred structure of winding assembly 43 is outside battery core comprising winding needle 431 and external winding needle drive outside battery core Dynamic source 432, the winding needle 431 removable volume Two that is set in battery core outside is on mounting plate 412；External winding needle driving source 432 is logical It crosses a bearing to be rotatablely connected with winding needle 431 outside battery core, to drive the movement of winding needle 431 outside battery core.And preferably, being Convenient for materials and installation, which is a telescopic cylinder, the output axis connection battery core of the telescopic cylinder External winding needle 431.

The preferred structure of winding transmission component 45 is comprising winding transmission shaft 451, the first volume is around driving wheel 452, second Wind driving wheel 453, the first volume around conveyer belt 454, third winding driving wheel 455, Volume Four around driving wheel 456 and volume Two around Conveyer belt 457, winding transmission shaft 451 are connect with winding driving source 44；The first volume is sheathed on winding transmission shaft around driving wheel 452 On 451 side；Volume Two is set to inside battery core around driving wheel 453 inside the battery core of winding assembly 42 on winding needle 421, and It is oppositely arranged around driving wheel 452 with the first volume；The first volume around conveyer belt 454 one end connect the first volume around driving wheel 452, it is another End connection volume Two is around driving wheel 453；Third winding driving wheel 455 is sheathed on another side of winding transmission shaft 451；4th It winds driving wheel 456 to be set to outside battery core outside the battery core of winding assembly on winding needle 422, and driving wheel 455 is wound with third It is oppositely arranged；Volume Two winds driving wheel 455 around one end of conveyer belt 457 connection third, and the other end connects Volume Four around transmission Wheel 456.

To sum up, when to be wound molding to sub-prime, internal winding needle driving source 422, external winding needle driving source 432 Meeting can correspond to promotion battery core by control work, and after internal winding needle driving source 422, external winding needle driving source 432 work The movement of winding needle 431 extend out to specified location outside internal winding needle 421, battery core, so that winding driving source 44 passes through volume It drives winding needle 421 inside battery core, battery core outside winding needle 431 to rotate around transmission component 45, specifically, winds 44 quilt of driving source After controlling work, winding transmission shaft 451, the first volume can be passed sequentially through around driving wheel 452, the first volume around conveyer belt 454 and the Two winding driving wheels 453 and drive battery core inside winding needle 421 to rotate, simultaneously, can pass sequentially through wind transmission shaft 451, Third winding driving wheel 455, volume Two drive winding needle 422 outside battery core around conveyer belt 457 and Volume Four around driving wheel 456 Rotation, to realize the coiling and molding to sub-prime；After, internal winding needle driving source 422, external winding needle driving source 432 Winding needle 421 inside battery core, the movement of winding needle 431 of battery core outside can be pushed to be retracted to initial position again by control work Place, at the same time, the sub-prime being located inside battery core on winding needle 421 and battery core outside winding needle 431 can be with battery core interior roll The movement of winding needle 431 is retracted to initial position and drops to specified location outside cast-over 421, battery core.

Referring to Fig. 7, further, the winding mechanism 40 of the present embodiment further includes cutting component 46, cuts component 46 and set In the first volume on mounting plate 411, to go out to 43 coiling and molding of winding assembly outside battery core inside winding assembly 42 and battery core Extra electrolytic paper and positive and negative pole material are cut after the sub-prime of required specification, to ensure the rapid processing of sub-prime.

And the preferred structure for cutting component 46 is comprising the first briquetting 461, the second briquetting 462, cutting knife 463 and sanction It cuts driving source 464, the first briquetting 461 and the second briquetting 462 and is set to volume Two on mounting plate 412 in relative movement；First pressure Block 461 is equipped with for the accommodating extruding slot 4611 squeezed of extra electrolytic paper and positive and negative pole material；Cutting knife 463 is set to the second pressure On block 462, and against extruding slot 4611；Driving source 464 is cut to connect with the first briquetting 461, the second briquetting 462 respectively, with The first briquetting 461, the relative movement of the second briquetting 462 are driven, extra electrolytic paper on slot 4611 and just is squeezed to make to be placed in Negative material is squeezed by the first briquetting 461 and the second briquetting 462, and is cut knife 463 and is cut, wherein cutting driving source 464 is The output shaft of one telescopic cylinder, the telescopic cylinder is connect by a connection piece with the first briquetting 461, the second briquetting 462.

As a result, when to be cut to extra electrolytic paper and positive and negative pole material, cutting driving source 464 can be by control work Make, and after cutting the work of driving source 464, the first briquetting 461, the second briquetting 462 can be driven to relatively move close, so as to be placed in The extra electrolytic paper and positive and negative pole material squeezed on slot 4611 is squeezed by the first briquetting 461 and the second briquetting 462, and is cut Knife 463 is cut；After, as long as control cuts driving source 464 and drives the first briquetting 461, the relative movement separation of the second briquetting 462 .

Referring to Fig. 8, for another preferred embodiment of the utility model, the content with above-described embodiment, herein not Be described further, and the present embodiment and above-described embodiment difference lies in：

The manufacturing equipment 1 of capacitor battery core further includes upper to be glued to the sub-prime wound by winding mechanism 40 Gluing mechanism 60, gumming mechanism 60 is set in installation frame body 10, and is electrically connected with electronic box 50.

And the priority structure of the gumming mechanism 60 is comprising glue mounting bracket 61, adhesive tape disc 62, rubberizing wheel 63 and cut glue Knife 64, gluing mounting bracket 61 are set in installation frame body 10；Adhesive tape disc 62 is set on gluing mounting bracket 61, is put with for adhesive tape stop It sets and the adhesive tape is sent to specified location；Rubberizing wheel 63 by one connecting shaft by rotate set on gluing mounting bracket 61 on, use With receive by adhesive tape disc 62 transmit Lai adhesive tape, and the adhesive tape is attached on sub-prime；Rubber knife 64 is set in installation frame body 10, And close to rubberizing wheel 63, in order to after sub-prime glues, be cut off to extra adhesive tape by the rubber knife 64.

Referring to Fig. 1, for another preferred embodiment of the utility model, the content with above-described embodiment, herein not Be described further, and the present embodiment and above-described embodiment difference lies in：

The manufacturing equipment 1 of capacitor battery core further includes to be pressed to the adhesive tape on the sub-prime after gluing so that the glue The adhesive tape pinch mechanism 70 that band closely attaches, adhesive tape pinch mechanism 70 are set in installation frame body 10.

And the preferred structure of adhesive tape pinch mechanism 70 is comprising one is moved close to the swing compressing member on rubberizing wheel 63 71, and by the setting of the swing compressing member 71, in addition to making the adhesive tape on sub-prime more be close to, meanwhile, it is extra also incidentally to make Adhesive tape touch rubber knife 64, the adhesive tape to keep this extra be cut off, it is simple and convenient.

Referring again to Fig. 1, for another preferred embodiment of the utility model, the content with above-described embodiment, herein Be not described further, and the present embodiment and above-described embodiment difference lies in：

The manufacturing equipment 1 of capacitor battery core further includes the sub-prime of blanking to be delivered to the blanking conveying of specified location Mechanism 80, blanking conveying mechanism 80 are set in installation frame body 10.

The foregoing is merely the utility model preferred embodiment, structure is not limited to the above-mentioned shape enumerated, All any modification, equivalent and improvement made within the spirit and principle of the present invention etc., should be included in this reality Within novel protection domain.

Claims (10)

1. a kind of manufacturing equipment of capacitor battery core, which is characterized in that including：

Installation frame body；

Pressing mechanism, the pressing mechanism is set in the installation frame body, to positive and negative needed for the capacitor battery core sent Pole material carries out extrusion process, to mold required proximate matter；

Cutting mechanism, the cutting mechanism is including conveying positioning module and cuts module；The conveying positioning module is set to described In installation frame body, will be delivered to specified location via the positive and negative pole material after the pressing mechanism extrusion process and make this Positive and negative pole material positions；The module that cuts is set on a side of the conveying positioning module, will be determined by the conveying Position module conveying comes and the positive and negative pole material having good positioning carries out processing of cutting, to cut out the width needed for the positive and negative pole material Degree；

Winding mechanism, the winding mechanism is set in the installation frame body, to needed for the capacitor battery core sent Electrolytic paper and coiling process is combined by the positive and negative pole material after the cutting mechanism processing of cutting, to wind required specification Sub-prime；

Gumming mechanism, the gumming mechanism are set in the installation frame body, to be carried out to the sub-prime wound by winding mechanism Gluing；

Electronic box, the electronic box are electric with the pressing mechanism, the cutting mechanism, the winding mechanism and the gumming mechanism respectively Connection, to control the work of the pressing mechanism, the cutting mechanism, the winding mechanism and the gumming mechanism.

2. the manufacturing equipment of capacitor battery core as described in claim 1, it is characterised in that：The conveying positioning module includes：

Fixed mounted seat is conveyed, the conveying fixed mounted seat is connected in the installation frame body；

Positive electrode conveying roller component, the positive electrode conveying roller component is movable to be set to the conveying fixed mounted seat A side on, to be conveyed to the positive electrode in the positive and negative pole material；

Negative material conveying roller component, the negative material conveying roller component is movable to be set to the conveying fixed mounted seat Another side on, and be oppositely arranged with the positive electrode conveying roller component, to negative in the positive and negative pole material Pole material is conveyed；

Positioning rollers component, the positioning rollers component are set on the conveying fixed mounted seat, and are located at the positive electrode Between conveying roller component and the negative material conveying roller component, to the positive electrode and the negative material point It is not positioned；

Pushing component is positioned, the positioning pushing component is set on the positioning rollers component, and the positioning pushing component can The positive electrode conveying roller component, the negative material conveying roller component are touched in movement, to push the positive electrode Conveying roller component, the negative material conveying roller component make to be placed in the positive electrode conveying rolling to specified location The positive electrode between shaft assembly and the positioning rollers component is placed in the negative material conveying roller component and described The negative material between positioning rollers component is tightened up positioning.

3. the manufacturing equipment of capacitor battery core as claimed in claim 2, it is characterised in that：The positive electrode conveying roller group Part includes positive electrode conveying mounting plate, the upper roller bearing of positive electrode conveying and the lower roller bearing of positive electrode conveying, the positive electrode It is removable on a side of the conveying fixed mounted seat to convey mounting plate；The upper roller bearing of positive electrode conveying is rotatable On positive electrode conveying mounting plate；The lower roller bearing of positive electrode conveying is rotatably set to the positive electrode and conveys On mounting plate, and below the upper roller bearing of positive electrode conveying.

4. the manufacturing equipment of capacitor battery core as claimed in claim 2, it is characterised in that：The negative material conveying roller group Part includes negative material conveying mounting plate, the upper roller bearing of negative material conveying and the lower roller bearing of negative material conveying, the negative material It is removable on another side of the conveying fixed mounted seat to convey mounting plate；The upper roller bearing of negative material conveying can turn It is dynamic to be set on negative material conveying mounting plate；It is defeated that the lower roller bearing of negative material conveying is rotatably set to the negative material It send on mounting plate, and below the upper roller bearing of negative material conveying.

5. the manufacturing equipment of capacitor battery core as claimed in claim 2, it is characterised in that：The positioning rollers component includes：

Location and installation bearing, the location and installation bearing are set on the conveying fixed mounted seat；

First positioning rollers, first positioning rollers are rotatably set on a side of the location and installation bearing, to right The positive electrode is positioned；

Second positioning rollers, second positioning rollers are rotatably set on another side of the location and installation bearing, and with First positioning rollers are oppositely arranged, to be positioned to the negative material.

6. the manufacturing equipment of capacitor battery core as claimed in claim 5, it is characterised in that：The positioning pushing component includes extremely Few two position pusher cylinder, and the location and installation bearing is set to one of in at least two positioning pusher cylinder On side, and its output shaft moves and touches the positive electrode conveying roller component；At least two positioning pushes gas Another in cylinder is set on the side of the location and installation bearing, and its output shaft moves and touches the negative material Conveying roller component.

7. the manufacturing equipment of capacitor battery core as claimed in claim 2, it is characterised in that：The module that cuts includes：

Positive electrode cutting means, the positive electrode cutting means are set on a side of the conveying fixed mounted seat, use To be opposite between the positive electrode conveying roller component and the positioning rollers component and be drawn by the positioning pushing component The positive electrode of tightening position is cut；

Negative material cutting means, the negative material cutting means are set on a side of the conveying fixed mounted seat, and It is oppositely arranged with the positive electrode cutting means, to be opposite to the negative material conveying roller component and positioning rolling It is cut between shaft assembly and by the negative material that the positioning pushing component tenses positioning.

8. the manufacturing equipment of capacitor battery core as claimed in claim 7, it is characterised in that：The positive electrode cutting means packet It includes positive electrode and cuts mounting plate, positive electrode cutter, positive electrode cutter fixed seat and positive electrode cutter driving source；

The positive electrode cuts mounting plate and is set on a side of the conveying fixed mounted seat；

The positive electrode cutter fixed seat is cut set on the positive electrode on mounting plate；

The positive electrode cutter is removable to be set in the positive electrode cutter fixed seat；

Positive electrode cutter driving source is set in the positive electrode cutter fixed seat, and is connected the positive electrode and cut Knife.

9. the manufacturing equipment of capacitor battery core as claimed in claim 7, it is characterised in that：The negative material cutting means packet It includes negative material and cuts mounting plate, negative material cutter, negative material cutter fixed seat and negative material cutter driving source；

The negative material cuts mounting plate and is set on a side of the conveying fixed mounted seat；

The negative material cutter fixed seat is cut set on the negative material on mounting plate；

The negative material cutter is removable to be set in the negative material cutter fixed seat；

Negative material cutter driving source is set in the negative material cutter fixed seat, and is connected the negative material and cut Knife.

10. such as the manufacturing equipment of claim 1-9 any one of them capacitor battery cores, it is characterised in that：The winding mechanism Including：

Wind mounting bracket, the winding mounting bracket in the installation frame body, and the winding mounting bracket include the first volume around Mounting plate and volume Two are around mounting plate；

Winding assembly inside battery core, battery core inside winding assembly is set to the first volume on mounting plate, to sending The capacitor battery core needed for electrolytic paper and volume is combined by the positive and negative pole material after the cutting mechanism processing of cutting Around with the inside of sub-prime described in coiling and molding；

Winding assembly outside battery core, battery core outside winding assembly is set to the volume Two on mounting plate, to sending The capacitor battery core needed for electrolytic paper and volume is combined by the positive and negative pole material after the cutting mechanism processing of cutting Around with the outside of sub-prime described in coiling and molding；

Driving source is wound, the winding driving source is set on the winding mounting bracket, to drive the battery core interior roll winding Winding assembly rotation work inside part, the battery core；

Transmission component is wound, one end of the winding assembly connects the winding driving source, and the other end is separately connected the battery core The power of the winding driving source is reached the battery core interior roll by winding assembly outside internal winding assembly, the battery core On winding assembly outside component, the battery core.