CN106409536B - Capacitor producing device and capacitor manufacturing method - Google Patents

Abstract

A kind of capacitor producing device, including foil disk, conducting bar disk, cold welding mechanism, conducting bar transfer mechanism, conducting bar cutting mechanism and La Bo mechanism, foil on foil disk successively passes through cold welding mechanism and La Bo mechanism, conducting bar disk for exporting conducting bar band outward, conducting bar transfer mechanism is for clamping conducting bar band, and conducting bar band is pulled to pass through conducting bar cutting mechanism preset length, conducting bar cutting mechanism is used to the part that the cutting of conducting bar band clamps conducting bar transfer mechanism forming conducting bar, conducting bar can be transferred to cold welding mechanism by conducting bar transfer mechanism, and it is aligned one end of conducting bar with the side of foil, conducting bar is welded in foil by cold welding mechanism by pressure, La Bo mechanism, which is used to that conducting bar to be welded on post-tensioning foil in foil in cold welding mechanism, moves preset length.Capacitor producing device of the invention can carry out welding conducting bar, high production efficiency by mechanical feeding, and the capacitor packages consistency produced is preferable, improves capacitor packages quality.The invention further relates to a kind of capacitor manufacturing methods.

Description

Capacitor producing device and capacitor manufacturing method

Technical field

The present invention relates to capacitor fabrication technical field, in particular to a kind of capacitor producing device and capacitor manufacturing method.

Background technique

Capacitor is a kind of device for storing charge, and is widely used in modern electronics, in electrical equipment.

The primary structure of capacitor includes that aluminium foil, electrolytic paper and conducting bar (positive and negative plate), one end of conducting bar are welded on aluminium foil On, the aluminium foil and electrolytic paper for welding conducting bar are wound to form capacitor element together.Before making capacitor element, standard is needed Then standby conducting bar is placed on conducting bar in foil by the way that conducting bar band manually to be cut into the conducting bar of required length again, determines The position to be welded, is finally welded on conducting bar on aluminium foil.

But Manual feeding carries out welding conducting bar, not only production efficiency is low, large labor intensity, and quality cannot be very Good guarantee.Moreover, because the limitation (conducting bar length length and width degree is narrow, thickness is thin) of conducting bar self-characteristic, conducting bar is in feeding process In be easy to happen bending, deformation situations such as, influence the production of subsequent capacitance device.

Summary of the invention

The object of the present invention is to provide a kind of capacitor producing devices, can carry out welding conducting bar by mechanical feeding, raw Produce it is high-efficient, and produce capacitor packages consistency it is preferable, improve capacitor packages quality.

It is that it is realized by adopting the following technical scheme that the present invention, which solves its technical problem,.

A kind of capacitor producing device, including foil disk, conducting bar disk, cold welding mechanism, conducting bar transfer mechanism, conducting bar cutting mechanism and La Bo mechanism, the foil on foil disk successively pass through cold welding mechanism and La Bo mechanism, and conducting bar disk for exporting conducting bar band, conducting bar outward Transfer mechanism pulls conducting bar band to pass through conducting bar cutting mechanism preset length for clamping conducting bar band, and conducting bar cutting mechanism is used for The part that the cutting of conducting bar band clamps conducting bar transfer mechanism is formed into conducting bar, conducting bar can be transferred to cold welding machine by conducting bar transfer mechanism Structure, and it is aligned one end of conducting bar with the side of foil, conducting bar is welded in foil by cold welding mechanism by pressure, La Bo mechanism Preset length is moved for conducting bar to be welded on post-tensioning foil in foil in cold welding mechanism.

In the preferred embodiment, above-mentioned cold welding mechanism includes fixed frame, cold welding driver, movable block and fixation Block, cold welding driver are connected on fixed frame, and movable block is connect with cold welding driver, and fixed block is oppositely arranged with movable block, foil Band is arranged on fixed block, and the direction that cold welding driver can drive movable block towards close fixed block is mobile, and passes through fixed block Conducting bar is welded in foil by the pressure generated between movable block.

In the preferred embodiment, above-mentioned conducting bar transfer mechanism includes conducting bar folder, the first transfer driver and the Two transfer drivers, the direction that the second transfer driver can drive conducting bar folder towards close conducting bar band is mobile, and makes conducting bar folder folder Firmly conducting bar band, first transfer driver can drive conducting bar folder movement, and make conducting bar band pass through conducting bar cutting mechanism preset length with And conducting bar is transferred to cold welding mechanism after the cutting of conducting bar band.

In the preferred embodiment, above-mentioned conducting bar transfer mechanism further includes take-off plate and connecting plate, and take-off plate is set It is placed in the side of cold welding driver, take-off plate is realized movably by the cooperation of sliding slot and sliding rail between take-off plate and fixed frame It is connected to fixed frame, the cooperation between connecting plate and take-off plate by sliding slot and sliding rail realizes that connecting plate is movably attached to move Plate is sent, the first transfer driver is fixed in take-off plate, and conducting bar folder is connected on connecting plate, and the first transfer driver can the company of driving Fishplate bar moves in take-off plate, and the second transfer driver is fixed on fixed frame, and the second transfer driver can drive take-off plate to exist It is moved on fixed frame.

In the preferred embodiment, above-mentioned take-off plate is equipped with driving wheel far from one end of the first transfer driver, First transfer driver is equipped with driving wheel, and conducting bar transfer mechanism further includes transmission folder and transmission belt, is driven one end connection of folder On connecting plate, it is driven the other end clamping transmission belt of folder, the driving wheel of transmission belt being connected in take-off plate and the first transfer Between driving wheel on driver.

In the preferred embodiment, above-mentioned conducting bar cutting mechanism cuts component and second including first and cuts group Part, first, which cuts component, cuts component with second and is oppositely arranged, and first to cut component include the first briquetting, the first cutter and first Driver is cut, the first cutter is connected to the side of the first briquetting, and first, which cuts driver, can drive the first briquetting and first to be cut Knife is towards close to the movement of the direction of conducting bar band；Second, which cuts component, cuts driver including the second briquetting, the second cutter and second, Second cutter is connected to the side of the second briquetting, and second, which cuts driver, can drive the second briquetting and the second cutter to be led towards close The direction of band is mobile, and conducting bar band is fixed between the first briquetting and the second briquetting, while the first cutter and the second cutter Closure cuts off conducting bar band.

In the preferred embodiment, above-mentioned La Bo mechanism includes the first drawing foil wheel, the second drawing foil wheel and foil is drawn to drive The wheel of dynamic device, the first drawing foil wheel is in contact while with the wheel of the second drawing foil wheel, and foil draws the wheel side of foil wheel to draw with second from first Pass through between the wheel side of foil wheel, draws foil driver that the rotation of the first drawing foil wheel can be driven to pull foil.

In the preferred embodiment, above-mentioned capacitor producing device further includes conducting bar reshaping device, conducting bar trimmer Structure include the first shaping component and the second shaping component, the conducting bar band that conducting bar disk exports outward successively pass through the first shaping component and Second shaping component, the first shaping component include column, the first idler wheel and the second idler wheel, and the first idler wheel and the second idler wheel are hinged on On column, and the wheel of the first idler wheel is in contact while with the wheel of the second idler wheel, wheel side and second rolling of the conducting bar band from the first idler wheel Pass through between the wheel side of wheel；Second shaping component includes reshaping frame, cam and concave wheel, and cam and concave wheel are hinged on reshaping frame, Cam is equipped with shaping raised line, and shaping raised line is arranged around the circumferential direction of cam, and concave wheel is equipped with shaping groove, and shaping groove is recessed around this The circumferential setting of wheel, the shaping raised line of cam are arranged in the shaping groove of concave wheel, and conducting bar band from the shaping raised line of cam with Pass through between the shaping groove of concave wheel.

In the preferred embodiment, above-mentioned second shaping component further includes lever, mounting blocks, adjusting block, bullet Spring and regulating part, lever pass through reshaping frame and connect with cam, and lever can drive cam to rotate, between mounting blocks and reshaping frame Realize that mounting blocks are movably attached on reshaping frame by the cooperation of sliding block and sliding slot, concave wheel is articulated with mounting blocks, adjusting block It being oppositely arranged with mounting blocks, spring is connected between adjusting block and mounting blocks, and regulating part passes through reshaping frame and connect with adjusting block, Regulating part can drive adjusting block mobile towards the direction close to or far from mounting blocks.

The object of the present invention is to provide a kind of capacitor manufacturing methods, can carry out welding conducting bar by mechanical feeding, raw Produce it is high-efficient, and produce capacitor packages consistency it is preferable, improve capacitor packages quality.

A kind of the step of capacitor manufacturing method, capacitor manufacturing method includes：

Foil is conveyed to cold welding mechanism and La Bo mechanism using foil disk, and exports conducting bar band outward using conducting bar disk；

Conducting bar band is clamped using conducting bar transfer mechanism, and conducting bar band is pulled to pass through conducting bar cutting mechanism preset length；

The part that the cutting of conducting bar band clamps conducting bar transfer mechanism is formed into conducting bar using conducting bar cutting mechanism；

Conducting bar is transferred to cold welding mechanism using conducting bar transfer mechanism, and is aligned one end of conducting bar with the side of foil；

Conducting bar is welded in foil by pressure using cold welding mechanism；And

Conducting bar is welded on post-tensioning foil in foil in cold welding mechanism using La Bo mechanism and moves preset length.

Foil on the foil disk of capacitor producing device of the invention successively passes through cold welding mechanism and La Bo mechanism, and conducting bar disk is used In output conducting bar band outward, conducting bar transfer mechanism pulls conducting bar band default across conducting bar cutting mechanism for clamping conducting bar band Length, conducting bar cutting mechanism are used to the part that the cutting of conducting bar band clamps conducting bar transfer mechanism forming conducting bar, conducting bar drag-over unit Conducting bar can be transferred to cold welding mechanism by structure, and be aligned one end of conducting bar with the side of foil, and cold welding mechanism will be led by pressure Item is welded in foil, and La Bo mechanism, which is used to that conducting bar to be welded on post-tensioning foil in foil in cold welding mechanism, moves preset length. Length required for capacitor producing device of the invention is pulled out conducting bar band by conducting bar transfer mechanism, then pass through conducting bar guillotine Structure cuts off conducting bar band and forms conducting bar, then conducting bar is transferred in foil by conducting bar transfer mechanism, and determination to be welded Conducting bar is welded in foil by position finally by cold welding mechanism.Therefore, capacitor producing device of the invention is by mechanically Material carries out welding conducting bar, high production efficiency, and the capacitor packages consistency produced is preferable, improves capacitor packages quality.

The above description is only an overview of the technical scheme of the present invention, in order to better understand the technical means of the present invention, And it can be implemented in accordance with the contents of the specification, and in order to allow above and other objects, features and advantages of the invention can It is clearer and more comprehensible, it is special below to lift preferred embodiment, and cooperate attached drawing, it is described in detail.

Detailed description of the invention

Fig. 1 is the schematic perspective view of capacitor producing device of the invention.

Fig. 2 is the partial structural diagram at the first visual angle of capacitor producing device of the invention.

Fig. 3 is the partial structural diagram of cold welding mechanism of the invention.

Fig. 4 is the partial structural diagram at the second visual angle of capacitor producing device of the invention.

Fig. 5 is the structural schematic diagram of conducting bar reshaping device of the invention.

Fig. 6 is the partial structural diagram at capacitor producing device third visual angle of the invention.

Fig. 7 is the structural schematic diagram of conducting bar cutting mechanism of the invention.

Fig. 8 is the flow diagram of capacitor manufacturing method of the invention.

Specific embodiment

It is of the invention to reach the technical means and efficacy that predetermined goal of the invention is taken further to illustrate, below in conjunction with Attached drawing and preferred embodiment, to the specific embodiment of capacitor producing device proposed according to the present invention and capacitor manufacturing method, Structure, feature and its effect, detailed description are as follows:

For the present invention aforementioned and other technology contents, feature and effect refer to the preferable reality of schema in following cooperation Applying in the detailed description of example can clearly appear from.By the explanation of specific embodiment, when predetermined mesh can be reached to the present invention The technical means and efficacy taken be able to more deeply and it is specific understand, however institute's accompanying drawings are only to provide with reference to and say It is bright to be used, it is not intended to limit the present invention.

Fig. 1 is the schematic perspective view of capacitor producing device of the invention.As shown in Figure 1, in the present embodiment, capacitor Producing device 10 includes foil disk 12, conducting bar disk 13, cold welding mechanism 14, conducting bar reshaping device 15, conducting bar transfer mechanism 16, conducting bar sanction Cut mechanism 17 and La Bo mechanism 18.

Foil disk 12 is used to convey foil 101 to cold welding mechanism 14 and La Bo mechanism 18.

Conducting bar disk 13 is used to convey conducting bar band 102 to conducting bar reshaping device 15.

Fig. 2 is the partial structural diagram at the first visual angle of capacitor producing device of the invention.Fig. 3 is cold welding machine of the invention The partial structural diagram of structure.As shown in Figure 1, Figure 2 and Figure 3, cold welding mechanism 14 is set between foil disk 12 and La Bo mechanism 18； In the present embodiment, cold welding mechanism 14 includes fixed frame 142, cold welding driver 143, movable block 144, fixed block 145 and Duo Gen Spring 147.

Fixed frame 142 is fixedly installed, such as is fixed on a plummer.In the present embodiment, fixed frame 142 is in rectangle knot Structure, including the top plate and bottom plate that are oppositely arranged and more support columns being connected between top plate and bottom plate, the bottom of fixed frame 142 Plate is fixed on plummer.Cold welding driver 143 is fixed on the top plate of fixed frame 142, the driving end position of cold welding driver 143 In in fixed frame 142.Movable block 144 is connect with cold welding driver 143；Fixed block 145 is oppositely arranged with movable block 144, and foil Band 101 is arranged on fixed block 145；Cold welding driver 143 can drive movable block 144 to move towards the direction close to fixed block 145 The pressure moved, and generated by fixed block 145 and the extruding of movable block 144 is by 103 cold welding of conducting bar in foil 101.In order to avoid Fixed block 145 and movable block 144 squeeze that the pressure generated is excessive to cause conducting bar 103 and foil 101 to damage, movable block 144 with it is cold It is connected with spring 147 between weldering driver 143, spring 147 is connected between fixed block 145 and fixed frame 142.In the present embodiment In, fixed block 145 is equipped with cold welding slot 104 close to the surface of movable block 144, and multiple convex blocks 146 are equipped in cold welding slot 104, Each convex block 146 is spaced apart from each other setting；When conducting bar 103 is transferred to cold welding mechanism 14 by conducting bar transfer mechanism 16, conducting bar 103 is in The top of cold welding slot 104, and the length direction of conducting bar 103 is parallel to the length direction of cold welding slot 104.

Fig. 4 is the partial structural diagram at the second visual angle of capacitor producing device of the invention.Fig. 5 is that conducting bar of the invention is whole The structural schematic diagram of shape mechanism.Fig. 6 is the partial structural diagram at capacitor producing device third visual angle of the invention.Such as Fig. 1, figure 4, shown in Fig. 5 and Fig. 6, conducting bar reshaping device 15 is set to the side of cold welding mechanism 14；In the present embodiment, conducting bar reshaping device 15 include the first shaping component 152 and the second shaping component 154.

When conducting bar disk 13 conveys conducting bar band 102 to conducting bar reshaping device 15, conducting bar band 102 first passes around the first shaping component 152, first time squeezing shaping is carried out to conducting bar band 102 by the first shaping component 152.In the present embodiment, the first shaping component 152 include column 1522, the first idler wheel 1523 and the second idler wheel 1524；First idler wheel 1523 and the second idler wheel 1524 are symmetrical above and below What is be arranged is hinged on column 1522, and the wheel of the first idler wheel 1523 is in contact setting or phase while with the wheel of the second idler wheel 1524 Neighbour's setting, the conducting bar band 102 exported by conducting bar disk 13 are taken turns between in the wheel of the second idler wheel 1524 from the first idler wheel 1523 By.In the present embodiment, conducting bar band 102 is whole by being squeezed for the first time when the first idler wheel 1523 and the second idler wheel 1524 Shape makes conducting bar band 102 form flat construction.

Second shaping component 154 is set to the side of the first shaping component 152, and the second shaping component 154 is used for conducting bar Band 102 carries out second of squeezing shaping.In the present embodiment, the second shaping component 154 include reshaping frame 1541, cam 1542, Concave wheel 1544, lever 1545, mounting blocks 1546, adjusting block 1547, spring 1548 and regulating part 1549.As shown in figure 5, cam 1542 and concave wheel 1544 setting symmetrical above and below be hinged on reshaping frame 1541, cam 1542 is equipped with shaping raised line, and shaping is convex Circumferential direction setting of the item around cam 1542；Concave wheel 1544 is equipped with shaping groove, circumferential direction setting of the shaping groove around concave wheel 1544；It is convex Wheel 1542 wheel while and concave wheel 1544 wheel while contact with each other setting or be disposed adjacent, and cam 1542 shaping raised line setting exist In the shaping groove of concave wheel 1544, by the conducting bar band 102 after 152 shaping of the first shaping component from the shaping raised line of cam 1542 with Pass through between the shaping groove of concave wheel 1544.That is, conducting bar band 102 is when by cam 1542 and concave wheel 1544 by second Secondary squeezing shaping makes conducting bar band 102 form bathtub construction (such as U-shaped groove structure), increases the structural strength of conducting bar band 102.

Further, lever 1545 passes through reshaping frame 1541 and connect with cam 1542, and lever 1545 can drive cam 1542 rotations.In the present embodiment, when needing upper conducting bar band 102 manually, conducting bar band 102 is pulled to pass through the first shaping component After 152, the lever 1545 of the second shaping component 154 is rotated, makes the rotation of cam 1542 that conducting bar band 102 is pulled in 1542 He of cam Between concave wheel 1544, until conducting bar band 102 exceeds 154 preset length of the second shaping component.

Cooperation between the mounting blocks 1546 and reshaping frame 1541 of second shaping component 154 by sliding block and sliding slot, which is realized, to be pacified Dress block 1546 is movably attached on reshaping frame 1541；Concave wheel 1544 is articulated with mounting blocks 1546, that is to say, that concave wheel 1544 It can be with mounting blocks 1546 towards the direction shift position close to or far from cam 1542；Adjusting block 1547 and 1546 phase of mounting blocks To setting, spring 1548 is connected between adjusting block 1547 and mounting blocks 1546；Regulating part 1549 pass through reshaping frame 1541 and with Adjusting block 1547 connects, and regulating part 1549 can drive adjusting block 1547 mobile towards the direction close to or far from mounting blocks 1546. In the present embodiment, lever 1545 is set to the side of reshaping frame 1541, and regulating part 1549 is set to the top of reshaping frame 1541 Portion, but be not limited thereto.

As shown in figures 1 to 6, conducting bar 103 can be transferred to cold welding mechanism 14 by conducting bar transfer mechanism 16, and make conducting bar 103 One end be aligned with the side of foil 101；In the present embodiment, conducting bar transfer mechanism 16 include take-off plate 161, connecting plate 163, Transmission folder 164, transmission belt 165, the 166, first transfer driver 167 of conducting bar folder and the second transfer driver 169.In the present embodiment In, the direction that the first transfer driver 167 can drive conducting bar folder 166 towards close conducting bar band 102 is mobile, and conducting bar is made to press from both sides 166 Clamp conducting bar band 102；Second transfer driver 169 can drive conducting bar folder 166 mobile, and cut conducting bar band 102 across conducting bar Conducting bar 103 is transferred to cold welding mechanism 14 after 17 preset length of mechanism and conducting bar band 102 are cut-off.

Take-off plate 161 is movably attached on the top plate of fixed frame 142, it is preferable that take-off plate 161 and fixed frame 142 Between by the cooperation of sliding slot and sliding rail realize that take-off plate 161 is movably attached to fixed frame 142.One end of take-off plate 161 Equipped with driving wheel 162, driving wheel 162 is rotatably connected at take-off plate 161.In the present embodiment, take-off plate 161 is located at cold welding The side of driver 143, take-off plate 161 can be mobile towards the direction close to or far from cold welding driver 143, and take-off plate 161 Along sliding rail moving direction perpendicular to conducting bar band 102 length direction.

Connecting plate 163 is movably attached to take-off plate 161, it is preferable that passes through between connecting plate 163 and take-off plate 161 The cooperation of sliding slot and sliding rail realizes that connecting plate 163 is movably attached to take-off plate 161.In the present embodiment, 163 edge of connecting plate The moving direction of sliding rail be parallel to the length direction of conducting bar band 102, i.e., the moving direction of connecting plate 163 is perpendicular to take-off plate 161 moving direction.

One end of transmission folder 164 is connected on connecting plate 163, and the other end of transmission folder 164 clamps transmission belt 165, and energy With 165 synchronizing moving of transmission belt.

One end of transmission belt 165 is connect with the driving wheel 162 in take-off plate 161, and the other end of transmission belt 165 and first moves The driving wheel 168 on driver 167 is sent to connect.First transfer driver 167 is fixed in take-off plate 161, the first transfer driving Device 167 can drive connecting plate 163 to move in take-off plate 161 by transmission belt 165 and driving wheel.

Conducting bar folder 166 is fixed on one end of connecting plate 163, and conducting bar folder 166 is located at the side of conducting bar cutting mechanism 17.? In the present embodiment, after conducting bar band 102 is shaped, conducting bar folder 166 can clamp conducting bar band 102, and pass through the first transfer driving Device 167 drives conducting bar folder 166 and connecting plate 163 mobile, until conducting bar band 102 passes through 17 preset length of conducting bar cutting mechanism.

Second transfer driver 169 is fixed on the fixed frame 142 of cold welding mechanism 14, the second transfer driver 169 and shifting Plate 161 is sent to connect, the second transfer driver 169 can drive take-off plate 161 to move on fixed frame 142.

In the present embodiment, conducting bar transfer mechanism 16 is used to conducting bar 103 being transferred to cold welding mechanism 14, when conducting bar 103 is made When being welded in foil 101 for cathode, the process that conducting bar transfer mechanism 16 transfers conducting bar 103 includes the following steps：

Step 1, the direction that the second transfer driver 169 drives take-off plate 161 towards close conducting bar band 102 is mobile, until Conducting bar band 102, which is in conducting bar folder 166, stops driving, and conducting bar folder 166 clamps conducting bar band 102 at this time；

Step 2, it is mobile that the first transfer driver 167 drives connecting plate 163 and conducting bar to press from both sides 166, until conducting bar band 102 is worn It crosses 17 preset length of conducting bar cutting mechanism and stops driving；

Step 3 makes the part of 166 clamping of conducting bar folder form conducting bar when conducting bar cutting mechanism 17 cuts off conducting bar band 102 103, the first transfer driver 167 drives connecting plate 163 and conducting bar to press from both sides 166 and moves again, until conducting bar 103 one end (such as The cutting end of conducting bar 103) stop driving when being aligned with the side of foil 101, conducting bar 103 is located at the activity of cold welding mechanism 14 at this time Between block 144 and fixed block 145, and conducting bar 103 is in the top of cold welding slot 104.

When conducting bar 103 is welded in foil 101 as anode, conducting bar transfer mechanism 16 transfers the process packet of conducting bar 103 Include following steps：

Step 1, the direction that the second transfer driver 169 drives take-off plate 161 towards close conducting bar band 102 is mobile, until Conducting bar band 102, which is in conducting bar folder 166, stops driving, and conducting bar folder 166 clamps conducting bar band 102 at this time；

Step 2, it is mobile that the first transfer driver 167 drives connecting plate 163 and conducting bar to press from both sides 166, until conducting bar band 102 is worn It crosses 17 preset length of conducting bar cutting mechanism and stops driving；

Step 3 makes the part of 166 clamping of conducting bar folder form conducting bar when conducting bar cutting mechanism 17 cuts off conducting bar band 102 103, the second transfer driver 169 drives take-off plate 161 away from the mobile return in direction of conducting bar band 102 at this time；

Step 4, the first transfer driver 167 drives connecting plate 163 and conducting bar to press from both sides 166 and moves again, until conducting bar 103 One end (such as cutting end of conducting bar 103) stop driving when being aligned with the side of foil 101；

Step 5, the direction that the second transfer driver 169 drives take-off plate 161 towards close cold welding driver 143 is mobile, Until conducting bar 103 is located between the movable block 144 and fixed block 145 of cold welding mechanism 14, and conducting bar 103 is made to be in cold welding slot 104 Top.

It is noted that needing to avoid cold welding mechanism 14 when conducting bar 103 of the transfer of conducting bar transfer mechanism 16 as anode Movable block 144 and fixed block 145, prevent conducting bar 103 from colliding with movable block 144 and fixed block 145, as shown in Figure 1.

Fig. 7 is the structural schematic diagram of conducting bar cutting mechanism of the invention.As shown in Figure 1 and Figure 7, conducting bar cutting mechanism 17 is set It is placed between conducting bar reshaping device 15 and cold welding mechanism 14, in the present embodiment, conducting bar cutting mechanism 17 cuts group including first Part 172 and second cuts component 176, and first, which cuts component 172, cuts component 176 with second and be oppositely arranged, and first cuts group Part 172 is set to the second lower section for cutting component 176.

In the present embodiment, first to cut component 172 include that the first briquetting 173, the first cutter 174 and first cut driving Device 175；First cutter 174 is connected to the side of the first briquetting 173；First cuts one that driver 175 is fixed on fixed frame 142 Side, and first cuts driver 175 and connect with the first briquetting 173 and the first cutter 174, first, which cuts driver 175, to drive First briquetting 173 and the first cutter 174 are towards close to the movement of the direction of conducting bar band 102.Second, which cuts component 176, includes the second pressure Block 177, the second cutter 178 and second cut driver 179；Second cutter 178 is connected to the side of the second briquetting 177；Second The side that driver 179 is fixed on fixed frame 142 is cut, and second cuts driver 179 and the second briquetting 177 and the second cutter 178 connections, second, which cuts driver 179, can drive the second briquetting 177 and the second cutter 178 towards the side close to conducting bar band 102 It is fixed between the first briquetting 173 and the second briquetting 177 to movement, and by conducting bar band 102, while the first cutter 174 and second The closure of cutter 178 cuts off conducting bar band 102.

As shown in Figure 1, La Bo mechanism 18 is set to the side of cold welding mechanism 14, La Bo mechanism 18 is used in cold welding mechanism 14 Foil 101 is pulled into preset length after conducting bar 103 is welded in foil 101, makes cold welding mechanism 14 that can carry out welding next time. In the present embodiment, La Bo mechanism 18 includes that the first drawing foil wheel 182, second draws foil wheel (not shown) and foil driver is drawn (to scheme not Show).The wheel of first drawing foil wheel 182 is in contact while with the wheel of the second drawing foil wheel to be arranged or is disposed adjacent, and foil 101 is drawn from first Taking turns between in the wheel of the second drawing foil wheel for foil wheel 182 is passed through, and draws foil driver that the rotation of the first drawing foil wheel 182 can be driven to pull Foil 101.

Fig. 8 is the flow diagram of capacitor manufacturing method of the invention.Please refer to Fig. 1 to Fig. 8, capacitor production of the invention The step of method includes：

Foil 101 is conveyed to cold welding mechanism 14 and La Bo mechanism 18 using foil disk 12, and whole to conducting bar using conducting bar disk 13 Shape mechanism 15 conveys conducting bar band 102；

Using conducting bar reshaping device 15 to 102 squeezing shaping of conducting bar band；Specifically, the first of conducting bar reshaping device 15 is utilized Shaping component 152 carries out first time squeezing shaping to conducting bar band 102, and conducting bar band 102 is made to form flat construction；Then conducting bar is utilized Second shaping component 154 of reshaping device 15 carries out second of squeezing shaping to conducting bar band 102, and conducting bar band 102 is made to form flute profile Structure (such as U-shaped groove structure)；

The conducting bar band 102 after shaping is clamped using conducting bar transfer mechanism 16, and conducting bar band 102 is pulled to pass through conducting bar guillotine 17 preset length of structure；Specifically, drive take-off plate 161 towards leaning on using the second transfer driver 169 of conducting bar transfer mechanism 16 The direction of nearly conducting bar band 102 is mobile, until conducting bar band 102, which is in conducting bar folder 166, stops driving, conducting bar folder 166 is clamped at this time Conducting bar band 102；Then it drives connecting plate 163 and conducting bar to press from both sides 166 using the first transfer driver 167 of conducting bar transfer mechanism 16 to move It is dynamic, until conducting bar band 102 passes through 17 preset length of conducting bar cutting mechanism and stops driving；

The part that the cutting of conducting bar band 102 clamps conducting bar transfer mechanism 16 is formed into conducting bar using conducting bar cutting mechanism 17 103；Specifically, first using conducting bar cutting mechanism 17 cuts driver 175 and drives the first briquetting 173 and the first cutter 174 It is mobile towards the direction of close conducting bar band 102, while cutting driver 179 using the second of conducting bar cutting mechanism 17 and driving second The direction of briquetting 177 and the second cutter 178 towards close conducting bar band 102 is mobile, and conducting bar band 102 is fixed on the first briquetting 173 and second between briquetting 177, while the first cutter 174 and the second cutter 178 closure cut off conducting bar band 102；

Conducting bar 103 is transferred to cold welding mechanism 14 using conducting bar transfer mechanism 16, and makes one end and the foil of conducting bar 103 101 side alignment；Specifically, drive take-off plate 161 towards remote using the second transfer driver 169 of conducting bar transfer mechanism 16 The mobile return in direction from conducting bar band 102；Then connecting plate is driven using the first transfer driver 167 of conducting bar transfer mechanism 16 163 and conducting bar folder 166 move again, until stopping driving when one end of conducting bar 103 is aligned with the side of foil 101；Then The direction that two transfer drivers 169 drive take-off plate 161 towards close cold welding driver 143 is mobile, until conducting bar 103 is positioned at cold Between the movable block 144 and fixed block 145 of welding mechanism 14, and conducting bar 103 is made to be in the top of cold welding slot 104；

Using cold welding mechanism 14 by pressure by 103 cold welding of conducting bar in foil 101；Specifically, cold welding mechanism 14 is utilized Cold welding driver 143 drive movable block 144 mobile towards the direction close to fixed block 145, and pass through fixed block 145 and activity Block 144 squeezes the pressure generated and conducting bar 103 is welded in foil 101；And

Foil 101 is pulled into default length after conducting bar 103 is welded in foil 101 by cold welding mechanism 14 using La Bo mechanism 18 Degree, the welding that carry out cold welding mechanism 14 can next time act.

Foil 101 on the foil disk 12 of capacitor producing device 10 of the invention successively passes through cold welding mechanism 14 and La Bo mechanism 18, conducting bar disk 13 pulls conducting bar band for clamping conducting bar band 102 for exporting conducting bar band 102, conducting bar transfer mechanism 16 outward 102 pass through 17 preset length of conducting bar cutting mechanism, and conducting bar cutting mechanism 17 is used to the cutting of conducting bar band 102 making conducting bar transfer mechanism The part of 16 clampings forms conducting bar 103, and conducting bar 103 can be transferred to cold welding mechanism 14 by conducting bar transfer mechanism 16, and make conducting bar 103 One end be aligned with the side of foil 101, conducting bar 103 is welded in foil 101 by pressure by cold welding mechanism 14, La Bo mechanism 18 move preset length for conducting bar 103 to be welded on post-tensioning foil 101 in foil 101 in cold welding mechanism 14.Electricity of the invention Hold producing device 10 and conducting bar band 102 is pulled out by required length by conducting bar transfer mechanism 16, then passes through conducting bar cutting mechanism 17 cutting conducting bar bands 102 form conducting bar 103, and then conducting bar 103 is transferred in foil 101 by conducting bar transfer mechanism 16, and It determines the position to be welded, conducting bar 103 is welded in foil 101 finally by cold welding mechanism 14.Therefore, electricity of the invention Holding producing device 10 is that welding conducting bar 103, high production efficiency, and the capacitor packages consistency produced are carried out by mechanical feeding Preferably, capacitor packages quality is improved.

It is described the prefered embodiments of the present invention in detail above in conjunction with attached drawing, but the present invention is not limited to above-mentioned implementations Detail in mode can carry out technical solution of the present invention a variety of simple within the scope of the technical concept of the present invention Modification, these simple variants all belong to the scope of protection of the present invention.It is as described in the above specific embodiments each specific Technical characteristic can be combined in any appropriate way in the case of no contradiction.In order to avoid unnecessary heavy Multiple, the invention will not be further described in various possible combinations.

Claims (10)

1. a kind of capacitor producing device, which is characterized in that moved including foil disk (12), conducting bar disk (13), cold welding mechanism (14), conducting bar Mechanism (16), conducting bar cutting mechanism (17) and La Bo mechanism (18) are sent, the foil on the foil disk (12) successively passes through the cold welding machine Structure (14) and the La Bo mechanism (18), the conducting bar disk (13) are used for for exporting conducting bar band, the conducting bar transfer mechanism (16) outward Conducting bar band is clamped, and conducting bar band is pulled to pass through conducting bar cutting mechanism (17) preset length, which is used for The part that the cutting of conducting bar band clamps the conducting bar transfer mechanism (16) is formed into conducting bar, which can be by conducting bar It is transferred to the cold welding mechanism (14), and is aligned one end of conducting bar with the side of foil, which will by pressure Conducting bar is welded in foil, which is used to that conducting bar to be welded on post-tensioning foil in foil in the cold welding mechanism (14) Mobile preset length, the conducting bar transfer mechanism (16) include conducting bar folder (166), take-off plate (161) and connecting plate (163), this is cold Welding mechanism (14) includes fixed frame (142), which is movably attached to the fixed frame of the cold welding mechanism (14) (142), which is movably attached to the take-off plate (161), and conducting bar folder (166) is connected to the connecting plate (163) on, which can be towards close to the movement of the direction of conducting bar band, which can be towards close to the cold welding The direction of mechanism (14) is mobile.

2. capacitor producing device as described in claim 1, which is characterized in that the cold welding mechanism (14) includes cold welding driver (143), movable block (144) and fixed block (145), the cold welding driver (143) are connected on the fixed frame (142), the activity Block (144) is connect with the cold welding driver (143), which is oppositely arranged with the movable block (144), which sets It sets on the fixed block (145), which can drive the movable block (144) towards close to fixed block (145) Direction is mobile, and conducting bar is welded in foil by the pressure by generating between the fixed block (145) and the movable block (144).

3. capacitor producing device as claimed in claim 2, which is characterized in that the conducting bar transfer mechanism (16) includes the first transfer Driver (167) and the second transfer driver (169), second transfer driver (169) can drive conducting bar folder (166) towards leaning on The direction of nearly conducting bar band is mobile, and conducting bar folder (166) is made to clamp conducting bar band, which can drive conducting bar It is mobile to press from both sides (166), and moves conducting bar after so that conducting bar band is passed through conducting bar cutting mechanism (17) preset length and the cutting of conducting bar band It send to the cold welding mechanism (14).

4. capacitor producing device as claimed in claim 3, which is characterized in that the take-off plate (161) is set to cold welding driving The transfer is realized by the cooperation of sliding slot and sliding rail between the take-off plate (161) and the fixed frame (142) in the side of device (143) Plate (161) is movably attached to the fixed frame (142), between the connecting plate (163) and the take-off plate (161) by sliding slot and The cooperation of sliding rail realizes that the connecting plate (163) is movably attached to the take-off plate (161), first transfer driver (167) It is fixed in the take-off plate (161), conducting bar folder (166) is connected on the connecting plate (163), the first transfer driver (167) connecting plate (163) can be driven to move in the take-off plate (161), it is solid which is fixed on this Determine on frame (142), which can drive the take-off plate (161) to move on the fixed frame (142).

5. capacitor producing device as claimed in claim 4, which is characterized in that the take-off plate (161) is driven far from first transfer The one end of dynamic device (167) is equipped with driving wheel (162), which is equipped with driving wheel (168), the conducting bar Transfer mechanism (16) further includes transmission folder (164) and transmission belt (165), and one end of transmission folder (164) is connected to the connecting plate (163) on, the other end of transmission folder (164) clamps the transmission belt (165), which is connected to the take-off plate (161) between the driving wheel (168) on driving wheel (162) and first transfer driver (167) on.

6. capacitor producing device as described in claim 1, which is characterized in that the conducting bar cutting mechanism (17) is cut including first Component (172) and second cuts component (176), this first cuts component (172) and second cut that component (176) are opposite to be set with this It sets, first to cut component (172) include that the first briquetting (173), the first cutter (174) and first cut driver (175) for this, this First cutter (174) is connected to the side of first briquetting (173), this first cut driver (175) can drive this first pressure Block (173) and the first cutter (174) are towards close to the movement of the direction of conducting bar band；This second cut component (176) include second pressure Block (177), the second cutter (178) and second cut driver (179), which is connected to second briquetting (177) side, this second cuts driver (179) second briquetting (177) and the second cutter (178) can be driven towards close The direction of conducting bar band is mobile, and conducting bar band is fixed between first briquetting (173) and second briquetting (177), simultaneously should First cutter (174) and second cutter (178) closure cut off conducting bar band.

7. capacitor producing device as described in claim 1, which is characterized in that the La Bo mechanism (18) includes the first drawing foil wheel (182), it second draws foil wheel and draws foil driver, the wheel of first drawing foil wheel (182) connects while with the wheel of the second drawing foil wheel Touching, the foil draw taking turns between in the wheel of the second drawing foil wheel for foil wheel (182) to pass through from first, which can drive The first drawing foil wheel (182) rotation is set to pull foil.

8. capacitor producing device as described in claim 1, which is characterized in that the capacitor producing device further includes conducting bar trimmer Structure (15), the conducting bar reshaping device (15) include the first shaping component (152) and the second shaping component (154), the conducting bar disk (13) the conducting bar band exported outward successively passes through first shaping component (152) and second shaping component (154), this is first whole Shape component (152) includes column (1522), the first idler wheel (1523) and the second idler wheel (1524), first idler wheel (1523) and should Second idler wheel (1524) is hinged on the column (1522), and the wheel side of first idler wheel (1523) and second idler wheel (1524) Wheel side be in contact, conducting bar band passes through between the wheel of first idler wheel (1523) is in the wheel of second idler wheel (1524)； Second shaping component (154) includes reshaping frame (1541), cam (1542) and concave wheel (1544), the cam (1542) and this is recessed Wheel (1544) is hinged on the reshaping frame (1541), which is equipped with shaping raised line, and the shaping raised line is around the cam (1542) circumferential setting, the concave wheel (1544) are equipped with shaping groove, which sets around the circumferential direction of the concave wheel (1544) It sets, the shaping raised line of the cam (1542) is arranged in the shaping groove of the concave wheel (1544), and conducting bar band is from the cam (1542) pass through between the shaping groove of shaping raised line and the concave wheel (1544).

9. capacitor producing device as claimed in claim 8, which is characterized in that second shaping component (154) further includes operation Handle (1545), mounting blocks (1546), adjusting block (1547), spring (1548) and regulating part (1549), the lever (1545) are worn It crosses the reshaping frame (1541) to connect with the cam (1542), which can drive the cam (1542) to rotate, the peace The mounting blocks (1546) are realized movably by the cooperation of sliding block and sliding slot between dress block (1546) and the reshaping frame (1541) It is connected on the reshaping frame (1541), which is articulated with the mounting blocks (1546), the adjusting block (1547) and the peace Dress block (1546) is oppositely arranged, which is connected between the adjusting block (1547) and the mounting blocks (1546), the tune Section part (1549) passes through the reshaping frame (1541) and connect with the adjusting block (1547), which can drive the adjusting Block (1547) is mobile towards the direction close to or far from the mounting blocks (1546).

10. a kind of capacitor manufacturing method, which is characterized in that the step of capacitor manufacturing method includes：

Foil is conveyed to cold welding mechanism (14) and La Bo mechanism (18) using foil disk (12), and is exported outward using conducting bar disk (13) Conducting bar band；

Conducting bar band is clamped using conducting bar transfer mechanism (16), and conducting bar band is pulled to pass through conducting bar cutting mechanism (17) preset length；

The part that the cutting of conducting bar band clamps the conducting bar transfer mechanism (16) is formed into conducting bar using the conducting bar cutting mechanism (17)；

Conducting bar is transferred to the cold welding mechanism (14) using the conducting bar transfer mechanism (16), and makes one end of conducting bar and the side of foil Side alignment；

Conducting bar is welded in foil by pressure using the cold welding mechanism (14)；And

Conducting bar is welded on post-tensioning foil in foil in the cold welding mechanism (14) using La Bo mechanism (18) and moves preset length；It should Conducting bar transfer mechanism (16) includes conducting bar folder (166), take-off plate (161) and connecting plate (163), which includes solid Determine frame (142), which is movably attached to the fixed frame (142) of the cold welding mechanism (14), the connecting plate (163) it is movably attached to the take-off plate (161), conducting bar folder (166) is connected on the connecting plate (163), the take-off plate (161) can be towards close to the movement of the direction of conducting bar band, which can move towards the direction close to the cold welding mechanism (14) It is dynamic.