CN206363903U - Electric capacity producing device - Google Patents

Abstract

A kind of electric capacity producing device, including cold welding mechanism, sliver reshaping device, sliver transfer mechanism and sliver cutting mechanism, sliver reshaping device includes the first shaping component and the second shaping component, first shaping component is used to carry out first time squeezing shaping to sliver band, make sliver band formation flat construction, second shaping component is used to carry out second of squeezing shaping to sliver band, make sliver band formation bathtub construction, sliver transfer mechanism is used to clamp the sliver band after shaping, and pull sliver band to pass through sliver cutting mechanism preset length, sliver cutting mechanism is used to cut off on sliver band the part formation sliver for clamping sliver transfer mechanism, sliver can be transferred to cold welding mechanism by sliver transfer mechanism, sliver is welded in foil by cold welding mechanism by pressure.Situations such as electric capacity producing device of the present utility model makes sliver be not susceptible to bend in follow-up welding and feeding process, deformed, the quality of capacitor packages can be effectively improved.

Description

Electric capacity producing device

Technical field

The utility model is related to capacitor fabrication technical field, more particularly to a kind of electric capacity producing device.

Background technology

Capacitor is a kind of device of storage electric charge, and is widely used in the electronics in modern times, electric equipment.

The primary structure of capacitor includes aluminium foil, electrolytic paper and sliver (positive and negative plate), and one end of sliver is welded on aluminium foil On, the aluminium foil and electrolytic paper for welding sliver form capacitor element by winding together., it is necessary to accurate before capacitor element is made Standby sliver, the sliver of length, is then placed on sliver in foil again needed for by manually cutting into sliver band, it is determined that The position to be welded, is finally welded on sliver on aluminium foil.

But, Manual feeding carries out welding sliver, and not only low production efficiency, labor intensity are big, and quality cannot be very Good guarantee.The limitation (sliver length length and width degree is narrow, thickness of thin) of sliver self-characteristic is additionally, since, sliver is in feeding process In easily bend, situations such as deform, influence the making of subsequent capacitance device.

Utility model content

The purpose of this utility model is, there is provided a kind of electric capacity producing device, to make sliver in follow-up welding and send Situations such as being not susceptible to bend during material, deform, can effectively improve the quality of capacitor packages.

The utility model, which solves its technical problem, to be realized using following technical scheme.

A kind of electric capacity producing device, including cold welding mechanism, sliver reshaping device, sliver transfer mechanism and sliver guillotine Structure, sliver reshaping device includes the first shaping component and the second shaping component, and the first shaping component is used to carry out the to sliver band Squeezing shaping, makes sliver band formation flat construction, and the second shaping component is used to carry out second of squeezing shaping to sliver band, Make sliver band formation bathtub construction, sliver transfer mechanism is used to clamp the sliver band after shaping, and pulls sliver band to pass through sliver Cutting mechanism preset length, sliver cutting mechanism, which is used to form the part that the cut-out of sliver band clamps sliver transfer mechanism, leads Sliver can be transferred to cold welding mechanism by bar, sliver transfer mechanism, and sliver is welded in foil by cold welding mechanism by pressure.

In preferred embodiment of the present utility model, above-mentioned cold welding mechanism include fixed mount, cold welding driver, movable block and Fixed block, cold welding driver is connected on fixed mount, and movable block is connected with cold welding driver, and fixed block is relative with movable block to be set Put, foil is arranged on fixed block, cold welding driver can drive movable block to be moved towards the direction close to fixed block, and by solid Sliver is welded in foil by the pressure for determining to produce between block and movable block.

In preferred embodiment of the present utility model, above-mentioned fixed block is provided with cold welding groove, and cold welding groove provided with multiple Projection, when sliver is transferred to cold welding mechanism by sliver transfer mechanism, sliver is in the top of cold welding groove.

In preferred embodiment of the present utility model, above-mentioned sliver transfer mechanism includes sliver folder, the first transfer driver With the second transfer driver, the second transfer driver can drive sliver folder to be moved towards the direction close to sliver band, and make sliver Sliver band is clamped, the first transfer driver can drive sliver folder movement, and make sliver band through the default length of sliver cutting mechanism Sliver is transferred to cold welding mechanism by degree and sliver band after being cut off.

In preferred embodiment of the present utility model, above-mentioned sliver transfer mechanism also includes take-off plate and connecting plate, transfer Plate is arranged at the side of cold welding driver, realizes that take-off plate is removable by the cooperation of chute and slide rail between take-off plate and fixed mount Fixed mount is connected to dynamicly, realizes that connecting plate is movably coupled to by the cooperation of chute and slide rail between connecting plate and take-off plate In take-off plate, the first transfer driver is fixed in take-off plate, and sliver folder is connected on connecting plate, and the first transfer driver can drive Connecting plate is set to be moved in take-off plate, the second transfer driver is fixed on fixed mount, the second transfer driver can drive transfer Plate is moved on fixed mount.

In preferred embodiment of the present utility model, the one end of above-mentioned take-off plate away from the first transfer driver is provided with transmission Wheel, the first transfer driver is provided with drive, and sliver transfer mechanism also includes transmission folder and transmission belt, and one end of transmission folder connects It is connected on connecting plate, the other end clamping transmission belt of transmission folder, the drive being connected in take-off plate of transmission belt and first is moved Send between the drive on driver.

In preferred embodiment of the present utility model, above-mentioned first shaping component includes column, the first roller and the second rolling Wheel, the first roller and the second roller are hinged on column, and the wheel of the first roller is in contact in the wheel with the second roller, sliver Band from the first roller wheel in the wheel of the second roller between pass through；Second shaping component includes reshaping frame, cam and concave wheel, Cam and concave wheel are hinged on reshaping frame, and cam is provided with shaping raised line, and shaping raised line is set in the circumferentially disposed of cam, concave wheel There is shaping groove, shaping groove is around the circumferentially disposed of concave wheel, and the shaping raised line of cam is arranged in the shaping groove of concave wheel, and is led Band passes through between the shaping raised line of cam and the shaping groove of concave wheel.

In preferred embodiment of the present utility model, above-mentioned second shaping component also includes lever, mounting blocks, regulation Block, spring and regulating part, lever are connected through reshaping frame with cam, and lever can drive cam rotation, mounting blocks and shaping Realize that mounting blocks are movably attached on reshaping frame by the cooperation of sliding block and chute between frame, concave wheel is articulated with mounting blocks, Regulating block is oppositely arranged with mounting blocks, and spring is connected between regulating block and mounting blocks, regulating part through reshaping frame and with regulation Block is connected, and regulating part can drive regulating block towards the direction movement closer or far from mounting blocks.

In preferred embodiment of the present utility model, above-mentioned sliver cutting mechanism cuts component and second including first and cut Component, first, which cuts component, cuts component with second and is oppositely arranged, and first, which cuts component, includes the first briquetting, the first cutting knife and the One cuts driver, and the first cutting knife is connected to the side of the first briquetting, and first, which cuts driver, can drive the first briquetting and first Cutting knife is towards close to the movement of the direction of sliver band；Second cuts component cuts driving including the second briquetting, the second cutting knife and second Device, the second cutting knife is connected to the side of the second briquetting, second cut driver can drive the second briquetting and the second cutting knife towards by The direction movement of nearly sliver band, and sliver band is fixed between the first briquetting and the second briquetting, while the first cutting knife and second Cutting knife closure cuts off sliver band.

The sliver reshaping device of electric capacity producing device of the present utility model includes the first shaping component and the second shaping component, First shaping component is used to carry out first time squeezing shaping to sliver band, makes sliver band formation flat construction, the second shaping component For carrying out second of squeezing shaping to sliver band, make sliver band formation bathtub construction, sliver transfer mechanism is used to clamp shaping Sliver band afterwards, and pull sliver band to pass through sliver cutting mechanism preset length, sliver cutting mechanism is used to cut off on sliver band The part for clamping sliver transfer mechanism forms sliver, and sliver can be transferred to cold welding mechanism, cold welding mechanism by sliver transfer mechanism Sliver is welded in foil by pressure.Electric capacity producing device of the present utility model is by sliver reshaping device successively to sliver Band carries out squeezing shaping twice, and first time squeezing shaping makes sliver band formation flat construction, on the basis of first time squeezing shaping Second of squeezing shaping of upper progress, makes sliver band formation bathtub construction.Therefore, electric capacity producing device of the present utility model is to leading The structural strength of sliver band can effectively be strengthened after band shaping, sliver is not susceptible in follow-up welding and feeding process Situations such as bending, deformation, the quality of capacitor packages can be effectively improved.Moreover, electric capacity producing device of the present utility model is to pass through Mechanical feeding carries out welding sliver, and production efficiency is high, and the capacitor packages uniformity of production is preferable, is conducive to lifting electric capacity production Quality.

Described above is only the general introduction of technical solutions of the utility model, in order to better understand skill of the present utility model Art means, and being practiced according to the content of specification, and in order to allow above and other purpose of the present utility model, feature It can be become apparent with advantage, below especially exemplified by preferred embodiment, and coordinate accompanying drawing, described in detail.

Brief description of the drawings

Fig. 1 is the dimensional structure diagram of electric capacity producing device of the present utility model.

Fig. 2 is the partial structural diagram at the visual angle of electric capacity producing device first of the present utility model.

Fig. 3 is the partial structural diagram of cold welding mechanism of the present utility model.

Fig. 4 is the partial structural diagram at the visual angle of electric capacity producing device second of the present utility model.

Fig. 5 is the structural representation of sliver reshaping device of the present utility model.

Fig. 6 is the partial structural diagram at the visual angle of electric capacity producing device the 3rd of the present utility model.

Fig. 7 is the structural representation of sliver cutting mechanism of the present utility model.

Fig. 8 is the schematic flow sheet of capacitor manufacturing method of the present utility model.

Embodiment

Further to illustrate that the utility model is to reach technological means and effect that predetermined utility model purpose is taken, Below in conjunction with accompanying drawing and preferred embodiment, to according to the utility model proposes the embodiment of electric capacity producing device, knot Structure, feature and its effect, are described in detail as follows:

Relevant of the present utility model foregoing and other technology contents, feature and effect, it is following coordinate with reference to schema compared with It can be clearly appeared from the detailed description of good embodiment.By the explanation of embodiment, when can be to the utility model up to The technological means and effect taken into predetermined purpose are able to more go deep into and specific understanding, but institute's accompanying drawings are only to provide With reference to purposes of discussion, not for being any limitation as to the utility model.

Fig. 1 is the dimensional structure diagram of electric capacity producing device of the present utility model.As shown in figure 1, in the present embodiment, Electric capacity producing device 10 includes paper tinsel disk 12, sliver disk 13, cold welding mechanism 14, sliver reshaping device 15, sliver transfer mechanism 16, led Bar cutting mechanism 17 and La Bo mechanisms 18.

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

Sliver disk 13 is used to convey sliver band 102 to sliver reshaping device 15.

Fig. 2 is the partial structural diagram at the visual angle of electric capacity producing device first of the present utility model.Fig. 3 is the utility model Cold welding mechanism partial structural diagram.As shown in Figure 1, Figure 2 and Figure 3, cold welding mechanism 14 is arranged at paper tinsel disk 12 with drawing paper tinsel machine Between structure 18；In the present embodiment, cold welding mechanism 14 includes fixed mount 142, cold welding driver 143, movable block 144, fixed block 145 and Duo Gen springs 147.

Fixed mount 142 is fixedly installed, for example, be fixed on a plummer.In the present embodiment, the rectangular knot of fixed mount 142 Structure, including the top plate and bottom plate that are oppositely arranged and many support columns being connected between top plate and bottom plate, the bottom of fixed mount 142 Plate is fixed on plummer.Cold welding driver 143 is fixed on the top plate of fixed mount 142, the drive end position of cold welding driver 143 In in fixed mount 142.Movable block 144 is connected with cold welding driver 143；Fixed block 145 is oppositely arranged with movable block 144, and paper tinsel Band 101 is arranged on fixed block 145；Cold welding driver 143 can drive movable block 144 to be moved towards the direction close to fixed block 145 It is dynamic, and the pressure produced is extruded by the cold welding of sliver 103 in foil 101 by fixed block 145 and movable block 144.In order to avoid Fixed block 145 and movable block 144 extrude that the pressure produced is excessive to cause sliver 103 and foil 101 to damage, movable block 144 with it is cold Spring 147 is connected between weldering driver 143, spring 147 is connected between fixed block 145 and fixed mount 142.In the present embodiment In, fixed block 145 is provided with cold welding groove 104, and cold welding groove 104 close to the surface of movable block 144 and is provided with multiple projections 146, Each projection 146 is spaced to be set；When sliver 103 is transferred to cold welding mechanism 14 by sliver transfer mechanism 16, sliver 103 is in The top of cold welding groove 104, and sliver 103 length direction parallel to cold welding groove 104 length direction.

Fig. 4 is the partial structural diagram at the visual angle of electric capacity producing device second of the present utility model.Fig. 5 is the utility model Sliver reshaping device structural representation.Fig. 6 is that the partial structurtes at the visual angle of electric capacity producing device the 3rd of the present utility model are shown It is intended to.As shown in Fig. 1, Fig. 4, Fig. 5 and Fig. 6, sliver reshaping device 15 is arranged at the side of cold welding mechanism 14；In the present embodiment In, sliver reshaping device 15 includes the first shaping component 152 and the second shaping component 154.

When sliver disk 13 is to the conveying sliver band 102 of sliver reshaping device 15, sliver band 102 first passes around the first shaping component 152, first time squeezing shaping is carried out to sliver band 102 by the first shaping component 152.In the present embodiment, the first shaping component 152 include column 1522, the first roller 1523 and the second roller 1524；First roller 1523 and the second roller 1524 are symmetrical above and below Set be hinged on column 1522, and the first roller 1523 wheel be in contact in the wheel with the second roller 1524 set or phase Neighbour set, the sliver band 102 exported by sliver disk 13 from the first roller 1523 wheel in the wheel of the second roller 1524 between By.In the present embodiment, sliver band 102 is extruded whole for the first time when by the first roller 1523 and the second roller 1524 Shape, makes the formation flat construction of sliver band 102.

Second shaping component 154 is arranged at the side of the first shaping component 152, and the second shaping component 154 is used for sliver 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, regulating 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 provided with shaping raised line, and shaping is convex Bar is circumferentially disposed around cam 1542；Concave wheel 1544 is provided with shaping groove, and shaping groove is circumferentially disposed around concave wheel 1544；It is convex The wheel of wheel 1542 while and concave wheel 1544 wheel while contact with each other and setting or be disposed adjacent, and the shaping raised line of cam 1542 is arranged on In the shaping groove of concave wheel 1544, by the sliver band 102 after the shaping of the first shaping component 152 from the shaping raised line of cam 1542 with Pass through between the shaping groove of concave wheel 1544.That is, sliver band 102 by cam 1542 and concave wheel 1544 when by second Secondary squeezing shaping, makes the formation bathtub construction of sliver band 102 (such as U-lag structure), the structural strength of increase sliver band 102.

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

Realized and pacified by the cooperation of sliding block and chute between the mounting blocks 1546 and reshaping frame 1541 of second shaping component 154 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 Can be with mounting blocks 1546 towards the direction shift position closer or far from cam 1542；Regulating block 1547 and the phase of mounting blocks 1546 To setting, spring 1548 is connected between regulating block 1547 and mounting blocks 1546；Regulating part 1549 through reshaping frame 1541 and with Regulating block 1547 is connected, and regulating part 1549 can drive regulating block 1547 towards the direction movement closer or far from mounting blocks 1546. In the present embodiment, lever 1545 is arranged at the side of reshaping frame 1541, and regulating part 1549 is arranged at the top of reshaping frame 1541 Portion, but be not limited thereto.

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

Take-off plate 161 is movably attached on the top plate of fixed mount 142, it is preferable that take-off plate 161 and fixed mount 142 Between realize that take-off plate 161 is movably attached to fixed mount 142 by the cooperation of chute and slide rail.One end of take-off plate 161 Provided with drive 162, drive 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 moved towards the direction closer or far from cold welding driver 143, and take-off plate 161 Along slide rail moving direction perpendicular to sliver band 102 length direction.

Connecting plate 163 is movably attached to take-off plate 161, it is preferable that pass through between connecting plate 163 and take-off plate 161 The cooperation of chute and slide rail realizes that connecting plate 163 is movably attached to take-off plate 161.In the present embodiment, the edge of connecting plate 163 Length direction of the moving direction parallel to sliver band 102 of slide rail, 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, the other end clamping transmission belt 165 of transmission folder 164, and energy With the synchronizing moving of transmission belt 165.

One end of transmission belt 165 is connected with the drive 162 in take-off plate 161, and the other end of transmission belt 165 and first is moved The drive 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 be moved in take-off plate 161 by transmission belt 165 and drive.

Sliver folder 166 is fixed on one end of connecting plate 163, and sliver folder 166 is located at the side of sliver cutting mechanism 17. In the present embodiment, after sliver band 102 is shaped, sliver folder 166 can clamp sliver band 102, and be driven by the first transfer Device 167 drives sliver folder 166 and connecting plate 163 to move, until sliver band 102 passes through the preset length of sliver cutting mechanism 17.

Second transfer driver 169 is fixed on the fixed mount 142 of cold welding mechanism 14, and the second transfer driver 169 is with moving Plate 161 is sent to connect, the second transfer driver 169 can drive take-off plate 161 to be moved on fixed mount 142.

In the present embodiment, sliver transfer mechanism 16 is used to sliver 103 being transferred to cold welding mechanism 14, when sliver 103 is made When being welded on for negative pole in foil 101, the process of the transfer sliver 103 of sliver transfer mechanism 16 comprises the following steps：

Step one, the second transfer driver 169 drives take-off plate 161 to be moved towards the direction close to sliver band 102, until Sliver band 102, which is in sliver folder 166, stops driving, and now sliver folder 166 clamps sliver band 102；

Step 2, the first transfer driver 167 drives connecting plate 163 and sliver to press from both sides 166 and moved, until sliver band 102 is worn Cross the preset length of sliver cutting mechanism 17 and stop driving；

Step 3, when sliver cutting mechanism 17 cuts off sliver band 102 the part formation sliver for making sliver press from both sides 166 clampings 103, the first transfer driver 167 drives connecting plate 163 and sliver to press from both sides 166 and moved again, until one end of sliver 103 is (for example The cut-out end of sliver 103) stop driving when being alignd with the side of foil 101, now sliver 103 is located at the activity of cold welding mechanism 14 Between block 144 and fixed block 145, and sliver 103 is in the top of cold welding groove 104.

When sliver 103 is welded on as positive pole in foil 101, sliver transfer mechanism 16 transfers the process bag of sliver 103 Include following steps：

Step one, the second transfer driver 169 drives take-off plate 161 to be moved towards the direction close to sliver band 102, until Sliver band 102, which is in sliver folder 166, stops driving, and now sliver folder 166 clamps sliver band 102；

Step 2, the first transfer driver 167 drives connecting plate 163 and sliver to press from both sides 166 and moved, until sliver band 102 is worn Cross the preset length of sliver cutting mechanism 17 and stop driving；

Step 3, when sliver cutting mechanism 17 cuts off sliver band 102 the part formation sliver for making sliver press from both sides 166 clampings 103, now second transfer the direction movement return that driver 169 drives take-off plate 161 away from sliver band 102；

Step 4, the first transfer driver 167 drives connecting plate 163 and sliver to press from both sides 166 and moved again, until sliver 103 One end (the cut-out end of such as sliver 103) stop driving when being alignd with the side of foil 101；

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

It is noted that, it is necessary to avoid cold welding mechanism 14 when sliver transfer mechanism 16 transfers the sliver 103 as positive pole Movable block 144 and fixed block 145, prevent sliver 103 from being collided with movable block 144 and fixed block 145, as shown in Figure 1.

Fig. 7 is the structural representation of sliver cutting mechanism of the present utility model.As shown in Figure 1 and Figure 7, sliver cutting mechanism 17 are arranged between sliver reshaping device 15 and cold welding mechanism 14, in the present embodiment, and sliver cutting mechanism 17 includes first and cut out Cut component 172 and second and cut component 176, first, which cuts component 172, cuts component 176 with second and be oppositely arranged, and first cuts out Cut component 172 and be arranged at the second lower section for cutting component 176.

In the present embodiment, first cut component 172 and cut driving including the first briquetting 173, the first cutting knife 174 and first Device 175；First cutting knife 174 is connected to the side of the first briquetting 173；First cuts one that driver 175 is fixed on fixed mount 142 Side, and first cut driver 175 and be connected with the first briquetting 173 and the first cutting knife 174, first, which cuts driver 175, to drive First briquetting 173 and the first cutting knife 174 are towards close to the movement of the direction of sliver band 102.Second, which cuts component 176, includes the second pressure Block 177, the second cutting knife 178 and second cut driver 179；Second cutting knife 178 is connected to the side of the second briquetting 177；Second The side that driver 179 is fixed on fixed mount 142 is cut, and second cuts the briquetting 177 of driver 179 and second and the second cutting knife 178 connections, second, which cuts driver 179, can drive the second briquetting 177 and the second cutting knife 178 towards the side close to sliver band 102 It is fixed on to movement, and by sliver band 102 between the first briquetting 173 and the second briquetting 177, while the first cutting knife 174 and second Cutting knife 178, which is closed, cuts off sliver band 102.

As shown in figure 1, La Bo mechanisms 18 are arranged at the side of cold welding mechanism 14, La Bo mechanisms 18 are used in cold welding mechanism 14 Foil 101 is pulled into preset length after sliver 103 is welded in foil 101, cold welding mechanism 14 is carried out welding next time. In the present embodiment, La Bo mechanisms 18 include first the 182, second drawing paper tinsel wheel (not shown) of drawing paper tinsel wheel and draw paper tinsel driver (to scheme not Show).The wheel of first drawing paper tinsel wheel 182 is in contact in the wheel with the second drawing paper tinsel wheel and sets or be disposed adjacent, and foil 101 is drawn from first Paper tinsel wheel 182 wheel while second drawing paper tinsel wheel wheel while between pass through, draw paper tinsel driver can drive the first drawing paper tinsel wheel 182 rotate pulling Foil 101.

Fig. 8 is the schematic flow sheet of capacitor manufacturing method of the present utility model.Fig. 1 be refer to Fig. 8, it is of the present utility model The step of capacitor manufacturing method, includes：

Foil 101 is conveyed to cold welding mechanism 14 and La Bo mechanisms 18 using paper tinsel disk 12, and it is whole to sliver using sliver disk 13 The conveying sliver band of shape mechanism 15 102；

Using sliver reshaping device 15 to the squeezing shaping of sliver band 102；Specifically, the first of sliver reshaping device 15 is utilized Shaping component 152 carries out first time squeezing shaping to sliver band 102, makes the formation flat construction of sliver band 102；Then sliver is utilized Second shaping component 154 of reshaping device 15 carries out second of squeezing shaping to sliver band 102, makes the formation flute profile of sliver band 102 Structure (such as U-lag structure)；

The sliver band 102 after shaping is clamped using sliver transfer mechanism 16, and pulls sliver band 102 to pass through sliver guillotine The preset length of structure 17；Specifically, using sliver transfer mechanism 16 second transfer driver 169 drive take-off plate 161 towards by The direction movement of nearly sliver band 102, until sliver band 102, which is in sliver folder 166, stops driving, now sliver folder 166 is clamped Sliver band 102；Then drive connecting plate 163 and sliver to press from both sides 166 using the first transfer driver 167 of sliver transfer mechanism 16 to move It is dynamic, until sliver band 102 stops driving through the preset length of sliver cutting mechanism 17；

The part that being cut off sliver band 102 using sliver cutting mechanism 17 clamps sliver transfer mechanism 16 forms sliver 103；Specifically, first using sliver cutting mechanism 17 cuts driver 175 and drives the first briquetting 173 and the first cutting knife 174 Towards close to the movement of the direction of sliver band 102, while cutting driver 179 using the second of sliver cutting mechanism 17 drives second The cutting knife 178 of briquetting 177 and second is moved towards the direction close to sliver band 102, and sliver band 102 is fixed on into the first briquetting 173 and second between briquetting 177, while the first cutting knife 174 and the second cutting knife 178 close and cut off sliver band 102；

Sliver 103 is transferred to cold welding mechanism 14 using sliver transfer mechanism 16, and makes one end and the foil of sliver 103 101 side alignment；Specifically, take-off plate 161 is driven towards remote using the second transfer driver 169 of sliver transfer mechanism 16 Move return in direction from sliver band 102；Then connecting plate is driven using the first transfer driver 167 of sliver transfer mechanism 16 163 and sliver folder 166 move again, until stopping driving when one end of sliver 103 is alignd with the side of foil 101；Then Two transfer drivers 169 drive take-off plate 161 towards close to the movement of the direction of cold welding driver 143, until sliver 103 is positioned at cold Between the movable block 144 and fixed block 145 of welding mechanism 14, and make top of the sliver 103 in cold welding groove 104；

Using cold welding mechanism 14 by pressure by the cold welding of sliver 103 in foil 101；Specifically, cold welding mechanism 14 is utilized Cold welding driver 143 drive movable block 144 towards close to fixed block 145 direction move, and pass through fixed block 145 with activity Sliver 103 is welded in foil 101 by the pressure that the extruding of block 144 is produced；And

Foil 101 is pulled into default length after sliver 103 is welded in foil 101 by cold welding mechanism 14 using La Bo mechanisms 18 Degree, the welding that making cold welding mechanism 14 can be carried out next time is acted.

It is whole that the sliver reshaping device 15 of electric capacity producing device 10 of the present utility model includes the first shaping component 152 and second Shape component 154, the first shaping component 152 is used to carry out first time squeezing shaping to sliver band 102, makes the formation of sliver band 102 flat Straight structure, the second shaping component 154 is used to carry out second of squeezing shaping to sliver band 102, makes the formation flute profile knot of sliver band 102 Structure, sliver transfer mechanism 16 is used to clamp the sliver band 102 after shaping, and pulls sliver band 102 to pass through sliver cutting mechanism 17 Preset length, sliver cutting mechanism 17 is used to cut off on sliver band 102 the part formation sliver for clamping sliver transfer mechanism 16 103, sliver 103 can be transferred to cold welding mechanism 14 by sliver transfer mechanism 16, and sliver 103 is welded by pressure in cold welding mechanism 14 In foil 101.Electric capacity producing device 10 of the present utility model carries out two to sliver band 102 successively by sliver reshaping device 15 Secondary squeezing shaping, i.e. first time squeezing shaping make the formation flat construction of sliver band 102, enter on the basis of first time squeezing shaping Second of squeezing shaping of row, makes the formation bathtub construction of sliver band 102.Therefore, electric capacity producing device 10 of the present utility model is right The structural strength of sliver band 102 can effectively be strengthened after the shaping of sliver band 102, make sliver 103 in follow-up welding and feeding Situations such as being not susceptible to bend in journey, deform, can effectively improve the quality of capacitor packages.Moreover, electric capacity system of the present utility model It is to carry out welding sliver 103 by mechanical feeding to make device 10, and production efficiency is high, and production capacitor packages uniformity compared with It is good, be conducive to lifting capacitor packages quality.

Preferred embodiment of the present utility model is described in detail above in association with accompanying drawing, but the utility model is not limited to Detail in above-mentioned embodiment, can be to technology of the present utility model in range of the technology design of the present utility model Scheme carries out a variety of simple variants, and these simple variants belong to protection domain of the present utility model.In above-mentioned specific embodiment party Each particular technique feature described in formula, in the case of reconcilable, can be combined by any suitable means. In order to avoid unnecessary repetition, the utility model no longer separately illustrates to various possible combinations.

Claims (9)

1. a kind of electric capacity producing device, it is characterised in that including cold welding mechanism (14), sliver reshaping device (15), sliver transfer Mechanism (16) and sliver cutting mechanism (17), the sliver reshaping device (15) include the first shaping component (152) and the second shaping Component (154), first shaping component (152) is used to carry out first time squeezing shaping to sliver band, sliver band is formed straight Structure, second shaping component (154) is used to carry out second of squeezing shaping to sliver band, makes sliver band formation bathtub construction, The sliver transfer mechanism (16) is used to clamp the sliver band after shaping, and pulls sliver band pre- through the sliver cutting mechanism (17) If length, the sliver cutting mechanism (17), which is used to form the part that the cut-out of sliver band clamps the sliver transfer mechanism (16), leads Sliver can be transferred to the cold welding mechanism (14) by bar, the sliver transfer mechanism (16), and the cold welding mechanism (14) will be led by pressure Bar is welded in foil.

2. electric capacity producing device as claimed in claim 1, it is characterised in that the cold welding mechanism (14) include fixed mount (142), Cold welding driver (143), movable block (144) and fixed block (145), the cold welding driver (143) are connected to the fixed mount (142) On, the movable block (144) is connected with the cold welding driver (143), and the fixed block (145) is oppositely arranged with the movable block (144), The foil is arranged on the fixed block (145), and the cold welding driver (143) can drive the movable block (144) towards close to fixed The direction movement of block (145), and welded sliver by the pressure produced between the fixed block (145) and the movable block (144) In foil.

3. electric capacity producing device as claimed in claim 2, it is characterised in that the fixed block (145) is provided with cold welding groove (104) multiple projections (146), and in the cold welding groove (104) are provided with, sliver is transferred to the cold welding by the sliver transfer mechanism (16) During mechanism (14), sliver is in the top of the cold welding groove (104).

4. electric capacity producing device as claimed in claim 2, it is characterised in that the sliver transfer mechanism (16) is pressed from both sides including sliver (166), the first transfer driver (167) and the second transfer driver (169), the second transfer driver (169), which can drive, leads Bar presss from both sides (166) and moved towards the direction close to sliver band, and sliver folder (166) is clamped sliver band, the first transfer driver (167) sliver can be driven to press from both sides (166) movement, and sliver band is passed through sliver cutting mechanism (17) preset length and sliver band Sliver is transferred to the cold welding mechanism (14) after being cut off.

5. electric capacity producing device as claimed in claim 4, it is characterised in that the sliver transfer mechanism (16) also includes take-off plate (161) and connecting plate (163), the take-off plate (161) is arranged at the side of the cold welding driver (143), the take-off plate (161) with Realize that the take-off plate (161) is movably attached to the fixed mount by the cooperation of chute and slide rail between the fixed mount (142) (142), realize that the connecting plate (163) can by the cooperation of chute and slide rail between the connecting plate (163) and the take-off plate (161) It is movably attached in the take-off plate (161), the first transfer driver (167) is fixed in the take-off plate (161), sliver folder (166) it is connected on the connecting plate (163), the first transfer driver (167) can drive the connecting plate (163) in the take-off plate (161) moved on, the second transfer driver (169) is fixed on the fixed mount (142), the second transfer driver (169) The take-off plate (161) can be driven to be moved on the fixed mount (142).

6. electric capacity producing device as claimed in claim 5, it is characterised in that the take-off plate (161) is driven away from first transfer One end of dynamic device (167) is provided with drive (162), and the first transfer driver (167) is provided with drive (168), the sliver Transfer mechanism (16) also 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), and the transmission belt (165) is connected to the take-off plate (161) between the drive (168) on drive (162) and the first transfer driver (167) on.

7. electric capacity producing device as claimed in claim 1, it is characterised in that first shaping component (152) includes column (1522), the first roller (1523) and the second roller (1524), first roller (1523) and second roller (1524) are hinged On the column (1522), and the wheel of first roller (1523) is in contact in the wheel with second roller (1524), sliver Band passes through between the wheel of first roller (1523) is in the wheel of second roller (1524)；Second shaping component (154) reshaping frame (1541), cam (1542) and concave wheel (1544) are included, the cam (1542) and the concave wheel (1544) are hinged on On the reshaping frame (1541), the cam (1542) is provided with shaping raised line, and the shaping raised line is set around the circumference of the cam (1542) Put, the concave wheel (1544) is provided with shaping groove, the shaping groove is circumferentially disposed around the concave wheel (1544), the cam (1542) Shaping raised line be arranged in the shaping groove of the concave wheel (1544), and sliver band from the shaping raised line of the cam (1542) with should Pass through between the shaping groove of concave wheel (1544).

8. electric capacity producing device as claimed in claim 7, it is characterised in that second shaping component (154) also includes operation Handle (1545), mounting blocks (1546), regulating block (1547), spring (1548) and regulating part (1549), the lever (1545) are worn Cross the reshaping frame (1541) to be connected with the cam (1542), the lever (1545) can drive the cam (1542) to rotate, the peace The mounting blocks (1546) are realized movably by the cooperation of sliding block and chute between dress block (1546) and the reshaping frame (1541) It is connected on the reshaping frame (1541), the concave wheel (1544) is articulated with the mounting blocks (1546), the regulating block (1547) and the peace Dress block (1546) is oppositely arranged, and the spring (1548) is connected between the regulating block (1547) and the mounting blocks (1546), the tune Section part (1549) is connected through the reshaping frame (1541) and with the regulating block (1547), and the regulating part (1549) can drive the regulation Block (1547) is moved towards the direction closer or far from the mounting blocks (1546).

9. electric capacity producing device as claimed in claim 1, it is characterised in that the sliver cutting mechanism (17) is cut including first Component (172) and second cuts component (176), and this first cuts component (172) and second cut that component (176) is relative to be set with this Put, this first cuts component (172) and cut driver (175) including the first briquetting (173), the first cutting knife (174) and first, this First cutting knife (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 cutting knife (174) are towards close to the movement of the direction of sliver band；This second cut component (176) including second pressure Block (177), the second cutting knife (178) and second cut driver (179), and second cutting knife (178) is connected to second briquetting (177) side, this second cuts driver (179) and can drive second briquetting (177) and the second cutting knife (178) towards close The direction movement of sliver band, and sliver band is fixed between first briquetting (173) and second briquetting (177), simultaneously should First cutting knife (174) and the second cutting knife (178) closure cut off sliver band.