CN106469614B - Capacitor fabrication device and capacitor manufacturing method - Google Patents

Abstract

A kind of capacitor fabrication device, including rolling up needle shaft, first driving mechanism, second driving mechanism and stock stop, the end for rolling up needle shaft is equipped with volume pin, first driving mechanism can drive volume needle shaft movement, and capacitance material is set to be in volume pin, second driving mechanism can drive volume pin to rotate and capacitance material is wound into capacitor element, stock stop includes striker plate and backgauge driver, striker plate is equipped with backgauge groove close to one end of volume pin, backgauge driver can drive striker plate to move, volume pin is set to be in backgauge groove, and capacitor element is set to be in the side of striker plate, first driving mechanism can drive volume needle shaft to be moved away from the direction of striker plate, volume pin is extracted out from capacitor element.The capacitor fabrication device of the present invention can prevent the conducting bar on capacitor element from bending, deforming with object collision.The invention further relates to a kind of capacitor manufacturing method.

Description

Capacitor fabrication device and capacitor manufacturing method

Technical field

The present invention relates to capacitor fabrication technical field, more particularly to a kind of capacitor fabrication device and capacitor fabrication side Method.

Background technology

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

The primary structure of capacitor includes aluminium foil, electrolytic paper and conducting bar (positive and negative plate), one end of conducting bar and is welded on aluminium foil On, the aluminium foil and electrolytic paper that weld conducting bar are wound to form capacitor element together, the both ends of the capacitor element of coiling and molding With the conducting bar as positive and negative plate, due to rolling up pin closely together with aluminium foil and electrolytic paper winding, volume pin and aluminium foil and electricity Bigger frictional force can be produced between solution paper, when volume pin is extracted out from capacitor element, the positive paper tinsel on capacitor element is led The easy collision object of bar bends, deforms.Moreover, it is necessary to first press positive and negative foil before winding makes capacitor element It is good according to required trimming, and together with conducting bar cold welding after, then Manual feeding is wound action.Further, since winding The positive and negative plate of molding capacitor element is located at the both ends of sub-prime, therefore the volume pin length needed for winding is longer, is winding Shakiness easily occurs in journey, influences the quality of capacitor product.

The content of the invention

It is an object of the present invention to provide a kind of capacitor fabrication device, can prevent conducting bar on capacitor element with Object collision bends, deforms.

The present invention, which solves its technical problem, to be realized using following technical solution.

A kind of capacitor fabrication device, including volume needle shaft, the first driving mechanism, the second driving mechanism and stock stop, volume The end of needle shaft is equipped with volume pin, and the first driving mechanism can drive volume needle shaft movement, and capacitance material is in volume pin, and second drives Motivation structure can drive volume pin to rotate and capacitance material is wound into capacitor element, and stock stop includes striker plate and backgauge drives Device, striker plate are equipped with backgauge groove close to one end of volume pin, and backgauge driver can drive striker plate to move, and volume pin is in backgauge groove In, and capacitor element is in the side of striker plate, the first driving mechanism, which can drive, rolls up side of the needle shaft away from striker plate To movement, volume pin is extracted out from capacitor element.

In the preferred embodiment, above-mentioned volume needle shaft includes volume shank and volume pin mouth, and volume pin is connected to volume shank End, volume pin mouth fixed setting, is equipped with pilot hole in volume pin mouth, volume pin is passed through from the pilot hole for rolling up pin mouth.

In the preferred embodiment, above-mentioned capacitor fabrication device further includes the first cutting mechanism and second and cuts Mechanism, volume pin mouth are arranged between the first cutting mechanism and the second cutting mechanism, and the first cutting mechanism cuts driving including first Device and the first scissors, first, which cuts driver, can drive the first scissors closure to cut foil；Second cutting mechanism includes second and cuts out Driver and the second scissors are cut, second, which cuts driver, can drive the second scissors closure to cut foil.

In the preferred embodiment, above-mentioned first scissors determines scissors and the first dynamic scissors including first, and first is fixed Scissors is hinged with the first dynamic scissors, and first determine scissors is equipped with the first notch for avoiding conducting bar close to shearing end, and first Dynamic scissors is equipped with the second notch for being used for avoiding conducting bar close to shearing end, and the first notch is oppositely arranged with the second notch；Second cuts Knife determines scissors and the second dynamic scissors including second, and second determines scissors is hinged with the second dynamic scissors.

In the preferred embodiment, above-mentioned capacitor fabrication device further includes guiding mechanism, and guiding mechanism includes Guide rail and movable block, guide rail fixed setting, realize that movable block is removable between movable block and guide rail by the cooperation of sliding slot and slide It is connected to dynamicly on guide rail, the first of the first scissors, which determines scissors, is connected to movable block, and the second of the second scissors, which determines scissors, is connected to Movable block, the first driving mechanism can drive movable block to be moved on guide rail.

In the preferred embodiment, above-mentioned first cutting mechanism further includes mounting post, transmission arm, contiguous block and One tension spring, mounting post are fixedly installed, and mounting post is articulated with the middle part of transmission arm, and one end of transmission arm cuts driver company with first Connect, the other end of transmission arm is equipped with roller, realizes that contiguous block can by the cooperation of sliding slot and slide between contiguous block and movable block Be movably attached on movable block, the first of contiguous block one end and the first scissors, which moves scissors, is connected, the other end of contiguous block against On the roller of transmission arm, the first tension spring is connected between contiguous block and movable block.

In the preferred embodiment, above-mentioned second cutting mechanism further includes fixed block, supporting plate and the second tension spring, Gu Determine block fixed setting, second, which cuts driver, is fixed on fixed block, and the second drive end for cutting driver passes through fixed block And be connected with supporting plate, the side of the second dynamic scissors is equipped with roller, and roller is pressed on supporting plate, and one end of the second tension spring is fixed with second Scissors connects, and the other end of the second tension spring is connected with the second dynamic scissors.

In the preferred embodiment, above-mentioned first driving mechanism includes transmission shaft, the first swing arm unit, the first biography Dynamic component and the first return spring, transmission shaft are equipped with the first eccentric wheel, and the first swing arm unit includes the first pedestal and the first pendulum Arm, one end of the first swing arm are articulated with the first pedestal, and the other end of the first swing arm is equipped with the roller being in contact with the first eccentric wheel, One end of first transmission component is connected with the first swing arm, and the other end of the first transmission component and the movable block of guiding mechanism connect, One end fixed setting of first return spring, the other end of the first return spring are connected with the first transmission component, the first return bullet Spring can drive movable block to move return by the first transmission component.

In the preferred embodiment, above-mentioned first driving mechanism further includes the second swing arm unit, the second transmission group Part and the second return spring, transmission shaft are equipped with the second eccentric wheel, and the second swing arm unit includes the second pedestal and the second swing arm, the One end of two swing arms is articulated with the second pedestal, and the other end of the second swing arm is equipped with the roller being in contact with the second eccentric wheel, and second One end of transmission component is connected with the second swing arm, and the other end of the second transmission component is flexibly connected with volume needle shaft, the second return bullet One end fixed setting of spring, the other end of the second return spring is connected with the second transmission component, and the second return spring can be by the Two transmission components drive volume needle shaft movement return.

It is an object of the present invention to provide a kind of capacitor manufacturing method, can prevent conducting bar on capacitor element with Object collision bends, deforms.

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

Volume needle shaft movement is driven using the first driving mechanism, and capacitance material is in volume pin；

Drive volume pin to rotate using the second driving mechanism, and capacitance material is wound into capacitor element；

Drive striker plate to move using the backgauge driver of stock stop, volume pin is in striker plate backgauge groove, and make Capacitor element is in the side of striker plate；And

Drive volume needle shaft to be moved away from the direction of striker plate using the first driving mechanism, pin will be rolled up from capacitor element Middle extraction.

The end of the volume needle shaft of the capacitor fabrication device of the present invention is equipped with volume pin, and the first driving mechanism can drive volume needle shaft It is mobile, and capacitance material is in volume pin, the second driving mechanism can drive volume pin to rotate and capacitance material is wound into capacitor Sub-prime, stock stop include striker plate and backgauge driver, and striker plate is equipped with backgauge groove, backgauge driver close to one end of volume pin Striker plate can be driven to move, volume pin is in backgauge groove, and capacitor element is in the side of striker plate, the first driving machine Structure can drive volume needle shaft to be moved away from the direction of striker plate, and volume pin is extracted out from capacitor element.The capacitance of the present invention Device producing device will roll up pin when being extracted from capacitor element, and capacitor element is contacted with striker plate, and striker plate can prevent at this time Conducting bar on capacitor element bends with object collision, deforms.

Described above is only the general introduction of technical solution of the present invention, in order to better understand the technological means of the present invention, And can be practiced according to the content of specification, and in order to allow the above and other objects, features and advantages of the present invention can Become apparent, below especially exemplified by preferred embodiment, and coordinate attached drawing, describe in detail.

Brief description of the drawings

Fig. 1 is the structure diagram at the first visual angle of capacitor fabrication device of the present invention.

Fig. 2 is the structure diagram at the second visual angle of capacitor fabrication device of the present invention.

Fig. 3 is the structure diagram at the 3rd visual angle of capacitor fabrication device of the present invention.

Fig. 4 is the partial structural diagram of the volume needle shaft of the present invention.

Fig. 5 is the structure diagram of the first scissors of the present invention.

Fig. 6 is the partial structural diagram of the capacitor fabrication device of the present invention.

Fig. 7 is the flow diagram of the capacitor manufacturing method of the present invention.

Embodiment

Further to illustrate the present invention to reach the technological means and effect that predetermined goal of the invention is taken, below in conjunction with Attached drawing and preferred embodiment, to the specific embodiment party according to capacitor fabrication device proposed by the present invention and capacitor manufacturing method Formula, structure, feature and its effect, describe in detail as follows:

For the present invention foregoing and other technology contents, feature and effects, in the following preferable reality coordinated with reference to schema Applying in the detailed description of example to clearly appear from.By the explanation of embodiment, when predetermined mesh can be reached to the present invention The technological means taken and effect be able to more deeply and it is specific understand, but institute's accompanying drawings are only to provide with reference to saying It is bright to be used, not it is used for being any limitation as the present invention.

Fig. 1 is the structure diagram at the first visual angle of capacitor fabrication device of the present invention.Fig. 2 is the capacitor system of the present invention Make the structure diagram at the second visual angle of device.Fig. 3 is the structure diagram at the 3rd visual angle of capacitor fabrication device of the present invention.Such as Shown in Fig. 1, Fig. 2 and Fig. 3, in the present embodiment, capacitor fabrication device 10 includes volume needle shaft 12, the first driving mechanism 13, the Two driving mechanisms 14, guiding mechanism 15, the first cutting mechanism 16, the second cutting mechanism 17 and stock stop 18.

Fig. 4 is the partial structural diagram of the volume needle shaft of the present invention.As shown in figure 4, volume needle shaft 12 include volume shank 122, Roll up pin 123 and volume pin mouth 126.Volume pin 123 is connected to the end of volume shank 122, and is coaxially disposed with volume shank 122；Roll up pin mouth 126 fixed settings, and volume pin mouth 126 is coaxial with volume shank 122 and is oppositely arranged, and is equipped with volume pin mouth 126 and runs through volume pin mouth 126 Pilot hole 101, volume pin 123 from volume pin mouth 126 pilot hole 101 in pass through.In the present embodiment, the end for rolling up pin 123 is set There are the first rolling needle arm 124 and the second rolling needle arm 125, the first rolling needle arm 124 is oppositely arranged with the second rolling needle arm 125, and rolls up needle shaft 12 when winding forms capacitor element, and capacitance material (positive and negative foil and electrolytic paper) is in the first rolling needle arm 124 and volume Two Between needle arm 125.It is noted that since the positive and negative conducting bar of the capacitor element of winding making is plain positioned at capacitor respectively The both ends of son, therefore, it is necessary to longer volume pin 123 to realize the winding to capacitance material, rolls up pin mouth 126 at this time and is used for rolling up pin The effect of 123 guiding and stable roll pin 123.

First driving mechanism 13 can drive volume needle shaft 12 to move, and capacitance material is in volume pin 123, and in volume needle shaft Capacitance material is wound into after capacitor element and drives volume pin 123 to be extracted out from capacitor element by 12, and the first driving mechanism 13 It can also drive the first cutting mechanism 16 and the second cutting mechanism 17 to be moved towards the direction of capacitance material, distinguish positive and negative foil In the first cutting mechanism 16 and the second cutting mechanism 17.In the present embodiment, the first driving mechanism 13 includes transmission shaft 132nd, the first swing arm unit 133, the second swing arm unit 134, the first transmission component 135, the second transmission component 136, the first return 137 and second return spring 138 of spring.

Further, transmission shaft 132 is equipped with the first eccentric wheel 1322 and the second eccentric wheel 1323, the first eccentric wheel 1322 It is connected to the second eccentric wheel 1323 on transmission shaft 132 with being oppositely arranged.In not embodiment, transmission shaft 132 can with it is first inclined 1322 and second eccentric wheel 1323 of heart wheel rotates synchronously.

First swing arm unit 133 is arranged at the side of transmission shaft 132, and including the first pedestal 1331 and the first swing arm 1332, one end of the first swing arm 1332 is articulated with the first pedestal 1331, and the other end of the first swing arm 1332 is equipped with and the first bias The roller that wheel 1322 is in contact.In the present embodiment, transmission shaft 132 can drive the first swing arm 1332 by the first eccentric wheel 1322 Swung around hinged place.

Second swing arm unit 134 is arranged at the side of transmission shaft 132, and including the second pedestal 1341 and the second swing arm 1342, one end of the second swing arm 1342 is articulated with the second pedestal 1341, and the other end of the second swing arm 1342 is equipped with and the second bias The roller that wheel 1323 is in contact.In the present embodiment, transmission shaft 132 can drive the second swing arm 1342 by the second eccentric wheel 1323 Swung around hinged place.

One end of first transmission component 135 is connected with the first swing arm 1332, the other end and guiding of the first transmission component 135 Mechanism 15 connects, and when the first swing arm 1332 is swung, the first transmission component 135 can drive guiding mechanism 15 to move.In this implementation In example, the first transmission component 135 includes the first deflection column 1352, first connecting rod 1355 and second connecting rod 1356.First deflection column 1352 are equipped with the first deflecting plates 1353 and the second deflecting plates 1354, the first deflecting plates 1353 and the second deflecting plates 1354 substantially phase Mutually it is vertically arranged, one end of the first deflecting plates 1353 and the second deflecting plates 1354 is fixed on the first deflection column 1352, and can be with The first deflection column 1352 to rotate synchronously.One end of first connecting rod 1355 is connected with the first swing arm 1332, first connecting rod 1355 The other end is connected with the first deflecting plates 1353.One end of second connecting rod 1356 is connected with the second deflecting plates 1354, second connecting rod 1356 other end is connected with guiding mechanism 15.

One end of second transmission component 136 is connected with the second swing arm 1342, the other end and the volume pin of the second transmission component 136 Axis 12 is flexibly connected, and when the second swing arm 1342 is swung, the second transmission component 136 can drive volume needle shaft 12 to move.In this implementation In example, the second transmission component 136 includes the second deflection column 1362, third connecting rod 1365, fixed seat 1366 and supporting block 1367.The Two deflection columns 1362 are equipped with the 3rd deflecting plates 1363 and quadrupole deflector plate 1364, the 3rd deflecting plates 1363 and quadrupole deflector plate 1364 are generally perpendicular to each other setting, and one end of the 3rd deflecting plates 1363 and quadrupole deflector plate 1364 is fixed on the second deflection column 1362 On, and can be rotated synchronously with the second deflection column 1362.One end of third connecting rod 1365 is connected with the second swing arm 1342, and the 3rd connects The other end of bar 1365 is connected with the 3rd deflecting plates 1363.Fixed seat 1366 is fixedly installed on the lower section of volume needle shaft 12, supporting block Realize that supporting block 1367 is movably attached fixed seat by the cooperation of sliding slot and slide between 1367 and fixed seat 1366 On 1366, and the quadrupole deflector plate 1364 of the second deflection column 1362 is connected with supporting block 1367.In the present embodiment, needle shaft 12 is rolled up Set movably through supporting block 1367, volume needle shaft 12 can be rotated relative to supporting block 1367, and volume needle shaft 12 can be with support 1367 synchronizing moving of block.

One end fixed setting of first return spring 137, the other end of the first return spring 137 and the first deflection column 1352 The second deflecting plates 1354.In the present embodiment, after transmission shaft 132 drives guiding mechanism 15 to be displaced outwardly, the first return bullet Spring 137 can drive guiding mechanism 15 to move return by its own resilient.

One end fixed setting of second return spring 138, the other end of the second return spring 138 and the second deflection column 1362 The 3rd deflecting plates 1363 connect.In the present embodiment, when transmission shaft 132 drive volume needle shaft 12 be displaced outwardly, and volume needle shaft After capacitance material is wound into sub-prime by 12, the second return spring 138 can drive supporting block 1367 to move return by its own resilient.

Second driving mechanism 14 can drive volume pin 123 to rotate and capacitance material is wound into capacitor element.In the present embodiment In, the second driving mechanism 14 includes driving wheel 142, belt 143 and driving motor 144.One end of volume needle shaft 12 passes through driving wheel 142 are set, and belt 143 is connected between driving wheel 142 and driving motor 144, and driving motor 144 can pass through belt 143 and drive Driving wheel 142 drives volume needle shaft 12 to rotate.

Guiding mechanism 15 includes guide rail 152 and movable block 153.Guide rail 152 is fixedly installed, and positioned at the upper of volume needle shaft 12 Side.Realize that movable block 153 is movably attached guide rail by the cooperation of sliding slot and slide between movable block 153 and guide rail 152 On 152.The second connecting rod 1356 of first transmission component 135 is connected with the movable block 153 of guiding mechanism 15, the first driving mechanism 13 Movable block 153 is driven to be moved on guide rail 152 by transmission shaft 132.In the present embodiment, the moving direction of movable block 153 is put down Row is in the length direction of volume needle shaft 12.

First cutting mechanism 16 is used to cut the foil being attached thereto after capacitor element coiling and molding.In this implementation In example, the first cutting mechanism 16 cuts driver 161, the first scissors 162, mounting post 165, transmission arm 166, connection including first 167 and first tension spring 168 of block.

First, which cuts driver 161, is fixedly installed, and first, which cuts driver 161, can drive the first scissors 162 to complete shearing Action.

Fig. 5 is the structure diagram of the first scissors of the present invention.As shown in Figure 1, Figure 2, shown in Fig. 3 and Fig. 5, the first scissors 162 Determine scissors 163 and first including first and move scissors 164.First determines the middle part of scissors 163 and the middle part of the first dynamic scissors 164 is mutual Hinged, first, which determines scissors 163, is equipped with the first notch 102 for being used for avoiding conducting bar close to shearing end, and the first dynamic scissors 164 is close to be cut Cut end is equipped with the second notch 103 for being used for avoiding conducting bar, and the first notch 102 is oppositely arranged with the second notch 103.First determines scissors 163 are connected to the movable block 153 of guiding mechanism 15, and can be with 153 synchronizing moving of movable block；First dynamic scissors 164 is remote to be cut The side of cut end is equipped with roller.In the present embodiment, when the first scissors 162 cuts positive foil, first on the first scissors 162 102 and second notch 103 of notch can avoid the conducting bar as positive plate, prevent conducting bar from colliding the first scissors 162 and deform, is curved It is bent.

Mounting post 165 is fixedly installed；The middle part of transmission arm 166 is articulated with mounting post 165, one end of transmission arm 166 and the One, which cuts driver 161, connects, and the other end of transmission arm 166 is equipped with roller；Contiguous block 167 is arranged at the side of movable block 153, Realize that contiguous block 167 is movably attached movable block by the cooperation of sliding slot and slide between contiguous block 167 and movable block 153 On 153,167 one end of contiguous block is moved scissors 164 with the first of the first scissors 162 and is connected, and the other end of contiguous block 167 is resisted against biography On the roller of swing arm 166；First tension spring 168 is connected between the contiguous block 167 and movable block 153.In the present embodiment, when One cuts driver 161 when driving the transmission arm 166 to swing, and 166 upper roller of transmission arm promotes contiguous block 167 to move, and at this time first Determine scissors 163 and first and move the closure progress shear action of scissors 164；Cut driver 161 and drive transmission arm 166 to swing when first During return, the first tension spring 168 moves return according to pulled by elasticity contiguous block 167, and first determines the dynamic scissors of scissors 163 and first at this time 164 open.

Second cutting mechanism 17 is used to cut the foil being attached thereto after capacitor element coiling and molding.In this implementation In example, the second cutting mechanism 17 cuts driver 171, the second scissors 172, fixed block 175, supporting plate 176 and second including second Tension spring 177.

Fixed block 175 is fixedly installed, and second, which cuts driver 171, is fixed on fixed block 175, and second cuts driver 171 drive end is connected through fixed block 175 and with supporting plate 176.Second scissors 172 is determined scissors 173 and second including second and is moved Scissors 174, second determines the middle part of scissors 173 and the middle part of the second dynamic scissors 174 is hinged.Second, which determines scissors 173, is connected to The movable block 153 of guiding mechanism 15, and can be with 153 synchronizing moving of movable block；Second dynamic side of the scissors 174 away from shearing end Equipped with roller, and roller is pressed on supporting plate 176.One end of second tension spring 177 is determined scissors 173 with second and is connected, the second tension spring 177 The other end be connected with the second dynamic scissors 174.In the present embodiment, when second cut driver 171 drive supporting plate 176 towards by During the direction movement of nearly fixed block 175, second, which determines scissors 173 and second, moves the closure progress shear action of scissors 174；When shearing is dynamic After the completion of work, the second tension spring 177 moves scissors 174 according to pulled by elasticity second and moves return, and second determines scissors 173 and second at this time Dynamic scissors 174 opens.

Fig. 6 is the partial structural diagram of the capacitor fabrication device of the present invention.As shown in fig. 6, in the present embodiment, gear Material mechanism 18 is arranged at the top of volume needle shaft 12, and stock stop 18 includes striker plate 182 and backgauge driver 183.Striker plate 182 Backgauge groove 104 is equipped with close to one end of volume pin 123, backgauge driver 183 can drive striker plate 182 towards close to volume pin 123 Direction is moved, and volume pin 123 is in backgauge groove 104, and the capacitor element of coiling and molding is in the one of striker plate 182 Side.In the present embodiment, the width of striker plate 182 is less than the diameter of capacitor element, when backgauge driver 183 drives striker plate When 182 movements make the volume pin 123 be in backgauge groove 104, conducting bar on capacitor element is from the side of striker plate 182 process；When First driving mechanism 13 drives volume needle shaft 12 to be moved away from the direction of striker plate 182, by volume pin 123 from capacitor element During extraction, due to roll up pin 123 the first rolling needle arm 124 and the second rolling needle arm 125 closely together with capacitance material winding, the Bigger frictional force, 124 He of the first rolling needle arm can be produced between one rolling needle arm 124 and the second rolling needle arm 125 and capacitance material Second rolling needle arm 125 drives capacitor element moving contact striker plate 182 backward, and striker plate 182 can prevent that capacitor is plain at this time Conducting bar on son bends with object collision, deforms.

Fig. 7 is the flow diagram of the capacitor manufacturing method of the present invention.It refer to Fig. 1 to Fig. 7, capacitor of the invention Production method is used to make capacitor element, and capacitor manufacturing method utilizes above-mentioned capacitor fabrication device 10, and container makes The step of method, includes：

Drive volume needle shaft 12 to move using the first driving mechanism 13, and capacitance material is in volume pin 123；Specifically, The second swing arm 1342 is driven to swing using the transmission shaft 132 of the first driving mechanism 13, the second swing arm 1342 pulls the second transmission group Part 136 drives volume needle shaft 12 to be moved towards close to the direction of capacitance material, until capacitance material is in volume pin 123；

Drive volume pin 123 to rotate using the second driving mechanism 14, and capacitance material is wound into capacitor element；

Drive the first scissors 162 and the second scissors 172 to move using the first driving mechanism 13, and positive foil is in first In scissors 162, negative foil is in the second scissors 172；Specifically, is driven using the transmission shaft 132 of the first driving mechanism 13 One swing arm 1332 is swung, and the first swing arm 1332 pulls the first transmission component 135 to drive movable block 153, the first scissors 162 and second Scissors 172 is moved towards close to the direction of capacitance material, and positive foil is in the first scissors 162, is born foil and is in second In scissors 172；

Cutting driver 161 using the first of the first cutting mechanism 16 drives the first scissors 162 to cut positive foil, and second cuts out Cut the second of mechanism 17 and cut driver 171 and drive the second scissors 172 to cut negative foil, adhesive tape rubberizing mechanism is in capacitor element at this time On tape, the shape of fixed capacity device sub-prime；

Drive striker plate 182 to move using the backgauge driver 183 of stock stop 18, volume pin 123 is in striker plate 182 Backgauge groove 104 in, and capacitor element is in the side of striker plate 182；And

Using the first driving mechanism 13 drive volume needle shaft 12 away from striker plate 182 direction move, will volume pin 123 from Extracted out in capacitor element；Specifically, volume needle shaft 12 is pulled towards remote using the first return spring 137 of the first driving mechanism 13 Direction from striker plate 182 is moved, until volume pin 123 is extracted out from capacitor element.

The end of the volume needle shaft 12 of the capacitor fabrication device 10 of the present invention is equipped with volume pin 123, and the first driving mechanism 13 can Drive volume needle shaft 12 to move, and capacitance material is in volume pin 123, the second driving mechanism 14 can drive volume pin 123 to rotate will Capacitance material is wound into capacitor element, and stock stop 18 includes striker plate 182 and backgauge driver 183, and striker plate 182 is close One end of volume pin 123 is equipped with backgauge groove 104, and backgauge driver 183 can drive striker plate 182 to move, and volume pin 123 is in backgauge In groove 104, and capacitor element is set to be in the side of striker plate 182, the first driving mechanism 13 can drive volume needle shaft 12 towards remote Direction from striker plate 182 is moved, and volume pin 123 is extracted out from capacitor element.The capacitor fabrication device 10 of the present invention will When volume pin 123 is extracted from capacitor element, capacitor element is contacted with striker plate 182, and striker plate 182 can prevent capacitance at this time Conducting bar on device sub-prime bends with object collision, deforms.Moreover, the capacitor fabrication device 10 of the present invention can Full-automatic machine Tool manufactures capacitor element, and capacitor element production efficiency is high, and cost is low.

The preferred embodiment of the present invention is described in detail above in association with attached drawing, but the present invention is not limited to above-mentioned implementation Detail in mode, in the range of the technology design of the present invention, can carry out technical scheme a variety of simple Modification, these simple variants belong to protection scope of the present invention.It is each specific described in above-mentioned embodiment Technical characteristic, in the case of reconcilable, can be combined by any suitable means.In order to avoid unnecessary heavy Multiple, the present invention no longer separately illustrates various combinations of possible ways.

Claims (10)

1. a kind of capacitor fabrication device, it is characterised in that including volume needle shaft (12), the first driving mechanism (13), the second driving Mechanism (14) and stock stop (18), the end of the volume needle shaft (12) are equipped with volume pin (123), which can drive Make volume needle shaft (12) mobile, and capacitance material is in the volume pin (123), which can drive the volume pin (123) rotate and capacitance material is wound into capacitor element, which includes striker plate (182) and backgauge driver (183), which is equipped with backgauge groove (104) close to one end of the volume pin (123), which can drive Make the striker plate (182) mobile, the volume pin (123) is in the backgauge groove (104), and capacitor element is in striker plate (182) side, first driving mechanism (13) can drive volume needle shaft (12) to be moved away from the direction of the striker plate (182) It is dynamic, which is extracted out from capacitor element.

2. capacitor fabrication device as claimed in claim 1, it is characterised in that, which includes volume shank (122) With volume pin mouth (126), which is connected to the end of the volume shank (122), the volume pin mouth (126) fixed setting, the volume Pilot hole (101) is equipped with pin mouth (126), which passes through from the pilot hole (101) of the volume pin mouth (126).

3. capacitor fabrication device as claimed in claim 2, it is characterised in that, which further includes the first sanction Mechanism (16) and the second cutting mechanism (17) are cut, which is arranged at first cutting mechanism (16) and second sanction Between cutting mechanism (17), which cuts driver (161) and the first scissors (162) including first, this One, which cuts driver (161), can drive first scissors (162) closure to cut foil；Second cutting mechanism (17) includes second Cut driver (171) and the second scissors (172), this second cut driver (171) can drive second scissors (172) close Cut foil.

4. capacitor fabrication device as claimed in claim 3, it is characterised in that, which cuts surely including first Knife (163) and the first dynamic scissors (164), this first determine scissors (163) and first moves scissors (164) with this and be hinged, this first Determine scissors (163) and be equipped with close to shearing end to be used to avoid the first notch (102) of conducting bar, the first dynamic scissors (164) is close to cutting Cut end is equipped with the second notch (103) for being used for avoiding conducting bar, which is oppositely arranged with the second notch (103)；Should Second scissors (172) determines scissors (173) and the second dynamic scissors (174) including second, this second determine scissors (173) and second is moved with this Scissors (174) is hinged.

5. capacitor fabrication device as claimed in claim 4, it is characterised in that, which further includes Guiding machine Structure (15), the guiding mechanism (15) include guide rail (152) and movable block (153), the guide rail (152) fixed setting, the movable block (153) realize that the movable block (153) is movably attached this and leads by the cooperation of sliding slot and slide between the guide rail (152) On rail (152), the first of first scissors (162), which determines scissors (163), is connected to the movable block (153), second scissors (172) Second determine scissors (173) and be connected to the movable block (153), which can drive the movable block (153) to exist Moved on the guide rail (152).

6. capacitor fabrication device as claimed in claim 5, it is characterised in that, which further includes installation Column (165), transmission arm (166), contiguous block (167) and the first tension spring (168), the mounting post (165) fixed setting, the transmission arm (166) it is articulated with the mounting post (165) in the middle part of, one end of the transmission arm (166) first cuts driver (161) even with this Connect, the other end of the transmission arm (166) is equipped with roller, passes through sliding slot and cunning between the contiguous block (167) and the movable block (153) The cooperation of rail realizes that the contiguous block (167) is movably attached on the movable block (153), and contiguous block (167) one end is with being somebody's turn to do Dynamic scissors (164) connection of the first of first scissors (162), the other end of the contiguous block (167) are resisted against the transmission arm (166) On roller, which is connected between the contiguous block (167) and the movable block (153).

7. capacitor fabrication device as claimed in claim 5, it is characterised in that, which further includes fixation Block (175), supporting plate (176) and the second tension spring (177), the fixed block (175) fixed setting, this second cuts driver (171) Be fixed on the fixed block (175), and this second cut drive end of driver (171) through the fixed block (175) and with this Supporting plate (176) connects, and side of the second dynamic scissors (174) is equipped with roller, and the roller is pressed on the supporting plate (176), this One end of two tension springs (177) second is determined scissors (173) and is connected with this, and the other end of second tension spring (177) second dynamic is cut with this Knife (174) connects.

8. capacitor fabrication device as claimed in claim 5, it is characterised in that, which includes transmission shaft (132), the first swing arm unit (133), the first transmission component (135) and the first return spring (137), on the transmission shaft (132) Equipped with the first eccentric wheel (1322), which includes the first pedestal (1331) and the first swing arm (1332), should One end of first swing arm (1332) is articulated with first pedestal (1331), the other end of first swing arm (1332) be equipped with this The roller that one eccentric wheel (1322) is in contact, one end of first transmission component (135) are connected with first swing arm (1332), should The other end of first transmission component (135) is connected with the movable block (153) of the guiding mechanism (15), first return spring (137) one end fixed setting, the other end of first return spring (137) is connected with first transmission component (135), this One return spring (137) can drive the movable block (153) to move return by first transmission component (135).

9. capacitor fabrication device as claimed in claim 8, it is characterised in that, which further includes second Swing arm unit (134), the second transmission component (136) and the second return spring (138), it is inclined which is equipped with second Heart wheel (1323), second swing arm unit (134) include the second pedestal (1341) and the second swing arm (1342), second swing arm (1342) one end is articulated with second pedestal (1341), and the other end of second swing arm (1342) is equipped with and second eccentric wheel (1323) roller being in contact, one end of second transmission component (136) are connected with second swing arm (1342), second transmission The other end of component (136) is flexibly connected with the volume needle shaft (12), one end fixed setting of second return spring (138), should The other end of second return spring (138) is connected with second transmission component (136), which can pass through Second transmission component (136) drives the volume needle shaft (12) to move return.

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

Drive volume needle shaft (12) mobile using the first driving mechanism (13), and capacitance material is in the volume pin (123)；

Drive the volume pin (123) to rotate using the second driving mechanism (14), and capacitance material is wound into capacitor element；

Drive striker plate (182) mobile using the backgauge driver (183) of stock stop (18), being in the volume pin (123) should In striker plate (182) backgauge groove (104), and capacitor element is set to be in the side of the striker plate (182)；And

The volume needle shaft (12) is driven to be moved away from the direction of the striker plate (182) using first driving mechanism (13), will The volume pin (123) is extracted out from capacitor element.