CN204614680U - Flat capacitor element up-coiler structure-improved - Google Patents

Flat capacitor element up-coiler structure-improved Download PDF

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Publication number
CN204614680U
CN204614680U CN201520125589.8U CN201520125589U CN204614680U CN 204614680 U CN204614680 U CN 204614680U CN 201520125589 U CN201520125589 U CN 201520125589U CN 204614680 U CN204614680 U CN 204614680U
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China
Prior art keywords
capacitor
coiler
pressing
interstitial hole
flat
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CN201520125589.8U
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Chinese (zh)
Inventor
邱朝盟
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YOUYU AUTOMATION CO Ltd
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YOUYU AUTOMATION CO Ltd
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Abstract

The utility model is a kind of flat capacitor element up-coiler structure-improved, mainly winder winding is placed in the bearing platform of pressing mechanism around the capacitor element completed, it is in transfer process, in adopting, the internal overarm support of support mechanism enters the interstitial hole of capacitor element, due to internal overarm support narrow radii, so pressing mechanism can after internal overarm support exits, obtain holding in the relative edge of interstitial hole the capacitor element forming pressing wire, so the action of the cramping capacitor element of follow-up pressing mechanism, namely capacitor element can be clamped according to pressing wire, thus interstitial hole disappears completely closed without track.So can improve capacitor element quality, improve the not good problem of its capacitance characteristic and increase useful life of capacitor element.

Description

Flat capacitor element up-coiler structure-improved
Technical field
The utility model about flat capacitor element up-coiler structure-improved, especially a kind of structure-improved making the completely closely sealed capacitor element of interstitial hole.
Background technology
In general, capacitor element is the used title of capacitance semifinished product.Due to the demand of capacitor product, so the external form of capacitor element can be cylindrical or oval.Oval capacitor element forms for pressing from both sides oblate column capacitance sub-prime.With regard to the flat technology of current folder, it is the cylindrical capacitive sub-prime that will up-coiler relied on to roll capacitance material, remove to put on the flat machine of folder and carry out pressing from both sides flat operation, but this operating type has capacitor element, and to insert the direction pressing from both sides flat machine inconsistent, cause pressing from both sides flat direction not fix, have the disappearance that quality is unstable and capacitance characteristic is not good eventually.
Please refer to TaiWan, China patent No. 573777 capacitor element clamping device Patent Case and Fig. 1, Fig. 2, as shown in the figure, the interstitial hole of cylindrical capacitive sub-prime is circular, and the interstitial hole of oval capacitor element is long and narrow ellipse.And user can be adopted according to required capacitor element.But the structure of this patent is not only complicated, it is also very complicated on assembly program, thus this clamping device is under long-time compacting capacitor element, and will easily produce the phenomenon of error or bias voltage, the situation that the quality of capacitor element and capacitance characteristic thereof still can be caused not good occurs.
Moreover, capacitor element in use, often damage fault from the interstitial hole gap after pressing, therefore how interstitial hole is pressure bonded to closely sealed state completely, improve the quality of capacitor element, improve the not good problem of its capacitance characteristic and increase the probability reducing damage useful life of capacitor element, reality is an important problem.
Utility model content
The purpose of this utility model is that the capacitor element folder rolled by up-coiler is flat, makes its interstitial hole completely closed, to increase the useful life of capacitor element.
To achieve these goals, the utility model provides a kind of flat capacitor element up-coiler structure-improved, and it includes:
Support mechanism in one, it can move, and comprise can fagging in a pair first of relative movement, and respectively this in first fagging be provided with at least one internal overarm support, to enter and left and right struts the opposite end of an interstitial hole of a capacitor element of coiling and molding, this capacitor element is made to be flat; And
One pressing mechanism, comprise a briquetting, be located in the moving range of this interior support mechanism, wherein when this interior support mechanism transfers this capacitor element to this pressing mechanism, two these internal overarm supports can exit from this interstitial hole and this internal overarm support perforate, and after this interior support mechanism playback, this briquetting of this pressing mechanism can pressurize this capacitor element, completely closed to make the interstitial hole wall of this capacitor element conform to this interstitial hole each other;
Wherein: the radius of this internal overarm support is narrow and small power to being enough to coordinate this opposite end, internal overarm support left and right to strut relative to this capacitor element and on this interstitial hole inwall of this capacitor element, forms each pressing wire, and this interstitial hole wall is fitted when this pressing mechanism pressurizes because of this pressing wire, each other completely to make this interstitial hole completely closed.
Described flat capacitor element up-coiler structure-improved, wherein, more comprises a up-coiler, in order to make this capacitor element coiling and molding.
Described flat capacitor element up-coiler structure-improved, wherein, more comprise a fixture and a rotating mechanism, be used for clamping this capacitor element, and utilize its gripping strength this capacitor element of flattening a little, enter for this internal overarm support and strut this interstitial hole of this capacitor element in opposite end.
Described flat capacitor element up-coiler structure-improved, wherein, this fixture comprises the telescopic element and about one jaw that are positioned at relative both sides, and this telescopic element can advance other elements of this fixture, makes this upper and lower jaw clamp this capacitor element.
Described flat capacitor element up-coiler structure-improved, wherein, this rotating mechanism, with the center of circle of a fixed gear for pivot, in order to drive this fixture, make this fixture by the position clamping this capacitor element from this up-coiler, rotate and enter to for this internal overarm support and strut the position of this capacitor element.
Described flat capacitor element up-coiler structure-improved, wherein, this interior support mechanism comprise relative to this to first in fagging in a pair second of fagging movement, and respectively this in second fagging be provided with a perforate, the position of this perforate corresponds to this internal overarm support, when making this internal overarm support perform this capacitor element interstitial hole of insertion, the perforate of fagging in second can be inserted simultaneously.
Described flat capacitor element up-coiler structure-improved, wherein, this interior support mechanism comprises a telescopic element and a driving element, this telescopic element is arranged at the top of interior support mechanism and connects this fagging in first, the action of inserting this capacitor element interstitial hole is performed in order to make this internal overarm support, the both sides being arranged at fagging in fagging and second in first that this driving element is then paired, in order to perform internal overarm support in the action that struts of opposite end to the left and right of capacitor element interstitial hole.
Described flat capacitor element up-coiler structure-improved, wherein, this pressing mechanism including a telescopic element, can being connected to this telescopic element actively with this briquetting of this capacitor element of pressing, in order to accept the bearing platform, of this capacitor element for guiding the track of the movement of this bearing platform, and one in order to adjust the material baffle structure of the position of this capacitor element on this bearing platform.
Described flat capacitor element up-coiler structure-improved, wherein, this material baffle structure comprises pushing and pressing one pushing block of this capacitor element, a piston rod of one end this pushing block affixed and can connect a telescopic element of this piston rod other end actively, and this telescopic element can drive this pushing block, to promote below this capacitor element to this briquetting.
Described flat capacitor element up-coiler structure-improved, wherein, more comprise a conveyer, this bearing platform is put and has been pressed from both sides this flat capacitor element, and be moved to the displacement region of this conveyer, and this capacitor element is transported to a stocking mechanism by this conveyer.
Therefore, capacitor element clamped by fixture can take out with internal overarm support by the utility model, and mobile capacitor element is to the bearing platform of pressing mechanism, by means of such movement, the interstitial hole of capacitor element can strut by internal overarm support, and Yu Bianduan forms pressing wire because of the narrow radii of internal overarm support, so the action of the cramping capacitor element of follow-up pressing mechanism, capacitor element can be clamped according to pressing wire exactly, thus interstitial hole is completely closed, to improve the quality of capacitor element, improve the useful life of the not good problem of its capacitance characteristic and increase capacitor element.
Accompanying drawing explanation
Fig. 1 is the schematic diagram of the utility model flat capacitor element up-coiler structure improved jaw whirligig and interior support mechanism;
Figure 1A is the end view of the utility model Fig. 2;
Fig. 2 be the structure improved interior support mechanism of the utility model flat capacitor element up-coiler make schematic diagram;
Fig. 2 A is the side diagram of the utility model Fig. 2;
Fig. 3 is the schematic diagram strutting capacitor element interstitial hole two ends about the structure improved internal overarm support of the utility model flat capacitor element up-coiler;
Fig. 4 is the schematic diagram that in the utility model flat capacitor element up-coiler structure-improved, support mechanism moves to left and the rotation of jaw whirligig is playbacked;
Fig. 5 is the schematic diagram of the utility model flat capacitor element up-coiler structure improved internal overarm support transfer capacitor element to pressing mechanism;
Fig. 6 is the schematic diagram that the structure improved interior support mechanism of the utility model flat capacitor element up-coiler exits capacitor element;
Fig. 7 is the schematic diagram that capacitor element is pushed to below briquetting by the pushing block of the structure improved pressing mechanism of the utility model flat capacitor element up-coiler;
Fig. 8 is that the structure improved interior support mechanism of the utility model flat capacitor element up-coiler moves to right away from the schematic diagram of pressing mechanism;
Fig. 9 is the schematic diagram of the utility model flat capacitor element up-coiler structure-improved pressing mechanism pressing capacitor element
Figure 10 is the briquetting playback of the utility model flat capacitor element up-coiler structure-improved pressing mechanism, and bearing platform is moved to the left the schematic diagram away from pressing mechanism along guide rail;
Figure 11 is the schematic diagram of the structure improved pressing mechanism of the utility model flat capacitor element up-coiler and conveyer;
Figure 12 is the schematic diagram still depositing space after the pressurization of existing capacitor element;
Figure 13 is the schematic diagram that the flat rear capacitor element of the structure improved folder of the utility model flat capacitor element up-coiler does not deposit space.
Description of reference numerals: 1-up-coiler; 10-jaw whirligig; 11-fixture; 111-telescopic element; The upper and lower holder of 112-; 12-rotating mechanism; 121-fixed gear; Support mechanism in A-; Fagging in A1-first; A11-internal overarm support; Fagging in A2-second; A21-perforate; A3-telescopic element; A31-driving element; 20-pressing mechanism; 21-telescopic element; 22-briquetting; 23-bearing platform; 24-guide rail; 25-pushing block; 26-telescopic element; 261-piston rod; 30-conveyer; 31-supply unit; 32-suction unit; 321-motor; 322-elevator; 323-suction cup elements; 40-stocking mechanism; 50,50 '-capacitor element; 51,51 '-interstitial hole; 52-pressing wire.
Embodiment
Please refer to Fig. 1 and 1A, the utility model is a kind of flat capacitor element up-coiler structure-improved, and it includes up-coiler 1, jaw whirligig 10, interior support mechanism A, pressing mechanism 20 (please refer to Fig. 5) and conveyer 30 (please refer to Figure 11).Jaw whirligig 10 includes the fixture 11 and rotating mechanism 12 that lay respectively at its two ends.Fixture 11 includes the telescopic element 111 and upper and lower jaw 112 that are positioned at relative both sides, telescopic element 111 can advance fixture 11 to capacitor element 50 to place part (such as, up-coiler 1), upper and lower jaw 112 is made to be clamped the capacitor element 50 of coiling and molding, it can make capacitor element 50 slightly flatten to the chucking power of capacitor element 50 and cross section becomes slightly ovalize by original circle, namely flattening capacitor element 50 a little, and rotating mechanism 12 is fixedly arranged on one end of fixture 11, it is for pivot with the center of circle of fixed gear 121, in order to drive fixture 11 toward counterclockwise rotating, therefore capacitor element 50 is able to from up-coiler 1 in rotary moving to interior support mechanism A displacement region.
Fig. 1 ~ Fig. 4 is the schematic diagram that flat capacitor element up-coiler structure-improved schematic diagram of the present utility model and interior support mechanism do continuously.
In as shown in Fig. 1 and Figure 1A, support mechanism A to comprise in relatively-movable a pair first fagging A2 in fagging A1 and second, Fig. 2 and Fig. 2 A is depicted as interior support mechanism A and moves to right, and fagging A1 is provided with at least one internal overarm support A11 in each first, and the top of interior support mechanism A is provided with telescopic element A3 and be connected to interior fagging A1, the both sides of interior fagging A1 are then provided with driving element A31 in pairs, in interior support mechanism A11 is connected by telescopic element A3, doing of fagging A1 inserts it into capacitor element 50 interstitial hole 51, again via driving element A31 make its to the left and right away from, and strut capacitor element 50 interstitial hole 51 to its relatively away from two opposite ends (please refer to Fig. 3), the radius of internal overarm support A11 is narrow and small in when being enough to support mechanism A transfer within capacitor element 50 relative to capacitor element 50, the power that internal overarm support about A11 struts can form pressing wire 52 (please refer to Fig. 8) on capacitor element 50 interstitial hole 51 inwall, and after internal overarm support A11 exits interstitial hole 51, then pressing mechanism 20 continuation cramping capacitor element 50 is dynamic does, interstitial hole 51 wall can be fitted each other completely because of pressing wire 52, and make interstitial hole 51 completely closed in line.In each second, fagging A2 is provided with perforate A21, the position of its each internal overarm support perforate A21 then corresponds to home position when internal overarm support A11 struts action, when inserting capacitor element 50 1 interstitial hole 51 to make each internal overarm support A11, and insert the perforate A21 of fagging A2 in second simultaneously, and in first in fagging A1 and second fagging A2 be together moved to the left, capacitor element 50 is taken out with the jaw up and down 112 from fixture 11, now jaw whirligig 10 is by rotating mechanism 12, and is still rotated in a clockwise direction mobile and playbacks.Interior support mechanism A is linked to telescopic element A3 and driving element A31, makes it perform and struts the actions such as capacitor element 50 interstitial hole 51 and mobile capacitor element 50.
Please refer to Fig. 5 ~ Figure 10, Fig. 5 be interior support mechanism transfer capacitor element to the schematic diagram of pressing mechanism, Fig. 6 be that capacitor element to be pushed to schematic diagram below briquetting by interior support mechanism exits the schematic diagram of capacitor element, Fig. 7 is pressing mechanism pushing block, Fig. 8 is that interior support mechanism moves to right away from the briquetting playback of the schematic diagram of pressing mechanism, Fig. 9 to be the schematic diagram of pressing mechanism pressing capacitor element and Figure 10 be pressing mechanism, and bearing platform is moved to the left the schematic diagram away from pressing mechanism along guide rail.
Above-mentioned interior support mechanism A is together moved to the left from the displacement region of jaw whirligig 10, is pressurizeed by capacitor element 50 and drives internal overarm support A11 to strut capacitor element 50, move the displacement region of capacitor element 50 to pressing mechanism 20 simultaneously by driving element A3.Pressing mechanism 20 includes telescopic element (as: pneumatic cylinder) 21, to be movably connected in telescopic element 21 with the briquetting 22 of pressing capacitor element 50, bearing platform 23 in order to the movement accepting capacitor element 50, track 24 guides bearing platform 23, and material baffle structure is in order to adjust the position of the capacitor element 50 on bearing platform 23, material baffle structure comprises the telescopic element 26 of the pushing and pressing pushing block 25 of capacitor element 50, the piston rod 26 of affixed pushing block 25 and piston rod 261 other end that is movably connected.When interior support mechanism A transfers the bearing platform 23 of capacitor element 50 to pressing mechanism 20, and after capacitor element 50 moves to the location above bearing platform 23, driving element A3 discharges the pressure that two internal overarm support A11 outwards strut, but still the position of maintenance two internal overarm support A11 is with Support Capacitor sub-prime 50, then, two internal overarm support A11 can exit from interstitial hole 51 and perforate A21, now can learn from Fig. 6 the position that capacitor element 50 is removed, it is not the below of briquetting 22, so push away the below of holding capacitor element 50 to briquetting 22 by the pushing block 25 of material baffle structure, please refer to Fig. 7, then interior support mechanism A moves to right playback, now capacitor element 50 is generally in flat, please refer to Fig. 8, and the briquetting 22 of pressing mechanism 20 clamps capacitor element 50, it is made to be squeezed between briquetting 22 and bearing platform 23 to general in flat, continue again to clamp to make its interstitial hole 51 wall fit each other, now due to the pressing wire 52 of internal overarm support A11 left by interstitial hole 51 inwall, interstitial hole 51 can be made completely closed, and can not as the existing capacitor element of Figure 12, still deposit space after the pressurizing in two opposite ends.Please refer to Fig. 9, bearing platform 23 is moved to the displacement region of conveyer 30 left, and the briquetting 22 of pressing mechanism 20 playbacks.
Please refer to the schematic diagram that Figure 11 is pressing mechanism of the present utility model and conveyer.After being carried at capacitor element 50 displacement region being moved to conveyer 30 by bearing platform 23, draw capacitor element 50 by the suction cup elements 323 of conveyer 30, thus capacitor element 50 leaves bearing platform 23.Conveyer 30 comprises supply unit 31 and suction unit 32, and suction unit 32 includes motor 321, elevator 322 and suction cup elements 323.And after capacitor element 50 drawn by suction cup elements 323, motor 321 makes elevator 322 move up, and suction unit 32 drives capacitor element 50 to be moved to the left along supply unit 31, transport capacitor element 50 is until it is positioned at the top of accommodation structure 40, and remove the suction of suction unit 32, and capacitor element 50 is placed in stocking mechanism 40 (such as: container).
Therefore, capacitor element 50 clamped by fixture 11 can take out with internal overarm support A11 by the utility model, and the bearing platform 23 of mobile capacitor element 50 to pressing mechanism 20, by means of such movement, the interstitial hole 51 of capacitor element 50 can strut opposite end by internal overarm support A11 to the left and right, and form each pressing wire 52 (see Fig. 8) because of the narrow radii of internal overarm support A11 in omiting the both sides end in flat interstitial hole 51, so the action (see Fig. 9) of the cramping capacitor element 50 of follow-up pressing mechanism 20, capacitor element 50 can be clamped according to pressing wire 52 exactly, thus interstitial hole 51 is completely closed, please refer to Figure 13 is the schematic diagram that the utility model presss from both sides that flat capacitor element 50 does not deposit space, to improve the quality of capacitor element 50, improve the useful life of the not good problem of its capacitance characteristic and increase capacitor element 50.As for Figure 12 be existing capacitor element 50 ' pressurization after, its interstitial hole 51 ' is at the schematic diagram in Duan Rengcun space, flat limit, and the useful life of the capacitor element 50 ' shown in it is shorter.
Beyond above-described embodiment, respectively this interior support mechanism A first in the internal overarm support A11 of fagging A1 also can be two internal overarm support (not shown) be close to, side can provide larger strength to prop up the weight of capacitor element 50.
Above-mentioned specific embodiment is used to describe the purpose of this utility model, feature and effect in detail, for the personage being familiar with this type of skill, according to the above description, part may be made to this specific embodiment to change and amendment, its essence does not detach scope of the present utility model, all should be included in the claim of this case, should first Chen Ming.

Claims (10)

1. a flat capacitor element up-coiler structure-improved, is characterized in that, include:
Support mechanism in one, it can move, and comprise can fagging in a pair first of relative movement, and respectively this in first fagging be provided with at least one internal overarm support, to enter and left and right struts the opposite end of an interstitial hole of a capacitor element of coiling and molding, this capacitor element is made to be flat; And
One pressing mechanism, comprise a briquetting, be located in the moving range of this interior support mechanism, wherein when this interior support mechanism transfers this capacitor element to this pressing mechanism, two these internal overarm supports can exit from this interstitial hole and this internal overarm support perforate, and after this interior support mechanism playback, this briquetting of this pressing mechanism can pressurize this capacitor element, completely closed to make the interstitial hole wall of this capacitor element conform to this interstitial hole each other;
Wherein: the radius of this internal overarm support is narrow and small power to being enough to coordinate this opposite end, internal overarm support left and right to strut relative to this capacitor element and on this interstitial hole inwall of this capacitor element, forms each pressing wire, and this interstitial hole wall is fitted when this pressing mechanism pressurizes because of this pressing wire, each other completely to make this interstitial hole completely closed.
2. flat capacitor element up-coiler structure-improved as claimed in claim 1, is characterized in that, more comprise a up-coiler, in order to make this capacitor element coiling and molding.
3. flat capacitor element up-coiler structure-improved as claimed in claim 2, it is characterized in that, more comprise a fixture and a rotating mechanism, be used for clamping this capacitor element, and utilize its gripping strength this capacitor element of flattening a little, enter for this internal overarm support and strut this interstitial hole of this capacitor element in opposite end.
4. flat capacitor element up-coiler structure-improved as claimed in claim 3, it is characterized in that, this fixture comprises the telescopic element and about one jaw that are positioned at relative both sides, and this telescopic element can advance other elements of this fixture, makes this upper and lower jaw clamp this capacitor element.
5. flat capacitor element up-coiler structure-improved as claimed in claim 3, it is characterized in that, this rotating mechanism, with the center of circle of a fixed gear for pivot, in order to drive this fixture, make this fixture by the position clamping this capacitor element from this up-coiler, rotate and enter to for this internal overarm support and strut the position of this capacitor element.
6. flat capacitor element up-coiler structure-improved as claimed in claim 1, it is characterized in that, this interior support mechanism comprise relative to this to first in fagging in a pair second of fagging movement, and respectively this in second fagging be provided with a perforate, the position of this perforate corresponds to this internal overarm support, when making this internal overarm support perform this capacitor element interstitial hole of insertion, the perforate of fagging in second can be inserted simultaneously.
7. flat capacitor element up-coiler structure-improved as claimed in claim 1, it is characterized in that, this interior support mechanism comprises a telescopic element and a driving element, this telescopic element is arranged at the top of interior support mechanism and connects this fagging in first, the action of inserting this capacitor element interstitial hole is performed in order to make this internal overarm support, the both sides being arranged at fagging in fagging and second in first that this driving element is then paired, in order to perform internal overarm support in the action that struts of opposite end to the left and right of capacitor element interstitial hole.
8. flat capacitor element up-coiler structure-improved as claimed in claim 1, it is characterized in that, this pressing mechanism including a telescopic element, can being connected to this telescopic element actively with this briquetting of this capacitor element of pressing, in order to accept the bearing platform, of this capacitor element for guiding the track of the movement of this bearing platform, and one in order to adjust the material baffle structure of the position of this capacitor element on this bearing platform.
9. flat capacitor element up-coiler structure-improved as claimed in claim 8, it is characterized in that, this material baffle structure comprises pushing and pressing one pushing block of this capacitor element, a piston rod of one end this pushing block affixed and can connect a telescopic element of this piston rod other end actively, and this telescopic element can drive this pushing block, to promote below this capacitor element to this briquetting.
10. flat capacitor element up-coiler structure-improved as claimed in claim 8, it is characterized in that, more comprise a conveyer, this bearing platform is put and has been pressed from both sides this flat capacitor element, and be moved to the displacement region of this conveyer, and this capacitor element is transported to a stocking mechanism by this conveyer.
CN201520125589.8U 2015-03-04 2015-03-04 Flat capacitor element up-coiler structure-improved Active CN204614680U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201520125589.8U CN204614680U (en) 2015-03-04 2015-03-04 Flat capacitor element up-coiler structure-improved

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201520125589.8U CN204614680U (en) 2015-03-04 2015-03-04 Flat capacitor element up-coiler structure-improved

Publications (1)

Publication Number Publication Date
CN204614680U true CN204614680U (en) 2015-09-02

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