CN209243207U - Electrolytic copper foil manufacturing device - Google Patents

Abstract

The utility model provides a kind of electrolytic copper foil manufacturing device, comprising: electro-deposition portion is used for electro-deposition copper foil；Winder, for winding copper foil；The carrying copper foil is separated into the separation copper foil for winding copper foil and to separate from the winding copper foil that be wound in the winder for cutting the carrying copper foil carried from the electro-deposition portion by the first cutting part；Guide portion, for guiding the winding copper foil to carry to the winder side；And first sucting, for sucking the copper clast generated during first cutting part cuts the carrying copper foil.

Description

Electrolytic copper foil manufacturing device

Technical field

The utility model relates to the electrolytic copper foil manufacturing devices for manufacturing copper foil.

Background technique

Copper foil is used in manufacture secondary cell cathode, flexible printed circuit board (Flexible Printed Circuit The multiple products such as Board:FPCB).Such copper foil is by making electric current flowing after supplying electrolyte between the anode and cathode Plating mode is manufactured.As described above, electrolytic copper foil manufacturing device will be utilized when passing through plating mode manufacturing copper foil.

The electrolytic copper foil manufacturing device of the prior art includes anode portion, negative pole part and cutting part.

The anode portion is powered by electrolyte and the negative pole part.The anode portion plays sun when executing plating The effect of pole.

The negative pole part is using electrolyte with plating mode manufacturing copper foil.The negative pole part plays cathode when executing plating Effect.

The cutting part is used to cut the copper foil carried from the anode portion and the negative pole part.The two of the negative pole part Side produces copper foil because of higher current density relatively thickly.The cutting part is relatively thick to being fabricated in copper foil It is cut part.Then, the copper foil cut by the cutting part is wound.

Wherein, during the cutting part cuts copper foil, because of the multiplicity such as friction between the cutting part and copper foil Reason, by the copper clast for fine size of dispersing.As such copper clast is mobile to the copper foil that is wound and is attached at and is rolled up Around copper foil surface, will cause in copper foil multiplicity it is bad.Also, it is attached at the copper clast on the surface for the copper foil being wound To cause: on copper foil generate fold the phenomenon that and copper foil surface flaw.It is used undesirable copper foil occurs as described above In the case where secondary cell cathode, it is also possible to reduce the relevant yield of secondary cell and quality.

Therefore, it needs to develop the quality for making copper foil due to capable of reducing the copper clast because dispersing during cutting copper foil The electrolytic copper foil manufacturing device of the case where reduction.

Utility model content

The utility model proposes that the purpose of this utility model is to provide one kind in order to solve the problems, such as described above Electrolytic copper foil manufacturing device can reduce the copper clast because dispersing during cutting copper foil due to reduce the quality of copper foil Situation.

In order to solve purpose as described above, the utility model may include following structure.

The electrolytic copper foil manufacturing device of the utility model includes: electro-deposition portion, is used for electro-deposition copper foil；Winder is used for Wind copper foil；First cutting part separates the carrying copper foil for cutting the carrying copper foil carried from the electro-deposition portion For the separation copper foil that be wound in the winding copper foil of the winder and to be separated from the winding copper foil；Guide portion is used for The winding copper foil is guided to carry to the winder side；And first sucting, it is cut for sucking in first cutting part The copper clast generated during cutting the carrying copper foil.

According to the utility model, following effect may be implemented.

The utility model is attached at the amount of the copper clast on surface for the copper foil being wound by reducing, and can reduce in copper foil It is upper generate fold the phenomenon that and copper foil surface flaw, thus reduce occur on copper foil it is bad.Also, the utility model In the case where copper foil is used in secondary cell cathode, reduction occur on copper foil it is bad, to also be capable of increasing secondary The relevant yield of battery and quality.

Detailed description of the invention

Fig. 1 is the outline side view of the electrolytic copper foil manufacturing device of the utility model.

Fig. 2 is that the first sucting of the electrolytic copper foil manufacturing device for showing the utility model covers the first cutting part and winding The general principal view of the situation of a part between portion.

Fig. 3 is the approximate stereogram for showing first sucting of electrolytic copper foil manufacturing device of the utility model.

Fig. 4 is the first sucting sucking for the electrolytic copper foil manufacturing device for showing the utility model because the first cutting part is cut The outline sectional view of the situation of copper clast carrying copper foil and generating.

Fig. 5 be the electrolytic copper foil manufacturing device for showing the utility model together the second sucting cover the second cutting part and The general principal view of the situation of a part between winder.

The explanation of appended drawing reference

1: electrolytic copper foil manufacturing device；2: electro-deposition portion；3: winder；4: the first cutting parts；5: guide portion；Inhale at 6: the first Enter portion；7: the second cutting parts；8: the second suctings；21: cathode；22: anode；61: the first sucker mechanisms；62: the first barrier machines Structure；82: the second barrier mechanisms；621: the first obstruction members；622: the first shading members；623: the first inner members；624: the One outer member；821: the second obstruction members；822: the second shading members；823: the second inner members；824: the second outside structures Part.

Specific embodiment

Hereinafter, the embodiment of the electrolytic copper foil manufacturing device of the utility model is described in detail referring to attached drawing.

Referring to figs. 1 to Fig. 5, the electrolytic copper foil manufacturing device 1 of the utility model is secondary manufacturing for manufacturing a kind of copper foil When the product of the multiplicity such as battery cathode, flexible printed circuit board (Flexible Printed Circuit Board:FPCB), Utilize the copper foil.For this purpose, the electrolytic copper foil manufacturing device 1 of the utility model may include electro-deposition portion 2, winder 3, first Cutting part 4 and the first sucting 6.

Referring to Fig.1, the electro-deposition portion 2 is used for using electrolyte with plating mode electro-deposition copper foil.The electro-deposition portion 2 It may include cathode 21 and anode 22.When the cathode 21 and the anode 22 be powered and flow have electric current when, electrolyte The copper ion of middle dissolution can be reduced in the cathode 21.As a result, copper can be carried with electro-deposition on the surface of the cathode 21 Foil TF.

The cathode 21 can be pivoted about with cathode axis 211.The cathode 21 can be with the cathode axis 211 It pivots about, and being consecutively carried out in the process will electro-deposition operation and general of the carrying copper foil T electro-deposition in surface The unwinding operation that the carrying copper foil TF of electro-deposition is detached from from surface.The cathode 21 can be integrally formed as roller (Drum) shape State, but it's not limited to that for the utility model, makes as long as being able to carry out and rotating and be consecutively carried out electro-deposition operation reconciliation Industry can also be formed as other forms.The cathode 21 can be configured at upside relative to the anode 22.

The anode 22 is used to be powered by electrolyte with the cathode 21.The anode 22 can when executing plating To play the role of anode.The anode 22 can be configured at downside relative to the cathode 21.The anode 22 can with from The mode that the surface of the cathode 21 separates is configured at downside relative to the cathode 21.The anode 22 can with it is described The identical form in the surface of cathode 21 is formed.For example, in the case where the cathode 21 is formed as circular cuboid form, institute The cuboid form of semicircle can be formed as by stating anode 22.

Referring to Fig.1, the winder 3 is for winding copper foil.The winder 3 can be rotated and be wound by described The copper foil of one cutting part 4 cutting.The copper foil for being wound in the winder 3 can be cut out by operator according to presetting width It cuts.The winder 3 can be integrally formed as roller (Drum) form, but it's not limited to that for the utility model, as long as It is able to carry out the winding operation for rotating and being consecutively carried out winding copper foil, other forms can also be formed as.

Referring to Fig.1, first cutting part 4 is used to cut the carrying copper foil TF carried from the electro-deposition portion 2.When from institute When stating the carrying copper foil TF of 21 unwinding of cathode and carrying to 4 side of the first cutting part, first cutting part 4 can be removed described Fortune copper foil TF is cut into winding copper foil CF and separation copper foil SF.The winding copper foil CF can be equivalent in the carrying copper foil TF The part of the winder 3 is wound in after being cut.The separation copper foil SF can be equivalent in the carrying copper foil TF quilt It will be from the part that the winding copper foil CF is separated after cutting.The separation copper foil SF can be to carry what copper foil TF was carried with described On the basis of the vertical width direction in direction (X-direction), it is configured at the outside for carrying copper foil TF.

As the carrying copper foil TF is continuously carried, first cutting part 4 can continuously cut the carrying Copper foil TF.The winding copper foil CF can continuously be handled upside down to 3 side of winder and be wound in the winder 3 as a result,. The separation copper foil SF can be handled upside down simultaneously after winding copper foil CF separation to separation copper foil winder (not shown) side It is wound in the separation copper foil winder.The separation copper foil winder is for winding the separation copper foil SF.

First cutting part 4 can be configured as, on the basis of the width direction (X-direction) with the guide portion 5 one end is mutually engaged.Draw for example, first cutting part 4 can be inserted in by part of it what the guide portion 5 was formed Guide groove (not shown) cuts the carrying copper foil TF continuously carried.First cutting part 4 can be by its periphery shape At there is the disk form of blade to be formed, but it's not limited to that for the utility model, as long as the carrying copper foil TF is handled upside down While can continuously cut it is described carry copper foil TF form, other forms can also be formed as.

Referring to figs. 1 to Fig. 5, the guide portion 5 is for guiding the winding copper foil CF to carry to 3 side of winder.Institute The winding copper foil CF can be supported by stating guide portion 5.When the guide portion 5 is rotated, the winding copper foil CF can be by The support of guide portion 5 is simultaneously carried to 3 side of winder.The guide portion 5 can be formed as along the width direction (X Axis direction) roller (Drum) form for extending, but it's not limited to that for the utility model, as long as by supporting the winding Copper foil CF carrys out the form that the winding copper foil CF can be guided to carry to 3 side of winder, can also be formed as other Form.

It could be formed with guiding groove (not shown) in the guide portion 5.The guiding groove is inserted for first cutting part 4 The slot entered.The guide portion 5 can be engaged by the guiding groove with 4 phase of the first cutting part.With the guide portion 5 into Row rotation, first cutting part 4 can cut the carrying copper foil TF with the state for being inserted in the guiding groove.Described first Cutting part 4 can be stung on the basis of the width direction (X-direction) in one end and 5 phase of guide portion of the guide portion 5 It closes.The guide portion 5 can be revolved with the state being engaged with 4 phase of the first cutting part with first cutting part 4 together Turn.First cutting part 4 can cut the one of the carrying copper foil TF as a result, with the state being engaged with 5 phase of guide portion End.Therefore, the guide portion 5 can be performed simultaneously together with first cutting part 4 cuts the cutting for carrying copper foil TF Operation and the guidance operation for guiding the winding copper foil CF to 3 side of winder.

Referring to figs. 1 to Fig. 5, first sucting 6 cuts the carrying copper foil in first cutting part 4 for sucking The copper clast generated during TF.First sucting 6 can obstruct copper clast to the winding by sucking copper clast The side copper foil CF is mobile.Therefore, the copper clast that generates can be with during first cutting part 4 cuts the carrying copper foil TF It is originally mobile to the winding side copper foil CF, supplied suction then, which is mentioned, by first sucting 6 is drawn into described first Sucting 6.

The electrolytic copper foil manufacturing device 1 of the utility model is embodied as a result, is produced by reducing by first cutting part 4 The raw copper clast amount mobile to the winding side copper foil CF, can reduce be attached at the surface of the winding copper foil CF copper it is broken The amount of bits.Therefore, in the electrolytic copper foil manufacturing device 1 of the utility model, by reducing as copper clast is attached at the volume Around the surface of copper foil CF in the degree that the winding copper foil CF generates fold, the quality of manufactured copper foil can be improved, and And in the case where the copper foil for improving quality is used in the manufacture of secondary cell, it is also capable of increasing the relevant yield of secondary cell And quality.

Referring to Fig.1, first sucting 6 may include the first sucker mechanism 61 (hereinafter, being illustrated in Fig. 1).

First sucker mechanism 61 is used to provide the suction of sucking copper clast.First sucker mechanism 61 passes through opposite direction The mobile copper clast in the winding side copper foil CF provides suction, and copper clast can be made originally mobile to the winding side copper foil CF, And backward first sucting, the 6 side movement.

By power such as motors (not shown) component can occur for first sucker mechanism 61 to provide suction.Described One sucker mechanism 61 can also receive power from additional power source and provide suction.First sucker mechanism 61 can connect In the surge drum (not shown) for collecting the copper clast being inhaled into.It is inhaled by suction provided by first sucker mechanism 61 The copper clast entered can be collected in the surge drum to the surge drum side movement.The electrolytic copper foil of the utility model as a result, Manufacturing device 1 is capable of increasing the relevant easiness of operation for the copper clast that removal is collected.

Referring to figs. 1 to Fig. 5, first sucting 6 may include the first barrier mechanism 62.

The first barrier mechanism 62 is for obstructing during first cutting part 4 cuts the carrying copper foil TF The copper clast of generation is mobile to the winding side copper foil CF.First barrier mechanism 62 can be set to, and cover described the At least part between one cutting part 4 and the winder 3.The copper clast generated as a result, by first cutting part 4 can be with It is originally mobile to the winding side copper foil CF, then stopped by first barrier mechanism 62.

The electrolytic copper foil manufacturing device 1 of the utility model is embodied as a result, can by it is described first barrier mechanism 62 come Further decrease the copper clast degree mobile to the winding side copper foil CF.Therefore, it is manufactured in the electrolytic copper foil of the utility model In device 1, the degree that copper clast is attached at the surface of the winding copper foil CF can be reduced, therefore the volume can not only be reduced The degree of fold, flaw etc. is generated on the copper foil of copper foil CF, additionally it is possible to the secondary electricity manufactured is further increased using copper foil The relevant yield in pond and quality.

One end of first barrier mechanism 62 can be configured at, from first cutting part 4 to first direction (ID arrow Direction) position that separates.The first direction (ID arrow direction) is on the basis of the width direction (X-direction), from institute One end of guide portion 5 is stated towards the direction of the other end.Therefore, first barrier mechanism 62 can be set to, with from described The state that first cutting part 4 is protruded to the first direction (ID arrow direction) covers first cutting part 4 and the winding Between portion 3.

The electrolytic copper foil manufacturing device 1 of the utility model is embodied as a result, and first barrier mechanism 62 is obstructed to described The area for winding the mobile copper clast in the side copper foil CF increases to the first direction (ID arrow direction).Therefore, practical new at this In the electrolytic copper foil manufacturing device 1 of type, by obstructing the copper clast mobile to the first direction (ID arrow direction), Neng Goujin One step reduces the amount for being attached at the copper clast on surface of the winding copper foil CF.Also, the electrolytic copper foil of the utility model manufactures Device 1 is embodied as, and also barrier copper clast on the basis of first cutting part 4 to being configured at the first direction (the arrow side ID To) other mechanisms and device side it is mobile.Therefore, it in the electrolytic copper foil manufacturing device 1 of the utility model, reduces because dispersing Copper clast and probability that other mechanisms and device break down, so as to further increase operation ratio and production efficiency.

The other end of first barrier mechanism 62 can be configured at from first cutting part 4 to second direction (ED arrow Head direction) position that separates.The second direction (ED arrow direction) is opposite with the first direction (ID arrow direction) Direction.Therefore, first barrier mechanism 62 can be set to, from first cutting part 4 to the second direction (ED Arrow direction) between state masking first cutting part 4 protruded and the winder 3.

The electrolytic copper foil manufacturing device 1 of the utility model is embodied as a result, and first barrier mechanism 62 is obstructed to described The area for winding the mobile copper clast in the side copper foil CF increases to the second direction (ED arrow direction).Therefore, practical new at this In the electrolytic copper foil manufacturing device 1 of type, by obstructing the copper clast mobile to the second direction (ED arrow direction), Neng Goujin One step reduces the amount for being attached at the copper clast on surface of the winding copper foil CF.Also, the electrolytic copper foil of the utility model manufactures Device 1 is embodied as, and also barrier copper clast on the basis of first cutting part 4 to being configured at the second direction (the arrow side ED To) other mechanisms and device side it is mobile.Therefore, it in the electrolytic copper foil manufacturing device 1 of the utility model, reduces because dispersing Copper clast and probability that other mechanisms and device break down, so as to further increase operation ratio and production efficiency.

At least part of first barrier mechanism 62 can be formed by transparent or translucent material.As a result, originally The electrolytic copper foil manufacturing device 1 of utility model can be implemented as, and obstruct first barrier mechanism 62 to the winding copper In the case where the mobile copper clast in the side foil CF, avoid the barrier of first barrier mechanism 62 for the guide portion 5 and the volume The visual field of the operator of the process executed between portion 3.It therefore, can in the electrolytic copper foil manufacturing device 1 of the utility model Help to further increase the management operation of mechanism object, works configured between the guide portion 5 and the winder 3 etc. Relevant easiness.First barrier mechanism 62 can also only have it and be extended on the basis of the width direction (X-direction) A part of length formed by transparent or translucent material.For example, first barrier mechanism 62 can be by glass, Asia The materials such as gram force are formed.

First barrier mechanism 62 can connect in first sucker mechanism 61.Therefore, first barrier mechanism 62 can execute channeling, to suck copper clast by suction provided by first sucker mechanism 61.This reality as a result, It is embodied as with novel electrolytic copper foil manufacturing device 1, when first barrier, mechanism 62 obstructs copper clast to the winding copper foil When the side CF is mobile, the copper clast being blocked is sucked at once by suction provided by first sucker mechanism 61.Therefore, at this In the electrolytic copper foil manufacturing device 1 of utility model, prevent copper clast savings in first barrier mechanism 62, therefore be capable of increasing The period of the first barrier relevant cleaning work of mechanism 62, to help to increase operation ratio.

First barrier mechanism 62 can be connected to first inhalation machine by the connecting elements such as hose (not shown) Structure 61.First barrier mechanism 62 also can be directly connected to first sucker mechanism 61.First inhalation machine as a result, Suction provided by structure 61 can be applied to copper clast by first barrier mechanism 62.In first barrier, mechanism 62 can To be formed with the first suction inlet 62a.The first suction inlet 62a can be for make the copper clast being inhaled into it is mobile described the The entrance of one barrier mechanism 62.By suction provided by first sucker mechanism 61, copper clast can be inhaled to described first Entrance 62a sucking.The copper clast for being drawn into the first suction inlet 62a can be collected in the surge drum.In first resistance In the case that mechanism 62 is connected to first sucker mechanism 61 by the connecting elements, the first suction inlet 62a can To be connected to the inner space of the connecting elements, so that the copper clast being inhaled into is moved by the inner space of the connecting elements It is dynamic.

Referring to Fig. 2 to Fig. 5, first barrier mechanism 62 may include the first obstruction member 621 and the first masking structure Part 622.

First obstruction member 621 is mobile to the winding side copper foil CF for obstructing copper clast.First masking Component 622 is used to obstruct copper clast on the direction different from first obstruction member 621 to the winding copper foil CF sidesway It is dynamic.First obstruction member 621 can be carried out in a manner of covering the region different from each other with first shading member 622 Setting.Therefore, first barrier mechanism 62 can obstruct mobile to the winding side copper foil CF in different directions from each other Copper clast.

The electrolytic copper foil manufacturing device 1 of the utility model is embodied as a result, with first barrier mechanism 62 only at one The comparative example for obstructing copper clast on direction is compared, be capable of increasing barrier to each other the angle of the mobile copper clast in different direction and Region.Therefore, it in the electrolytic copper foil manufacturing device 1 of the utility model, is further reduced mobile to the winding side copper foil CF Copper clast amount, thus have can be further reduced be attached at it is described winding copper foil CF surface copper clast amount it is excellent Point.

First obstruction member 621 can cover the front of first cutting part 4, to obstruct copper clast from described One cutting part 4 is moved to towards the front of the winder 3.First obstruction member 621 is cut by being configured at described first The front in portion 4 is cut, the front of first cutting part 4 can be covered.First obstruction member 621 can be to cover described The mode in the front of one cutting part 4 extends in the short transverse (Y direction) perpendicular to the width direction (X-direction) It is formed.The electrolytic copper foil manufacturing device 1 of the utility model is embodied as a result, makes described using first obstruction member 621 The area that one barrier mechanism 62 obstructs copper clast further increases in the short transverse (Y direction).Therefore, practical at this In novel electrolytic copper foil manufacturing device 1, by being further reduced the amount to the mobile copper clast in the winding side copper foil CF, energy Enough it is further reduced the amount for being attached at the copper clast on surface of the winding copper foil CF.

First obstruction member 621 can be formed as spacious plate (Plate) form, but the utility model and unlimited Due to this, as long as the form to the mobile copper clast in the winding side copper foil CF can be obstructed, it can also be formed as Its form.For example, first obstruction member 621 can be formed in a manner of drawing arc, so that it is more in the height side Extend in (Y direction) further away from first cutting part 4.

First shading member 622 is incorporated into first obstruction member 621.First shading member 622 can be with Extend to the different direction in the direction extended from first obstruction member 621, come cover with first obstruction member 621 that This different region.Therefore, first shading member 622 can be on the direction different from first obstruction member 621 It is mobile to the winding copper foil CF to obstruct copper clast.

First shading member 622 can cover the lower section of first cutting part 4, be moved downwards with obstructing copper clast It is dynamic.First shading member 622 can cover first cutting part 4 by being configured at the lower section of first cutting part 4 Lower section.First obstruction member 621 can be in a manner of covering the lower section of first cutting part 4, along perpendicular to institute The front-rear direction (Z-direction) for stating width direction (X-direction) and the short transverse (Y direction) extends to form.As a result, originally Following function and effect may be implemented in the electrolytic copper foil manufacturing device 1 of utility model.

The first, the electrolytic copper foil manufacturing device 1 of the utility model is embodied as, and makes institute using first shading member 622 The area for stating the first barrier mechanism 62 barrier copper clast further increases in the front-rear direction (Z-direction).Therefore, at this In the electrolytic copper foil manufacturing device 1 of utility model, by being further reduced to the mobile copper clast in the winding side copper foil CF Amount can be further reduced the amount for being attached at the copper clast on surface of the winding copper foil CF.

The second, the electrolytic copper foil manufacturing device 1 of the utility model is embodied as, as first shading member 622 covers The lower section of first cutting part 4, additionally it is possible to the copper that barrier is dispersed for the second time after colliding with first obstruction member 621 Clast.Therefore, in the electrolytic copper foil manufacturing device 1 of the utility model, prevent copper clast on floor, the first barrier machine The mechanism of the lower section configuration of structure 62 and device etc. are mobile, therefore increase the maintenance activities relevant periods such as cleaning, repairing, so as to Enough further increase operation ratio.

Wherein, the those skilled in the art of technical field belonging to the utility model should be understood that front and lower section is For distinguishing each structure, and it is not intended to denotion specific direction.

First shading member 622 can be incorporated into the lower end of first obstruction member 621.First masking Component 622 can be formed as spacious plate (Plate) form, but it's not limited to that for the utility model, as long as can hinder Every the form of the copper clast moved downwards, other forms can also be formed as.

Referring to Fig. 2 and Fig. 3, first barrier mechanism 62 may include the first inner member 623.

First inner member 623 is mobile to the first direction (ID arrow direction) for obstructing copper clast.It is described First inner member 623 can be to cover described relative to first obstruction member 621 and first shading member 622 The mode in one direction (ID arrow direction) is formed.First inner member 623 can be respectively in connection in the first barrier structure In part 621 towards in one end of the first direction (ID arrow direction) and first shading member 622 towards described The one end in one direction (ID arrow direction).

The electrolytic copper foil manufacturing device 1 of the utility model is embodied as a result, makes institute using first inner member 623 The area for stating the first barrier mechanism 62 barrier copper clast further increases.Therefore, dress is manufactured in the electrolytic copper foil of the utility model It sets in 1, by being further reduced the amount to the first direction (ID arrow direction) mobile copper clast, can be further reduced It is attached at the amount of the copper clast on the surface of the winding copper foil CF.Also, the electrolytic copper foil manufacturing device 1 of the utility model can also Enough prevent copper clast to the mechanism and device for being configured at the first direction (ID arrow direction) relative to first cutting part 4 It is mobile.Therefore, in the electrolytic copper foil manufacturing device 1 of the utility model, increase and the maintenance activities relevant week such as clean, repair Phase, so as to further increase operation ratio.

First inner member 623 can be configured as to be hidden relative to first obstruction member 621 and described first It covers component 622 and is located at the first direction (ID arrow direction).First inner member 623 can be formed as spacious plate (Plate) form, but it's not limited to that for the utility model, as long as can obstruct to the first direction (the arrow side ID To) form of mobile copper clast, other forms can also be formed as.For example, first inner member 623 can also be with Be formed as the form being recessed to the first direction (ID arrow direction).

Referring to Fig. 2 and Fig. 3, first barrier mechanism 62 may include the first outer member 624.

First outer member 624 is mobile to the second direction (ED arrow direction) for obstructing copper clast.It is described First outer member 624 can be to cover described relative to first obstruction member 621 and first shading member 622 The mode in two directions (ED arrow direction) is formed.For this purpose, first outer member 624 can be respectively in connection in first resistance Every in component 621 towards direction in the other end and first shading member 622 of the second direction (ED arrow direction) The other end of the second direction (ED arrow direction).

The electrolytic copper foil manufacturing device 1 of the utility model is embodied as a result, makes institute using first outer member 624 The area for stating the first barrier mechanism 62 barrier copper clast further increases.Therefore, dress is manufactured in the electrolytic copper foil of the utility model It sets in 1, by being further reduced the amount to the mobile copper clast in the winding side copper foil CF, can be further reduced and be attached at institute State the amount of the copper clast on the surface of winding copper foil CF.Also, the electrolytic copper foil manufacturing device 1 of the utility model can also prevent copper Clast is mobile to the mechanism and device for being configured at the second direction (ED arrow direction) relative to first cutting part 4.Cause This increases in the electrolytic copper foil manufacturing device 1 of the utility model and the maintenance activities relevant period such as cleans, repairs, so as to Enough further increase operation ratio.

First outer member 624 can be configured as to be hidden relative to first obstruction member 621 and described first It covers component 622 and is located at the second direction (ED arrow direction).First outer member 624 can be formed as spacious plate (Plate) form, but it's not limited to that for the utility model, as long as can obstruct to the second direction (the arrow side ED To) mobile copper clast, other forms can also be formed as.

Referring to Fig. 5, the electrolytic copper foil manufacturing device 1 of the utility model may include the second cutting part 7 and the second sucting 8。

Second cutting part 7 is used to for the carrying copper foil TF being cut into the winding copper foil CF and separation copper foil SF. As the carrying copper foil TF is continuously handled upside down, second cutting part 7 can continuously cut the carrying copper foil TF.Institute Stating the first cutting part 4 and second cutting part 7 can be separated from each other to carry out on the basis of the width direction (X-direction) Configuration.In the case, first cutting part 4 and second cutting part 7 can be with the width direction (X-direction) Benchmark is separated from each other, and is configured in a manner of the one end and the other end to be snapped at the guide portion 5 respectively.For example, working as institute When stating the first cutting part 4 and being arranged in a manner of being mutually engaged with one end of the guide portion 5, second cutting part 7 can with The mode that the other end of the guide portion 5 is mutually engaged is arranged.First cutting part 4 and second cutting part 7 can be with as a result, Cut the both ends for carrying copper foil TF.

Second cutting part 7 can be formed by the disk form for being formed with blade in its periphery, but the utility model It's not limited to that, as long as the carrying copper foil TF can continuously cut the shape for carrying copper foil TF while being handled upside down State can also be formed as other forms.

Second sucting 8 produces during second cutting part 7 cuts the carrying copper foil TF for sucking Raw copper clast.Second sucting 8 can obstruct copper clast to the winding copper foil CF sidesway by sucking copper clast It is dynamic.Therefore, the copper clast generated during second cutting part 7 cuts the carrying copper foil TF is originally to the winding The side copper foil CF is mobile, is then drawn into second sucting 8 by suction provided by second sucting 8.

The electrolytic copper foil manufacturing device 1 of the utility model is embodied as a result, is produced by reducing by second cutting part 7 The raw copper clast amount mobile to the winding side copper foil CF, can be further reduced the surface for being attached at the winding copper foil CF Copper clast amount.Therefore, in the electrolytic copper foil manufacturing device 1 of the utility model, by reducing as copper clast is attached at It is described winding copper foil CF surface and it is described winding copper foil CF generate fold degree, can be improved the product of manufactured copper foil Matter, and in the case where the copper foil for improving quality is used in the manufacture of secondary cell, also it is capable of increasing secondary cell correlation Yield and quality.

Second cutting part 7 and first cutting part 4 by the basis of the width direction (X-direction) each other every It comes in the case where configuration, second sucting 8 and first sucting 6 can be with the width direction (X-directions) On the basis of be separated from each other to configure.The electrolytic copper foil manufacturing device 1 of the utility model is embodied as a result, even if described second cuts Cutting portion 7 and first cutting part 4 is being to remove described in the cutting of benchmark spaced positions from each other with the width direction (X-direction) Copper foil TF is transported, also can suck copper clast by second sucting 8 and first sucting 6.Therefore, practical at this In novel electrolytic copper foil manufacturing device 1, with first sucting 6 along the width direction (X-direction) extend and incite somebody to action The comparative example that second cutting part 7 and first cutting part 4 all cover is compared, and first sucting 6 can be reduced It is formed by size, so as to increase space efficiency.

Referring to Fig. 5, second sucting 8 may include the second sucker mechanism (not shown).

Second sucker mechanism is used to provide the suction of sucking copper clast.Second sucker mechanism passes through described in opposite direction It winds the mobile copper clast in the side copper foil CF and suction is provided, copper clast can be made originally mobile to the winding side copper foil CF, then It is mobile to 8 side of the second sucting.

By power such as motors (not shown) component can occur for second sucker mechanism to provide suction.Described second Sucker mechanism can also receive power from additional power source and provide suction.Second sucker mechanism can be from described The identical power source of one sucker mechanism 61 receives power and provides suction.Second sucker mechanism can connect in for collecting The surge drum (not shown) for the copper clast being inhaled into.By the copper clast for the suction sucking that second sucker mechanism provides The surge drum can be collected in the surge drum side movement.1 energy of electrolytic copper foil manufacturing device of the utility model as a result, Enough relevant easiness of operation for increasing the copper clast that removal is collected.

Referring to Fig. 5, second sucting 8 may include the second barrier mechanism 82.

The second barrier mechanism 82 is for obstructing during second cutting part 7 cuts the carrying copper foil TF The copper clast of generation is mobile to the winding side copper foil CF.Second barrier mechanism 82 can be set to cover described second At least part between cutting part 7 and the winder 3.It as a result, can be former by the copper clast that second cutting part 7 generates It is first mobile to the winding side copper foil CF, then stopped by second barrier mechanism 82.

The electrolytic copper foil manufacturing device 1 of the utility model is embodied as a result, can by it is described second barrier mechanism 82 into One step reduces the copper clast degree mobile to the winding side copper foil CF.Therefore, dress is manufactured in the electrolytic copper foil of the utility model It sets in 1, the degree that copper clast is attached at the surface of the winding copper foil CF can be reduced, therefore can not only reduce in the volume The degree of fold, flaw etc. is generated on the copper foil of copper foil CF, additionally it is possible to the secondary electricity manufactured is further increased using copper foil The relevant yield in pond and quality.

One end of second barrier mechanism 82 can be configured at from second cutting part 7 to the first direction (ID Arrow direction) position that separates.Therefore, it is described second barrier mechanism 82 can be set to, with from second cutting part 7 to The state of first direction (ID arrow direction) protrusion is covered between second cutting part 7 and the winder 3.

The electrolytic copper foil manufacturing device 1 of the utility model is embodied as a result, and second barrier mechanism 82 is obstructed to described The area for winding the mobile copper clast in the side copper foil CF increases to the first direction (ID arrow direction).Therefore, practical new at this In the electrolytic copper foil manufacturing device 1 of type, by obstructing the copper clast mobile to the first direction (ID arrow direction), Neng Goujin One step reduces the amount for being attached at the copper clast on surface of the winding copper foil CF.Also, the electrolytic copper foil of the utility model manufactures Device 1 is embodied as, and also barrier copper clast on the basis of second cutting part 7 to being configured at the first direction (the arrow side ID To) other mechanisms and device side it is mobile.Therefore, it in the electrolytic copper foil manufacturing device 1 of the utility model, reduces because dispersing Copper clast and probability that other mechanisms and device break down, so as to further increase operation ratio and production efficiency.

The other end of second barrier mechanism 82 can be configured at from second cutting part 7 to the second direction The position that (ED arrow direction) separates.Therefore, second barrier mechanism 82 can be set to, with from second cutting part 7 states protruded to the second direction (ED arrow direction) are covered between second cutting part 7 and the winder 3.

The electrolytic copper foil manufacturing device 1 of the utility model is embodied as a result, and second barrier mechanism 82 is obstructed to described The area for winding the mobile copper clast in the side copper foil CF increases to the second direction (ED arrow direction).Therefore, practical new at this In the electrolytic copper foil manufacturing device 1 of type, by obstructing the copper clast mobile to the second direction (ED arrow direction), Neng Goujin One step reduces the amount for being attached at the copper clast on surface of the winding copper foil CF.Also, the electrolytic copper foil of the utility model manufactures Device 1 is embodied as, and also barrier copper clast on the basis of second cutting part 7 to being configured at the second direction (the arrow side ED To) other mechanisms and device side it is mobile.Therefore, it in the electrolytic copper foil manufacturing device 1 of the utility model, reduces because dispersing Copper clast and probability that other mechanisms and device break down, so as to further increase operation ratio and production efficiency.

At least part of second barrier mechanism 82 can be formed by transparent or translucent material.As a result, originally The electrolytic copper foil manufacturing device 1 of utility model can be implemented as, and obstruct second barrier mechanism 82 to the winding copper In the case where the mobile copper clast in the side foil CF, avoid the barrier of second barrier mechanism 82 for the guide portion 5 and the volume The visual field of the operator of the process executed between portion 3.It therefore, can in the electrolytic copper foil manufacturing device 1 of the utility model Help to further increase the management operation of mechanism object, works configured between the guide portion 5 and the winder 3 etc. Relevant easiness.Second barrier mechanism 82 can also only have it and be extended on the basis of the width direction (X-direction) A part of length formed by transparent or translucent material.For example, second barrier mechanism 82 can be by glass, Asia The materials such as gram force are formed.

Second barrier mechanism 82 can connect in second sucker mechanism.Therefore, second barrier mechanism 82 Channeling can be executed, to suck copper clast by suction provided by second sucker mechanism.This is practical new as a result, The electrolytic copper foil manufacturing device 1 of type is embodied as, and when second barrier, mechanism 82 obstructs copper clast to the side the winding copper foil CF When mobile, the copper clast being blocked is sucked at once by suction provided by second sucker mechanism.Therefore, practical new at this In the electrolytic copper foil manufacturing device 1 of type, prevents copper clast savings in second barrier mechanism 82, be capable of increasing second resistance Every the period of the relevant cleaning work of mechanism 82, to help to increase operation ratio.

Second barrier mechanism 82 also can connect in first sucker mechanism 61.In the case, described second Barrier mechanism 82 and each of first barrier mechanism 62 can connect in first sucker mechanism 61 and execute channel work With to suck copper clast by suction provided by first sucker mechanism 61.As a result, in the cathode copper of the utility model It, will be without setting compared with second barrier mechanism 82 is connected to the embodiment of second sucker mechanism in foil manufacturing device 1 Second sucker mechanism is set, manufacturing expense and running cost can not only be reduced, additionally it is possible to further increase space efficiency.

Second barrier mechanism 82 can be connected to second sucking by the connecting elements such as hose (not shown) Mechanism.Second barrier mechanism 82 also can be directly connected to second sucker mechanism.Second sucker mechanism as a result, Provided suction can be applied to copper clast by second barrier mechanism 82.In second barrier, mechanism 82 can be with shape At there is the second suction inlet (not indicating).Second suction inlet can be described second for making the copper clast being inhaled into movement Obstruct the entrance of mechanism 82.By the suction that second sucker mechanism provides, copper clast can be inhaled to second suction inlet Enter.The copper clast for being drawn into second suction inlet can be collected in the surge drum.In second barrier, mechanism 82 passes through In the case that the connecting elements is connected to second sucker mechanism, second suction inlet can be connected to the connection structure The inner space of part, so that the copper clast being inhaled into is mobile by the inner space of the connecting elements.

Referring to Fig. 5, second barrier mechanism 82 may include the second obstruction member 821 and the second shading member 822.

Second obstruction member 821 is mobile to the winding side copper foil CF for obstructing copper clast.Second masking Component 822 is used to obstruct copper clast on the direction different from second obstruction member 821 to the winding copper foil CF sidesway It is dynamic.Second obstruction member 821 can cover the region different from each other with second shading member 822.Therefore, described Two barrier mechanisms 82 can obstruct the copper clast mobile to the winding side copper foil CF in different directions from each other.

The electrolytic copper foil manufacturing device 1 of the utility model is embodied as a result, with second barrier mechanism 82 only at one The comparative example for obstructing copper clast on direction is compared, and the angle for obstructing the mobile copper clast in directions different to each other and area are increased Domain.Therefore, it in the electrolytic copper foil manufacturing device 1 of the utility model, is further reduced to the winding side copper foil CF movement The amount of copper clast has the advantages that the amount for the copper clast that can be further reduced the surface for being attached at the winding copper foil CF.

Second obstruction member 821 can cover the front of second cutting part 7, to obstruct copper clast to before described Fang Yidong.Second obstruction member 821 can cover described second and cut by being configured at the front of second cutting part 7 Cut the front in portion 7.Second obstruction member 821 can be in a manner of covering the front of second cutting part 7, in the height It is extended to form on degree direction (Y direction).The electrolytic copper foil manufacturing device 1 of the utility model is embodied as a result, utilizes described The area that two obstruction members 821 make second barrier mechanism 82 obstruct copper clast is enterprising in the short transverse (Y direction) One step increases.Therefore, in the electrolytic copper foil manufacturing device 1 of the utility model, by being further reduced to the winding copper foil The amount of the mobile copper clast in the side CF can be further reduced the amount for being attached at the copper clast on surface of the winding copper foil CF.

Second obstruction member 821 can be formed as spacious plate (Plate) form, but the utility model and unlimited Due to this, as long as the form to the mobile copper clast in the winding side copper foil CF can be obstructed, it can also be formed as Its form.For example, second obstruction member 821 can be formed in a manner of drawing arc, so that it is more in the height side Extend in (Y direction) further away from second cutting part 7.

Second shading member 822 is incorporated into second obstruction member 821.Second shading member 822 can be with Extend to the different direction in the direction extended from second obstruction member 821, come cover with second obstruction member 821 that This different region.Therefore, second shading member 822 can be on the direction different from second obstruction member 821 It is mobile to the winding copper foil CF to obstruct copper clast.

Second shading member 822 can cover the lower section of second cutting part 7, be moved downwards with obstructing copper clast It is dynamic.Second shading member 822 can cover second cutting part 7 by being configured at the lower section of second cutting part 7 Lower section.Second obstruction member 821 can be in a manner of covering the lower section of second cutting part 7, along perpendicular to institute The front-rear direction (Z-direction) for stating width direction (X-direction) and the short transverse (Y direction) extends to form.As a result, originally Following function and effect may be implemented in the electrolytic copper foil manufacturing device 1 of utility model.

The first, the electrolytic copper foil manufacturing device 1 of the utility model is embodied as, and makes institute using second shading member 822 The area for stating the second barrier mechanism 82 barrier copper clast further increases in the front-rear direction (Z-direction).Therefore, at this In the electrolytic copper foil manufacturing device 1 of utility model, by being further reduced to the mobile copper clast in the winding side copper foil CF Amount can be further reduced the amount for being attached at the copper clast on surface of the winding copper foil CF.

The second, the electrolytic copper foil manufacturing device 1 of the utility model is embodied as, as second shading member 822 covers The lower section of second cutting part 7, additionally it is possible to the copper that barrier is dispersed for the second time after colliding with second obstruction member 821 Clast.Therefore, in the electrolytic copper foil manufacturing device 1 of the utility model, prevent copper clast on floor, the second barrier machine The mechanism of the lower section configuration of structure 82 and device etc. are mobile, therefore increase the maintenance activities relevant periods such as cleaning, repairing, so as to Enough further increase operation ratio.

Second shading member 822 can be incorporated into the lower end of second obstruction member 821.Second masking Component 822 can be formed as spacious plate (Plate) form, but it's not limited to that for the utility model, as long as can hinder Every the form of the copper clast moved downwards, other forms can also be formed as.

Referring to Fig. 5, second barrier mechanism 82 may include the second inner member 823.

Second inner member 823 is mobile to the second direction (ED arrow direction) for obstructing copper clast.It is described Second inner member 823 can be to cover described relative to second obstruction member 821 and second shading member 822 The mode in two directions (ED arrow direction) is formed.Second inner member 823 can be respectively in connection in the second barrier structure In part 821 towards in one end of the second direction (ED arrow direction) and second shading member 822 towards described The one end in two directions (ED arrow direction).

The electrolytic copper foil manufacturing device 1 of the utility model is embodied as a result, makes institute using second inner member 823 The area for stating the second barrier mechanism 82 barrier copper clast further increases.Therefore, dress is manufactured in the electrolytic copper foil of the utility model It sets in 1, by being further reduced the amount to the second direction (ED arrow direction) mobile copper clast, can be further reduced It is attached at the amount of the copper clast on the surface of the winding copper foil CF.Also, the electrolytic copper foil manufacturing device 1 of the utility model can also Enough prevent copper clast to the mechanism and device for being configured at the second direction (ED arrow direction) relative to second cutting part 7 It is mobile.Therefore, in the electrolytic copper foil manufacturing device 1 of the utility model, increase and the maintenance activities relevant week such as clean, repair Phase, so as to further increase operation ratio.

Second inner member 823 can be configured as to be hidden relative to second obstruction member 821 and described second It covers component 822 and is located at the second direction (ED arrow direction).Second inner member 823 can be formed as spacious plate (Plate) form, but it's not limited to that for the utility model, as long as can obstruct to the second direction (the arrow side ED To) form of mobile copper clast, other forms can also be formed as.For example, second inner member 823 can be with shape As the form being recessed to the second direction (ED arrow direction).

Referring to Fig. 5, second barrier mechanism 82 may include the second outer member 824.

Second outer member 824 is mobile to the first direction (ID arrow direction) for obstructing copper clast.It is described Second outer member 824 can be to cover described relative to second obstruction member 821 and second shading member 822 The mode in one direction (ID arrow direction) is formed.For this purpose, second outer member 824 can be respectively in connection in second resistance Every in component 821 towards direction in the other end and second shading member 822 of the first direction (ID arrow direction) The other end of the first direction (ID arrow direction).

The electrolytic copper foil manufacturing device 1 of the utility model is embodied as a result, makes institute using second outer member 824 The area for stating the second barrier mechanism 82 barrier copper clast further increases.Therefore, dress is manufactured in the electrolytic copper foil of the utility model It sets in 1, by being further reduced the amount to the mobile copper clast in the winding side copper foil CF, can be further reduced and be attached at institute State the amount of the copper clast on the surface of winding copper foil CF.Also, the electrolytic copper foil manufacturing device 1 of the utility model can also prevent copper Clast is mobile to the mechanism and device for being configured at the first direction (ID arrow direction) relative to second cutting part 7.Cause This increases in the electrolytic copper foil manufacturing device 1 of the utility model and the maintenance activities relevant period such as cleans, repairs, so as to Enough further increase operation ratio.

Second outer member 824 can be configured as to be hidden relative to second obstruction member 821 and described second It covers component 822 and is located at the first direction (ID arrow direction).Second outer member 824 can be formed as spacious plate (Plate) form, but it's not limited to that for the utility model, as long as can obstruct to the first direction (the arrow side ID To) form of mobile copper clast, other forms can also be formed as.

Above-described the utility model is not limited to the above embodiments and attached drawing, is not departing from the utility model In the range of technical idea, the those skilled in the art of technical field belonging to the utility model are able to carry out a variety of displacements, deformation And change.

Claims (10)

1. a kind of electrolytic copper foil manufacturing device, which is characterized in that

Include:

Electro-deposition portion is used for electro-deposition copper foil；

Winder, for winding copper foil；

The carrying copper foil is separated into and wants for cutting the carrying copper foil carried from the electro-deposition portion by the first cutting part The separation copper foil for being wound in the winding copper foil of the winder and being separated from the winding copper foil；

Guide portion, for guiding the winding copper foil to carry to the winder side；And

First sucting, for sucking the copper clast generated during first cutting part cuts the carrying copper foil.

2. electrolytic copper foil manufacturing device according to claim 1, which is characterized in that

First sucting includes:

First sucker mechanism provides the suction for sucking copper clast；And

First barrier mechanism, is connected to first sucker mechanism, to cover between first cutting part and the winder At least part of mode be arranged.

3. electrolytic copper foil manufacturing device according to claim 2, which is characterized in that

Described first, which obstructs mechanism, includes:

First obstruction member, it is mobile to the winding copper foil side for obstructing copper clast, and

First shading member is incorporated into first obstruction member, different to the direction extended from first obstruction member Direction extends；

First obstruction member and first shading member are arranged to cover region different from each other.

4. electrolytic copper foil manufacturing device according to claim 3, which is characterized in that

First obstruction member covers the front of first cutting part, to obstruct copper clast from first cutting part to court It is mobile to the front of the winder.

5. electrolytic copper foil manufacturing device according to claim 3, which is characterized in that

First shading member covers the lower section of first cutting part, is moved downwards with obstructing copper clast.

6. electrolytic copper foil manufacturing device according to claim 3, which is characterized in that

First barrier mechanism includes the first inner member, and first inner member is in a first direction respectively in connection in institute It states the first obstruction member and first shading member, the first direction is, from the guide portion on the basis of width direction One end towards the direction of the other end,

It is mobile to the first direction that first inner member obstructs copper clast.

7. electrolytic copper foil manufacturing device according to claim 3, which is characterized in that

First barrier mechanism includes the first outer member, and first outer member is in the second party opposite with first direction Upwards respectively in connection in first obstruction member and first shading member,

It is mobile to the second direction that first outer member obstructs copper clast.

8. electrolytic copper foil manufacturing device according to claim 2, which is characterized in that

One end of first barrier mechanism is configured at from the position that first cutting part is separated to first direction, and described first Direction is, from one end of the guide portion towards the direction of the other end on the basis of width direction,

The other end of first barrier mechanism is configured at from the position that first cutting part is separated to second direction, and described the Two directions are direction opposite to the first direction.

9. electrolytic copper foil manufacturing device according to claim 2, which is characterized in that

At least part of first barrier mechanism is formed by transparent or translucent material.

10. electrolytic copper foil manufacturing device according to claim 1, which is characterized in that

Include:

The carrying copper foil is separated into the winding copper foil and described for cutting the carrying copper foil by the second cutting part Copper foil is separated, and

Second sucting, for sucking the copper clast generated during second cutting part cuts the carrying copper foil；

First cutting part and second cutting part are separated from each other to configure on the basis of width direction.