• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention relates to an apparatus for producing fibers such as nanofibers by lectrospinning liquid matrix in an electrostatic field. According to the present invention a single wire is used as a spinning electrode in an apparatus section to generate fibers. The apparatus comprises: - a first collecting electrode; - a second spinning wire electrode spaced from the first collecting electrode, the second spinning wire electrode comprises a moving strand or wire guided by first guiding means; - a wire driving unit moving the second spinning wire electrode forward; and - a liquid matrix application device applying liquid matrix to the second spinning wire electrode; the sheet of substrate travels along a first path in a first direction between the first collecting electrode and the second spinning wire electrode; and the second spinning wire electrode travels in a second direction approximately perpendicular to the first direction at an approximately constant operational distance to the sheet of substrate; wherein the apparatus comprises secondary guiding means guiding the second spinning wire electrode in a third direction parallel or at least partly parallel to the first direction i.e. at least partly parallel to the travelling direction of the sheet of substrate, and tertiary guiding means guiding the second spinning wire electrode in a fourth direction approximately perpendicular to the first direction and parallel but opposite the second direction at a constant operational distance to the sheet of substrate.
    公开号:DK201901264A1
    申请号:DKP201901264
    申请日:2019-10-28
    公开日:2021-04-29
    发明作者:Bech Poulsen Jørgen
    申请人:Jsbp Holding Aps;
    IPC主号:
    专利说明:

    DK 2019 01264 A1 1 Apparatus for manufacturing fibers by electrospinning The present invention relates to an apparatus for producing fibers such as nanofibers by electrospinning liquid matrix in an electrostatic field.
    Background Art: Apparatus’ for producing fibers by electrospinning liquid matrix are known e.g. from the below to documents.
    WO 2009/010020 Al relates to a method for spinning the liquid matrix (38) in an electrostatic field between at least one spinning electrode (3) and against it arranged collecting electrode (4), while one of — the electrodes is connected to one pole of high voltage source and the second electrode is connected to opposite pole of high voltage source or is grounded, at which the liquid matrix (38) being subject to spinning is to be found in electrostatic field on the active spinning zone (3100) of the cord (310) of the spinning means (31 ) of the spinning electrode (3). The active spinning zone (3100) of the cord during spinning process has a stable position towards the collecting electrode (4) and the liquid matrix (38) to the — active spinning zone (3100) of the cord is delivered either by application to the active spinning zone (3100) of the cord or by motion of the cord (310) in direction of its length.
    The invention further relates to the device for production of nanofibers and to the spinning electrode (3), whose active spinning zone (3100) of the cord in the carrying body (32) of the spinning electrode (3) has a stable position and to the cord (310) there is assigned the device (37) for application of the liquid matrix (38) to the cord (310), which is arranged in the carrying body (32) of the spinning electrode (3). WO 2009/067368 Al relates to an equipment for electrostatic fine fiber generation such as for forming nanofibers from polymer solution is provided.
    The fine fiber generation equipment includes a strand that may take the form of a stainless-steel beaded chain.
    The beaded chain can be an endless chain entrained upon two guide wheels and driven about an endless path perpendicularly relative to the collection media.
    More particularly, the document relates to an apparatus according to the document comprises: a first electrode; a second electrode spaced from the first electrode, the second electrode including a strand entrained upon at least two guides; an entrance region and an exit region spaced apart along a first path, wherein the collection media is adapted to be driven along the first path from the entrance region to the exit region in spaced relation from the second electrode; a drive unit adapted to drive the strand, along — the at two guides for movement along a second path that is transverse to the first path; a voltage source arranged to generate a voltage differential between the first and second electrodes for generating the spinning of fine fibers.
    Equipment according to this known prior art has multiple independent wires placed between a first and a second side of the electrostatic field.
    An apparatus according to the present invention comprises only one wire with spring loading which gives equal tension control on each region thus improving homogeneity on nanofiber production both in cross direction and machine direction, i.e. the direction in which the substrate is moved forward.
    The present invention provides one sophisticated system with which it is possible to control all wire parameters thus making the system cheaper than other systems. According to the present invention, there is no mechanical obstacle to put wires closer so that this system offers compact features with higher throughput. — The object of the present invention is therefore to provide a more efficient and less expensive apparatus for electrospinning of polymer. Summary of invention: According to the present invention a single wire is used as a spinning electrode in an apparatus section to generate fibers.
    According to one aspect of the invention, the present invention relates to an apparatus for producing fibers by electrospinning liquid matrix in an electrostatic field onto a sheet of substrate, which apparatus comprises: - a first collecting electrode; - asecond spinning wire electrode spaced from the first collecting electrode, the second spinning wire electrode comprises a moving strand or wire guided by first guiding means; - a wire driving unit moving the second spinning wire electrode forward; and - a liquid matrix application device applying liquid matrix to the second spinning wire electrode; the sheet of substrate travels along a first path in a first direction between the first collecting electrode and the second spinning wire electrode; and the second spinning wire electrode travels in a second direction approximately perpendicular to the first direction at an approximately constant operational distance to the sheet of substrate; wherein the apparatus comprises secondary guiding means guiding the second spinning wire electrode in a third direction parallel or at least partly parallel to the first direction i.e. at least partly parallel to the travelling direction of the sheet of substrate, and tertiary guiding means guiding the second spinning wire electrode in a fourth direction approximately perpendicular to the first direction and parallel but opposite the second direction at a constant operational distance to the sheet of substrate.
    According to any embodiment of the invention, the apparatus may comprise a wire cleaning device removing wet or dry liquid matrix from the second spinning electrode.
    — According to any embodiment of the invention, the apparatus may comprise one or more vacuum heads positioned in connection with each or at least some of the wire cleaning device(s) removing cleaned/peeled of dry or wet liquid matrix.
    According to any embodiment of the invention, the liquid matrix application device may be constituted of one or a plurality of nozzles applying liquid matrix to the surface of the second spinning wire electrode, — while the electrode passes a stationar nozzle.
    According to any embodiment of the invention, the nozzle(s) may be fixed at the side of the sheet of substrate (side A or side B), and/or the nozzle(s) may be placed in between each side of the sheet of substrate e.g. with specific intervals from the axis(what axis ). According to any embodiment of the invention, the second spinning wire eletrode may be made by — stainless steel or similar conductive material, and may e.g. have a diameter in the rang of 0,1 — 10 mm.
    According to any embodiment of the invention, the liquid matrix may be a polymer solution of a polymer such as PAG, PAN, PVDF, PUR, etc. and a solvent such as acedic asit, formic acid, DMA, DMF, etc.
    According to any embodiment of the invention, the apparatus may comprise an un-winding unit feeding the second spinning wire electrode to a first guiding means and a winding unit collecting used second — spinning wire electrode after a tertiary guiding means, where either the un-winding unit or the winding unit may constitute the wire driving unit.
    According to any embodiment of the invention, the second spinning wire electrode is constituted of a continous wire which is continously driven round through the apparatus by a wire driving unit.
    According to a second aspect of the invention, the invention relates to a method for producing nanofibers by electrospinning from a liquid matrix in an electrostatic field by use of an apparatus according to the first aspect.
    List of figures: Figure 1 discloses a top view of a first embodiment of an electrode arrangement of an apparatus — according to the invention where a spinning wire electrode unwind at point A and wind at point B.
    Figure 2 discloses a top view of a second embodiment of an electrode arrangement of an apparatus according to the invention where a spinning wire electrode continously wind round through the system.
    Figure 3 discloses a perspective view of an embodiment of an apparatus according to the invention.
    Figure 4A, 4B, 4C and 4D disclose different embodiments of an apparatus according to the invention.
    Figure 5A and 5B disclose different embodiments of an apparatus according to the invention.
    Throughout the application identical elements or elements having identical function for different embodiments are given the same reference numbers.
    Definitions of words: In general — when this expression is used in respect of a feature, the feature may be employed with any embodiment of the invention, even though the specific mentioning appears in the detailed part of the description.
    At least partly parallel — when a secondary direction is at least partly parallel with a primary direction it means that a vector v describing the secondary direction has a scalar projection larger than 0 onto the primary direction, the scalar projection being the magnitude of the vector projection.
    DK 2019 01264 A1 4 Detailed description of invention: The present invention relates to an apparatus for producing fibers such as nanofibers by electrospinning liquid matrix in an electrostatic field. The function of the apparatus is to generate fibers such as nanofibers from the surface of the second spinning wire electrode under a high electrical field. In a high electrical field, electrostatic forces overcome the surface energy of the liquid matrix droplets placed on the second spinning wire electrode and liquid matrix is attracted towards a first collecting electrode 1.
    Fibers such as nanofibers can be generated from different polymers (PA6, PVDF, PUR, PAN, etc.) or polymer solutions, and fibers at different diamater (20-750nm) may be formed.
    Fig. 1 and fig. 2 disclose top views of two different embodiments of an apparatus according to the invention. Parts with identical function are numbered with identical reference numbers. The embodiment of fig. 1 disclose how the second spinning wire electrode may be held and distributed from one position while received and captured at a second position, whereas the embodiment of fig. 2 disclose how the second spinning wire eletrode may be formed as a continuous endless loop which is guided back to the starting position.
    — The apparatus comprises a first collecting electrode 1 and a second spinning wire electrode 2, the two electrodes 1, 2 are spaced from each other at an operational distance d which distance contributes to obtaining desired fibers. The second spinning wire electrode 2 comprises or is constituted of a moving strand or wire guided by first guiding means 3, these first guiding means may be guiding rollers or similar. The apparatus further comprises a wire driving unit 6 which unit forces or moves the second spinning wire electrode 2 forward. An operational are is present in an area between the first collecting electrode 1 and the second spinning wire electrode 2. A high voltage is applied between the first collecting electrode 1 and the second spinning wire electrode 2 to create an electricial field where electrostatic forces attracts the fibers from the polymer solution from the surface of the second spinning wire electrode. The may be more than one collecting electrodes for each spinning wire electrode.
    Asheet of substrate 7 travels along a first path inside the apparatus in a first direction between the first collecting electrode 1 and the second spinning wire electrode 2. In fig. 1 the position of the sheet of substrate 7 is illustrated by dotted lines, side A and side B and the moving direction of the substrate i.e. the first direction is illustrated with dotted-line arrows. A sheet of substrate is a base media and may comprise any kind of nonwoven i.e. spunbond, meltblown, wetlaid, textile fabric etc. with basis weight in the range of 10-500 g/m2 and generated nanofibers are collected on the surface of the sheet of substrate. The second spinning wire electrode 2 travels or moves forward in a second direction, illustrated by arrow 10, approximately perpendicular to the first direction in which the substrates moves. The second spinning wire electrode 2 moves parallel to the sheet of substrate and maintains an approximately constant operational distance to the sheet of substrate 7 at positions where the second spinning wire electrode is operational i.e. working by spinning fibers. That the distance is “approximately constant” means that the distance between the sheet of substrate 7 and the second spinning wire electrode 2 is so constant that desired fibers are obtained by the process.
    DK 2019 01264 A1 The apparatus further comprises secondary guiding means 4 guiding the second spinning wire electrode 2 from the second direction and into a third direction parallel to the first direction i.e. parallel to the travelling direction of the sheet of substrate 7, and tertiary guiding means 5 guiding the second spinning wire electrode 2 in a fourth direction, illustrated by arrow 11, approximately perpendicular to the first 5 direction and parallel but opposite the second direction at a constant operational distance to the sheet of substrate. That the fourth direction is “approximately perpendicular to the first direction” means that the desired functionality is obtained. The first, secondary or tertiary guiding means may comprise or be constituted by guiding rollers which each may help the wire forward and define a new direction for the wire to move in.
    — The apparatus may further comprise a wire cleaning device 8 which is able to remove wet or dry liquid matrix from surface of the second spinning electrode 2. The presence of a wire cleaning device 8 increases the reliability of the apparatus and increases the number of hours between close down for maintenance of the apparatus. E.g. the second spinning wire electrode may slip fit through the cleaning head the causing the liquid matrix to mechanically peel away from the surface. Peeled liquid matrix , wet or dry, may be removed by vacuum heads 9 e.g. placed very closed to the peeling position at each wire cleaning head 8.
    The apparatus may also comprise vacuum heads 9 positioned in connection with each wire cleaning device 8 which vacuum head 9 remove dust and drips cleaned or peeled of by the wire cleaning device 8. Liquid matrix must be applied to the second spinning wire electrode at a position where the second spinning wire electrode 2 is in the operational area or as the second spinning wire electrode enters into the operational area. According to an embodiment of the invention, the liquid matrix application device 12 may comprise one or more nozzles or similar spraying liquid matrix on to a surface of the second spinning wire electrode 2. The liquid matrix application device 12 may be constituted of one or a plurality of nozzles applying liquid matrix to the surface of the second spinning wire electrode 2 while the electrode passes a nozzle(s).
    The liquid matrix may be a polymer or a polymer solution which polymer solution may be a combination of a polymer such as PAG, PAN, PVDF, PUR, etc. and a solvent such as acedic asit, formic acid, DMA, DMF, etc.
    The second spinning wire eletrode may be made e.g. by stainless steel or similar conductive material, and the electrode 2 may e.g. have a diameter in the rang of 0,1 — 10 mm. Both material constituting the electrode 2 and the diameter of the electrode 2 will depend on what polymer or polymer solution is handled and what fiber is intended to obtain.
    The apparatus according to the invention comprises a single strand second spinning wire electrode 2, but the apparatus may either comprise a single strand second wire electrode 2 which is run through the apparatus once or it may comprise a single strand second wire electrode 2 which is run through the apparatus continuously. le. the apparatus may comprise an un-winding unit 15 feeding the single strand second spinning wire electrode to the first of the first guiding means 3 and a winding or collecting unit 16 re-winding or collecting the used single strand second spinning wire electrode after having passed through the apparatus and after having passed first or secondary guiding means 3, 4. According to this embodiment, either the un-winding unit 15 or the winding unit 16 may constitute a wire driving unit.
    Alternatively, the apparatus may comprise a second spinning wire electrode in form of an endless loop, where the second spinning wire electrode 2 is constituted by a continous wire which is continously driven round through the apparatus by a separate driving unit 6. Such an embodiment is illustrated in fig. 2. This embodiment comprises guiding means 14 e.g. in the form of guiding rollers, which guide the second spinning wire electrode from the end position back to the first position.
    The invention also relates to a method for producing fibers by electrospinning liquid matrix in an electrostatic field by applying an apparatus as disclosed in the present application.
    In general, the apparatus according to the present invention is characterized by comprising + instead of having multiple independent wires placed between SIDE-A and SIDE-B of the substrate, the apparatus of the present invention comprises a single strand of wires, or alternatively two or more groups of single strand second spinning wire electrodes, wher each second spinning wire electrode crosses more than once through the operational area.
    « having wire cleaning heads optionally in combination with vacuum heads where the wire cleaning head may be positioned downstream of a nozzle e.g. at the side of the substrate where the second spinning wire electrode passes out of the operational area.
    + The liquid matrix applying device is fixed or stationaray i.e. the device does not move relative to the first collecting electrode. E.g. nozzles are fixed at Side A and/or at Side B optionally comprising nozzles between the sides A and B with specific intervals from the wire axis.
    + We can spin from top to bottom, OR bootom to top, OR top to bottom with a specific angle, OR bottom to top with a specific angle OR vertically from left to right OR vertically from right to left.
    Figure 3 discloses a perspective view of an embodiment of an apparatus according to the invention. This embodiment may illustrate the position of the first collecting electrode and the sheet of substrate both relative to the embodiment of fig. 1 and of fig. 2. The first collecting electrode is illustrated as a wire, but the first collecting electrode may e.g. also be shaped bands or a plate or similar. According to this embodiment the sheet of substrate 7 is un-winded from an un-winding unit 17a and the sheet of substrate is re-winded or otherwise collected by the re-winding unit 17b and it is shown how fine fibers 18 are spun between the second spinning wire electrode and the first collecting electrode 1. A high voltage — supplier 13 provide an electrostatic field between the first collecting electrode 1 and the second spinning wire electrode 2. The high voltage differential between the electrodes 1 and 2 may be in the order of between 10,000 and 150,000 volts or more, e.g. for the production of fine fibers between 75,000 and 120,000 volts, although other voltage ranges may be possible.
    Figures 4A, 4B, 4C and 4D illustrate different embodiments of the position of the sheet of substrate 7 and the first collecting electrode and the second spinning wire electrode.
    According to the embodiment of fig. 4A the first path which the sheet of substrate 7 is travelling along is horisontal, the single second spinning wire electrode 2 travels along a second path which is at constant
    DK 2019 01264 A1 7 distance d to the surface of the sheet of substrate 7, i.e. the second path is also horizontal, the second path is positioned below the sheet of substrate 7 and the first collecting electrode 1 is positioned above the sheet of substrate 7. According to the embodiment of fig. 4B the first path which the sheet of substrate 7 is travelling along is — also horisontal, the single second spinning wire electrode 2 again travels along a second path which is at constant distance d to the surface of the sheet of substrate 7, i.e. the second path is horizontal.
    The second path is positioned above the sheet of substrate 7 and the first collecting electrode 1 is positioned below the sheet of substrate 7. According to the embodiment of fig. 4C the first path which the sheet of substrate 7 is travelling along is inclined, the single second spinning wire electrode 2 travels along a second path which is at constant distance d to the surface of the sheet of substrate 7 and therefore the second path is inclined at the same angle.
    The second path is positioned below the sheet of substrate 7 and the first collecting electrode 1 is positioned above the sheet of substrate 7. According to the embodiment of fig. 4D the first path which the sheet of substrate 7 is travelling along is inclined, the single second spinning wire electrode 2 travels along a second path which is at constant distance d to the surface of the sheet of substrate 7 and therefore the second path is inclined at the same angle.
    The second path is positioned above the sheet of substrate 7 and the first collecting electrode 1 is positioned below the sheet of substrate 7. Fig. 5A and 5B illustrates two embodiments of an apparatus according to the invention where the sheet of substrate 7 is extending in a vertical direction during operation i.e. the first path is extending in a vertical direction.
    Both embodiments may comprise intermediate guiding means 19 e.g. in the form of guiding rollers which guide the sheet of substrate from the un-winding unit 17a, through the operational area, and forward to the winding unit 17b.
    As the second spinning wire electrode must maintain an approximately constant distance to the sheet of substrate, the second path of the second spinning wire electrode 2 is also extending in a vertical direction.
    In the embodiment of fig. 5A, the second spinning wire electrode 2 is positioned on the left side of sheet of substrate 7 while the first collecting electrode 1 is position on the right side of the sheet of substrate 7. In the embodiment of fig. 5B, , the second spinning wire electrode 2 is positioned on the right side of sheet of substrate 7 while the first collecting electrode 1 is position on the left side of the sheet of substrate 7.
    DK 2019 01264 A1 8 Ref.no. |Refmome 0000000000000 | 4 [sccondayguidingmeans 0000000000000 | 6 |wrednvngunt | 8 ++ |wiedeanimgdeviee 0000000000000 | so |vawmhed — 5 |
    权利要求:
    Claims (10)
    [1] 1. An apparatus for producing fibers by electrospinning liquid matrix in an electrostatic field onto a sheet of substrate, which apparatus comprises: - a first collecting electrode (1); -asecond spinning wire electrode (2) spaced from the first collecting electrode, the second spinning wire electrode (2) comprises a moving strand or wire guided by first guiding means (3); - a wire driving unit (6, 15, 16) moving the second spinning wire electrode (2) forward; and - a liquid matrix application device (12) applying liquid matrix to the second spinning wire electrode (2); the sheet of substrate (7) travels along a first path in a first direction between the first collecting electrode (1) and the second spinning wire electrode (2); and the second spinning wire electrode (2) travels in a second direction (10) approximately perpendicular to the first direction at an approximately constant operational distance to the sheet of substrate (7); characterized in that the apparatus comprises one or more secondary guiding means (4) guiding the second spinning wire electrode (2) in a third direction at least partly parallel to the first direction i.e.
    parallel to the travelling direction of the sheet of substrate, and tertiary guiding means (5) guiding the second spinning wire electrode (2) in a fourth direction (11) approximately perpendicular to the first direction and parallel but opposite the second direction (10) at a constant operational distance to the sheet of substrate (7).
    [2] 2. An apparatus according to claim 1, wherein the apparatus comprises a wire cleaning device (8) removing wet or dry liquid matrix from the second spinning electrode.
    [3] 3. An apparatus according to claim 2, wherein the apparatus comprises vacuum heads (8) positioned in connection with each wire cleaning device (9) removing cleaned/peeled of dry or wet liquid matrix.
    [4] 4. An apparatus according to any previous claim, wherein the liquid matrix application device (12) is constituted of one or a plurality of nozzles applying liquid matrix to the surface of the second spinning wire electrode (2), while the electrode passes a stationar nozzle.
    [5] 5. An apparatus according to claim 4, wherein the nozzle(s) is/are fixed at the side of the sheet of substrate (side A or side B), and/or the nozzle(s) is/are placed in between each side of the sheet of substrate e.g. with specific intervals from the wire axis.
    [6] 6. An apparatus according to any previous claim, wherein the second spinning wire eletrode (2) is made by stainless steel or similar conductive material, e.g. having a diameter in the rang of 0,1 — 10 mm.
    [7] 7. An apparatus according to any previous claim, wherein the liquid matrix is a polymer solution of a polymer such as PAG, PAN, PVDF, PUR, etc. and a solvent such as acedic asit, formic acid, DMA, DMF, etc.
    [8] 8. An apparatus according to any previous claim, wherein the apparatus comprises - an un-winding unit (15) feeding the second spinning wire electrode to a first guiding means (3) and - a winding unit (16) collecting used second spinning wire electrode (2) after a tertiary guiding means (5); where either the un-winding unit (15) or the winding unit (16) may constitute the wire driving unit (15, 16).
    [9] 9. An apparatus according to any previous claim, wherein the second spinning wire electrode (2) is constituted of a continous wire which is continously driven round through the apparatus by a wire driving — unit (6).
    [10] 10. A method for producing nanofibers by electrospinning from a liquid matrix in an electrostatic field by use of an apparatus according to any of claims 1-9.
    类似技术:
    公开号 | 公开日 | 专利标题
    JP3007157B2|2000-02-07|Apparatus and method for producing thermoplastic filament web
    US7967588B2|2011-06-28|Fine fiber electro-spinning equipment, filter media systems and methods
    JP4567561B2|2010-10-20|Fiber assembly manufacturing method and fiber assembly manufacturing apparatus
    US20060060999A1|2006-03-23|Method and apparatus of producing fibrous aggregate
    US8522520B2|2013-09-03|Yarn and a process for manufacture thereof
    WO2009067370A1|2009-05-28|Apparatus and method for reducing solvent loss for electro-spinning of fine fibers
    JP4867672B2|2012-02-01|Polymer fiber production method and apparatus, polymer web production method and apparatus using them
    JP5178927B1|2013-04-10|Nano-fiber manufacturing equipment
    DK180451B1|2021-05-03|Apparatus for manufacturing fibers by electrospinning
    CN105836514A|2016-08-10|Method and apparatus for guiding nonwoven fabric
    WO2014079400A1|2014-05-30|Method and device for production of nanofibers by electrostatic spinning of polymer solution or melt
    EP0950744B1|2004-03-03|Improvements in the production of nonwoven webs using electrostatically charge conveyor belt
    CN113862798A|2021-12-31|Electrostatic spinning emitter
    AU2014206173B2|2015-08-20|Fine fiber electro-spinning equipment, filter media systems and methods
    CN112760823A|2021-05-07|Nanofiber electrostatic spinning equipment
    CN113981551A|2022-01-28|Nanofiber electrostatic spinning equipment
    CN113862801A|2021-12-31|Continuous electrostatic spinning conductive fabric receiving device
    KR101479751B1|2015-01-07|Electrospinning devices of manufacture for nano fiber
    CN113106560A|2021-07-13|Device and method for generating polymer nano-fibers
    WO2015075658A1|2015-05-28|Electrospun fibre collection and handling
    JP2005325470A|2005-11-24|Machine for manufacturing nonwoven fabric and method for producing nonwoven fabric
    JP3417629B2|2003-06-16|Ground electrode of corona discharge generator
    CN112030245A|2020-12-04|Needle type spray head vertical electrostatic spinning device and system
    JPH0647780B2|1994-06-22|Nonwoven web manufacturing equipment
    同族专利:
    公开号 | 公开日
    DK180451B1|2021-05-03|
    WO2021083762A1|2021-05-06|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    CZ300345B6|2007-07-17|2009-04-22|Elmarco, S. R. O.|Method for spinning the liquid matrix, device for production of nanofibers through electrostatic spinning of liquid matrix and spinning electrode for such device|
    US7967588B2|2007-11-20|2011-06-28|Clarcor Inc.|Fine fiber electro-spinning equipment, filter media systems and methods|
    CN104480640B|2015-01-06|2016-06-15|江西先材纳米纤维科技有限公司|A kind of air-blowing parallel ring is around the method and apparatus of steel wire electrospun nanofibers|
    CN105568409B|2016-01-29|2017-11-14|佛山轻子精密测控技术有限公司|A kind of method of electrospun nanofibers|
    KR101846823B1|2017-12-22|2018-04-09|한국화학연구원|Melt-electro spinning apparatus for mass production of nano-fiber and the method of solvent-free melt-electro spinning|
    CN110216089B|2019-05-31|2022-01-28|中鸿纳米纤维技术丹阳有限公司|Special thin steel wire belt cleaning device of efficient electrostatic spinning nanofiber|
    法律状态:
    2021-04-29| PAT| Application published|Effective date: 20210429 |
    2021-05-03| PME| Patent granted|Effective date: 20210503 |
    优先权:
    申请号 | 申请日 | 专利标题
    DKPA201901264A|DK180451B1|2019-10-28|2019-10-28|Apparatus for manufacturing fibers by electrospinning|DKPA201901264A| DK180451B1|2019-10-28|2019-10-28|Apparatus for manufacturing fibers by electrospinning|
    PCT/EP2020/079623| WO2021083762A1|2019-10-28|2020-10-21|Apparatus for manufacturing fibers by electrospinning|
    [返回顶部]