EP0274043B1 - Walzenelektrode und Vorrichtung zur Oberflächenvorbehandlung von Folienbahnen mittels elektrischer Koronaentladung - Google Patents

Walzenelektrode und Vorrichtung zur Oberflächenvorbehandlung von Folienbahnen mittels elektrischer Koronaentladung Download PDF

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Publication number
EP0274043B1
EP0274043B1 EP87117347A EP87117347A EP0274043B1 EP 0274043 B1 EP0274043 B1 EP 0274043B1 EP 87117347 A EP87117347 A EP 87117347A EP 87117347 A EP87117347 A EP 87117347A EP 0274043 B1 EP0274043 B1 EP 0274043B1
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EP
European Patent Office
Prior art keywords
electrode
layer
roll
fibres
synthetic resin
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
EP87117347A
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German (de)
English (en)
French (fr)
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EP0274043A1 (de
Inventor
Peter Dinter
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Hoechst AG
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Hoechst AG
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01TSPARK GAPS; OVERVOLTAGE ARRESTERS USING SPARK GAPS; SPARKING PLUGS; CORONA DEVICES; GENERATING IONS TO BE INTRODUCED INTO NON-ENCLOSED GASES
    • H01T19/00Devices providing for corona discharge

Definitions

  • the invention relates to a roller electrode for surface treatment of film webs by means of an electrical corona discharge, which has an electrode arrangement and at least one dielectric insulating layer applied thereon, the dielectric insulating layer fiber being reinforced
  • the plastic film to be treated or the film to be treated is passed over an electrically grounded support surface, usually a roller, and the side of the film facing away from the support surface is exposed to an electrical corona discharge which is caused by the application of a high-frequency alternating current of high voltage to a spaced apart area to the support surface arranged electrode is generated.
  • the known devices working according to this basic principle differ more or less only in the design and the materials of the support surface serving as counterelectrode, such as e.g. a single central roller with peripherally arranged electrodes compared to several electrode rollers with associated electrodes, the dielectric materials used to isolate the counterelectrode, the structural design of the electrode used and the type of the respective generator.
  • the simplest and therefore preferred embodiment has been metallic carrier rollers made of solid material, in particular those made of steel or aluminum, with layers of insulation materials applied thereon. such as glass, ceramics, enamel, rubber, or glass fiber reinforced plastics.
  • insulation materials such as glass, ceramics, enamel, rubber, or glass fiber reinforced plastics.
  • the disadvantages of this design principle are on the one hand that the installation costs increase considerably due to the provision of expensive steel rollers and on the other hand due to weight problems, especially in large plants. technical difficulties in storage, deflection. the concentricity and the drive of the rollers occur.
  • EP-PS 0 002 453 and EP-PS 0 086 977 describe corona devices which use hollow roller bodies in the form of fiber-reinforced synthetic resin pipes.
  • these fiber-reinforced tubular bodies not only meet the mechanical requirements, but also through the embedded wire winding in the synthetic resin matrix of course also the electrode function.
  • the production of this glass fiber reinforced roller body is fully under control, but it turns out that when a wire winding or a wire helix is inserted into the plastic matrix to make it electrically conductive, the interlaminar shear strength, that is the adhesive property between the plastic matrix and the metal wire, is too leaves a lot to be desired.
  • GB-A 2.065.982 discloses a roller electrode for surface treatment of film webs by means of an electrical corona discharge, which consists of an electrically conductive carrier roller and at least one dielectric layer applied thereon.
  • the roller electrode has a shaft and a housing as a dielectric layer. The cavity between the shaft and the housing is completely filled with a pourable gypsum mass, carbon particles being dispersed in this gypsum mass, which bring about the conductivity of the gypsum mass. A wire mesh is inserted into the gypsum mass to reinforce it.
  • the insulating layer of this roller electrode consists of glass fiber, ceramic, hard rubber or the like material.
  • This roller electrode has a similar weight as a roller electrode, which is made of solid steel material. This high weight causes technical difficulties in the storage, deflection, concentricity and drive of the roller electrode. Compared to the roller electrode made of solid steel material, the only advantage is that it is cheaper to manufacture.
  • a roller electrode according to the preamble of claim 1 is known from EP-A 0 086 977. It consists of two dielectric tubes that are manufactured by a winding process.
  • the dielectric material of the tubes consists of glass fibers, glass fiber reinforced resins,
  • Polyester or polycarbonates all of which are not electrically conductive. Between the two tubes there are wire electrodes which are subjected to high-frequency AC voltage as electrodes of a corona device.
  • the object of the invention is to improve the roller electrode described above in such a way that the adhesive properties of the electrode material embedded in the plastic matrix and thus the interlaminar shear strength are increased and the mechanical strength of the composite body made of insulating layer and plastic matrix with embedded electrode material of the roller electrode is increased.
  • the electrode arrangement is an electrode layer made of synthetic resin, which forms a closed matrix, in which metallized fibers for increasing the bond strength and as electrode material are embedded, and in that the matrix of the layer and the insulating layer contain the same synthetic resin.
  • the fibers of the electrically conductive layer can be made of metallized electrically conductive glass, Aramid or carbon fibers. Glass fibers are expediently embedded in the insulating layer. Furthermore, the electrically conductive layer is embedded between two insulating layers.
  • the synthetic resins for the electrode layer and the insulating layers are preferably unsaturated polyester, epoxy, polyimide or silicone resins.
  • the invention relates to a device according to claim 9, with a roller electrode according to the invention, the first part of claim 9 being known from EP-A-0086977.
  • the metallization of different fibers with the aid of an electroless or chemogalvanic process is known, with these processes applying a metallic coating of nickel, cobalt, alloys of these metals to one another, including iron, for example nickel-iron, onto the fibers.
  • Gold, silver, copper and other chemically separable metals can also be chemically deposited on the surface of plastic fibers or their semi-finished products or textile fabrics after appropriate activation.
  • This metallization of electrical nonconductors, but also of conductive carbon fibers, can be carried out by various methods known in the art, this metallization not being the subject of the present invention.
  • the fiber surface is generally activated with heavy metal catalysts, and after the activation, the fiber material is placed in a metal salt solution and with the aid of a chemical reducing agent, the elemental metal is deposited on the fiber surface in the purest possible form (DE-OS 27 43 768).
  • the electrode materials can be processed using the machines and manufacturing processes introduced in the manufacture of composite materials. such as. the filament winding technology, easy to process.
  • the incorporation of high-strength fibers, which are impregnated, for example, with the same synthetic resin that is used to manufacture the plastic matrix of the base roll body results in a more homogeneous composite structure of the finished roll body, which has increased mechanical strength properties that are comparable to those of metals.
  • the metal layers deposited on the fibers have an adhesion-promoting effect on the fiber / resin component system, which leads to an increase in the interlaminar shear strength and ultimately to an improved bond strength of the molded body.
  • the known winding processes also allow the incorporation of a completely closed electrode layer in the synthetic resin matrix.
  • Such efforts e.g. Forming a full-surface conductive layer by intermediate winding of metal bandages, for example made of aluminum foil, has so far failed because the metal foil acted as a separating layer which interferes with the bond strength with respect to the inner and outer winding layers of the glass-fiber-reinforced roller body.
  • the impregnation of the metallized fiber rovings provided for the construction of the electrode layer with the matrix resin overcomes this disadvantage.
  • roller electrode according to the invention is explained in more detail with reference to the figures.
  • the device for corona pretreatment of film webs consists of a roller electrode 1 according to the invention, above which a metallic discharge electrode 2 is arranged, which is connected to a high-voltage generator 3.
  • a high-frequency alternating current of medium to high voltage to the discharge electrode 2
  • the air gap between the roller electrode 1 and the discharge electrode 2 is ionized, and a corona discharge is formed.
  • a film web 7 guided over the roller electrode 1 undergoes corresponding physical-chemical changes on its surface as it passes through the discharge zone, which increase its printability or bond strength with layer materials.
  • the roller electrode shown in Fig. 1 consists of an inner, electrically conductive. full-surface layer 4 as an electrode layer, an overlying insulating layer 5 made of glass fiber reinforced material and an outer protective layer 6 based on a silicone lacquer.
  • Metallized glass, aramid or carbon fibers which are embedded in a matrix of epoxy, silicone, unsaturated polyester or polyimide resins are suitable for forming the electrically conductive electrode layer 4.
  • metallic layer thicknesses of less than 1 mm. preferably by 0.5 mm, fully meets the requirements for the electrical conductivity of the metallized fibers.
  • the insulating layer 5 is an approximately 2.5 to 3.5 mm thick layer of glass fibers which, like the electrode layer 4, are embedded in a matrix of epoxy, silicone, unsaturated polyester or polyimide resins.
  • the protective layer 6 based on a silicone lacquer, which is only a few, prevents the abrasion and thus the destruction of the insulating layer 5 by the corona discharge.
  • the embodiment of the roller electrode 1 according to FIG. 2 differs from FIG. 1 in that the electrode layer 4 is embedded between two insulating layers 5, an inner carrier layer and an outer dielectric layer.
  • This embodiment allows various configurations of the electrode layer 4, such as they will be explained with reference to Figures 3, 4 and 5.
  • the inner insulating layer 5 exclusively fulfills the support function for the electrode layer 4.
  • An advantage of this roller construction is that the electrode layer 4, which is formed from expensive material, has to be wound, neglecting its mechanical strength properties, only as thinly as is required by the electrical requirement, while the inner backing layer is generally only designed according to strength criteria. Since the resin components of both the insulating layers 5, 5 and the electrode layer 4 are identical, there are no difficulties with regard to the interlaminar bond between the individual layers.
  • the electrically conductive layer 4 is designed as a tube which has an axially parallel fiber arrangement 10 in the synthetic resin matrix.
  • the electrically conductive layer 4 forms a homogeneous closed layer in the form of a tube, which is enclosed on each side by an insulating layer 5.
  • the fibers are embedded as a single- or multi-start helix 8 in the electrically conductive layer 4, which, as in FIG. 3, is designed as a homogeneous, closed tube.
  • FIG. 5 shows a further embodiment of the electrically conductive layer 4, in which the fibers form a network 9 in the synthetic resin matrix of the conductive layer 4, which is shaped as a homogeneous, closed tube.
  • the metallized fibers in the electrically conductive layer 4 can be incorporated into the synthetic resin matrix as scrims, woven fabrics, knitted fabrics, knitted fabrics, nonwovens or in any other form.
  • the embodiments shown in FIGS. 3 to 5 are exemplary of the large number of possible fiber arrangements in the synthetic resin matrix.

Landscapes

  • Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Plasma & Fusion (AREA)
  • Laminated Bodies (AREA)
  • Treatment Of Fiber Materials (AREA)
  • Reinforced Plastic Materials (AREA)
EP87117347A 1986-12-02 1987-11-25 Walzenelektrode und Vorrichtung zur Oberflächenvorbehandlung von Folienbahnen mittels elektrischer Koronaentladung Expired - Lifetime EP0274043B1 (de)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE3641169 1986-12-02
DE19863641169 DE3641169A1 (de) 1986-12-02 1986-12-02 Walzenelektrode und vorrichtung zur oberflaechenvorbehandlung von folienbahnen mittels elektrischer koronaentladung

Publications (2)

Publication Number Publication Date
EP0274043A1 EP0274043A1 (de) 1988-07-13
EP0274043B1 true EP0274043B1 (de) 1994-05-11

Family

ID=6315294

Family Applications (1)

Application Number Title Priority Date Filing Date
EP87117347A Expired - Lifetime EP0274043B1 (de) 1986-12-02 1987-11-25 Walzenelektrode und Vorrichtung zur Oberflächenvorbehandlung von Folienbahnen mittels elektrischer Koronaentladung

Country Status (4)

Country Link
US (1) US4839517A (da)
EP (1) EP0274043B1 (da)
DE (2) DE3641169A1 (da)
DK (1) DK631087A (da)

Families Citing this family (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE69300618T2 (de) * 1992-05-20 1996-05-15 Praxair Technology Inc Koronaelektroden.
US6423259B1 (en) * 1997-12-01 2002-07-23 Eastman Kodak Company Process for finishing the surface of a corona discharge treatment roller
DE202004016083U1 (de) * 2004-10-15 2006-02-23 Softal Electronic Erik Blumenfeld Gmbh & Co. Kg Vorrichtung zur Koronabehandlung von elektrisch isolierenden Materialien, insbesondere Kunststofffolien
US8545599B2 (en) 2010-10-28 2013-10-01 Tessera, Inc. Electrohydrodynamic device components employing solid solutions
US20120103568A1 (en) * 2010-10-28 2012-05-03 Tessera, Inc. Layered Emitter Coating Structure for Crack Resistance with PDAG Coatings

Family Cites Families (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4024038A (en) * 1972-01-18 1977-05-17 Jane Luc Adhesive processes
DE2643772C2 (de) * 1976-09-29 1985-01-17 Hoechst Ag, 6230 Frankfurt Coronaeinrichtung
DE2743768C3 (de) * 1977-09-29 1980-11-13 Bayer Ag, 5090 Leverkusen Metallisiertes Textilmaterial
DE2753750C2 (de) * 1977-12-02 1982-12-23 Hoechst Ag, 6000 Frankfurt Vorrichtung zur Oberflächenbehandlung von Folienbahnen mittels elektrischer Coronaentladung
DE2754425A1 (de) * 1977-12-07 1979-06-13 Klaus Kalwar Verfahren und vorrichtung zum kontinuierlichen herstellen von zwei- oder mehrlagigen bahnfoermigen verbundwerkstoffen
US4281247A (en) * 1979-11-05 1981-07-28 Schuster Samuel J Roller electrode for use in apparatus for treating plastic film with high voltage corona discharge
DE3203806A1 (de) * 1982-02-04 1983-08-11 Hoechst Ag, 6230 Frankfurt Verfahren und vorrichtung zur oberflaechenbehandlung von folienbahnen mittels elektrischer coronaentladung
CA1190593A (en) * 1983-02-01 1985-07-16 Paul E. Plasschaert Corona device

Also Published As

Publication number Publication date
US4839517A (en) 1989-06-13
DE3789804D1 (de) 1994-06-16
DE3641169A1 (de) 1988-06-09
DK631087A (da) 1988-06-03
DK631087D0 (da) 1987-12-01
EP0274043A1 (de) 1988-07-13

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