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EP0099763B1 - Toner powder applicator on the imaging roller of a non-impact printer - Google Patents

Toner powder applicator on the imaging roller of a non-impact printer Download PDF

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Publication number
EP0099763B1
EP0099763B1 EP83401000A EP83401000A EP0099763B1 EP 0099763 B1 EP0099763 B1 EP 0099763B1 EP 83401000 A EP83401000 A EP 83401000A EP 83401000 A EP83401000 A EP 83401000A EP 0099763 B1 EP0099763 B1 EP 0099763B1
Authority
EP
European Patent Office
Prior art keywords
magnetic
cylinder
strips
particles
portions
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
Application number
EP83401000A
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German (de)
French (fr)
Other versions
EP0099763A1 (en
Inventor
Jean-Philippe Voirin
Bernard Cherbuy
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Bull SAS
Original Assignee
Bull SAS
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Bull SAS filed Critical Bull SAS
Publication of EP0099763A1 publication Critical patent/EP0099763A1/en
Application granted granted Critical
Publication of EP0099763B1 publication Critical patent/EP0099763B1/en
Expired legal-status Critical Current

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    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03GELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
    • G03G19/00Processes using magnetic patterns; Apparatus therefor, i.e. magnetography
    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03GELECTROGRAPHY; ELECTROPHOTOGRAPHY; MAGNETOGRAPHY
    • G03G15/00Apparatus for electrographic processes using a charge pattern
    • G03G15/06Apparatus for electrographic processes using a charge pattern for developing
    • G03G15/08Apparatus for electrographic processes using a charge pattern for developing using a solid developer, e.g. powder developer
    • G03G15/09Apparatus for electrographic processes using a charge pattern for developing using a solid developer, e.g. powder developer using magnetic brush
    • G03G15/0921Details concerning the magnetic brush roller structure, e.g. magnet configuration

Definitions

  • the present invention relates to a device for applying solid developer particles to the recording element of a non-impact printer.
  • These printing machines In modern equipment which is used for data processing, fast printers are used more and more in which the printing of the characters is carried out without for that calling upon the impact of types of relief printing on a sheet of receiving paper.
  • These printing machines known as non-impact or even without impact transfer, generally include a recording element generally constituted by a rotary drum or an endless belt, on the surface of which one can form, electrostatic or magnetic, sensitized areas also called latent images which correspond to the characters or images to be printed. These images are then developed, that is to say made visible, using a powdery developer which, deposited on the recording element, is only attracted by the sensitized areas thereof. . After which, this recording element is brought into contact with a sheet of paper in order to allow the developer particles which have been deposited on these areas to be transferred onto this sheet to be definitively fixed there.
  • a device which comprises a casing containing the powder developer, this casing having an opening in front of which the recording element passes, the inking of this element being produced by a cylindrical brush which, rotating inside the casing, projects the developer particles towards the surface of the element which passes in front of this opening.
  • this device does not give complete satisfaction to the use of the fact that it causes, on the one hand the formation of a cloud of developer particles which spreads outside the casing, which is particularly unpleasant for people who, being near the printer, are reached by this cloud, on the other hand, an undesirable electrification of the particles which, projected towards the recording element, can then remain on the non-sensitized areas of that - as a result of an electrostatic attraction.
  • this magnetic roller which gives good results when used in an electrostatic charge latent image development apparatus for transporting a powdery developer capable of being attracted magnetically, is not entirely satisfactory when wants to use it as a powdery developer transport roller in a magnetic latent image development apparatus such as, for example, a magnetic printing machine.
  • this magnetic roller is placed in the immediate vicinity of the element for recording the latent magnetic images, this recording element is necessarily subjected to the action of the magnetic fluxes generated by the elements. magnetic tape of this roller, so that the information recorded on this recording element may be greatly altered as it passes in front of this developer applicator roller.
  • this application device comprises a transport roller of the type described in the aforementioned French patent FR-A-1,566,007
  • the developer particles are aligned along the lines of external forces which, on the surface of the transport roller, leave each of the magnetic elements having a north magnetic polarity to join each of the neighboring magnetic elements which have a south magnetic polarity. Since these external lines of force thus form arches oriented perpendicular to the axis of rotation of the roller, the developer particles, by being placed along these lines of force, therefore form chains of particles arranged perpendicular to this axis. .
  • the present invention overcomes this drawback and proposes a device which makes it possible to apply developer particles to the recording element of a non-impact printer, without thereby causing or altering the information recorded on this element, nor streaks of particles on the surface of this element.
  • the present invention relates to a device for applying, onto the recording element of a non-impact printer, solid developer particles contained in a reservoir, this device comprising, on the one hand a roll of transport arranged to bring these particles to the vicinity of the surface of this element, on the other hand a deflector interposed between this element and this transport roller to collect the particles transported by this roller, this deflector having one of its edges disposed at immediate proximity of said element to constitute with this element a bucket having substantially the shape of a dihedral, in which the particles thus collected accumulate, this element being moved in a direction where it entrains these particles towards the edge of said dihedral, the particles entrained beyond this edge remaining applied only to the sensitized areas of said recording element, said developer being capable of being attracted magn ethically, said transport roller being constituted by a rotating cylinder coated, on its outer cylindrical surface, with a magnetic material magnetized so as to present, on its outer face, magnetic poles forming equidistant magnetic lines whose north magnetic polar
  • the printing machine part of which has been shown diagrammatically in FIG. 1, comprises a recording element which is constituted, in the example described, per a magnetic drum 10.
  • This magnetic drum 10 is rotated, in the direction of the arrow F, by an electric motor (not shown).
  • the recording of information on this drum is carried out by a magnetic recording member 11 which is arranged near the external surface of the drum.
  • this recording member 11 is formed of an assembly comprising several magnetic recording heads which, placed one next to the other, are aligned parallel to the axis of rotation 12 of the drum 10.
  • Each of these heads generates, when it is excited repeatedly by an electric current, a variable magnetic field, which has the effect of creating magnetized domains or "magnetic points" on the surface of the drum which passes in front of the organ d recording 11.
  • the moments of excitation of these heads are moreover established, in a known manner, so as to obtain on the surface of the drum sets of magnetic domains 13, called magnetized zones or latent magnetic images, the shape of which corresponds to that of the characters to be printed.
  • These magnetized zones 13 then pass in front of an application device 14 which is arranged below the drum 10 and which makes it possible to apply to the surface of the drum particles of a powdery developer contained in a reservoir 1 5.
  • the particles of developer which are thus applied to the drum 10 adhere, in principle, only on the magnetized areas thereof, so that the magnetized areas which have passed in front of the application device 14 appear coated with a layer of developer , this layer forming, on the drum 10, the image of the characters which are to be printed.
  • this developer consists of magnetic particles in picks of a thermoplastic resin. which, by heating, is capable of melting and fixing on a paper on which it has been deposited.
  • the developer contained in the reservoir 15 may be the one which was the subject of the patent application filed in France by the Applicant on March 20, 1980 and published FR-A-2 478 839.
  • this developer which is applied to the drum 10 mainly adheres to the magnetized zones 13, thus forming deposits 16 of particles on the surface of this drum. These deposits 16 then pass in front of a retouching device 17 which has the role of eliminating the particles which have adhered elsewhere on the magnetized zones 13, as well as the particles which are found in excess in these zones. After which, the developer particles which remain on the drum 10 are transferred, almost entirely, onto a sheet of paper 18 which is applied to the drum 10 by means of a pressure roller 19. The residual developer particles which when this transfer is produced, are still on the drum 10 and are then removed by means of a cleaning device 20, of known type, for example with a brush.
  • the magnetized zones which have passed in front of the cleaning device 20 pass in front of an erasing device 21 where they are then erased, which allows the demagnetized portions of the drum 10 to be able to be magnetized again when they arise next before the registration body 1 1.
  • the application device 14 comprises, on the one hand, a transport element 22 which picks up developer particles from the reservoir 15 to bring them near the surface of the drum 10, on the other hand, a fixed deflector 23 which is interposed between the transport element 22 is the drum 10 to collect the particles transported by this element 22 and apply them to the surface of the drum 10.
  • An application device 14 of this kind has in particular been described and represented in French patent FR-A-2 408 462.
  • the transport element 22 which equips such an application device usually consists of a magnetic roller which will be described later, the axis of rotation 24 of this roller being parallel to the axis of rotation 12 of the drum 10.
  • the deflector 23 which is associated with this magnetic roller 22 is a part which, fixed to the two lateral faces of the reservoir 15, has, as we seen in Figure 2, a he flat face 40 limited by first and second edges 41 and 42 parallel to the axes 12 and 24, the second edge 42 preferably forming a sharp edge to avoid an accumulation of particles on said edge.
  • This deflector 23, which has its first edge 41 practically in contact with the magnetic roller 22 is arranged in such a way that its second edge 42 is in close proximity to the surface of the drum 10 and that its face 40 forms with the plane defined by the axis 12 of the drum and the axis 24 of the magnetic roller a dihedral whose angle is less than forty five degrees.
  • the magnetic roller 22 is rotated, in the direction indicated by the arrow R in Figures 1 and 2, by an electric motor (not shown), this direction being such that the developer particles transported by the magnetic roller 22 are driven towards the face 40 of the deflector 22 and are stopped in passing, at least for most of them, by this deflector.
  • the particles which are thus stopped then accumulate in a trough 43 delimited by the surface of the drum 10 and by the face 40 of the deflector 23.
  • the direction of rotation of the drum 10, indicated by the arrow F is chosen so that the particles accumulated in the bucket 43 are entrained towards the sharp edge 42 of the deflector 23 so that some of them can come to be applied to the magnetized zones 13 of the drum 10.
  • the particles thus entrained by the drum 10 are not stopped in passing by the deflector 23, because it does not touch the drum and that it therefore leaves, between the sharp edge 42 and the drum 10, an opening whose width is sufficient to allow the developer particles entrained by this drum to leave the trough 43.
  • the magnetic roller which has been shown with parts broken away in FIG. 3, is of known type and has been described in French patent FR-A-1,566,007. It will be recalled here that this roller comprises a fixed shaft 25 made up of a material having a high magnetic permeability such as soft iron for example. Magnetic elements 26 are arranged around the shaft 25, these elements being arranged one beside the other, parallel to the shaft 25, so as to form a ring around this shaft. For obvious reasons of simplification, only two magnetic elements referenced 26A and 26B have been shown in FIG. 3, but it should be noted that the number of these elements is much greater than two, this number being chosen so as to be a multiple of two. Thus, in the example illustrated in Figure 3, the roller has eight magnetic elements.
  • This roller further comprises a cylindrical sleeve 27 placed around the ring formed by the magnetic elements and mounted so as to be able to rotate around the shaft 25 in a direction indicated by the arrow R in FIG. 3.
  • This sleeve is produced in a non-magnetic material, such as aluminum for example.
  • the magnetic elements 26 are, as can be seen in FIG. 3, radially magnetized, that is to say in a direction perpendicular to the axis 24 and so that each magnetic element has, on its face 28 located opposite the sleeve 27, a magnetic polarity which is reversed when moving from one magnetic element to the next magnetic element.
  • the outer surface of the sleeve 27 is covered, during its rotation, with a layer of developer particles .
  • some of the developer particles adhere directly to the surface of the sleeve 27, while others will be placed outside this surface, along the external lines of force 29, thus forming chains of particles whose some, indicated by 30 in FIG. 3, are in the form of arches and the others, indicated by 31 in this figure, have the form of portions of arches oriented substantially perpendicular to the surface of the sleeve.
  • all these chains of particles are contained in planes perpendicular to the axis of rotation 24 of the roller.
  • this magnetic roller 22 is formed by a cylinder 50 provided with a shaft 51 allowing it to rotate in bearings, not shown, mounted on the lateral faces of the reservoir 5, these bearings being arranged so that the axis of rotation 24 of this roller is parallel to the axis of rotation 12 of the drum 10.
  • This cylinder 50 is made of a non-magnetic material, such as, for example, copper, glass or plastic. In the example described, it will be considered that this cylinder 50 is made of aluminum.
  • this cylinder 50 is coated, on its outer cylindrical surface, with bands 52 of flexible magnetic material, these bands being contiguous to each other and arranged parallel to the axis of rotation 24 of the cylinder 50.
  • bands 52 are thus arranged on the cylinder 50, each of these bands extending over the entire length of the cylinder.
  • the flexible magnetic material which constitutes these bands is well known and is generally constituted by an elastomer in which magnetic particles have been incorporated.
  • this flexible magnetic material can be that which is manufactured industrially under the name of "Ferriflex" (registered trademark) by the company of Chemicals Ugine-Kuhlmann.
  • each of the strips 52 is magnetized permanently, in a perpendicular direction at its thickness, in order to present on its external face, magnetic poles forming magnetic lines such as 53A, 53B, 53C which are equidistant from each other, the north or south magnetic polarity of these lines alternating from a magnetic line to the other.
  • magnetic lines 53A and 53C shown in FIG. 6 have a north magnetic polarity (N), while the magnetic line 53B has a south magnetic polarity (S).
  • N north magnetic polarity
  • S south magnetic polarity
  • FIGS. 4 5 and 6 these magnetic lines have been symbolically represented in broken lines and are designated in FIGS.
  • FIG. 4 also shows that these magnetic lines 53 are oriented on the surface of the magnetic roller, according to portions of propellers of the same pitch, one of these propellers referenced H, being represented in dashed lines in FIG. 4.
  • the pitch P of these propellers is chosen so as to be numerically equal to the
  • the angle under which the magnetic lines 53 intersect the generatrices of the cylinder is equal to 45 degrees.
  • the portions of propellers formed by the different magnetic lines 53 do not all have the same winding direction.
  • the pitch of these propeller portions is such that, on two contiguous bands 52, the pitch of the propeller portions of one of these two bands is opposite to that of the propeller portions of the 'other band.
  • the number of bands 52 arranged on the cylinder 50 is also chosen so as to be always even, so that the characteristic which has just been stated concerning the pitch of the propeller portions can always be respected.
  • the strips 52 of flexible magnetic material each have a length less than the length of the cylinder 50.
  • the length of each of the bands 52 is equal to half that of the cylinder 50, so that when two of these bands, oriented so that their long side is parallel to the axis of rotation 24 of the cylinder, are placed. end to end on this cylinder, touching by their short side, these two bands extend over the whole the length of the cylinder.
  • each of these cylinder portions is covered with 2n bands 52, 2n being a number peer.
  • the bands covering the cylinder portion 50A have been referenced 52A and those covering the cylinder portion 50B have been referenced 52B.
  • the pitch of the propeller portions along which the magnetic lines 53 of the bands 52A and 52B are oriented is such that, on any two contiguous bands, the pitch of the propeller portions of the one of these two bands is inverse to that of the propeller portions of the other band.
  • each of these p cylinder portions is covered by an even number (equal to 2n) of bands 52.
  • the 2n bands which cover each of the p cylinder portions are contiguous with one another and oriented in parallel to the axis of rotation of the cylinder.
  • the 2n bands of the same cylinder portion are themselves contiguous to the 2n bands of the adjacent cylinder portion and are aligned with the latter.
  • strips 52 of magnetic material which cover the cylinder 50 do not necessarily consist of flexible material incorporating magnetic particles.
  • these strips 52 may be made of a non-flexible magnetic material, for example of ferrite, molded so as to have the shape of a hollow cylinder (or of cylinder portions hollow, such as 52 for example) whose internal diameter corresponds to the external diameter of the cylinder 50, this hollow cylinder being magnetized so as to present, on its external face, magnetic poles, forming magnetic lines extending along portions d propeller arranged analogously to that illustrated in FIGS. 4 and 5.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Magnetic Brush Developing In Electrophotography (AREA)
  • Printers Or Recording Devices Using Electromagnetic And Radiation Means (AREA)

Description

La présente invention concerne un dispositif pour l'application de particules solides de révélateur sur l'élément d'enregistrement d'une imprimante non-impact.The present invention relates to a device for applying solid developer particles to the recording element of a non-impact printer.

Dans les équipements modernes qui sont utilisés pour le traitement de l'information, on emploie de plus en plus des imprimantes rapides dans lesquelles l'impression des caractères est réalisée sans pour cela faire appel à l'impact de types d'impression en relief sur une feuille de papier réceptrice. Ces machines imprimantes, dites non-impact ou encore à transfert sans frappe, comportent généralement un élément d'enregistrement constitué le plus souvent par un tambour rotatif ou une courroie sans fin, à la surface duquel on peut former, par voie électrostatique ou magnétique, des zones sensibilisées appelées également images latentes qui correspondent aux caractères ou images à imprimer. Ces images sont ensuite développées, c'est-à-dire rendues visibles, à l'aide d'un révélateur pulvérulent qui, déposé sur l'élément d'enregistrement, n'est attiré, que par les zones sensibilisées de celui-ci. Après quoi, cet élément d'enregistrement est amené au contact d'une feuille de papier afin de permettre aux particules de révélateur qui ont été déposées sur ces zones d'être transférées sur cette feuille pour y être définitivement fixées.In modern equipment which is used for data processing, fast printers are used more and more in which the printing of the characters is carried out without for that calling upon the impact of types of relief printing on a sheet of receiving paper. These printing machines, known as non-impact or even without impact transfer, generally include a recording element generally constituted by a rotary drum or an endless belt, on the surface of which one can form, electrostatic or magnetic, sensitized areas also called latent images which correspond to the characters or images to be printed. These images are then developed, that is to say made visible, using a powdery developer which, deposited on the recording element, is only attracted by the sensitized areas thereof. . After which, this recording element is brought into contact with a sheet of paper in order to allow the developer particles which have been deposited on these areas to be transferred onto this sheet to be definitively fixed there.

Pour appliquer ce révélateur pulvérulent sur l'élément d'enregistrement d'une machine imprimante de ce genre, on a utilisé, dans l'art antérieur, divers dispositifs d'application. C'est ainsi, par exemple, que l'on a employé un dispositif qui comporte un carter contenant le révélateur pulvérulent, ce carter présentant une ouverture devant laquelle passe l'élément d'enregistrement, l'encrage de cet élément étant réalisé par une brosse cylindrique qui, tournant à l'intérieur du carter, projette les particules de révélateur vers la surface de l'élément qui défile devant cette ouverture. Toutefois, ce dispositif ne donne pas entière satisfaction à l'usage du fait qu'il provoque, d'une part la formation d'un nuage de particules de révélateur qui se répand à l'extérieur du carter, ce qui est particulièrement désagréable pour les personnes qui, se trouvant à proximité de l'imprimante, sont atteintes par ce nuage, d'autre part, une électrisation indésirable des particules qui, projetées vers l'élément d'enregistrement, peuvent alors subsister sur les zones non sensibilisées de celui-ci par suite d'une attraction électrostatique.In order to apply this powdery developer to the recording element of a printing machine of this kind, various application devices have been used in the prior art. Thus, for example, a device was used which comprises a casing containing the powder developer, this casing having an opening in front of which the recording element passes, the inking of this element being produced by a cylindrical brush which, rotating inside the casing, projects the developer particles towards the surface of the element which passes in front of this opening. However, this device does not give complete satisfaction to the use of the fact that it causes, on the one hand the formation of a cloud of developer particles which spreads outside the casing, which is particularly unpleasant for people who, being near the printer, are reached by this cloud, on the other hand, an undesirable electrification of the particles which, projected towards the recording element, can then remain on the non-sensitized areas of that - as a result of an electrostatic attraction.

Dans le cas où le révélateur est capable d'être attiré magnétiquement, on peut utiliser, pour appliquer ce révélateur, un rouleau magnétique du type de celui qui a été décrit et représenté dans le brevet français FR-A-1 566 007 et qui comporte une série d'éléments magnetiques allongés, disposés les uns à côté des autres, autour d'un arbre, parallèlement à celui-ci, chacun de ces éléments magnétiques étant magnétisé radialement de manière à présenter une polarité magnétique constante surtoute sa longueur, les polarités magnétiques présentées par deux éléments magnétiques contigus étant opposées. Cependant, ce rouleau magnétique qui donne de bons résultats lorsqu'on l'utilise, dans un appareil de développement d'images latentes de charge électrostatique, pour transporter un révélateur pulvérulent capable d'être attiré magnétiquement, ne donne pas entière satisfaction lorsqu'on veut l'utiliser comme rouleau transporteur de révélateur pulvérulent dans un appareil de développement d'images latentes magnétiques tel que, par exemple, une machine imprimante magnétique. C'est que en effet, du fait que ce rouleau magnétique est placé à proximité immédiate de l'élément d'enregistrement des images latentes magnétiques, cet élément d'enregistrement se trouve nécessairement soumis à l'action des flux magnétiques engendrés par les éléments magnétiques de ce rouleau, si bien que les informations qui sont enregistrées sur cet élément d'enregistrement risquent d'être fortement altérées au moment où elles passent devant ce rouleau applicateur de révélateur. Cet inconvénient peut être supprimé en interposant, entre le rouleau applicateur et l'élément d'enregistrement, un déflecteur destiné à recueillir les particules de révélateur transportées par le rouleau, ce déflecteur ayant l'un de ses bords disposé à proximité immédiate de l'élément d'enregistrement pour constituer avec celui-ci un auget, ayant sensiblement la forme d'un dièdre, dans lequel viennent s'accumuler les particules de révélateur recueillies par le déflecteur. On réalise ainsi un dispositif d'application de révélateur du type de celui qui à été décrit et représenté dans le brevet français Fr-A-2 408 462 et dans lequel l'élément d'enregistrement est déplacé dans un sens tel que les particules accumulées dans l'auget sont entraînées vers l'arête du dièdre, les particules entraînées au-delà de cette arête ne restent appliquées que sur les zones sensibilisées de l'élément d'enregistrement. On a toutefois observé que, dans le cas où ce dispositif d'application comportait un rouleau de transport du type de celui décrit dans le brevet français précité FR-A-1 566 007, les particules de révélateur s'alignaient le long des lignes de force externes qui, à la surface du rouleau de transport, partent de chacun des éléments magnétiques présentant une polarité magnétique nord pour aller rejoindre chacun des éléments magnétiques voisins qui présentent une polarité magnétique sud. Etant donné que ces lignes de force externes forment ainsi des arches orientées perpendiculairement à l'axe de rotation du rouleau, les particules de révélateur, en se plaçant le long de ces lignes de force, forment donc des chaînes de particules disposées perpendiculairement à cet axe. Dans ces conditions, lorsque des chaînes de particules sont arrêtées au passage par le déflecteur, elles se brisent mais continuent à former, à l'intérieur de l'auget, des fragments de chaînes présentant une orientation qui est pratiquement perpendiculaire à la surface de l'élément d'enregistrement. Il en résulte que ces particules, lorsqu'elles viennent s'appliquer sur les zones sensibilisées de cet élément, ont tendance à s'associer entre elles pourformerdes agrégatsfilifor- mes de particules ce qui se traduit par l'apparition de traînées de particules à la surface de l'élément d'enregistrement et, par suite, par des traînées particulièrement désagréables à la vue pour les caractères formés lors du transfert de ces particules sur le papier.In the case where the developer is capable of being attracted magnetically, one can use, to apply this developer, a magnetic roller of the type which has been described and represented in French patent FR-A-1,566,007 and which comprises a series of elongated magnetic elements, arranged one next to the other, around a tree, parallel to this one, each of these magnetic elements being magnetized radially so as to have a constant magnetic polarity throughout its length, the polarities magnetic presented by two contiguous magnetic elements being opposite. However, this magnetic roller which gives good results when used in an electrostatic charge latent image development apparatus for transporting a powdery developer capable of being attracted magnetically, is not entirely satisfactory when wants to use it as a powdery developer transport roller in a magnetic latent image development apparatus such as, for example, a magnetic printing machine. This is because, in fact, because this magnetic roller is placed in the immediate vicinity of the element for recording the latent magnetic images, this recording element is necessarily subjected to the action of the magnetic fluxes generated by the elements. magnetic tape of this roller, so that the information recorded on this recording element may be greatly altered as it passes in front of this developer applicator roller. This drawback can be eliminated by interposing, between the applicator roller and the recording element, a deflector intended to collect the developer particles transported by the roller, this deflector having one of its edges disposed in the immediate vicinity of the recording element to constitute therewith a bucket, having substantially the shape of a dihedral, in which the developer particles collected by the deflector accumulate. This produces a developer application device of the type which has been described and represented in French patent Fr-A-2 408 462 and in which the recording element is moved in a direction such that the particles accumulated in the bucket are entrained towards the edge of the dihedral, the particles entrained beyond this edge remain applied only on the sensitized zones of the recording element. However, it has been observed that, in the case where this application device comprises a transport roller of the type described in the aforementioned French patent FR-A-1,566,007, the developer particles are aligned along the lines of external forces which, on the surface of the transport roller, leave each of the magnetic elements having a north magnetic polarity to join each of the neighboring magnetic elements which have a south magnetic polarity. Since these external lines of force thus form arches oriented perpendicular to the axis of rotation of the roller, the developer particles, by being placed along these lines of force, therefore form chains of particles arranged perpendicular to this axis. . Under these conditions, when chains of particles are stopped in passing by the deflector, they break but continue to form, inside the bucket, fragments of chains having an orientation which is practically perpendicular to the surface of the recording element. As a result, these particles, when they come to be applied to the sensitized areas of this element, tend to associate with each other to form particle-shaped aggregates of particles which results in the appearance of streaks of particles at the surface of the recording element and, consequently, by streaks which are particularly unpleasant to the sight for the characters formed during the transfer of these particles to the paper.

Ce même inconvénient apparaît encore lorsque, dans le dispositif d'application mentionné ci-dessus, on remplace le rouleau de transport du type décrit dans le brevet français précité FR-A-1 566 007 par un rouleau de transport du type de celui qui est décrit accessoirement dans le brevet des Etats-Unis d'Amerique US-A-4 185 130, ce dernier rouleau comprenant un cylindre tournant revêtu sur sa surface cylindrique extérieure, d'une bande de matière magnétique, cette bande étant magnétisée de manière à présenter sur sa surface externe des pôles magnétiques formant des lignes magnétiques équidistantes dont la polarité magnétique nord ou sud alterne d'une ligne magnétique à l'autre, chacune de ces lignes s'étendant suivant une hélice à pas constant.This same drawback still appears when, in the application device mentioned above, the transport roller of the type described in the aforementioned French patent FR-A-1,566,007 is replaced by a transport roller of the type which is incidentally described in United States patent US-A-4,185,130, this latter roller comprising a rotating cylinder coated on its outer cylindrical surface with a strip of magnetic material, this strip being magnetized so as to present on its outer surface magnetic poles forming equidistant magnetic lines, the north or south magnetic polarity of which alternates from one magnetic line to the other, each of these lines extending along a helix with constant pitch.

La présente invention remédie à cet inconvénient et propose un dispositif qui permet d'appliquer des particules de révélateur sur l'élément d'enregistrement d'une imprimante non-impact, sans provoquer pour cela, ni une altération des informations enregistrées sur cet élément, ni des traînées de particules sur la surface de cet élément.The present invention overcomes this drawback and proposes a device which makes it possible to apply developer particles to the recording element of a non-impact printer, without thereby causing or altering the information recorded on this element, nor streaks of particles on the surface of this element.

Plus précisément, la présente invention concerne un dispositif pour l'application, sur l'élément d'enregistrement d'une imprimante non-impact, de particules solides de révélateur contenues dans un réservoir, ce dispositif comprenant, d'une part un rouleau de transport disposé pour amener ces particules au voisinage de la surface de cet élément, d'autre part un déflecteur interposé entre cet élément et ce rouleau de transport pour recueillir les particules transportées par ce rouleau, ce déflecteur ayant l'un de ses bords disposé à proximité immédiate dudit élément pour constituer avec cet élément un auget ayant sensiblement la forme d'un dièdre, dans lequel viennent s'accumuler les particules ainsi recueillies, cet élément étant déplacé dans un sens où il entraîne ces particules vers l'arête dudit dièdre, les particules entraînées au-dela de cette arête ne restant appliquée que sur les zones sensibilisées dudit élément d'enregistrement, ledit révélateur étant capable d'être attiré magnétiquement, ledit rouleau de transport étant constitué par un cylindre tournant revêtu, sur sa surface cylindrique extérieure, d'une matière magnétique magnétisée de manière à présenter, sur sa face externe, des pôles magnétiques formant des lignes magnétiques équidistantes dont la polarité magnétique nord ou sud alterne d'une ligne magnétique à l'autre, ces lignes magnétiques s'étendant suivant des portions d'hélices à pas constant, ledit dispositif étant caractérisé en ce qu'il y a une pluralité de bandes de ladite matière magnétique, disposées parallèlement à l'axe de rotation et contiguës les unes aux autres, la disposition des hélices étant telle que, sur deux bandes contiguës, le pas des portions d'hélices de l'une de ces deux bandes est inverse de celui des portions d'hélices de l'autre bande.More specifically, the present invention relates to a device for applying, onto the recording element of a non-impact printer, solid developer particles contained in a reservoir, this device comprising, on the one hand a roll of transport arranged to bring these particles to the vicinity of the surface of this element, on the other hand a deflector interposed between this element and this transport roller to collect the particles transported by this roller, this deflector having one of its edges disposed at immediate proximity of said element to constitute with this element a bucket having substantially the shape of a dihedral, in which the particles thus collected accumulate, this element being moved in a direction where it entrains these particles towards the edge of said dihedral, the particles entrained beyond this edge remaining applied only to the sensitized areas of said recording element, said developer being capable of being attracted magn ethically, said transport roller being constituted by a rotating cylinder coated, on its outer cylindrical surface, with a magnetic material magnetized so as to present, on its outer face, magnetic poles forming equidistant magnetic lines whose north magnetic polarity or south alternates from one magnetic line to another, these magnetic lines extending along portions of propellers with constant pitch, said device being characterized in that there are a plurality of bands of said magnetic material, arranged in parallel to the axis of rotation and contiguous to each other, the arrangement of the propellers being such that, on two contiguous bands, the pitch of the propeller portions of one of these two bands is opposite to that of the propeller portions from the other band.

La présente invention sera mieux comprise et d'autres buts, détails et avantages de celle-ci apparaîtront mieux dans la description suivante, donnée à titre d'exemple non limitatif et en se référant aux dessins annexés sur lesquels:The present invention will be better understood and other objects, details and advantages thereof will appear better in the following description, given by way of nonlimiting example and with reference to the appended drawings in which:

La figure 1 représente une vue schématique partielle d'une machine imprimante magnétique équipée d'un dispositif d'application de révélateur réalisé selon la présente invention:

  • la figure 2 est une vue schématique, à grande échelle montrant certains détails de réalisation du dipositif d'application représentée su la figure 1;
  • la figure 3 est une vue en perspective, avec parties arrachées, d'un rouleau magnétique utilisé dans l'art antérieur pour l'application d'un révélateur sur l'élément d'enregistrement d'une imprimante magnétique, cette vue montrant la façon dont s'orientent les particules de révélateur à la surface de ce rouleau;
  • la figure 4 représente un premier mode de réalisation d'un rouleau magnétique faisant partie du dispositif d'application qui équipe la machine imprimante représentée sur la figure 1,
  • la figure 5 représente un second mode de réalisation d'un rouleau magnétique faisant partie du dispositif d'application qui équipe la machine imprimante représentée sur la figure 1,
  • la figure 6 est une vue en perspective et en coupe partielle, suivant un plan perpendiculaire à l'axe de rotation, d'une partie du rouleau représenté sur la figure 4.
FIG. 1 represents a partial schematic view of a magnetic printing machine equipped with a developer application device produced according to the present invention:
  • Figure 2 is a schematic view, on a large scale showing certain details of embodiment of the application device shown in Figure 1;
  • FIG. 3 is a perspective view, with parts broken away, of a magnetic roller used in the prior art for applying a developer to the recording element of a magnetic printer, this view showing the way which orient the developer particles on the surface of this roller;
  • FIG. 4 represents a first embodiment of a magnetic roller forming part of the application device which equips the printing machine shown in FIG. 1,
  • FIG. 5 represents a second embodiment of a magnetic roller forming part of the application device which equips the printing machine shown in FIG. 1,
  • FIG. 6 is a perspective view in partial section, along a plane perpendicular to the axis of rotation, of a part of the roller shown in FIG. 4.

La machine imprimante dont une partie a été schématiquement représentée sur la figure 1 comprend un élément d'enregistrement qui est constitué, dans l'exemple décrit, per un tambour magnétique 10. Ce tambour magnétique 10 est entrainé en rotation, dans le sens de la flèche F, par un moteur électrique (non représenté). L'enregistrement des informations sur ce tambour est réalisé par un organe d'enregistrement magnétique 11 qui est disposé à proximité de la surface externe du tambour. Dans l'exemple décrit, cet organe d'enregistrement 11 est formé d'un ensemble comprenant plusieurs têtes d'enregistrement magnétiques qui, placées les unes à côté des autres, sont alignées parallèlement à l'axe de rotation 12 du tambour 10. Chacune de ces têtes engendre, lorsqu'elle est excitée à différentes reprises par un courant électrique, un champ magnétique variable, ce qui a pour effet de créer des domaines magnétisés ou «points magnétiques» sur la surface du tambour qui défile devant l'organe d'enregistrement 11. Les instants d'excitation de ces têtes sont d'ailleurs établis, de manière connue, de façon à obtenir sur la surface du tambour des ensembles de domaines magnétiques 13, appelés zones magnétisées ou images magnétiques latentes, dont la forme correspond à celle des caractères à imprimer. Ces zones magnétisées 13 passent ensuite devant un dispositif d'application 14 qui est disposé au-dessous du tambour 10 et qui permet d'appliquer sur la surface du tambour des particules d'un révélateur pulvérulent contenu dans un réservoir 1 5. Les particules de révélateur qui sont ainsi appliquées sur le tambour 10 n'adhèrent, en principe, que sur les zones magnétisées de celui-ci, de sorte que les zones magnétisées qui sont passées devant le dispositif d'application 14 apparaissent revêtues d'une couche de révélateur, cette couche formant, sur le tambour 10, l'image des caractères qui doivent être imprimées. Il faut signaler ici que ce révélateur est constitué de particules magnétiques enduites d'une résine thermoplastique. qui, par chauffage est capable de fondre et de se fixer sur un papier sur lequel elle a été déposée. A titre d'exemple le révélateur contenu dans le réservoir 15 peut être celui qui a fait l'objet de la demande de brevet déposé en France par la Demanderesse le 20 Mars 1980 et publiée FR-A-2 478 839. Ainsi qu'on l'a indiqué ci-dessus, ce révélateur qui est appliqué sur le tambour 10 adhère principalement sur les zones magnétisées 13, formant ainsi des dépôts 16 de particules à la surface de ce tambour. Ces dépôts 16 passent alors devant un dispositif de retouche 17 qui a pour rôle d'éliminer les particules ayant adhéré ailleurs sur les zones magnétisées 13, ainsi que les particules qui se trouvent en surnombre sur ces zones. Après quoi, les particules de révélateur qui subsistent sur le tambour 10 sont transférées, en quasi totalité, sur une feuille de papier 18 qui est appliquée sur le tambour 10 grâce à un rouleau de pression 19. Les particules résiduelles de révélateur qui lorsque ce transfert est réalisé, se trouvent encore sur le tambour 10 sont alors enlevées au moyen d'un dispositif de nettoyage 20, de type connu, par exemple à brosse. Après quoi, les zones magnétisées qui sont passées devant le dispositif de nettoyage 20 défilent devant un dispositif d'effacement 21 où elles sont alors effacées, ce qui permet aux portions démagnétisées du tambour 10 de pouvoir être à nouveau magnétisées lorsqu'elles se présentent ensuite devant l'organe d'enregistrement 1 1.The printing machine, part of which has been shown diagrammatically in FIG. 1, comprises a recording element which is constituted, in the example described, per a magnetic drum 10. This magnetic drum 10 is rotated, in the direction of the arrow F, by an electric motor (not shown). The recording of information on this drum is carried out by a magnetic recording member 11 which is arranged near the external surface of the drum. In the example described, this recording member 11 is formed of an assembly comprising several magnetic recording heads which, placed one next to the other, are aligned parallel to the axis of rotation 12 of the drum 10. Each of these heads generates, when it is excited repeatedly by an electric current, a variable magnetic field, which has the effect of creating magnetized domains or "magnetic points" on the surface of the drum which passes in front of the organ d recording 11. The moments of excitation of these heads are moreover established, in a known manner, so as to obtain on the surface of the drum sets of magnetic domains 13, called magnetized zones or latent magnetic images, the shape of which corresponds to that of the characters to be printed. These magnetized zones 13 then pass in front of an application device 14 which is arranged below the drum 10 and which makes it possible to apply to the surface of the drum particles of a powdery developer contained in a reservoir 1 5. The particles of developer which are thus applied to the drum 10 adhere, in principle, only on the magnetized areas thereof, so that the magnetized areas which have passed in front of the application device 14 appear coated with a layer of developer , this layer forming, on the drum 10, the image of the characters which are to be printed. It should be noted here that this developer consists of magnetic particles in picks of a thermoplastic resin. which, by heating, is capable of melting and fixing on a paper on which it has been deposited. By way of example, the developer contained in the reservoir 15 may be the one which was the subject of the patent application filed in France by the Applicant on March 20, 1980 and published FR-A-2 478 839. As well as As indicated above, this developer which is applied to the drum 10 mainly adheres to the magnetized zones 13, thus forming deposits 16 of particles on the surface of this drum. These deposits 16 then pass in front of a retouching device 17 which has the role of eliminating the particles which have adhered elsewhere on the magnetized zones 13, as well as the particles which are found in excess in these zones. After which, the developer particles which remain on the drum 10 are transferred, almost entirely, onto a sheet of paper 18 which is applied to the drum 10 by means of a pressure roller 19. The residual developer particles which when this transfer is produced, are still on the drum 10 and are then removed by means of a cleaning device 20, of known type, for example with a brush. After which, the magnetized zones which have passed in front of the cleaning device 20 pass in front of an erasing device 21 where they are then erased, which allows the demagnetized portions of the drum 10 to be able to be magnetized again when they arise next before the registration body 1 1.

Ainsi qu'on peut le voir sur la figure 1, le dispositif d'application 14 comprend, d'une part un élément de transport 22 qui prélève des particules de révélateur se trouvant dans le réservoir 15 pour les amener au voisinage de la surface du tambour 10, d'autre part, un déflecteur fixe 23 qui est interposé entre l'élément de transport 22 est le tambour 10 pour recueillir les particules transportées par cet élément 22 et les appliquer sur la surface du tambour 10. Un dispositif d'application 14 de ce genre a notamment été décrit et représenté dans le brevet français FR-A-2 408 462. L'élément de transport 22 qui équipe un tel dispositif d'application est constitué habituellement par un rouleau magnétique qui sera décrit plus loin, l'axe de rotation 24 de ce rouleau étant parallèle à l'axe de rotation 12 du tambour 10. Le déflecteur 23 qui est associé à ce rouleau magnétique 22 est une pièce qui, fixée aux deux faces latérales du réservoir 15, présente, comme on le voit sur la figure 2, une face plane 40 limitée par un premier et un second bords 41 et 42 parallèles aux axes 12 et 24, le second bord 42 formant, de préférence, une arête vive pour éviter une accumulation de particules sur ledit bord. Ce déflecteur 23, qui a son premier bord 41 pratiquement en contact avec le rouleau magnétique 22 est disposé de telle façon que son second bord 42 se trouve à proximité immédiate de la surface du tambour 10 et que sa face 40 forme avec le plan défini par l'axe 12 du tambour et l'axe 24 du rouleau magnétique un dièdre dont l'angle est inférieur à quarante cinq degrés.As can be seen in FIG. 1, the application device 14 comprises, on the one hand, a transport element 22 which picks up developer particles from the reservoir 15 to bring them near the surface of the drum 10, on the other hand, a fixed deflector 23 which is interposed between the transport element 22 is the drum 10 to collect the particles transported by this element 22 and apply them to the surface of the drum 10. An application device 14 of this kind has in particular been described and represented in French patent FR-A-2 408 462. The transport element 22 which equips such an application device usually consists of a magnetic roller which will be described later, the axis of rotation 24 of this roller being parallel to the axis of rotation 12 of the drum 10. The deflector 23 which is associated with this magnetic roller 22 is a part which, fixed to the two lateral faces of the reservoir 15, has, as we seen in Figure 2, a he flat face 40 limited by first and second edges 41 and 42 parallel to the axes 12 and 24, the second edge 42 preferably forming a sharp edge to avoid an accumulation of particles on said edge. This deflector 23, which has its first edge 41 practically in contact with the magnetic roller 22 is arranged in such a way that its second edge 42 is in close proximity to the surface of the drum 10 and that its face 40 forms with the plane defined by the axis 12 of the drum and the axis 24 of the magnetic roller a dihedral whose angle is less than forty five degrees.

Le rouleau magnétique 22 est entraîné en rotation, dans le sens indiqué par la flèche R sur les figures 1 et 2, par un moteur électrique (non représenté), ce sens étant tel que les particules de révélateur transportées par le rouleau magnétique 22 sont entraînées vers la face 40 du déflecteur 22 et sont arrêtées au passage, du moins pour la plupart d'entre elles, par ce déflecteur. Les particules qui sont ainsi arrêtés viennent alors s'accumuler dans un auget 43 délimité par la surface du tambour 10 et par la face 40 du déflecteur 23. Le sens de rotation du tambour 10, indiqué par la flèche F, est choisi pour que les particules accumulées dans l'auget 43 soient entraînées vers l'arête vive 42 du déflecteur 23 de façon qu'une partie d'entre elles puisse venir s'appliquer sur les zones magnétisées 13 du tambour 10. Toutefois, les particules ainsi entraînées par le tambour 10 ne sont pas arrêtées au passage par le déflecteur 23, du fait que celui-ci ne touche pas le tambour et qu'il laisse, par conséquent, entre l'arête vive 42 et le tambour 10, une ouverture dont la largeur est suffisante pour permettre aux particules de révélateur entraînées par ce tambour de sortir de l'auget 43. Les particules de révélateur qui, appliquées sur les zones magnétisées du tambour, sortent de l'auget 43, continuent à adhérer sur ces zones et rendent ainsi visibles les caractères qui doivent être imprimés, tandis que celles qui sortent de l'auget 43 sans être retenues par le tambour retombent généralement dans le réservoir 15.The magnetic roller 22 is rotated, in the direction indicated by the arrow R in Figures 1 and 2, by an electric motor (not shown), this direction being such that the developer particles transported by the magnetic roller 22 are driven towards the face 40 of the deflector 22 and are stopped in passing, at least for most of them, by this deflector. The particles which are thus stopped then accumulate in a trough 43 delimited by the surface of the drum 10 and by the face 40 of the deflector 23. The direction of rotation of the drum 10, indicated by the arrow F, is chosen so that the particles accumulated in the bucket 43 are entrained towards the sharp edge 42 of the deflector 23 so that some of them can come to be applied to the magnetized zones 13 of the drum 10. However, the particles thus entrained by the drum 10 are not stopped in passing by the deflector 23, because it does not touch the drum and that it therefore leaves, between the sharp edge 42 and the drum 10, an opening whose width is sufficient to allow the developer particles entrained by this drum to leave the trough 43. The developer particles which, applied to the magnetized areas of the drum, come out of the trough 43, continue to adhere to these areas and thus make them visible the characters that must be printed, while those which leave the bucket 43 without being retained by the drum generally fall back into the reservoir 15.

Le rouleau magnétique qui a été représenté avec des parties arrachées sur la figure 3, est de type connu et a été décrit dans le brevet français FR-A-1 566 007. On rappelera ici que ce rouleau comporte un arbre fixe 25 consitué d'une matière présentant une grande perméabilité magnétique tel que le fer doux par exemple. Autour de l'arbre 25 sont disposés des éléments magnétiques 26, ces éléments étant disposés les uns à côté des autres, parallèlement à l'arbre 25, de manière à former un anneau autour de cet arbre. Pour des raisons évidentes de simplification, on n'a représenté, sur la figure 3, que deux éléments magnétiques référencés 26A et 26B, mais il faut signaler que le nombre se ces éléments est bien supérieur à deux, ce nombre étant choisi de manière à être multiple de deux. C'est ainsi que, dans l'exemple illustré par la figure 3, le rouleau comporte huit éléments magnétiques. Ce rouleau comporte en outre un manchon cylindrique 27 placé autour de l'anneau formé par les éléments magnétiques et monté de manière à pouvoir tourner autour de l'arbre 25 dans un sens indiqué par la flèche R sur la figure 3. Ce manchon est réalisé en une matière non magnétique, tel que l'aluminium par exemple. Les éléments magnétiques 26 sont, comme on peut le voir sur la figure 3, magnétisés radialement, c'est-à-dire dans une direction perpendiculaire à l'axe 24 et de telle sorte que chaque élément magnétique présente, sur sa face 28 située en regard du manchon 27, une polarité magnétique qui s'inverse lorsqu'on passe d'un élément magnétique à l'élément magnétique suivant. C'est ainsi, par exemple, que l'élément magnétique 26A montré sur la figure 3 présente, sur sa face située en regard du manchon 27, une polarité magnétique nord (N) tandis que l'élément magnétique 26B qui est contigu à l'élément 26A présente, sur sa face 28 située en regard du manchon 27, une polarité magnétique sud (S). Dans ces conditions, les lignes de force externes du champ magnétique produit par les éléments magnétiques 26 partent des faces 28 présentant une polarité magnétique nord pour aller rejoindre les faces 28 qui présentent une polarité magnétique sud. Sur la figure 3, certaines seulement de ces lignes de force externes, référencées 29 ont été représentées en traits mixtes pour des raisons de simplification. Si le rouleau magnétique que l'on vient de décrire est placé au contact d'un révélateur pulvérulent capable d'être attiré magnétiquement, la surface extérieure du manchon 27 se recouvre, au cours de sa rotation, d'une couche de particules de révélateur. Lors de cette opération, certaines des particules de révélateur viennent adhérer directement sur la surface du manchon 27, alors que d'autres vont se placer en dehors de cette surface, le long des lignes de force externes 29, formant ainsi des chaînes de particules dont certaines, indiquées par 30 sur la figure 3, sont en forme d'arches et dont les autres, indiquées par 31 sur cette figure, ont la forme de portions d'arches orientées sensiblement perpendiculairement à la surface du manchon. Ainsi qu'on peut le voir sur la figure 3, toutes ces chaînes de particules sont contenues dans des plans perpendiculaires à l'axe de rotation 24 du rouleau. Il en résulte que, lorsque les particules de révélateur déposées sur ce manchon sont arrêtées au passage par le déflecteur 23, elles continuent à former des chaînes ou des fragmentes de chaînes 32 qui viennent s'entasser sur la face 40 du déflecteur 23 en restant pratiquement parallèles les unes aux autres comme le montre la figure 3. Ces particules, qui restent ainsi associées entre elles, forment donc lorsqu'elles sont ensuite appliquées sur la surface du tambour 10, des agrégats filiformes de particules qui, non seulement recouvrent alors les zones magnétisées de ce tambour, mais débordent même en dehors de ces zones, de sorte que, lorsque ces agrégats sont ultérieurement transférés sur le papier 18, ils forment des traînées de particules qui nuisent fortement à la qualité de l'impression.The magnetic roller which has been shown with parts broken away in FIG. 3, is of known type and has been described in French patent FR-A-1,566,007. It will be recalled here that this roller comprises a fixed shaft 25 made up of a material having a high magnetic permeability such as soft iron for example. Magnetic elements 26 are arranged around the shaft 25, these elements being arranged one beside the other, parallel to the shaft 25, so as to form a ring around this shaft. For obvious reasons of simplification, only two magnetic elements referenced 26A and 26B have been shown in FIG. 3, but it should be noted that the number of these elements is much greater than two, this number being chosen so as to be a multiple of two. Thus, in the example illustrated in Figure 3, the roller has eight magnetic elements. This roller further comprises a cylindrical sleeve 27 placed around the ring formed by the magnetic elements and mounted so as to be able to rotate around the shaft 25 in a direction indicated by the arrow R in FIG. 3. This sleeve is produced in a non-magnetic material, such as aluminum for example. The magnetic elements 26 are, as can be seen in FIG. 3, radially magnetized, that is to say in a direction perpendicular to the axis 24 and so that each magnetic element has, on its face 28 located opposite the sleeve 27, a magnetic polarity which is reversed when moving from one magnetic element to the next magnetic element. Thus, for example, the magnetic element 26A shown in FIG. 3 has, on its face located opposite the sleeve 27, a north magnetic polarity (N) while the magnetic element 26B which is contiguous to the element 26A has, on its face 28 located opposite the sleeve 27, a south magnetic polarity (S). Under these conditions, the external lines of force of the magnetic field pro duit by the magnetic elements 26 depart from the faces 28 having a north magnetic polarity to join the faces 28 which have a south magnetic polarity. In FIG. 3, only some of these external lines of force, referenced 29 have been shown in dashed lines for reasons of simplification. If the magnetic roller that has just been described is placed in contact with a powder developer capable of being attracted magnetically, the outer surface of the sleeve 27 is covered, during its rotation, with a layer of developer particles . During this operation, some of the developer particles adhere directly to the surface of the sleeve 27, while others will be placed outside this surface, along the external lines of force 29, thus forming chains of particles whose some, indicated by 30 in FIG. 3, are in the form of arches and the others, indicated by 31 in this figure, have the form of portions of arches oriented substantially perpendicular to the surface of the sleeve. As can be seen in FIG. 3, all these chains of particles are contained in planes perpendicular to the axis of rotation 24 of the roller. As a result, when the developer particles deposited on this sleeve are stopped in passing by the deflector 23, they continue to form chains or fragments of chains 32 which pile up on the face 40 of the deflector 23 while remaining practically parallel to each other as shown in Figure 3. These particles, which thus remain associated with each other, therefore form when they are then applied to the surface of the drum 10, filiform aggregates of particles which not only then cover the areas magnetized from this drum, but even extend beyond these areas, so that, when these aggregates are subsequently transferred to the paper 18, they form streaks of particles which seriously affect the quality of printing.

Le rouleau magnétique de la présente invention remédie à cet inconvénient. Dans la forme de réalisation qui est illustré par la figure 4, ce rouleau magnétique 22 estformé d'un cylindre 50 muni d'un arbre 51 lui permettant de tourillonner dans des paliers, non représentés, montés sur les faces latérales du réservoir 5, ces paliers étant disposés de manière que l'axe de rotation 24 de ce rouleau soit parallèle à l'axe de rotation 12 du tambour 10. Ce cylindre 50 est constitué d'un matériau non magnétique, tel que, par exemple, le cuivre, le verre ou encore une matière plastique. Dans l'exemple décrit, on considérera que ce cylindre 50 est réalisé en aluminium. La figure 4 montre que ce cylindre 50 est revêtu, sur sa surface cylindrique extérieure, de bandes 52 de matière magnétique flexible, ces bandes étant contiguës les unes aux autres et disposées parallèlement à l'axe de rotation 24 du cylindre 50. Dans l'exemple illustré par la figure 4, six bandes 52 sont ainsi disposées sur le cylindre 50, chacune de ces bandes s'étendant sur toute la longueur du cylindre. La matière magnétique flexible qui constitue ces bandes est bien connue et est généralement constituée par un élastomère dans lequel ont été incorporées des particules magnétiques. C'est ainsi que cette matière magnétique flexible peut être celle qui est fabriquée industriellement sous le nom de «Ferriflex» (marque déposée) par la société des Produits Chimiques Ugine-Kuhlmann. Comme on peut le voir sur la figure 6 qui montre en coupe, suivant un plan passant par l'axe de rotation 24, une portion du rouleau magnétique de la figure 4, chacune des bandes 52 est magnétisée de façon permanente, dans une direction perpendiculaire à son épaisseur, afin de présenter sur sa face externe, des pôles magnétiques formant des lignes magnétiques telles que 53A, 53B, 53C qui sont équidistantes les unes des autres, la polarité magnétique nord ou sud de ces lignes alternant d'une ligne magnétique à l'autre. Ainsi par exemple, les lignes magnétiques 53A et 53C représentées sur la figure 6 ont une polarité magnétique nord (N), tandis que la ligne magnétique 53B a une polarité magnétique sud (S). Sur les figures 4, 5 et 6 ces lignes magnétiques ont été symboliquement représentées en traits interrompus et sont désignés sur les figures 4 et 5 par la référence générale 53. L'équidistance de ces lignes magnétiques dépend de l'épaisseur de la bande 52. On signalera, à titre d'exemple, que, pour une épaisseur de bande de 1 millimètre, ces lignes magnétiques 53 sont séparées les unes des autres d'une distance égale à 2,54 millimètres et que, pour une épaisseur de bande de 2 millimètres, ces lignes magnétiques sont séparées les unes des autres d'une distance égale à 5,08 millimètres. La figure 4 montre encore que ces lignes magnétiques 53 sont orientées à la surface du rouleau magnétique, selon des portions d'hélices de même pas, l'une de ces hélices référencée H, étant représentée en traits mixtes sur la figure 4. Dans un mode de réalisation plus particulièrement avantageux, le pas P de ces hélices est choisi de manière à être numériquement égal à la |ongueurπ D d'une section droite du cylindre 50, D étant le diamètre de ce cylindre. Dans ces conditions, l'angle sous lequel les lignes magnétiques 53 coupent les génératrices du cylindre est égal à 45 degrés. Il faut encore signaler que, comme on peut le voir sur la figure 4, les portions d'hélices formées par les différentes lignes magnétiques 53 n'ont pas toutes le même sens d'enroulement. En d'autres termes, le pas de ces portions d'hélices est tel que, sur deux bandes 52 contiguës, le pas des portions d'hélices de l'une de ces deux bandes est inverse de celui des portions d'hélices de l'autre bande. Le nombre de bandes 52 disposées sur le cylindre 50 est d'ailleurs choisi de manière à être toujours pair, si bien que la caractéristique qui vient d'être énoncé concernant le pas des portions d'hélices peut toujours être respectée.The magnetic roller of the present invention overcomes this drawback. In the embodiment which is illustrated in FIG. 4, this magnetic roller 22 is formed by a cylinder 50 provided with a shaft 51 allowing it to rotate in bearings, not shown, mounted on the lateral faces of the reservoir 5, these bearings being arranged so that the axis of rotation 24 of this roller is parallel to the axis of rotation 12 of the drum 10. This cylinder 50 is made of a non-magnetic material, such as, for example, copper, glass or plastic. In the example described, it will be considered that this cylinder 50 is made of aluminum. FIG. 4 shows that this cylinder 50 is coated, on its outer cylindrical surface, with bands 52 of flexible magnetic material, these bands being contiguous to each other and arranged parallel to the axis of rotation 24 of the cylinder 50. In the example illustrated by FIG. 4, six bands 52 are thus arranged on the cylinder 50, each of these bands extending over the entire length of the cylinder. The flexible magnetic material which constitutes these bands is well known and is generally constituted by an elastomer in which magnetic particles have been incorporated. Thus this flexible magnetic material can be that which is manufactured industrially under the name of "Ferriflex" (registered trademark) by the company of Chemicals Ugine-Kuhlmann. As can be seen in Figure 6 which shows in section, along a plane passing through the axis of rotation 24, a portion of the magnetic roller of Figure 4, each of the strips 52 is magnetized permanently, in a perpendicular direction at its thickness, in order to present on its external face, magnetic poles forming magnetic lines such as 53A, 53B, 53C which are equidistant from each other, the north or south magnetic polarity of these lines alternating from a magnetic line to the other. Thus, for example, the magnetic lines 53A and 53C shown in FIG. 6 have a north magnetic polarity (N), while the magnetic line 53B has a south magnetic polarity (S). In FIGS. 4, 5 and 6 these magnetic lines have been symbolically represented in broken lines and are designated in FIGS. 4 and 5 by the general reference 53. The equidistance of these magnetic lines depends on the thickness of the strip 52. It will be noted, by way of example, that, for a strip thickness of 1 millimeter, these magnetic lines 53 are separated from each other by a distance equal to 2.54 millimeters and that, for a strip thickness of 2 millimeters, these magnetic lines are separated from each other by a distance equal to 5.08 millimeters. FIG. 4 also shows that these magnetic lines 53 are oriented on the surface of the magnetic roller, according to portions of propellers of the same pitch, one of these propellers referenced H, being represented in dashed lines in FIG. 4. In a more particularly advantageous embodiment, the pitch P of these propellers is chosen so as to be numerically equal to the | ungueurπ D of a cross section of the cylinder 50, D being the diameter of this cylinder. Under these conditions, the angle under which the magnetic lines 53 intersect the generatrices of the cylinder is equal to 45 degrees. It should also be noted that, as can be seen in FIG. 4, the portions of propellers formed by the different magnetic lines 53 do not all have the same winding direction. In other words, the pitch of these propeller portions is such that, on two contiguous bands 52, the pitch of the propeller portions of one of these two bands is opposite to that of the propeller portions of the 'other band. The number of bands 52 arranged on the cylinder 50 is also chosen so as to be always even, so that the characteristic which has just been stated concerning the pitch of the propeller portions can always be respected.

Naturellement, diverses formes de réalisation du rouleau magnétique de l'invention peuvent être envisagées. C'est ainsi que, dans l'exemple de réalisation illustré par la figure 5, les bandes 52 de matière magnétique flexible ont chacune une longueur inférieure à la longueur du cylindre 50. Dans le cas particulier représenté sur la figure 5, la longueur de chacune des bandes 52 est égale à la moitié de celle du cylindre 50, de sorte que, lorsque deux de ces bandes, orientées de manière que leur grand côté soit parallèle à l'axe de rotation 24 du cylindre, sont placées. bout à bout sur ce cylindre, en se touchant par leur petit côté, ces deux bandes s'étendent sur toute la longueur du cylindre. En d'autres termes, si on considère le cylindre 50 divisé fictivement, perpendiculairement à son axe de rotation 24, en deux portions 50A et 50B de même longueur, chacune de ces portions de cylindre est recouverte de 2n bandes 52, 2n étant un nombre pair. Sur la figure 5, les bandes recouvrent la portion de cylindre 50A ont été référencées 52A et celles recouvrent la portion de cylindre 50B ont été référencées 52B. On voit encore, sur la figure 5, que le pas des portions d'hélices selon lequel sont orientées les lignes magnétiques 53 des bandes 52A et 52B est tel que, sur deux bandes contiguës quelconques, le pas des portions d'hélices de l'une de ces deux bandes est inverse de celui des portions d'hélices de l'autre bande.Naturally, various embodiments of the magnetic roller of the invention can be envisaged. Thus, in the embodiment illustrated by FIG. 5, the strips 52 of flexible magnetic material each have a length less than the length of the cylinder 50. In the particular case represented in FIG. 5, the length of each of the bands 52 is equal to half that of the cylinder 50, so that when two of these bands, oriented so that their long side is parallel to the axis of rotation 24 of the cylinder, are placed. end to end on this cylinder, touching by their short side, these two bands extend over the whole the length of the cylinder. In other words, if we consider the cylinder 50 fictitiously divided, perpendicular to its axis of rotation 24, into two portions 50A and 50B of the same length, each of these cylinder portions is covered with 2n bands 52, 2n being a number peer. In FIG. 5, the bands covering the cylinder portion 50A have been referenced 52A and those covering the cylinder portion 50B have been referenced 52B. It can also be seen, in FIG. 5, that the pitch of the propeller portions along which the magnetic lines 53 of the bands 52A and 52B are oriented is such that, on any two contiguous bands, the pitch of the propeller portions of the one of these two bands is inverse to that of the propeller portions of the other band.

Il faut encore signaler que, dans le cas plus général où le cylindre 50 est supposé divisé, perpendiculairement à son axe de rotation 24, en p portions égales et où la longueur de chacune des bandes 52 de matière magnétique flexible est égale à la longueur de chacune de ces p portions de cylindre, chacune de ces p portions de cylindre est recouverte par un nombre pair (égal à 2n) de bandes 52. Les 2n bandes qui recouvrent chacune des p portions de cylindre sont contiguës les unes des autres et orientées parallèlement à l'axe de rotation du cylindre. En outre, les 2n bandes d'une même portion de cylindre sont elles- mêmes contiguës aux 2n bandes de la portion de cylindre adjacente et sont alignées avec ces dernières. Les bandes 52 de matière magnétique qui recouvrent le cylindre 50 ne sont pas nécessairement constituées de matière flexible incorporant des particules magnétiques. C'est ainsi que, dans un autre mode de réalisation, ces bandes 52 pourront être constituées d'un matériau magnétique non flexible, par exemple de ferrite, moulé de manière à présenter la forme d'un cylindre creux (ou de portions de cylindre creux, telles que 52 par exemple) dont le diamètre intérieur correspond au diamètre extérieur du cylindre 50, ce cylindre creux étant magnétisé de façon à présenter, sur sa face externe, des pôles magnétiques, formant des lignes magnétiques s'étendant suivant des portions d'hélice disposées de façon analogue à celle illustrée par les figures 4 et 5.It should also be noted that, in the more general case where the cylinder 50 is assumed to be divided, perpendicular to its axis of rotation 24, in p equal portions and where the length of each of the strips 52 of flexible magnetic material is equal to the length of each of these p cylinder portions, each of these p cylinder portions is covered by an even number (equal to 2n) of bands 52. The 2n bands which cover each of the p cylinder portions are contiguous with one another and oriented in parallel to the axis of rotation of the cylinder. In addition, the 2n bands of the same cylinder portion are themselves contiguous to the 2n bands of the adjacent cylinder portion and are aligned with the latter. The strips 52 of magnetic material which cover the cylinder 50 do not necessarily consist of flexible material incorporating magnetic particles. Thus, in another embodiment, these strips 52 may be made of a non-flexible magnetic material, for example of ferrite, molded so as to have the shape of a hollow cylinder (or of cylinder portions hollow, such as 52 for example) whose internal diameter corresponds to the external diameter of the cylinder 50, this hollow cylinder being magnetized so as to present, on its external face, magnetic poles, forming magnetic lines extending along portions d propeller arranged analogously to that illustrated in FIGS. 4 and 5.

En utilisant le rouleau magnétique qui vient d'être décrit dans un dispositif d'application du type de celui décrit dans le brevet français FR-A-2 408 462, on a effectivement constaté qu'il ne se formait pas de paquets de particules de révélateur à l'intérieur de l'auget constitué par le déflecteur et l'élément d'enregistrement et que, de ce fait, le transfert ultérieur de ces particules sur le papier n'entraînait pratiquement pas de traînées de particules, de sorte que la qualité d'impression se trouvait grandement améliorée.By using the magnetic roller which has just been described in an application device of the type described in French patent FR-A-2 408 462, it has indeed been found that no bundles of particles of developer inside the bucket formed by the deflector and the recording element and that, as a result, the subsequent transfer of these particles to the paper practically did not cause particles streaks, so that the print quality was greatly improved.

Bien entendu, l'invention n'est nullement limitée aux modes de mise en oeuvre décrits et illustrés qui n'ont été donnés qu'à titre d'exemple. Au contraire, elle comprend tous les moyens constituants des équivalents techniques de ceux décrits et illustrés, considérés isolément ou en combinaison, et mis en oeuvre dans le cadre des revendications qui suivent.Of course, the invention is in no way limited to the embodiments described and illustrated which have been given only by way of example. On the contrary, it includes all the means constituting the technical equivalents of those described and illustrated, considered in isolation or in combination, and used in the context of the claims which follow.

Claims (7)

1. Device forthe application, on the recording element (10) of a non-impact printer, of solid particles of developer (toner) contained in a reservoir (15), this device on the one hand comprising a transporting roller (22) arranged to carry these particles close to the surface of the element (10), and on the other hand a deflector (23) interposed between this element and this transporting roller for collection of the particles carried by this roller, this deflector having one of its edges (42) positioned in the immediate proximity of the said element (10) so that it forms with this element a trough (43) having substantially the shape of a dihedron, in which are accumulated the particles thus collected, this element being displaced in one direction (F) in which it entrains these particles towards the edge of this dihedron, the particles carried along beyond this edge remaining applied only on the sensitised areas of the said record element, the said developer being able to be attracted magnetically, the said conveyor roller (22) comprising a rotary cylinder (50) covered on its external cylindrical surface with magnetic material magnetised in such a manner that on its outer surface it has magnetic poles forming equidistant magnetic lines (53) of which the magnetic north (N) or south (S) polarity alternates from one to another, these magnetic lines extending along helix portions of constant pitch, the said device being characterised in that there is a plurality of strips (52) of the said magnetic material arranged parallel to the axis of rotation (24) of the said cylinder and contiguous to each other, the arrangement of the helices (H) being such that, on two contiguous strips (52), the pitch of the helix portions of,the one of these two strips is the opposite of that of the helix portions of the other strip.
2. Applicator device according to claim 1, characterised in that the magnetic lines (53) are so directed as to intersect the generatrices of the cylinder (50) at an angle equal to 45 degrees.
3. Applicator device according to either of claims 1 and 2, characterised in that each of the strips (52) is formed from flexible magnetic material and extends throughout the length of the rotary cylinder (50).
4. Applicator device according to either of claims 1 and 2, characterised in that, assuming the rotary cylinder (50) to be divided, perpendicular to its axis of rotation (24), into p cylinder portions (such as 50A and 50B) of the same length, each of the strips (52) formed from magnetic material has a length equal to the length of each of the said p cylinder portions, and the number of these strips (52) is equal to 2pn, so that each of these p cylinder portions is covered by 2n of the said strips, all these strips being contiguous to each other.
5. Applicator device according to claim 3, characterised in that the rotary cylinder (50) has a diameter equal to 25 mms and in that the number of strips (52) covering the same is equal to 4.
6. Applicator device according to claim 4, characterised in that the rotary cylinder (50) has a diameter equal to 25 mms and in thatthe number of strips (52) covering each of the portions of this cylinder is equal to 4.
7. Applicator device according to either of claims 1 and 2, characterised in that each of the strips (52) is formed from rigid magnetic material moulded in such a manner as to have the form of a hollow cylinder - or of hollow cylinder portions (52) - of which the inner diameter corresponds to the outer diameter of the rotary cylinder (50).
EP83401000A 1982-07-08 1983-05-19 Toner powder applicator on the imaging roller of a non-impact printer Expired EP0099763B1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
FR8212020A FR2530044A1 (en) 1982-07-08 1982-07-08 DEVICE FOR APPLYING SOLID PARTICLES OF DEVELOPER TO THE RECORDING ELEMENT OF A NON-IMPACT PRINTER
FR8212020 1982-07-08

Publications (2)

Publication Number Publication Date
EP0099763A1 EP0099763A1 (en) 1984-02-01
EP0099763B1 true EP0099763B1 (en) 1986-07-16

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EP83401000A Expired EP0099763B1 (en) 1982-07-08 1983-05-19 Toner powder applicator on the imaging roller of a non-impact printer

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US (1) US4492178A (en)
EP (1) EP0099763B1 (en)
JP (1) JPS599683A (en)
DE (1) DE3364509D1 (en)
FR (1) FR2530044A1 (en)

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JPH0791802B2 (en) * 1986-06-12 1995-10-09 大成ロテック株式会社 Water-permeable pavement
JPH0371132A (en) * 1989-08-10 1991-03-26 Brother Ind Ltd Coating device for color developer
WO1993014446A1 (en) * 1992-01-20 1993-07-22 Seiko Epson Corporation Printing method and apparatus
US20110170914A1 (en) * 2010-01-14 2011-07-14 Grabb Dennis J Magnetic arrangement in a development roller of an electrostatographic printer
CN113399219B (en) * 2021-07-02 2022-06-17 上海智联精工机械有限公司 SAP granule sprinkling device and absorption articles for use equipment

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GB1270476A (en) * 1970-06-23 1972-04-12 Standard Telephones Cables Ltd Magnetic powder transport mechanisms
US4051484A (en) * 1975-11-03 1977-09-27 Martin Samuel W Magnetic printer and method of performing same
US4170287A (en) * 1977-04-18 1979-10-09 E. I. Du Pont De Nemours And Company Magnetic auger
US4185130A (en) * 1977-04-18 1980-01-22 E. I. Du Pont De Nemours And Company Magnetic image decorator

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JPS599683A (en) 1984-01-19
DE3364509D1 (en) 1986-08-21
US4492178A (en) 1985-01-08
FR2530044A1 (en) 1984-01-13
JPH0434749B2 (en) 1992-06-08
EP0099763A1 (en) 1984-02-01
FR2530044B1 (en) 1984-12-07

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