DE2914591A1 - MAGNETIC DEVELOPER POWDER - Google Patents

Description

" ⁴ " 29U591

DESCRIPTION

The invention relates to a magnetic toner for uncoated paper copiers (PPC, Pain Paper Copier). The accompanying drawing is a schematic view of a duplicating machine for PPC, wherein 1 is a drum for clear Fipf in ^ Ti rb ° ?? Mat «- ir ·. 1 1 ν. ean ^ Scb.icbf made of light-sensitive mat-cX'ial ju ua txiit selenium layer, 1b an aluminum drum, 3 and 4 a device for generating a corona discharge, 5 an exposure device, 6 a toner container, 7 a cylindrical aluminum jacket, 8 a magnetic roller, 9 denotes a recording sheet and MT denotes the magnetic toner.

The device 3 for generating the corona invitation provides the photosensitive layer 1a with an electrical one Charge. When the photosensitive layer 1a is formed from selenium, the surface potential is in the range between 600 and 900 V. When the exposure is carried out with the exposure device 5, the exposed ones lose Zones of the photosensitive layer 1a their electric charge, so that an electrostatic latent image trains. Assuming that the cylindrical shell 7 is stationary and the magnetic roller 8 rotates clockwise, The magnetic toner MT removed from the toner supplying container 6 is raised in the counterclockwise direction displaces the cylindrical shell 7 and comes into contact with the photosensitive layer 1a. By rubbing of the photosensitive layer 1a with the magnetic brush formed by the magnetic toner MT the electrostatic latent image on the photosensitive layer 1a is developed. That so developed electrostatic latent image is created using the

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Device 4 for generating a corona discharge transferred to the recording paper 9 and then on this by means of a fixing device, such as an oven or a pair of rollers.

In general, the lower the resistivity of the magnetic toner in the development stage, the better an image is developed, and that ei-I: C1l uiccr · grCI'c ^ c ^f 'bc / gr: zs ^ i Vonys : _, - · rl ιυκί ejn ηιτι.υ ·, -> the higher the specific resistance of the magnetic toner in the transition stage, the better the image with less blurring of the image. In order to meet such conflicting requirements, various countermeasures have been proposed, such as using magnetically anisotropic magnetic particles. Magnetic toners containing anisotropic magnetic particles have a decreased specific resistance at the time of development because the magnetic particles are aligned in a row in the development stage and the magnetic attraction force increases the contact pressure between the toner particles and thus decreases the contact resistance.

But not only the specific resistance of the total measured toner particles is necessary for a clear copy, but also the electrical properties of the core part and its structure are important for this.

Against this background, it is the object of the invention to provide a magnetic toner for copying with uncoated paper, which has excellent development and Has electrostatic transition properties. For this the phenomenon is exploited that the resistivity of magnetic toner on the strength of the applied electric field depends.

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The accompanying drawing is used to explain the principle of a copier for PPC using the magnetic one Toners according to the invention.

It denotes 1 a photosensitive drum, 1a a layer of photosensitive material such as selenium, 1b an aluminum drum, 3 and 4 devices for generating a corona discharge, 5 an exposure device, 6 a toner injection container, ⁿ pin zy.1 indri whpn Aluininiuxmaantel, 8a Maguei.v, 'ai ^ _L. , 9 record:;. Pcip.t ei and MT magnetic toner.

An undesirable edge effect of a developed image decreases when the content of magnetite contained in the core part (Fe3Ü4) or soot increases.

The carbon black in the core part is not necessary if the core part is more than 65 percent by weight Ye- ^ i ₁ . contains.

The soot in the core part, on the other hand, is necessary if the core part only contains less than 65 percent by weight of magnetite-- (Fe3Ü4-) Contains particles.

In fact, soot particles are then necessary in an amount between 2 and 5 percent by weight in the core part to prevent an undesired To prevent edge effects in the developed image, which would otherwise occur with less than 65 weight percent magnetite particles in the toner particles.

On the other hand, there are carbon black particles attached to the surface of the core part to increase the mobility of the toner particles and preferred for controlling the resistivity of the toner particles. Too much carbon particles on the core part cause stains around a developed image. The proportion of carbon black particles adhering to the core part is preferable between 0.05 and 0.5 percent by weight.

The proportion of magnetite should be greater than or equal to 50 percent by weight, preferably 60% by weight in order to impart sufficient permeability to a toner particle. A developer powder with less than this weight fraction of magnetite particles can be fixed easily,

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however, the small amount of magnetite causes it to be scattered during development out of the developing _device and also causes a low contrast of the developed image. On the other hand, when the proportion of magnetite particles becomes high, it becomes difficult to bind the magnetite particles by a thermoplastic material.

A developed image is obtained on the paper, which because of the clay nater ta. < - .; ejue rauhttübet hood shows, and besides, the image is not sufficiently fixed on the paper. The preferred proportion of Fe3O4 is between 50 and 75, in particular 70 percent by weight.

The invention is described below with reference to the accompanying drawing.

As stated above, the surface potential is 600 to 900 V if the photosensitive layer is made of selenium is trained. The cylinder jacket 8 made of aluminum is usually grounded, and the surface of the photosensitive Drum 1 is at a distance of about 0.5 mm from the cylinder jacket 7. Therefore, the strength of the electric is Field between the photosensitive drum 1 and the cylinder jacket 7 in a range between 12000 and 18000 V / cm. The voltage to be applied to the device 4 for generating a corona discharge is 6000 V, with the gap between the corona generating device 4 and the photosensitive drum is of the order of magnitude 10 mm.

Therefore, the electric field strength between becomes more photosensitive Drum 1 and corona generator 4 approximately 6000 V / cm. Experimentally it has been shown that the requirements to a magnetic toner for PPC which has excellent developability and static transferability, are as follows: at the electric field generated in the development stage of about 12,000 V / cm

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the intrinsic electrical resistance of the powder in the range between 10 '"' and 10 ⁶ Jd - cm; with the electrical field generated in the step for the static transition of approximately 6000 V / cm, the intrinsic electrical resistance is in the range between 10 ^ and 10 · JZ-cm; and finally, the inherent electrical resistance of the powder is higher with an electric field of about 6000 V / cm than with an electric FpId of about 1200π v / cm.

The magnetic toner according to the invention contains mainly thermoplastic resin and magnetic powder, with a resistance modifier and pigments added if necessary. As for the thermoplastic resin, it is possible to use polyethylene wax, epoxy resin, styrene resin, acrylic resin, etc. The intrinsic electrical resistance of EVA (ethylene-vinyl acetate copolymer), and polyethylene wax under the above-mentioned resins is about 10 '' _ O_-cm, while that of the epoxy resin approximately 10 ', is -cm · _ * \ i. Examples of magnetic powder that can be used are magnetite, Fe3O ^, and ^ iron (III) oxide, Fe ₂ O3. The specific resistance of this magnetic powder is 10 TL-cm. Electrically conductive carbon black can be used as a conditioner for the specific resistance. Its specific resistance is 10 ~ "2 _Q_-cm. In the following embodiments of the invention are given.

EXAMPLE 1:

Epoxy resin (manufacturer Shell Corp., trade name EPON ^R 1004) 32 percent by weight

Magnetite (manufacturer Toda Industries, trade name EPT ^R 1000) 65 percent by weight

Carbon black (manufacturer Mitsubishi Industries -

No. 50) 3 percent by weight

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These components are mixed in a high-speed mixer under dry conditions at room temperature and then kneaded at 403 K (130 ° C). The mixture is cooled to solidify, pulverized and classified by air treatment to obtain particles from 10 μm to 25 μm. The powder fractions obtained are mixed with 0.3 percent by weight of electrically conductive carbon black. The resulting mixture with the carbon black is introduced into a stream of air and treated for about 623 K (350 ° C), whereby the electrically conductive carbon black is attached to the particle surface. The particles are then subjected to air treatment to obtain powder fractions from 10 μm to 25 μm. The magnetic toner mass obtained in this way shows a specific electrical particle resistance of 2 · 1 O ^ ⁴ ^ X * - cm in an electric field of 6000 V / cm and a specific particle ^{resistance becomes 8 · 10 10} -TL - cm in an electric field of 12000 V / cm. The specific electrical particle resistance is determined as follows: A hole 3 mm in diameter is drilled through a rod made of tetrafluoroethylene or Teflon ^ with a diameter of 25 mm, a lower electrode is inserted into this and the magnetic toner to be examined is packed on it. An upper electrode is placed on this magnetic toner and charged with 200 g in order to compress the toner mass.

The voltage applied between the upper and lower electrodes is adjusted so that the magnetic toner mass is subjected to an electric field of 6000 V / cm, the resulting electric current determining of the particle electrical resistivity of the magnetic toner. In the same way, lets the specific electrical particle resistance of magnetic toner under an electrical field of 12,000 V / cm determine.

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EXAMPLE 2:

Wax (manufacturer Mitsui Petrochem. Co. -

HIWAX ^R 400P) 30 percent by weight

EVA (manufacturer Mitsui Petrochem. Co. -

EVAFLEX ^R 220) 6 percent by weight

(Manufacturer Titanium Industries, particle size 0.3 μm) 60 percent by weight

RnF (manufacturing "Mitsubi .nh.i Chcn". Ind.

No. SO) Ί Cl'iwicaL

These components are in dry conditions

mixed at room temperature in a high speed mixer, then melted, then kneaded and allowed to solidify cooled, pulverized and used to obtain particles of

₁ 1- 10 μΐη to 25 μΐη classified by air treatment. The powder fractions obtained are mixed with 0.2 percent by weight of electrically conductive carbon black. The resulting mixture is introduced into a stream of air and heat treated at approximately 623 K (350 ° C), whereby the electrically conductive soot is fixed to the particle surface. The particles are then subjected to air treatment to obtain sorted powder fractions from 10 μΐϋ to 25 μπι. The magnetic toner mass obtained in this way shows a specific electrical particle ^{resistance of 5 · TO 11} Xl-cm in

“- an electric field of 6000 V / cm and a specific one electrical particle resistance of 8 x 10 XL-cm in an electric field of 12,000 V / cm.

From the above description it follows that the invention obtained toner its specific electrical

-. “Particle resistance in the development stage automatically increased and automatically decreased in the electrostatic image transfer stage so that the magnetic Toner as well as its developmental properties with regard to its electrostatic transfer characteristics, excellent properties for use for

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PPC has. The previous description has been made with reference to a copier using a selenium drum as the photosensitive drum, but the invention has excellent results also with regard to copiers with drums coated with ZnO as a photosensitive material shown.

EXAMPLE L 3t

Wax (manufacturer Mitsui Petrochem. Co. -

HIWAX ^R 200P) 24 percent by weight

EVA (manufacturer Mitsui Petrochem. Co. -

EVAFLEX ^R 220). 6 percent by weight

Magnetite (Toda Industries - EPT ^R 1000) - 70 percent by weight

These components are mixed in a high speed mixer under dry conditions at room temperature, then melted, kneaded, cooled to solidification and pulverized and to obtain particles between 10 and μπι 25 μπι classified by air treatment. The powder fractions obtained are mixed with 0.5 percent by weight of electrically conductive carbon black. The resulting mixture with carbon black is introduced into a stream of air and heat treated at approximately 623 K (350 °) with the electrically conductive soot attached to the Particle surface is fixed. Then the particles

subjected to air treatment to obtain sorted powder fractions from 10 μm to 25 μm. The magnetic toner mass obtained in this way shows a specific electrical particle resistance of 1 × 10 12 -il-cm in an electric field of 6000 V / cm and a specific particle resistance of 1 × 10 JZ-cm in an electric field of 12000 V / cm.

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EXAMPLE 4:

Epoxy resin (manufacturer Shell Corp. -

EPON & 2057 GP) 30 percent by weight

Magnetite (manufacturer Kanto Denka -

KBCR100) 70 percent by weight

These components are in dry conditions at room temperature i; ·: a Hcchgeschviind.igJcco Lsnüpoher mixed and then kneaded at 403 K (130 ° C). The mixture is cooled to solidify, pulverized and to obtain particles between 10 pm and 25 μm by air treatment classified. The powder fractions obtained are mixed with 0.07 percent by weight of electrically conductive carbon black. The resulting mixture with carbon black is in a Air flow 'introduced and at about 623 K (350 ° C) heat-treated, whereby the electrically conductive carbon black is fixed to the particle surface. Then the particles to obtain sorted powder fractions between 10 μπι

and 25 μΐη subjected to an air treatment. The magnetic toner mass obtained in this way shows a specific electrical particle resistance of 1 · 10 ^ 5 ^ _- _cm in an electric field of 6000 V / cm and a specific electrical particle resistance of 2 · 10 ^ _J2_-cm in an electric field of 12,000 V / cm .

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Claims (1)

SHIP ν. FÜNER STREHL SCHÜBEL-HOPF EBBINGHAUS FINCK MARIAHILFPLATZ S & 3, MÖNCHEN 9O ^ S? I. POSTAL ADDRESS: POSTFACH 95 016O, D-8OOO MÖNCHEN 9b HITACHI METALS, LTD. April 10, 1979 DEA-5890 Magnetic developing powder PATENT CLAIMS 1 «dry development powder, marked by a core part and electrically conductive particles adhering thereto, the core part being 50 to 75 percent by weight of magnetically permeable particles and 0 to 5 percent by weight of electrically conductive particles, which are bound by 25 to 50% by weight of a thermoplastic resin, and that the developing powder a specific electrical resistance £ -j between 909842/0916 -2- 29U591 see 10 ^ ° and 10 ' ⁶ JTL-cm with a constant electric field of about 6000 volts / cm and a specific electrical resistance P 2 between 10 and 10 .Qj ~ cm with a constant electric field of about 12000 volts / on, where % q is greater than ^ 2 . 2 "and rock development powder according to claim Ί, characterized in that the magnetically permeable particles are formed by 65 to 75 percent by weight of magnetite ^ 63O ₄ -) particles, and that a proportion of soot particles in an amount of 0.05 percent by weight to 0.5 percent by weight mixed with the core part at a temperature higher than room temperature adheres to the surface thereof. 3. Dry developing powder according to claim 1, characterized in that the magnetically permeable particles are formed by 50 to 65 percent by weight of magnetite ' {FejO ^ -) particles, that the electrically conductive particles bound by the thermoplastic resin are 2 to 5 percent by weight of soot particles, and that a proportion of carbon black particles in an amount between 0.05 and 0.5 percent by weight mixed with the core portion at a temperature higher than room temperature adheres to the surface thereof. 909 8 4 2/0916 29U591 4. Dry developing powder according to one of the claims 1 to 3, characterized * that the percentage by weight of magnetically permeable particles is 60 to 70 and the percentage by weight of the thermoplastic resin is 5 to 30. 9 0 9 8 A 2/0 M.