DE3338692A1 - Method and device for developing a toner image - Google Patents

Abstract

In order to develop a toner image on a photoconductive substrate provided with a latent electrostatic charge image, a magnetic brush consisting of a multipole magnet core and a rotating sleeve surrounding the latter is provided. Situated on the sleeve is a uniform layer of an insulating, magnetic single-component toner having a layer thickness which is at least equal to the developing gap between the sleeve and the substrate. The magnet core is driven to rotate. In addition, a high-frequency AC voltage of more than 15 kHz is applied between the substrate and the magnetic brush.

Description

Method and apparatus for developing a toner image

The invention relates to a method and an apparatus for developing a toner image on a latent electrostatic one Charge image provided, photoconductive pad by means of a magnetic brush, which consists of a multi-pole magnetic core and a rotating sleeve surrounding it is formed, on the circumferential surface of which a uniform layer of an insulating, magnetic one-component toner circulates and which, leaving a development gap, is opposite the substrate being moved by, wherein the magnetic brush is applied to an alternating voltage with respect to the base.

In a known method of the type mentioned (US-PS 42 99 900) the multi-pole magnetic core stands still. Only the sleeve rotates. Opposite a pole of the magnetic core is a Squeegee arranged from megnetisbaren material, which makes it possible is to apply the toner with a very thin layer on the sleeve. The development gap is dimensioned so that in his Area the toner layer maintains a distance to the substrate provided with the charge image. Between the pad and a low-frequency alternating voltage is applied to the magnetic brush, the frequency of which is about 2OO Hz and the voltage of about Should be 800 V. The use of such a thin toner layer is unfavorable because, on the one hand, the amount of toner available for development is relatively low. On the other hand, it becomes necessary to adjust the distance between the base and the toner layer in the Developing gap must be adhered to very precisely, which places very high demands on the tolerances of the bearings of the magnetic brush and of the document. In practice, these tight tolerances can only be achieved with great effort, if at all. In addition, there is the risk that play will occur after a long period of operation, so that the tolerances will not be met

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can be adhered to more, thereby reducing the development result is negatively affected.

In another known method (US-PS 41 21 931) runs on a rotating surrounding a multi-pole magnetic core Sleeve an insulating, magnetic one-component toner with a layer thickness which is such that the toner is the substrate touched. Charging takes place by applying a direct voltage between the sleeve and the substrate carrying the charge image of the one-component toner opposite to the polarity of the areas of the substrate to be developed, thereby causing a toner transfer should be effected. This method makes it difficult to develop fine lines or sharp edges. There In addition, the photoconductive documents cannot be completely discharged, especially in the case of multiple copies, also remain residual charges in the non-image areas. The applied DC voltage then partially takes place in these areas a transfer of the toner, so that there is a disturbing and the copy quality impairing also in these areas Background trains.

The invention is based on the object of creating a method of the type mentioned at the outset, by means of which it is possible Developing fine lines and sharp edges without the risk of background formation, and also adhering to a narrow one Tolerance in the development gap no too high demands are made.

This object is achieved in that the magnetic core is driven to rotate, that the frequency of the alternating voltage is greater than 15 kHz, and that the thickness of the layer of the one-component toner is kept at least equal to the development gap. There is no space between the toner layer and the substrate is adhered to, but rather a contact of the toner layer on the substrate takes place, it is for one possible to provide a relatively thick toner layer and thus to provide a high supply of toner. By

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the direct contact of the toner with the charge image scattering of the field lines of the charge image is avoided, so that the imaging of fine lines is improved. Due to the rotation of the magnetic core and the applied high frequency AC voltage, a combined magnetic-electrical alternating field is obtained, especially the small toner particles set in rapid vibrations. As a result, it is precisely these small toner particles that then settle due to charge differences move through the toner material without major hindrance from larger toner particles can. The supply of small, fine toner particles on the charge image is thus increased, which in particular for an exact one It is beneficial to have sharp edges and fine lines. By increasing mobility, especially the fine toner particles within the layer of the one-component toner, thus becomes a much improved quality of the copy achieved.

An alternating voltage with a frequency of up to 20 kHz is expediently applied. This frequency is so high that the toner particles themselves are not stimulated to translational movements by the electric field, but to be determined is that as a whole the toner layer is loosened. It is advantageous if the alternating voltage has an amplitude of peak to peak of more than 1400 Vpp, preferably more than 1600 Vpp.

In a further embodiment of the invention it is provided that a direct voltage of 30 to 60 V is superimposed on the alternating voltage which has a polarity corresponding to the charge pattern of the substrate. This measure avoids that in the non-image areas, which are particularly important in the case of multiple copies

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May have residual charge, a toner transfer occurs because a potential difference is avoided.

In a further embodiment of the invention, in a device for developing a toner image on a photoconductive substrate provided with a latent electrostatic charge image with a magnetic brush made of a multi-pole magnetic core, which is surrounded by a driven sleeve, which leaves a Development gap opposite to the base moved past the sleeve and the circumference of which is placed in a storage container for a magnetic, insulating one-component toner protrudes, the outlet of which is provided with a doctor blade having a predetermined distance from the sleeve, with a AC voltage is applied, that the distance between the sleeve and the doctor blade is greater than the development gap, that the magnetic core is provided with a rotary drive, and that the frequency of the AC voltage is at least 15 kHz. With the help of this device a combined magnetic, Reached an alternating electric field, which leads to a loosening of the toner material and an increase in mobility in particular small toner particles. The small toner particles can therefore be transferred more easily, which is essentially is caused by the electrostatic field of the charge image on the substrate.

Further features and advantages of the invention emerge from the following description of the illustrated in the drawing Embodiment and the subclaims.

In the drawing, a largely schematic view of the invention is shown Apparatus for developing a toner image shown.

A drum 1 is used as a base, on the outer surface of which a Layer 2 made of photoconductive material, for example Se] s applied which is grounded and thus applied to zero potential. On the layer 2 is a latent in a known manner

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generated electrostatic charge image that is transmitted through an insulating magnetic one-component toner 6 is developed. It finds a magnetic one-component toner of a particle size of 5 to 30 micrometers and preferably 5 to 25 micrometers using a resistor of 1014 ohm cm.

The one-component toner 6 is placed in a storage container 5 which is provided with a lower opening, in the area of which a magnetic brush is arranged. The magnetic brush contains a multi-pole, at least eight-pole magnetic core with magnetic poles which alternate in a regular sequence in the circumferential direction and which each extend in the axial direction. The magnetic core 3 is surrounded by a sleeve 4 made of an alloyed steel. The magnetic core 3 and the sleeve 4 are driven to rotate in opposite directions in accordance with the arrows shown. The sleeve 4 has a speed of the order of 200 to 270 min "1, while the magnetic core 3 is driven at speeds of the order of 1000 to 1350 min" ¹ . A speed ratio between sleeve 4 and magnetic core 3 of approximately 1: 5 is preferably maintained. As a result of the rotation of the sleeve 4 and the magnetic core 3, the one-component toner 6 is conveyed on the sleeve 4 in the circumferential direction, specifically with a direction of movement against the direction of rotation of the magnetic core 3. The thickness of the layer 8 of one-component toner 6 surrounding the sleeve 4 is determined by a Squeegee 7 limited, which is directed with a cutting edge radially to the sleeve 4 and which is attached to the storage container 5. The doctor blade 7 is arranged at a radial distance a ₂ from the sleeve 4, by means of which the thickness of the layer 8 is determined.

The squeegee 7 consists of a magnetizable material, for example a sheet steel, so that due to the interaction between the magnetic core 3 and the blade of the squeegee a thickness for the layer 8 is established which is slightly smaller than the distance a _o .

The axes of the magnetic brush and the drum 1 are parallel to each other. The magnetic brush is arranged such that a development gap a .j is maintained between the sleeve 4 and the layer 2 of the drum 1, which is of the order of magnitude of 0.25 to 0.4 mm. The distance a ₂ between the doctor blade 7 and the circumference of the sleeve 4 is set so that the layer thickness of the layer 8 of one-component toner 6 corresponds to at least the size of the development gap aj and is preferably slightly larger, ie about 5 to 15%.

On the sleeve 4, which is preferably electrically conductive, but can also be provided with a thin electrically insulating coating can, a high-frequency alternating voltage is applied by means of a generator 9, which is superimposed with a weak direct voltage is. The DC voltage, which is 30 to 60 V and preferably 40 V, has a polarity that corresponds to the polarity of the image areas of the charge pattern of layer 2 corresponds. The preferably sinusoidal alternating voltage has a frequency of more than 15 kHz and which are preferably in the range of 18 to 20 kHz. The amplitude of the alternating voltage is from peak to peak Peak 1600 Vpp. In a preferred embodiment it is provided that the peripheral speed of the photoconductive Layer about 10 to 15 cm / sec. amounts to.

Through the combination of the applied high-frequency alternating field in connection with that produced by the rotation of the magnetic core 3 magnetic alternating field and in connection with touching the layer 8 of one-component toner are very good development results achieved, which are based on the fact that in particular the mobility of the small toner particles is increased, so that with fine lines and sharp edges there is a relatively high supply of these fine toner particles. By touching the layer 8 of the one-component toner 6 with the photoconductive layer 2 a scattering of the field lines of the charge image is avoided, see above that in combination with the other measures a very sharp image is obtained. In addition, the superimposed DC voltage prevents background formation from occurring even with multiple copies.

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Claims (9)

- ':': '. PAT E fi TAN WXLTB- 'DR.- ING. H. H. WtLK E LV. - DIPL.- ING. H. DAUSTER D-7000 STUTTGART 1 · GYMNASIUMSTRASSE 31B- TELEFON (0711) 291133/29 28 applicant; Stuttgart, October 24, 1983 Develop Dr. Eisbein GmbH & Co. JJ81 / | ± Dieselstrasse 8 Gerlingen 1 claims 1. Method of developing a toner image on a with a photoconductive substrate provided with a latent electrostatic charge image by means of a magnetic brush, the is formed from a multi-pole magnetic core and a rotating sleeve surrounding it, on its peripheral surface a uniform layer of an insulating, magnetic one-component toner circulates and which is left in place a development gap of the moving-past base is opposite, the magnetic brush with respect to the base an alternating voltage is present, characterized in that the magnetic core is driven to rotate the frequency of the alternating voltage is greater than 15 kHz, and that the thickness of the layer of one-component toner is at least the same size as the development gap is kept. 2. The method according to claim 1, characterized in that an alternating voltage is applied at a frequency of 18 to 20 kHz will. 3. The method according to any one of claims 1 or 2, characterized in that that the alternating voltage has a peak-to-peak amplitude of more than 1400 Vpp, preferably more than 1600 Having Vpp. 4. The method according to any one of claims 1 to 3, characterized in that that the layer of toner rotates in the development gap in the direction of movement of the base. 5. The method according to any one of claims 1 to 4, characterized in that that a direct voltage of 30 to 60 V is superimposed on the alternating voltage, one of which is superimposed on the charge pattern the polarity corresponds to that of the base. 6. The method according to any one of claims 1 to 5, characterized in that that a one-component toner with a resistance of about 10 '^ ohm cm and a particle size of about 5 μ to 30 μ is used. 7. Device for developing a toner image on a with a photoconductive base provided with a latent electrostatic charge image with a magnetic brush made of a multi-pole magnetic core, which is surrounded by a driven sleeve, which leaves a development gap opposite the pad moved past the sleeve and the circumference of which is in a storage container for a magnetic, insulating one-component toner protrudes, the outlet of which at a predetermined distance from the sleeve having squeegee is provided, characterized in that the distance (a ^) between the sleeve (4) and squeegee (7) is greater than is the development gap (a-j), the magnetic core (3) with a Rotary drive is provided, and that the frequency of the AC voltage is at least 15 kHz. 8. Apparatus according to claim 7, characterized in that the doctor blade (7) made of a magnetizable material is. 9. Apparatus according to claim 7 or 8, characterized in that that the sleeve (4) is driven to rotate in such a way that it moves in the same direction in the development gap (a ^) moved with the base (2), and that the magnetic core (3) is driven in the opposite direction to the sleeve (4). -4-