EP0394228B1 - Development station for an electrophotographic printing or copying machine with a device for preventing entrainment of the mixture - Google Patents

Abstract

To prevent entrainment of the mixture in the development region of an electrophotographic printing device, the mixture carpet is guided to the development gap so that the mixture carpet (23) in the development gap (11, E) has a width, in relation to the magnetic bars (N2) acting in this region, which extends over the width of the uniform magnetic field of the magnetic bars, excluding the non-uniform magnetic field (R). The mixture carpet (23) is guided as desired by matching the lengths of the magnetic bars (N, S) and/or by mechanical guiding or limiting elements (25, 28).

Description

The invention relates to a developer station for an electrophotographic printing or copying station according to claims 1 or 2.

In copier technology and non-mechanical high-speed data printers that work on the principle of electrophotography, charge images are stored on a charge image carrier, e.g. on a photoconductor drum or on a photoconductor tape or directly on special paper and then colored with a black powder (toner) in a developer station. When using a photoconductor drum, the toner image is then transferred to normal paper and fixed on it. Typically, a two-component developer consisting of ferromagnetic carrier particles and toner particles is used for development. This developer mixture, hereinafter referred to briefly as "toner", is transported from a storage container of the developer station with the aid of a so-called magnetic brush arrangement to the charge image on the charge image carrier and is guided past the charge image carrier. The toner particles are then transferred to the charge image carrier by electrostatic forces and adhere there depending on the character.

Such a magnetic brush arrangement is known for example from DE-PS 31 17 238. It consists of a rotating hollow cylinder and a magnet arrangement arranged inside the hollow cylinder. The individual magnets of the magnet arrangement are attached to a carrier. They have alternating polarity in the direction of movement of the hollow cylinder and thus cause the developer mixture to be transported on the hollow cylinder from the storage container to the charge image carrier.

The individual magnets have the shape of a bar. They are homogeneously magnetized over their length and generate a homogeneous magnetic field over their length, which emerges vertically from the hollow cylinder. In the edge areas of the magnetic strip in the vicinity of the side edges of the magnetic strips, this field becomes inhomogeneous due to the edge and takes on the character of a stray field.

In developer stations with developer rollers of the type mentioned, a mixture discharge can occur at the edge regions of the developer roller. This so-called mixture discharge consists of a transfer of developer mixture beyond the surface of the developer roller. I.e. the mixed carpet on the surface of the developer roller widens disruptively.

This local mixture discharge can lead to considerable malfunctions in the printing operation due to mixture jam, imperfections in the printed image and damage to the photoconductor drum.

It has now been found that this overly wide mixing carpet occurs in the feed area of the developer mixture, the developer station in the so-called metering area, when the developer mixture passes between the developer roller and metering bar. The inhomogeneous magnetic field at the edges of the magnetic strips has proven to be the cause of this overly wide mixed carpet.

The mixture discharge is particularly disruptive in the area of the developer gap. Discharge of mixture in this area must be avoided in any case, because this has a direct effect on the inking and thus the print quality of the photoconductor drum.

To avoid the mixture discharge, it is known from US Pat. No. 3,754,526 to make the axial length of the magnetic strips in the direction of movement of the developer roller shorter in front of the developer gap than the axial length of the magnetic strips in the developer gap.

Furthermore, US Pat. No. 4,246,867 describes a developer station in an electrophotographic printing device in which the width of the mixed carpet on the developer rollers is controlled via the length of the magnetic strips.

Mechanical limiting elements for narrowing the developer mix carpet are known from JP-A-61-230176 (abstract) and JP-A-60-41067 (abstract). JP-A-60-41067 describes the use of non-magnetic guide elements to form a metering gap, the gap length of which is shorter than the magnetic bar of the developer roller following in the direction of toner transport.

The object of the invention is to design a developer station of the type mentioned so that, starting from a metering area, a developer mixture is fed to the developer gap in such a way that a uniform distribution of the mixture carpet without mixture discharge results in the region of the developer gap.

This object is achieved in a developer station of the type mentioned in accordance with the features of the first and second patent claim. Advantageous embodiments of the invention are characterized in the subclaims.

The mixed carpet is guided in the conveying area in such a way that it has a width in the developer gap, based on the magnetic strips effective there, that extends across the width of the homogeneous magnetic field area of the magnetic strips, excluding the inhomogeneous magnetic field area.

This is achieved by mechanical guide or delimiting elements, which in one advantageous embodiment consist of side elements of the developer station housing, which, starting from the developer mixture supply area, are briefly referred to as "toner supply area", extend to the developer gap over the circumference of the developer roller and a guide channel for the mixed carpet that spread from the toner supply area to the developer nip.

Furthermore, the magnetic strips can be shortened in the conveying area in such a way that the mixed carpet is narrowed in width between the toner supply area and the developer gap.

It is only necessary to shorten the magnetic strip in the conveying area. This simple measure alone prevents mixture discharge in the developer gap area,

In the following, the term magnetic strip is used for magnetized areas in the developer roller. These Magnetized areas can be continuous strips, but they can also consist of magnetized partial surfaces of a hollow magnetic roller or be composed of individual bar magnets. What is essential here is their homogeneous magnetic field along the axial extent of the magnetic strips and their field line course perpendicular to the hollow roller of the developer station. The term "magnetic strip" is used for all of these cases.

• FIG 1 eine schematische Schnittdarstellung des Entwicklerbereiches einer elektrofotografischen Druckeinrichtung
• FIG 2 einen schematischen Längsschnitt des Entwicklungsbereiches der FIG 1 entlang der Schnittlinie AB und
• FIG 3 eine schematische Schnittdarstellung einer Ausführungsform mit einer Darstellung entsprechend der Schnittlinie AC der FIG 1.

Embodiments of the invention are shown in the drawings and are described in more detail below, for example. Show it

• 1 shows a schematic sectional view of the developer area of an electrophotographic printing device
• 2 shows a schematic longitudinal section of the development area of FIG. 1 along the section line AB and
• 3 shows a schematic sectional illustration of an embodiment with a representation corresponding to the section line AC of FIG. 1.

In an electrophotographic printing device (not shown here in detail), a charge image is generated in a known manner on a photoconductor drum 10 using a character generator. This charge image is colored in a developer nip 11 with the aid of the developer station shown in FIG. 1. The developer station consists of an actual dimensionally stable station housing 12 with a developer roller 13 rotatably mounted therein, which is driven by a motor 14. Instead of the motor 14, it is also possible to connect the developer roller 13 to a central printer drive via a gear. The developer roller 13 contains a hollow roller made of aluminum 15, it is supported on one side via bearings 16 on a housing part. With its other end it is over a bearing 17 guided on a support plate 18. The support disk 18 is fastened in the station housing in a radially adjustable manner by means of an adjusting device 19, it carries a magnetized hollow roller 21 with a plurality of magnetic strips N1, S1, N2, S2 arranged thereon via holding elements 20. In the illustrated case, these magnetic strips represent magnetized regions of the hollow roller 21. Instead of the magnetized regions of the magnetic hollow roller 21, it is also possible to arrange individual magnetic strips on the hollow roller or similar support devices.

By means of the adjusting device 19 in connection with locking screws 22 arranged in elongated holes, the magnetic strips can be adjusted via the magnetic hollow roller in their relative radial position to the hollow roller 15 of the developer roller. This allows e.g. change the position of the magnetic strip N2 effective in the area of the developer gap and thus influence the mixture application in the developer gap 11.

The magnetic strips N1, S1, N2, S2 consist of homogeneously magnetized areas that have a homogeneous magnetization over the entire length L. At the edges R, the emerging magnetic field lines have an inhomogeneous distribution.

The magnetic strips N, S are arranged on the magnetic roller 21 parallel to the hollow roller 15. If, as in the exemplary embodiment shown, four magnetic strips are used, the first magnetic strip N1 (magnetic north pole) is assigned to the toner supply area (metering area) D and the following magnetic strip S1 (magnetic south pole) is assigned to the conveying area F. The actual developer zone E with the magnetic strip N2, the so-called coloring magnet (magnetic north pole), adjoins this conveying area F. The developer zone E is followed by an outlet area AU with a magnetic strip S2 (magnetic south pole).

The magnetic strips N, S generate a magnetic field standing vertically on the hollow roller 15 made of aluminum, which results in a brush-like configuration of the developer mixture carpet 23 made of ferromagnetic carrier particles with attached toner particles.

Function of the developer station:

Starting from a toner reservoir (not shown here), the developer mixture is fed in the direction of the arrow shown in FIG. 1 to a metering area D (toner supply area) of the developer station. The metering area contains a metering gap 24 which is delimited on the side by two delimiting elements 28 made of plastic. These limiting elements 28 are made of plastic and can also be formed as part of the side walls of the station housing 12. The delimiting elements 28 are arranged on both sides of the developer roller and, with their edges 29, form a guide channel for the mixed carpet, which extends from the toner supply area to the developer nip over the circumference of the developer roller and which gradually extends from the metering nip 24 to the developer area in accordance with the edge profile of FIG. 2 E expanded.

This expansion can be carried out continuously as in the illustrated embodiment, but it can also be gradual, so that the mixed carpet increases gradually.

The metering gap width SB between the developer roller (hollow roller 15) and the station housing depends on the required metering quantity of the toner and thus on the printing output. The gap length SL in turn depends on the width of the developer gap. The developer gap itself has a length which is somewhat shorter than the length L of the magnetic strips. As a result, a mixed carpet of developer mixture is produced in the area of the developer gap 11, which has approximately the width of the magnetic strip length L.

As already stated, the metering gap is delimited laterally by delimiting elements 28. The metering gap length SL thus becomes shorter than the length L of the magnetic strips. There is an overlap area 26 of 0.1 to 10 mm, preferably 2 to 5 mm. This overlap of the length of the magnetic strips L with the delimiting elements 28 reduces the width of the mixed carpet in the toner supply area D. The mixed carpet edges thus lie within the homogeneous area of the magnetic fields of the developer rollers.

When the developer mixture is transported from the feed region for the developer mixture, referred to as toner supply region D, via the conveying region F to the developer region E, the developer mixture carpet gradually widens until it has a width in the developer nip on the hollow roller 15 which corresponds approximately to the length of the magnetic strip N2.

The mixed carpet is thus in the homogeneous area of the magnetic strip N2 and a lateral mixture discharge at the edges R cannot occur.

After the charge image has been colored in the developer area E, the unused mixture carpet is returned to the developer station with the aid of the hollow roller 15 moved in the direction of the arrow. For this purpose, a scraping element 27 is arranged, which lifts the mixture carpet from the developer roller 13 and feeds it again to the toner supply area via mixing stages (not shown here).

The mixture can also be discharged by directing the mixture carpet by adjusting the length of the magnetic strips prevent. In the embodiment shown in FIG. 3, the transport magnetic strip S1 effective in the conveying area F is shorter on both sides by 1 to 5 mm than the magnetic strips N1 or N2 arranged before and after it. The shortening V of the transport magnetic strip S1 narrows the mixed carpet during transport in this area F, ie it constricts the mixed carpet. Since the magnetic field at the coloring magnet N2 (developer gap 11) extends further outward than the homogeneous magnetic field region of the transport magnetic strip S1, the edges of the mixed carpet are in the region of the developer gap 11 in the homogeneous magnetic field region and a mixture discharge beyond the edges does not occur.

Claims (4)

1. Development station for an electrophotographic printing or copying machine, having the following features:

a) A motor-driven developer drum (13) arranged in a station housing (12) conveys a developer mix carpet (23) in a conveying region (F) from a toner delivery region (D) to a developer gap (11);

b) excess, unused developer is conveyed back into the development station from the developer gap (11) along an outlet region (AU);

c) the developer drum (13) contains a driven, hollow drum (15) having permanent magnetic strips (N, S) arranged axially therein with a uniform magnetic field region extending over their length (L) and a non-uniform region at the longitudinal edges (R) and

d) magnetic strips (S1) assigned to the conveying region (F) are of shortened construction in relation to magnetic strips (N2, N1) assigned to the developer gap (11) and the toner delivery region (D), so that in the conveying region a width constriction of the developer mix carpet (23) is brought about, in such a way that the developer mix carpet (23) extends in the developer gap (11) only over the width of the uniform magnetic field region (L) of the magnetic field strips (N2) located there.

2. Development station for an electrophotographic printing or copying machine, having the following features:

a) a motor-driven developer drum (13) arranged in a station housing (12) conveys a developer mix carpet (23) in a conveying region (F) from a toner delivery region (D) to a developer gap (11);

b) excess, unused developer is conveyed back into the development station from the developer gap (11) along an outlet region (AU);

c) the developer drum (13) contains a driven, hollow drum (15) having permanent magnetic strips (N, S) arranged axially therein with a uniform magnetic field region extending over their length (L) and a non-uniform region at the longitudinal edges (R) and

d) limiting elements (28) are arranged on both sides of the developer drum (13) in the station housing (12), the said limiting elements (28) extending from the toner delivery region (D) as far as the development region (E) over the circumference of the developer drum (13) and forming a guide channel for the developer mix carpet (23), which extends from the toner delivery region (D) as far as the development region (E), in such a way that the developer mix carpet (23) extends in the developer gap (11) only over the width of the uniform magnetic field region (L) of the magnetic strips (N2) located there.

3. Development station according to Claim 2, characterised in that the limiting elements (28) are constructed as formed-out portions of the station housing.

4. Development station according to one of Claims 1 to 3, characterised in that the toner delivery region (T) has a metering gap (24), the gap length (SL) of which is shorter than the active magnetic strip (S1) following in the conveying direction of the mix carpet (23).

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