DE1522685B2 - ELECTROPHOTOGRAPHIC CASCADE DEVELOPMENT DEVICE - Google Patents

Description

35

The invention relates to a cascade electrophotographic developing apparatus for development of a charge image on a recording medium with a two-component developer, which several elongated and evenly spaced parallel to the surface of the recording medium having arranged electrodes, which are electrically connected to ■ a reference voltage.

Such from US-PS 31 47 147 known developing device has several plate-shaped Electrodes, each in parallel and perpendicular to the axis of rotation of the drum-shaped image plate arranged levels lying with the help of a bolt running approximately through the center of the plate in the are arranged uniformly spaced from one another and from the surface of the drum-shaped image plate. the The edges of the plates facing the drum surface correspond to the curvature of the surface The drum is arcuately shaped so that each lower edge of the plate-shaped electrodes has a certain circumferential sector of the drum has an equal distance from the drum surface. Above the the highest point of the electrodes thus extending over the circumferential sector of the drum Formed development zone, an outlet is provided for the developer material, which over the The drum surface trickles out downwards and is collected again below the developer zone. The Z. B. from a two-component developer existing developer material so trickles into contact adjacent to the surface of the image plate between the drum surface and the drum surface Edges of the plate-shaped electrodes down, so that the minimum distance between an adjacent Edge of the electrodes and the surface of the image plate larger than the largest possible particle diameter of the Must be a developer. On the other hand, it is known that the beneficial effect of development electrodes, which are connected to a certain reference potential, the greater the smaller the distance between the charge image to be developed and the developer electrode. As with the known Duplicators this distance, however, is limited by the largest possible particle size, are also available with this known device is not yet able to achieve optimal development performance.

The object of the invention is to provide a new electrophotographic developing device in which the development electrodes are formed and arranged so that each of the smallest possible spacing between the surface of the recording medium to be developed and the development electrodes adhered to and thus an optimal effect of the development electrode is achieved.

In the case of a developing device of the type mentioned f * this object is achieved according to the invention in that the electrodes are flexible on the over Recording media .. trickling down developers are floating elongated elements, one of which Ends are attached to a holding device.

By designing the electrodes in the form of freely above the surface of the recording medium hanging elongated elements, each with only one of their ends on a holding device are attached, these electrode elements can be in direct contact with the over the surface the developer trickling down from the recording medium floats on the developer layer thus formed, see above that in each case the smallest possible distance between the electrode elements and the surface of the recording medium depending on the thickness of the developer layer given by the maximum particle size of the developer is automatically complied with. The elongated electrode elements can be flexible Chains or the like. Be constructed in an extremely simple manner, using the on the holding device ^ j fastened'end at the same time also electrically with the ν each desired reference voltage can be connected. As a result of the automatically observed smallest possible distance between the development electrodes and the surface of the development The recording medium achieves an optimal development performance not previously known.

Further refinements relating to the special design of the new developing device of the invention are specified in the subclaims.

An embodiment of the new developing device is shown in the drawing. In detail demonstrate

Fig. 1 schematically shows an automatic copier with the new developing device and

F i g. FIG. 2 is a perspective illustration of an enlarged view of the developing device shown in FIG Fig. 1 is shown.

In the device shown, an original to be reproduced lies on a support plate 10 from which it rests a transport device generally designated 11 is moved. The transport device consists of a motor 12 driven endless belt 13,,

through which the original is moved through the optical axis of the projection lens system 14 which is passed through a projection lamp LMP-I is illuminated. The image of the original is through the mirror 15 through a adjustable objective lens 16 reflected and then through the mirror 17 downwards through a changeable Slit diaphragm arrangement 18 on the surface of an electrophotographic recording medium in the form a drum 19 is reflected.

The drum 19 contains a cylindrical member supported in suitable bearings in the machine frame, the clockwise driven by a motor 24 at constant speed proportional to the The transport speed of the original image is, thereby reducing the peripheral speed of the drum surface is equal to the speed of movement of the reflected light image. The drum surface contains a layer of photoconductive material on a conductive backing that, prior to exposure, passes through Charging to about 300-1000 volts by means of a corona generating device 25 sensitive to light is made.

When the drum is exposed to the light image, the photoconductive layer becomes in the through the image areas hit, leaving a charge image on the drum that resembles that of the Corresponds to the original projected light. As the drum surface continues to move, it wanders Charge image through a development station, 26, in "*" " which a two-component developer 27 over the drum surface by means of a developing device 28 is cascaded. As will be described below, developer electrodes 23 are in contact with the flow of developer as it cascades across the drum surface.

In the developing device, the developer is received by a conveyor 29 which passes through suitable transmission devices are driven by the motor 30. The developer will work on a Chute 31 poured from where it cascades downwards over the drum surface. The developer toner, that is consumed in the development is stored in a distributor 33 and is through a Gate 34 released in controlled amounts.

After development, the toner image arrives at an image transfer station 42 where it is electrostatically deposited a carrier tape 43 delivered from a supply roll 45 via guide rollers 46 with the aid of a second Corona generating device 44 is transferred to that of the aforementioned corona generating device 25 equals. The carrier tape 43 is then placed on a take-up roller 52 driven by a motor 53 rolled up.

After the carrier surface has been separated from the drum, it is generated with the help of a corona Device 54 and a cleaning station 55, in which a brush 56 driven by a motor 57 is arranged, cleaned. Thereafter, the drum surface is passed through a second discharge station 58 moved, in which it is illuminated by a fluorescent lamp LMP-3, so that any remaining electrostatic Charge is removed.

The new developing device is explained in connection with FIG. A grounded conductive Support rod 70 adjoins the lower end of the chute 31 and extends axially parallel to the drum 19 transversely over their circumferential surface. The rod has several similar, spaced apart Turns 71, on which hanging and freely floating flexible and relaxed elongated electrode elements 72 are attached. These electrode elements contact the developer and are therefore of the image bearing surface of the drum closely adjacent and together form a shield of elongated Electrodes opposite the drum surface. Each of the electrode elements 72 consists of, one electrically conductive material and is substantially relaxed when it is removed from the mounting bracket hangs down in order to be able to follow the contour of the developer flow that carries it as closely as possible. As particularly suitable for this purpose, for. B. articulated ball chains with a diameter of 1 mm made of sterling silver and 2 mm made of brass. Chains with smaller dimensions down to the bottom about 0.13 mm are also usable, as well as Chains up to 2.54 mm. The chain dimension per se is not critical as long as the chains are cascaded from the chain Developer are carried, so kept out of contact with the photoconductor surface.

Since the chains rest on the flowing developer, a certain resistance is exerted on the chains exerted, which depends on the flow properties of the developer. To work properly to allow, the edge distance between adjacent chains should be sufficient to allow a non-uniformity in the electrode action does not occur, which is at distances of about 2.54 mm and about it is the case. At distances of slightly above 2.54 mm and the chain sizes specified above The developer layer obviously cannot support the chains, so that they fall through the current and come into contact with the photoconductive surface. The electrode length is not critical, but it should be in substantially correspond to at least the length of contact between the developer and the peripheral surface.

So that the developer layer has a sufficient load-bearing capacity for the electrodes, the amount is of the developer flowing down from the chute 31 is controlled. This is done by means of a gate or a Slider 73 causes the through a slot 74 in the front wall of the developer housing partially in the opening 75 extends into it, through which the developer exits onto the chute 31. Through suitable Adjusting the slide 73, a desired opening size can be set. It is established that with a developer rate of about 1.13 to 1.36 kg / min, and one per 2.54 cm drum width Thickness of the developer layer of 0.32 cm is achieved, in which high quality copies result, im Compare to 4.53-5.44 kg / min. in previous proceedings.

Since the developer cascades from the chute, the electrode elements themselves are on the developer stream on, touching it, causing them to some extent by the force of the developer moving past be pulled forward. With complete relaxation of those in contact with the developer Electrodes they can individually follow the current contour of the developer, so that they are uniform in close proximity Distance from the drum surface. Due to the small distance between the Electrodes and the drum surface, a maximum field correction is achieved, whereby the development also the middle parts of contiguous image areas is made possible. As mentioned above, this is Result cannot be achieved with previous devices.

Particularly satisfactory results are obtained with the new device at drum speeds of about 1.3 to 20.3 cm / sec has been achieved.

Instead of grounded electrodes, electrodes with a fixed one can also be used Voltage biased, which is generally greater than that on the background of unexposed Areas of the recording medium retained potential in order to suppress a development on these. Due to increased drum speeds, the electrode spacing does not necessarily have to be Affected while developer flow rate, weight of the relaxed electrode on one optimal setting are of influence.

1 sheet of drawings

Claims (5)

Patent claims: 1. Electrophotographic cascade developing device for developing a charge image on a recording medium with a two-component developer, which has several elongated and electrodes arranged at a uniform distance parallel to the surface of the recording medium which are electrically connected to a reference voltage, characterized in that that the electrodes (72) are flexible on the developer trickling down over the recording medium (19) are floating elongated elements, one end of which is attached to a holding device (70, 71) are attached. 2. Apparatus according to claim 1, characterized in that the recording medium is an electrophotographic Drum (19) is. 3. Apparatus according to claim 1 or 2, characterized in that the electrodes are loose hanging, electrically conductive chains (72) exist. 4. Apparatus according to claim 3, characterized in that the chains (72) consist of balls and sleeves whose balls have a diameter of up to 2 mm, and that the chains (72) on the carrier device (70) at a distance transversely to the drum surface are arranged up to 2.5 mm. ^ - " 5. Device according to one of claims 1 to 4, characterized in that a device (73) provided for controlling the amount of developer material supplied to the recording medium is.