DE2462325C3 - Electrophotographic developing device - Google Patents

Description

The invention relates to an electrophotographic developing device according to the preamble of claim 1.

Such a developing device is described in DE-OS 22 33 628. In this developing device the developer liquid flowing off from the development station is stored in a container collected and returned from there via the filter to the storage container. With the filter will be Dust particles and agglomerated toner particles are filtered out of the liquid. With this well-known Development device, however, it is disadvantageous that the surface of the filter through relatively quickly the dust particles and the agglomerated toner particles are added and thus the filter is clogged, so that this must be cleaned or replaced frequently.

It is an object of the invention to provide an electrophotographic developing device according to to create the preamble of claim I, in which the filter is operational for an extremely long time remain

This object is achieved according to the invention with the in the characterizing part of the new claim I specified features solved.

Accordingly, the filter is arranged in such a way that the developing liquid flowing back impinges on an inclined impact section of the filter. In this way, by means of the kinetic energy of the carrier liquid and the toner particles obtained during the return flow, the caking toner particles are separated from one another and practically pulverized when they hit the impact section. In addition, the inclination of the impact section ensures that the toner particles and also dust or other contaminants are quickly flushed further and therefore this impact section is not clogged. Compared with the known electrophotographic developing device, there is therefore the essential advantage that the filter not only has a filter function, but also mechanically crushes clumps of toner so that they do not lead to clogging of the filter.
ϊ According to claim 2, an advantageous embodiment of the development device is that the filter is arranged in this way within the storage container. that the baffle section during the circulation of the developer liquid above the liquid level

ι »is exposed This ensures that a may not yet be crushed and in shape at the first impact smallest toner particles washed away toner aggregation further the impact of subsequent developer liquid is exposed until it is finally completely reduced in size.

Another advantageous embodiment of the development device consists according to claim 3 in that the baffle section in nichtverbinduüerender Developer liquid below the developer liquid

M keitsspiegel lies. This way it is at rest the developing device ensures that any build-up of toner remaining on the baffle section remain wetted and are not solidified by drying, which is the case with the following start-up could interfere with the filter function.

The invention is explained in more detail below on the basis of exemplary embodiments with reference to the drawing
F i g. 1 is a cross section of an embodiment of FIG

J "developing device and shows the flow of the Developer liquid.

F i g. 2 is a longitudinal section through the device according to FIG. 1.
F i g. 3 is a perspective view of a filter.

J> Fig.4 shows a further embodiment of the Developing device.

F i g. Fig. 5 shows a third embodiment of the developing device.
Based on the F i g. 1 to 3 is the first design

• Described as an example of the developing device.

According to Fi g. 1 and 2, developer liquid 222 is stored in a developer container 221 and is filtered through a filter 223. A motor 224 is provided with an impeller 225 with which the developer fluid

-15 fluid 222 is supplied to a developing electrode section A. In a portion of a pump housing 226 an outlet opening 227 is formed which is connected to a tube 228, the other end of which is detachably connected to a connecting piece 230 of a development

5 "is connected to the master electrode 229, which is located in the developing electrode section A. On a photosensitive drum 231 is photosensitive material with a photosensitive layer which is covered with a transparent insulating layer

5ϊ Drum 231 is carried by a shaft 232 and is surrounded by various devices for generating the charge image. Below the drum 231 is at a distance / the curved developer electrode 229 for applying a development bias

fto placed on the surface of the drum A trough 233 serves to receive the developing liquid supplied to the developing electrode 229 for developing the electrostatic charge image, and has a bottom formed at the front end thereof

"'■ outlet 234. Connected to the outlet 234 is a drain pipe 235 is connected, whose other end is releasably connected to a connector 236 of the developer container 221st As seen in F i g. 1 and can be seen. 2

the trough has an inclined surface that supports the flow of the developer liquid and prevents that the toner is deposited on the wall of the trough. Spacer rollers 237 and 238 are in contact with the Drum 231 arranged and keep the distance / ϊ between the drum and the developer electrode 229. A veil wiper roller 239 is used to the To remove the veil from the generated image.

When the device is out of operation and the motor 224 is at a standstill, the developer liquid 222 ι ο assumes the liquid level Ly in the container 221. As a result, the filter 223 is completely immersed in the developing liquid 222, so that the filter 223 is prevented from clogging which would otherwise result from solidification and deposition of 1ί toner on the filter due to evaporation of the developing liquid. When the device is then put into operation, the motor 224 rotates in the direction of the arrow, so that the developer liquid is sucked from the pump wheel 225 into the pump housing 226 and conducted via the outlet opening 227 and the tube 228 into the developer electrode 229, where it is at a flow rate- Attenuation plate 242 hits, thereby reducing its flow rate. Then the liquid slowly flows out through an opening 243 which extends longitudinally over the drum 231 and fills the small gap / between the drum 231 and the developing electrode 229 so that the electrostatic charge image on the photosensitive drum 231 is developed. The J <> from developer electrode 229 on left side 244 of FIG. 1 at the veil stripping roller 239 and on the rear and front end faces 245 and 246 according to FIG. 2 flowing developer liquid is caught in the trough 233 and flows down over the inclined surface of the trough so that it collects in the outlet 234, from which the liquid falls through the drain pipe 235, receiving kinetic energy from the gradient H and onto the filter 223 hits the developer container 221. When the device is started up, the developer liquid 222 begins to circulate over the various parts, so that the liquid level in the developer container 221 is gradually lowered to a certain level Li. In this state, the filter 223 protrudes from the liquid in such a way that it is hit by the falling developing liquid, which has received sufficient energy due to the gradient H. Thus, all solidified toner lumps are broken up again and it is prevented that toner lumps or dust adhere to the filler w, which in this way can perform its filter function satisfactorily. The developer liquid 222 passed through the filter flows quickly in the developer container 221 to a pump section, so that the fast flow prevents the toner from being deposited and a sufficient stirring effect is brought about. The developer liquid falls onto an inclined baffle section 297 of the filter 223, so that dust or other impurities are flushed from the inclined baffle section 297 to a flat surface section 298, where they collect. The filter is removable so that it can be replaced or cleaned more easily.

The developing device is thus designed in such a way that an element for dispersing lumps of toner is arranged between the developing station and the developer container, in order for the developer liquid to circulate. The element breaks up any clumps of toner produced in the developer fluid, so that sufficiently filtered and mixed developer fluid is provided. If the developing device is left out of operation for a long period of time, the developing liquid evaporates on the developing electrode 229 and the trough 233, so that the toner solidifies in the liquid and relatively large clumps are formed. When the device is put back into operation, these relatively large lumps of toner are washed away by the developer liquid and mixed with it, but the lumps of toner flow through the drain pipe 235 so that they impinge on the dispersing element and are thereby finely divided, with the result that there are no large lumps of toner in the liquid supplied to the developing section A. Furthermore, any large lumps of toner caught by the element are finely divided due to the continuous impingement of the developer liquid

In the following, reference is made to FIG. 4 Referred to. The photosensitive drum 231 is surrounded by numerous devices, not shown, for generating a charge image and for transferring the image developed in the developing station onto image-receiving paper. The developing device for developing the electrostatic charge image into a visible image comprises the separate developing section A and a developer container section D connected to each other by the supply pipe 228 and a collecting pipe 299. The developer liquid 222 in the container 221 is sucked into the pump housing 226 by the impeller 225, which is rotated by the motor 224, and sent to the developing section A via the pipe 228. Then, the developing liquid is supplied to the developing electrode 229 to thereby develop the electrostatic charge image on the drum 231 into a visible image. The developing liquid 222, which has been used for development in this way, is collected in the trough 233 and falls through the collecting pipe 229 into the container 221.

The developing section A contains the roller 239, which prevents the formation of fog on the visualized image on the drum 231, and a cleaning element 301 for the roller 239. The detachable connectors 230 and 236 at one end of the supply pipe 228 and header pipe 299, respectively is used to connect the tubes 228 and 299 in the manner shown in phantom to form independent flow paths 302 and 303 for the developing section A and the developer container section 5, respectively.

Thus, the manifold 299 may be of the developing section A with the supply port of the portion A and the supply pipe 228 are connected to the Sammelöfinung of the developer container. These tubes are designed so that they provide flow paths in the individual sections without hindering the removal of the developing section A or the container section B or allowing the developer liquid to leak. The independent flow path in the developer container section B enables a trial run.

The F i g. 5 shows a third embodiment of the device. As shown, in this embodiment, the supply pipe 228 and the collecting pipe 299, which are the developing section A and the

Connect developer tank section R , each divided into two parts, which are each connected to one another via a connecting pipe 309 and 310, respectively. By detaching the connecting tubes 309 and 310 from the supply tube 228 and the collecting tube 299, the supply tube 228 and the collecting tube 299, which are connected to the container section B , can be connected to one another via a connecting tube 309 and 311, respectively, so that an independent flow path in the developer container section B is established is created. Further, the pipe 228 and the manifold 299 connected to the developing section A can be connected to each other via a connecting pipe Jto and 312, respectively, so that an independent flow path in the section A is established. In the embodiment according to FIG. 5, the effects that have been described in connection with the embodiment according to FIG. 4 can also be achieved and, in addition, the flow paths are simpler and easier than in the embodiment according to FIG getting produced.

For this 4 HhHt drawings

Claims (3)

Patent claims: 1. Electrophotographic developing device in which an electrostatic charge image formed on a recording material is developed with developer liquid from toner particles and carrier liquid, the developer liquid circulating between a storage container and a developing station and flowing through a filter by way of being returned from the developing station to the storage container, characterized in that, that the filter (223) is arranged in such a way that the backflowing developer liquid strikes an inclined impact section (297) of the filter. 2. Apparatus according to claim 1, characterized in that the filter (223) is arranged within the storage container (221 ) in such a way that the baffle section (297 ) freely ifegt during the circulation of the developer & vinegar above the liquid level (L ₂₎ 3. Apparatus according to claim 2, characterized in that the baffle section (297) is below the developer liquid spicgel (L \) when the developer liquid is not circulating.