DE2302302A1 - ELECTROPHOTOGRAPHIC COPY DEVICE, IN PARTICULAR FILTER DEVICE FOR THIS - Google Patents

Description

PATENTANWÄLTE 2 302 O UZ

DR. E. WIEGAND DIPL-ING. W. NIEMANN DR. M. KOHLER DIPL-ING. C. GERNHARDT

MÖNCHEN HAMBURG

phone = 395314 2000 Hamburg 50, i6 _t Jan. 1973

TELEGRAMS: KARPATENT KONIGSTRASSE 28

New phone number 3312 33
Tel. No.

W. 25622/73

Fuji Xerox Co., Ltd.,
Tokyo (Japan)

Electrophotographic copying device, in particular filter device for this.

The invention relates to a filter bag for use in an electrophotographic copier, which is mainly used in connection with cleaning the copier.

In Fig. 1 is the general implementation of an electrophotographic Copier shown, and the Working steps in this device are as follows:

I. Charging: A photoconductive drum D is charged uniformly by means of a charger 1, commonly referred to as a corotron.

II. Image exposure: an electrostatic latent image is formed on the drum D by exposing an image to light and shadows by means of an exposure device 2 will.

III. Development: The latent image is converted into a visible image by applying an Enfcwickfilers, which is a colored electroscopic powder,

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which is called a toner, and a coarse powder has, which is referred to as a carrier.

IV. Transmission: The developed toner image is transferred from the photoconductive drum D onto a transfer sheet P by a transfer means J ^1, comprising a corotron and the back of the transfer charges up sbogens P,

V. Cleaning: The remaining toner that is used after the transfer process remains on the drum D is removed by means of a cleaning device 5, which is a brush B, to remove toner from the drum surface, a filter bag 7j typically one to three air-permeable Layers or plies of fabric, sponge material or fiberglass has to collect and hold the removed toner, and a suction fan P has to the filter bag 7 keep on low pressure, and

VI. Fixing: The transferred toner image is fixed on the transfer sheet P by means of a fixing device 6 fixed.

In the facilities described above, ozone (0,) is sometimes generated by facilities using corotrons, due to the electrical discharge, especially when the air is extremely dry. A Leakage of toner can be prevented by using the filter bag. However, the ozone is released along with that from the suction fan F generated air flow are sucked through the filter bag and exit. It has been found that the amount of ozone leaked through the filter bag 7 to the outside of the copier is about 80? the Is the total amount of ozone generated by corotron discharge. Ozone is for a person's respiratory system harmful when it is in high concentration, and even when the concentration is low, it gives an unpleasant smell,

The purpose of the invention is generally to identify the various

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To overcome disadvantages, and the main purpose is » to provide a filter bag that prevents ozone from leaking to the outside of the copier.

The invention is explained below with reference to the drawing, for example,

Fig. 1 is a schematic cross-sectional view of a electrophotographic copier.

2 and 3 show filter bags according to the invention.

According to the invention, a filter bag 7 according to the invention, as it is in various embodiments is shown in Figures 2 and 3, one or more layers or layers 8 of gas-absorbing activated Carbon on «The layers 8 absorb ozone from the Airflow. The activated carbon can be in a continuous Layer or it can be dispersed in a sponge layer. If only one activated carbon-containing layer is used, Coarser particles of activated carbon can preferably be used to reduce the load on the suction fan F to decrease and create good air permeability.

In the embodiment according to FIG. 3, several layers with a low packing density of the carbon are used used to have a gradual and gradual absorption of ozone, since the use of a single layer with high packing density improves air permeability adversely affected.

Various embodiments of a filter bag according to the invention, which have been experimentally manufactured and tested, are described below. Embodiment 1

In a bag made of loose material, for example fine Batistleinwand (gauze) particles were disposed with a mean particle volume of 120 mnr ⁽¹ I mm χ χ 5 mm 6 mm) packed activated carbon. To prevent movement and flaking of the particles, a sewing machine was created

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used to sew many small rectangles or squares into the bag, in which the activated carbon was sewn or closed. The filter sheet formed in this way was placed between a layer of glass fiber wool and a thickness of 1h mm and a polyurethane foam layer with a thickness of 25 mm. Furthermore, a further glass fiber layer with a thickness of 50 mm was placed over it. The composite structure was formed into a filter bag with the side having the fiberglass layer inside.

Embodiment IT

A polyurethane foam layer 10 mm thick was coated with an adhesive so that it did not lose their air permeability. An activated carbon powder was sprayed onto this structure with a particle size that is smaller than the particle size used in accordance with embodiment I, by one Form a layer of activated carbon see below. There were then two structures made in this way, superimposed, after which, as in the previous example, they become a layer of fiberglass wool and one Thickness of 14 mm. And a glass fiber layer of a thickness of 50 mm. The composite structure • was formed into a filter bag.

The filter bags according to embodiments I and II were installed in a copier device according to FIG. When the copier was working, no ozone was found near the air outlet.

Usually another outlet is provided in a copier to dissipate the heat, which is emitted from the heat fusing element 6 according to FIG. 1. It is very much preferred at this exit too to use a filter bag according to the invention, whereby it is achieved that the generated ozone substantially

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is kept entirely within the copier.

As described in detail above, a filter bag enables according to the invention, a more convenient use of electrophotographic copiers by reducing the leakage of ozone, since the filter bag has at least one layer containing carbon.

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Claims (5)

Claims (! ./ Electrophotographic copier with a Device for charging an electrophotographic layer, a device for image exposure of the charged layer Latent image forming layer, means for converting the latent image to one visible image with a developing toner, means for transferring the visible image to a image-receiving medium and having means for removing toner from the electrophotographic layer, the one chamber for collecting the removed toner, a vacuum source to maintain low pressure in the chamber, and a filter device, characterized in that for removing ozone from the Air sucked out of the chamber by the vacuum source (F) activates at least one filter device (7) Has carbon-containing layer (8). 2. Device according to claim 1, characterized in that that the filter device has a plurality of activated carbon-containing layers (8). 3. Apparatus according to claim 1 or 2, including means for heat melting the image on the image receiving device Medium and with a second vacuum source for removing the generated by the heat melting device Heat, characterized in that a second filter means to remove ozone from the heated air produced by the second vacuum source is sucked off, is provided to remove the at least one activated carbon having containing layer. 4. Apparatus according to claim 3, characterized in that that the second filter device has a plurality of activated carbon-containing layers. 5. Filter device for use in an electrophotographic Copying device, characterized in that 1 1 0 1 * ■ * 7 ■ " that the filter device (7) has at least one activated carbon-containing filter layer (8). 6, device according to claim 5, characterized in that it contains a plurality of activated carbon containing layers. 309830/1101 Blank page '^; ORIGINAL INSPECTED