DE1589743A1 - Rod-shaped ionization electrode for discharging light-sensitive materials - Google Patents

Description

Rod-shaped ionization electrode for discharging light-sensitive materials The present invention is directed to a rod-shaped ionization electrode Unloading photosensitive materials, especially in the form of webs, such as unexposed or undeveloped photographic film.

In the photographic industry there is a requirement to have ongoing, photographic To free the layer-bearing webs from electrostatic charges without them to expose or destroy photographic layers. This is what they are for so far known ionization electrodes not suitable because of the occurrence of the spray tips Glow discharge (corona effect). But not just the visible part of the radiation The glow discharge can have harmful effects, but also the invisible one. Such damage due to glow discharges emanating from the spray tips, however, are not only open photographic materials limited; you can in the same 'eise t.B. in the Processing of plastics into films occur by changing the 'physical properties of the film material can be changed.

It has now been found that the previously known ionization electrodes even can be used for these tasks by according to the invention with an over the Spray tips arranged aperture are provided. This ensures that the aperture the object to be discharged from the corona effects emanating from the spray tips covers. The ion current flows around the diaphragm onto the object to be discharged.

Advantageously, at least the one facing the spray tips On the side of the panel a matt, radiation-absorbing coating, so as possible no effects are reflected. In order to recombine the ions at the diaphragm prevent, there is at least the side facing the spray tips vorzpgweise from a covering made of insulating material, which at the same time has radiation-absorbing properties may have. According to a further embodiment, the diaphragm consists of one Reflector (mirror) or a prism, whereby their shape is of course so it is to be chosen that the photosensitive material is outside the reflection angle lies. Also, no reflective objects are allowed in the area of influence of reflections be present so that the photosensitive material does not suffer from multiple reflections is exposed.

The diaphragm is preferably adjustable on the electrode and, for example by means of a fixing screw or a clamp, can be fixed. But with that the Aperture is not only adjustable in one degree of freedom, it is further proposed the adjustable and fixable cover is adjustable and fixable on the ylektrode stored things to be stored, so that in addition to the coverage width the height of the gap through which the ions must pass can be precisely adjusted.

In direct connection with the solution of the underlying Task has been shown that in special cases, for example during treatment of photo color materials that have the same side as the corona effect at the spray tips Occurring ozone formation on the photo color layers has a destructive effect. Therefore the electrode space is filled with a protective gas after the invention has been continued and connected to a source of inert gas to maintain the charge. bs inert gases, primarily nitrogen, are suitable for this purpose.

The ionization electrode according to the invention is now based on a drawing described in an exemplary embodiment, namely show: Figure 1 the Ilektrode'in cross section and Figure 2 the electrode in longitudinal section.

c In Figure 1, the ionization electrode 1 consists of the jacket 2 with the protective gas connection piece 3, which can be connected to a protective gas source. The ion exit slot 17 is designed in accordance with the current regulations so that the spray tips b are normally not touchable. In the center of the electrode space 4, which is kept filled with protective gas, there is arranged a spray rod 5 with the spray tips 6 at which the glow discharges occur. The quantity 8 with the locking screw 9 'is lazed on the ynd 1 (. Of the electrode rod ^ (Fix.2). In the cheek 8 the diaphragm 11 is adjustable and can be fixed by means of the fixing screw 12. The diaphragm 11 covers the to be discharged web 13 from the corona effects, which vary with the opening angle spread it off and is at the the spray tips facing side covered with a matt, absorbent covering 14 made of insulating material.

In FIG. 2, the section 8 with its drill string 15 is rotatably mounted on the bearing point 16 at the end of the electrode rod 1. The protective gas is passed through the channel 18 introduced through the through-flow openings 19 in the intermediate wall 20 into the metal electrode space 4, which is kept permanently filled with protective gas so that it flows in a laminar flow.

Claims (1)

Claims ). Rod-shaped ionization electrode for discharging light-sensitive materials, in particular in the form of running webs, for example photographic films, characterized in that the ionization electrode (1) is provided with a screen (11) arranged over the (6) spray tips. 2). Ionization electrode according to Claim 1, characterized in that that at least dieTSprühspitzen (6) facing side of the Cover (11) a matt.) Red, radiation-absorbing Has covering (14). 3). Ionization electrode according to Claims 1 and 2, characterized in that at least the covering (14) of the screen (11) consists of insulating material. 4). Ionization electrode according to Claims L and 3, characterized in that the screen (11) consists of a reflector. . 5). Ionization electrode according to Claims 1 and 3, characterized in that the diaphragm (11) consists of a beam-refracting system (prism). 6), ionization electrode according to claims 1 to 6, characterized in that the diaphragm (11) is mounted adjustable and fixable on the electrode (1). ?). Ionization electrode according to Claims 1 to 6, characterized. characterized in that the adjustable and fixable diaphragm (11) is mounted in adjustable and fixable mounted_WangEn (8) on the electrode (1). 8th). Ionization electrode according to Claims 1 to @, characterized in that the electrode space (4) is connected to a protective gas source. 9). Ionization electrode according to Claims 1 to 8, characterized in that an inert gas is used as the protective gas.