DE1944179C3 - Device for the electrostatic adhesion of recording paper - Google Patents

Description

3 4

njs between the voltage to be applied and the strip 4 'to be achieved, the holding forces running at right angles to one another through the arrangement of a half, so that a plurality of intermediate conductor layers are formed between the negative grid electrode, which have an area from 1 to or Recording paper and the insulating film. That have 2 cm ² . The conductive pattern 4 is used for training recording paper is on the uncovered 5 training of the other electrode, namely the cathode. Surface of the semiconductor layer in direct contact. The pattern 4 can alternatively be formed from strips. Friction charges that may be present in the re-register paper, which only extend in one direction, are cut through the semiconductor layer and a lateral distance of 1 to 2 cm away, so that frictional charges have one from the other .. The opposite ends impairment of the holding forces no longer occur- io the strips forming the pattern are with one can. At the same time, the semiconductor layer ensures that the rectangular edge strip 4 ″, which is not connected to the entire electrical circumference of the surface of the semiconducting shock, is connected along the edge strip, especially when layer 3 runs. This edge strip connects the negative grid electrode or the electrode consists of the same conductive material as the graphic chart is grounded. i ₅ strips 4 'of the pattern. The pattern 4 can easily

In practice, an embodiment has proven to be particularly advantageous by printing the strips 4 'and 4 "with an invention, in which the conventional conductive paint on the surface of the negative grid electrode is formed by the semiconducting layer 3 in a reticulate manner or by crossing contact strips , the fields release about 1 to 2 cm * by attaching a metal foil or metal from and wherein ao the semi-layer on the surface of the semiconductor layer mitleiterschicht a resistivity of 10 ⁱ⁰ are formed means of an adhesive. If the to 1O ^1S ohm-cm In this embodiment, conductive patterns 4 by printing the strips 4 'and form could be formed in the low level generally applicable up to now in a 4 "device according to the invention with a conductive color relatively high resistance, so a rectangular voltage of 500 to 1000 V is still further under- as frame 5 made of metal foil, preferably ise the edge steps, without the holding force streaking 4 ", superimposed, so that each unit area sank below the permissible level. When the conductive pattern 4 is normal, there is an electrical voltage, this embodiment works, and the same amount can be supplied. In a finding already satisfactory with 100 to 200 V. In such a case, the conductive frame 5 is preferred.

In terms of manufacturing technology, the device according to the invention is connected to a direct voltage source, the device according to the invention is extremely easy to manufacture, and the desired voltage is supplied to the conductive source. Exact adjustments or tolerances in the case of the pattern 4 are supplied via the frame 5.
The electrodes do not need to be attached. 2 explains the apparatus for becoming a registrar. On a flexible insulating film, which is pre-pierced in the operating position, in which the flexible insulating film is provided with a semiconductor layer on one side. 35 film 1 is firmly connected to the carrier S of a writing device in a simple manner, the surface electrode device (not shown). Where is the 2 :. B. vapor-deposited or painted. Metal layer 2 with the surface of the carrier S is

In the following, an embodiment of the glued or vapor-deposited on this in order to close the anode

Find out more on the basis of the drawings. A sheet of recording paper 10 is placed on the ben. It shows 40 semiconductor layer 3 applied and thus also on the

Fig. 1 is a plan view of a conductive pattern 4 according to the invention, which forms the cathode, and the

Device for the electrostatic adhesion of regi-superimposed frames 5. If the switch 7 is

paper, closed in order to create a circuit from a direct

FIG. 2 shows a cross section through the device voltage source 6, which generates a voltage of 500 according to FIG. 1. 45 to 1500 volts supplies, the switch 7 and the to the 'Die in der Ze; The device shown has frame 5 and the conductive pattern 4 leading as a basic structure a flexible insulating film or end and on the other side of the metal layer 2 an insulating layer I ₁ made of vinyl chloride, polystyrene, so the said DC voltage is zwiod. Like. There is, and in the illustration on the see metal layer 2 and the conductive pattern present carrier S of a conventional writing 50 applied, whereby the entire underside of the Regibenden device (Fig. 2) with the help of an adhesive strip paper 10, the one certain moisture content is appropriate. The insulating film 1 has a thin layer that is made to contact the semiconductor layer 3 on the lower side, which is in contact with the carrier 5. As a result, the paper is made through which is glued, while the other side of the metal conductive pattern 4 and the superframe 5 to the cathode layer with the film by vapor deposition or coating. The so polarized recording paper is bonded. The metal layer 2 is formed by the metal layer 2 or one electrode, namely the anode. The upper side anode on the lower side of the insulating film 1 angedes insulating film 1 carries a semiconductor layer 3, which pulled and held in place on the layer 1 and thus a specific resistance of 10 "to 10" on the support surface S. If the Srhal -Ohm-cm, so that an electrical charge that opens on 60 ter 7 while the writing paper 10 is held in its semiconductor layer when the registration pad is moved, so that the circuit underpiers on the device is created by friction, is broken and the direct voltage can be diverted from the conductive pattern 41 and the frame 5. The semiconducting layer is so the force of attraction that the recording paper crag of an antistatic material onto one side "5 10 pulls against the metal layer 2, degraded, and the insulating layer is formed. The top surface of the paper can be covered by the insulating film or the semiconducting layer 3 bears a leiiendes pattern 4, layer 1 can be easily removed. In addition, the semiconductor layer 3 on the insulating film which is formed in a reticulate manner and curls one another

to this, charges generated by friction when the paper 10 is moved over the semiconductor layer 3, the conductive Pattern 4 and the frame 5 emerge, quickly dismantle. In this way, the invention The attraction of the recording paper is protected by the aforementioned frictional charges, which: conventional holding devices in which recording paper carries an electrostatic charge

The device is effective against impairment of the rectilinear administration, which is inevitable.

1 sheet of drawings

Claims (2)

1 2 significantly more problematic and costly _ than the intersecting arrangement of the bars according to patent claims: the aforementioned US-PS. Both known devices must be with a 1. Device for electrostatic adhesion 5 are operated relatively high voltage to ausreivon sheet-shaped recording paper, in which to generate on chende holding forces for the register paper, sides of a flexible insulating film A negative elec- tricity of at least 5000 V facing the recording paper is required, with parallel alignment the irode is perforated in a grid-like manner, thus electrode rods of at least 2000V. Dementgekennzeich net that the positive area-speaking, the electrodes must be embedded in a sufficient electrode made of a closed metal layer (2) with a thick insulating layer, so that between the insulating film (1) and / or an additional insulating layer there is a negative grid electrode (4) Be covered with semiconductor, whereby the ratio of the layer (3) is again arranged and that the _{sheet surface i 5} size of the voltage to be applied to the achieved surface area for the recording paper (30) is changed unfavorably by holding forces,
the non-insulated grid electrode (4) and from US Pat. No. 3,359,469 is an adhesive device the area not covered by this half-known of another type, which is only one of additional layer (3) is given to an insulating layer surrounding the surface electrode 2. Device according to claim 1, characterized in that it is seated. For the polarization of the recording paper it is indicated that the negative grid electrode uses a charging rod, which is formed in a special (4) strip across the recording paper (4 ') by means of crossed contacts, which move fields from 1 to must become. This adhesive device works 2 cm * free, and that the semiconductor layer has an extremely high DC voltage of a specific resistance of 10 ¹⁰ to 10 ¹³ as 15 000V and requires additional measures to ohm-cm. protect the operating personnel from electric shocks protection. For this purpose, a semiconductor layer with a high specific resistance is sandwiched in the aforementioned insulating layer.
30 The invention is based on the object of a electrostatic adhesive device of the foregoing To create type that is cheaper to manufacture and that work with much lower voltages enables. 35 The solution according to the invention is characterized The invention relates to a device for electri- cally that the positive surface electrode consists of a trostatic adhesion of sheet-shaped registration closed metal layer, that a semiconductor layer is arranged between paper, in which a surface electrode is arranged on both sides of a flexible insulating film and the negative grid electrode ); is disposed, and that is, being the surface facing the recording paper sheet ₄₀ nega- bearing surface for the recording paper by the live electrode grid-like broken. non-insulated grid electrode as well as by the A known device of this type shows the uncovered area of the semiconductor layer US Pat. No. 3,448,356, in which there is an insulating layer on both sides. In each case a bar grid as negative or positive elec- In contrast to the known devices Irode is arranged The bar grids are allowed to 45 the placed recording paper will be aligned congruently to the nega-Hicht, ie they should cross tive electrode with high electrical resistance, tich cross in this way when creating a die because the recording paper is directly on the Voltage to the electrodes to keep an electric field bare, ie uninsulated grid electrode, which lies in the entire sheet contact surface, whereby this then only serves as an electrical focal point-shaped distribution corresponding to the connection contact. It is created by the applied crossing points enveloping the grid. If a recording paper is a closed negative surface electrode that is not broken through on the sheet support surface,
lind thus introduced into the electric field, then this closed negative surface electrode the paper is charged in the opposite direction and the positive surface area, which is also closed, is now * tightened on the adhesive device. 55 electrode, which consists of a continuous metal In the same way, the known layer is formed opposite also works. Between the two devices according to DT-AS 1 203 969. These uninterrupted surface electrodes create a stranded, strong, homogeneous field, likewise as a negative or positive electrode, in all areas of bar grids, but with parallel alignment of the sheet support surface, see above that the recording paper rods are arranged in such a way that each time between 60 is pulled firmly against the adhesive device,
see two negative bars to leave a positive bar gene is coming. This undoubtedly allows the holding ratio to match the size of the voltage to be applied by virtue of the device, the holding forces achieved with the same initial voltage are improved. Since the The electrical field can no longer be removed from the negatively charged recording paper in the form of strips 65 to the positive surface electrode is smaller than in the case of alüber the entire elbow support surface is built up. len known devices, can be applied With regard to production, however, the parallel unloading with constant holding forces is more important direction and the arrangement of the bars can be reduced to gap. The ratio is even more favorable