DE102009010957A1 - Device for processing e.g. bank notes in automatic teller machine, has transporting device with transporting roller made of material i.e. quartz glass, transparent for UV radiations, and UV radiation source arranged in transporting roller - Google Patents

Abstract

The device has a transporting device for transporting paper goods over a transporting path, where the transporting device has a transporting roller (1) made of a material i.e. quartz glass, transparent for UV radiations. A UV radiation source (2) is arranged in the transporting roller, and a reflector (5) is arranged between the UV radiation source and the transporting roller. The transporting roller is supported at front ides and driven to rotate by a drive, where the transporting roller has a photocatalytically active layer that is made of titanium oxide.

Description

State of the art

The Invention is based on a device for processing sheet material, in particular banknotes, documents, receipts and the like.

such Devices become for automatic processing and processing of sheet goods, for example, in cash dispensers, cash deposit machines, Counting machines and sorting machines used. To the Blattgut include, for example, banknotes, banknotes, checks or Tickets. For example, during processing, the sheet material is sorted, counted, checked, stacked, bundled, issued to or withdrawn from a user. To automatic Processing, the sheet material in the device by means of a or several transport devices along a transport route or a transport route transported.

by virtue of its multiple use, the sheet material before and / or after the processing of a variety of people touched. In the process, viruses, fungi and bacteria accumulate on the surface of the sheet material. The adhesion is due to a rough surface texture favored. Banknotes that are usually out Cellulose or polymers exist, offer particularly good adhesion conditions for Viruses, fungi and bacteria. These can be for people, which come into contact with the documents transmitted become. In addition to harmless organisms can be found on the banknotes also dangerous pathogens like Staphylococcus aureus and Klebsiella pneumoniae, which cause serious infections can. Other Staphylococcus strains, streptococci, Enterobacteria and pseudomonads are also on the notes too may and may be for sick people dangerous.

Known are devices for processing sheet material, during which Processing a disinfection of the sheet material by chemicals such as Alcohols, aldehydes, phenols and halogens or by heat treatment he follows. As adverse proves in the application of chemicals or Heat that the risk of damaging the Documents exists.

From the prior art of DE 10 2004 016 961 A1 a device for disinfecting banknotes is known in which the banknotes are irradiated by means of a mercury vapor lamp. It exploits the fact that the genome of all organisms is made up of nucleic acids, DNA and RNA. These nucleic acids absorb light in the ultraviolet range with a wavelength between 200 and 300 nm and are thereby destroyed. When microorganisms are exposed to ultraviolet light, DNA and RNA absorb the light energy and disintegrate. The radiation-exposed microorganisms are no longer capable of reproduction and are killed. A maximum of the germicidal effect is achieved with light of a wavelength of 260 nm. Pathogens that have been irradiated in this way no longer pose a health risk. A disadvantage, however, proves that mercury vapor lamps involve certain risks in their handling and claim relatively much space in a device due to the filled with mercury vapor piston. Since the lamps have a relatively high heat radiation, they must be arranged to avoid damage to the sheet material at a distance to the transport path of the sheet material. This is in turn associated with losses in the intensity of UV radiation.

Of the present invention is based on the object, a device to provide for the processing of sheet material, during the disinfection of sheet material during processing carried out without affecting the processing or to interrupt, without the transport speed of the sheet material to reduce without damaging the leaves, without health and to burden the environment and without the structural dimension of the device to enlarge.

The invention and its advantages

This object is achieved by a device having the features of claim 1. The device is equipped with at least one transport roller, which consists of a permeable to UV radiation material. This means that the material has a high transmission for radiation whose wavelengths are in the UV range. Furthermore, at least one UV radiation source, for example a UV light emitting diode or another UV lamp, is arranged in the transport roller. The UV radiation emitted by the UV radiation source passes through the transport roller and is emitted to the outside. Sheet material, which is transported by the transport roller, thus undergoes an irradiation during its transport. Since the entire of the transport roller facing surface of the sheet material comes into contact with the transport roller, there is an irradiation of the entire, the transport roller facing surface of the sheet material. Since there is no obstacle between the UV radiation source and the sheet material, no shadows are formed, which could reduce or impair irradiation of the sheet material. Furthermore, the distance between the UV radiation source and the sheet material is smaller than the radius of the transport roller and thus reduced to a very small degree. On Because of this small distance and the high transmission in the UV range of the material of the transport roller occur at most low losses. The irradiation of the sheet material is thus very efficient and ensures an improvement in the hygiene status of the sheet material by killing bacteria, fungi and viruses on the surface of the sheet material.

In order to serves the equipped with a UV radiation source transport roller both for transporting the sheet material and for irradiating the sheet material with UV radiation. The arranged in the transport roller radiation source needed no extra space outside the transport roller. The device thus has a small dimension.

The Duration of irradiation of the sheet material depends on the one of the transport speed of the transport roller and the other from the area where the sheet material is in contact with the surface the transport roller occurs. The efficiency of the irradiation can be through the duration of the irradiation can be increased. Order at a given Transport speed to increase the duration of irradiation, the sheet material is not only guided tangentially to the transport roller, but passed around the transport roller around.

at the transport roller may be, for example, a cylindrical Act hollow body. In the cavity of the hollow cylinder is arranged at least one UV radiation source. Furthermore there is the possibility of the transport roller as a molded part form, in which the UV radiation source is recorded.

In Preferably, the UV radiation source generates UV radiation from the frequency ranges between 200 and 280 nm, particularly preferred between 230 and 240 nm. This area is also referred to as UVC.

To an advantageous embodiment of the invention, the transport roller made of quartz glass. Quartz glass has over other materials the advantage that it has a high transmission in the UV range and transmission losses are minimized.

To a further advantageous embodiment of the invention is in the transport roller arranged at least one reflector. It can it is a mirror reflector. For a UV radiation source, the UV radiation also in a direction away from the sheet material direction emitted, the reflector ensures that this UV radiation is directed in the direction of the sheet material. It can UV radiation source and reflector stationary and thus without rotating be arranged. The transport roller, however, relative to the Radiation source and the reflector rotates about its longitudinal axis. The reflector increases the efficiency of the irradiation and also allows the shading of areas in the device, the should not be exposed to UV radiation.

To a further advantageous embodiment of the invention is the Transport roller stored at one of its two end faces and is about a drive for rotation driven. This has the advantage that at the other end of the transport roller a holder for the UV radiation source with a power supply for the UV radiation source can be arranged. Warehousing the transport roller and the holder of the UV radiation source affect not with it. The storage of the transport roller is with a drive linked to rotation. Advantageously, a non-positive Connection between the transport roller and a drive provided to transmit a driving force to the transport roller.

To a further advantageous embodiment of the invention is the Transport roller equipped at one end with a flange. The flange serves to support the transport roller and the transfer of forces that drive the transport roller to rotate. At its periphery, or at its outward facing side, the flange alternately has teeth and tooth spaces on which serve the toothing of the flange with drive means. The teeth allow a positive connection between the transport roller and a rotary drive.

To a further advantageous embodiment of the invention is the UV radiation source fixed in the transport roller arranged. While the transport roller rotates about the radiation source, the UV radiation source rests inside the transport roller and is free from rotational movements. This facilitates, on the one hand, the mounting of the UV radiation source and on the other hand, the connection of the UV radiation source with a Current or voltage supply.

According to a further advantageous embodiment of the invention, at least one guide roller is rotatably arranged on the transport roller. It is either spring-mounted and presses from the outside against the surface of the transport roller or is fixedly arranged at a distance from the transport roller, which allows the transport of the sheet material between the transport roller and the guide roller. The guide roller presses the sheet material from the outside against the transport roller and thus ensures that the sheet material remains in contact with the transport roller over a section or an angle, also called a wrap angle. This increases the duration of the UV irradiation, without the Transport speed must be reduced. If a plurality of guide rollers are arranged, the area in which the sheet material is pressed against the surface of the transport roller is increased.

To a further advantageous embodiment of the invention is the Transport roller on its outward-facing surface equipped with a photocatalytically active layer. These photocatalytic layer is excited by the UV radiation itself and supports a chemical reduction of the organic Attachments to the banknote. This leads to a minimization the energy demand for the radiation source at a same permanently high radiation density of the light source. Furthermore, by the photocatalytic layer is the effective range of the radiation source be increased by the frequency band of radiated UV radiation is widened. Advantageously acts it is in the material of the photocatalytically active layer to Titanium dioxide.

To a further advantageous embodiment of the invention are two equipped with at least one UV radiation source transport rollers a permeable to UV radiation material arranged to each other.

she Make sure that the sheet material on both sides of his Surface is irradiated with UV radiation. This arrangement two transport rollers ensures disinfection of the Leaf good on its entire surface.

Further Advantages and advantageous embodiments of the invention are the subsequent description, claims and drawings refer to.

drawing

In the drawing are two embodiments of an inventive Device shown. Show it:

1 First embodiment of an apparatus for processing sheet material with two transport rollers and a plurality of guide rollers in a side view,

2 Transport roller of the device according to 1 in a side view,

3 Transport roller according to 2 in a view of one of the two end faces,

4 perspective view of the transport roller according to 2 .

5 Section through the transport roller according to 2 along an in 3 level marked AA,

6 second embodiment of an apparatus for processing sheet material.

Description of the embodiments

In 1 is a first embodiment of an apparatus for processing sheet material with two transport rollers 1 , two UV radiation sources 2 and a total of six leadership roles 3 shown in a side view. The transport rollers 1 consist of a cylinder of quartz glass. Both cylinders are designed as hollow bodies. The two UV radiation sources 2 are each in the center of the transport rollers 1 arranged. For the UV radiation sources 2 These may be UV light emitting diodes, called UV LEDs, or UVC lamps. guide rollers 3 and transport rollers 1 are in a housing 4 arranged. The transport rollers 1 facing surface of the housing 4 ensures along with the leadership roles 3 ensuring that the sheet material from the outside against the surface of the transport rollers 1 is pressed.

In the cavity of the two transport rollers 1 is next to the UV radiation sources 2 in each case a mirror designed as a reflector 5 arranged. The reflector does not rotate about an axis. He is stationary. His position remains constant. He is so aligned that he from the UV radiation source 2 emitted in his direction UV radiation in the direction of the guide rollers 3 reflected. This is the reflector 5 curved inwards in the direction of the UV radiation source. In 1 it becomes clear that the two reflectors 5 form a semicircle in cross section.

Towards the with 6 marked arrow, the sheet material is supplied. Towards the with 7 marked arrow, the sheet material is derived from the device. In between, the sheet material follows through the two transport rollers 1 , the leadership roles 3 and the case 4 predetermined transport route.

In the 2 to 5 is the transport roller 1 shown in different views. The transport roller consists of a cylindrical hollow body made of quartz glass, whose outwardly facing side with a titanium dioxide layer 8th is provided. At one of its two end faces is the transport roller 1 with a flange 9 equipped, which has a plurality of teeth and gaps in a portion of its circumference. About these teeth and tooth gaps is a toothing between the transport roller 1 and a rotational drive, not shown in the drawing, non-positively possible. The flange is over a shaft 10 with a fastener 11 connected. The fastener is used for Attachment of the transport roller 1 at a section of the housing. This section of the housing is not shown in the drawing.

6 shows a second embodiment of an apparatus for processing sheet material. The second embodiment, just like the first embodiment, two transport rollers 1 on, which consist of a hollow cylinder made of quartz glass. In the cavity of the transport roller 1 are a UV radiation source 2 and a reflector 5 fixedly arranged. Because the transport rollers 1 , the UV radiation sources 2 and the reflectors 5 coincide with the first embodiment, they are provided with the same reference numerals. In contrast to the first embodiment, the two transport rollers 1 not offset from the transport path of the sheet material arranged, but at the same height. This causes the plane in which the two longitudinal axes of the transport rollers 1 are perpendicular to the transport path of the sheet material. The sheet material thus passes through the two transport rollers 1 of the second embodiment at the same time, while the sheet material in the apparatus according to the first embodiment, first one and then the other transport roller 1 happens. The two transport rollers 1 of the second embodiment thus press the sheet material against each other. No guide rollers are necessary for this. Although the second embodiment also has guide rollers 12 and a housing 13 However, these serve for supplying and discharging the sheet material and not to the sheet material against the two transport rollers 1 to press as in the first embodiment. The supply of the sheet material takes place in the direction of the arrow 14 , The derivation of the sheet material takes place in the direction of the arrow 15 , Thus, the second embodiment over the first embodiment has the advantage that it takes up less space, but the way of the sheet material, within which the sheet material is in contact with the transport roller is shortened. At constant transport speed, the duration of the illumination or irradiation with UV radiation is thereby shortened.

All Features of the invention can be used individually as well as in Any combination with each other essential to the invention.

1

transport roller

2

UV radiation source

3

leadership

4

casing

5

reflector

6

direction the supply of the sheet material

7

direction the removal of the sheet material

8th

Titanium dioxide layer

9

flange

10

wave

11

fastener

12

leadership

13

casing

14

direction the supply of the sheet material

15

direction the removal of the sheet material

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• DE 102004016961 A1 [0005]

Claims (11)

Device for processing sheet material, in particular banknotes, receipts, documents and the like, with a transport device for transporting the sheet material over a transport path, with at least one transporting roller made of a material permeable to UV radiation (US Pat. 1 ) of the transport device, with at least one arranged in the transport roller UV radiation source ( 2 ). Apparatus according to claim 1, characterized in that the transport roller ( 1 ) consists of quartz glass. Apparatus according to claim 1 or 2, characterized in that in the transport roller ( 1 ) at least one reflector ( 5 ) is arranged. Device according to claim 3, characterized in that the reflector ( 5 ) between the UV radiation source ( 2 ) and the transport roller ( 1 ) is arranged. Device according to one of the preceding claims, characterized in that the transport roller ( 1 ) is mounted on one of its two end faces and is driven via a drive for rotation. Apparatus according to claim 5, characterized in that the transport roller ( 1 ) on a front side with a flange ( 9 ) and that the flange ( 9 ) has at its periphery teeth and tooth gaps for toothing with a drive. Device according to one of the preceding claims, characterized in that the UV radiation source ( 2 ) stationary in the transport roller ( 1 ) is arranged. Device according to one of the preceding claims, characterized in that on the transport roller ( 1 ) at least one leadership role ( 3 ) is rotatably arranged to the sheet material from the outside against the transport roller ( 1 ). Device according to one of the preceding claims, characterized in that the transport roller ( 1 ) on its outwardly facing surface with a photocatalytically active layer ( 8th ) Is provided. Apparatus according to claim 9, characterized in that the photocatalytically active layer ( 8th ) consists of titanium dioxide. Device according to one of the preceding claims, characterized in that two each with a UV radiation source ( 2 ) equipped transport rollers ( 1 ) are arranged offset from one another for UV radiation permeable material to irradiate the sheet material on both sides with UV radiation.