EP1195202A1 - Data shredder with an electrically driven cutting mechanism - Google Patents

Abstract

A light source (14) is positioned on one side of the entry box (19) and a reflective strip (16) indicates to the observer (20) the presence of an item. A transparent area (17) activates a sensor (18) and control unit (13) to switch on or off the cutters (22) drive (11).

Description

The invention relates to a data shredder with one electric drive powered cutting unit.

Data shredders are, for example, in the form of document shredders well known. Such data shredders include an electrical one driven cutting unit in which documents are fed through Cut or shred in another form. It will Document in either depending on your needs Strips or cut into short pieces of paper (particles). to An inlet chute is provided for feeding the material to be cut. So that Cutting unit is not constantly, but only in operation when Cutting material is fed, it is common in the area of the inlet shaft to arrange a light barrier, with a supply of material to be cut is closed when the light barrier is interrupted. With Interruption of this light barrier is the electrical drive of the The cutting unit is switched on and the cutting unit starts to work. Usually the work of the cutting unit is long continued how the light barrier in the inlet shaft is interrupted, a certain overrun of the cutting unit is also possible.

It is known that not only available in paper form Shredded documents with a data shredder, making them unreadable can be made, but with appropriate training of the Data shredders also other data carriers, such as floppy disks, Magnetic tapes and compact discs, in particular so-called CD-Roms. The term data shredder in the sense of this application encompasses So not only document shredders, but also accordingly customized shredders of data carriers.

For document shredders, it is necessary if the Document shredder is turned on, a potential user indicate that the cutting unit is ready for operation given is. On the one hand, this serves its security, namely that of the display is at least informed that when Objects the cutting unit can be put into operation and secondly, so that the user also knows whether his device is ready for use or he switched it off completely. Furthermore there are often also other display means, via which the Operator is signaled if there is a malfunction. A Malfunctions can occur, for example, if Cuttings jam in the cutting unit or the chute, is clogged, for example, by accumulated clippings. It is further possible and partly required that optical Display means are provided which signal the user when certain security devices, such as the detector "door open to the collection container ", not in the safe operation enabling position. This measure also serves Operational reliability.

For these reasons, there are at least two visual displays provide one of which is a visual indicator, the visual indicators are usually designed in the form of light emitting diodes Operational readiness is signaled and is therefore almost constantly in operation. It also requires attention to the signal Operational readiness that in addition to the inlet shaft Point on the shredder is observed.

The object of the invention is generic data shredders to further develop that their user-friendliness and their Operating security is further increased.

The object of the invention is based on one Generic data shredders with marked features solved by claim 1.

A data shredder has an electrical drive driven cutting unit. The cutting unit can not just about a cutting unit, that is actually a cutting of the material to be cut, it can also be a cutting unit act in which the material to be cut by tearing and the like Processes in different, independent parts, for example strips or particles are separated. For feeding The inlet chute is used for cutting. According to the invention is on one Side of the inlet shaft at least one on the opposite Light source radiating towards the side of the inlet shaft.

According to an advantageous embodiment of the invention at least one light source optically at least two of each other distinguishable signals given. The signals are in Dependency of the operating state of the data shredder selected.

It is further advantageous if the at least two of each other distinguishable signals differ in the color of the light. It is particularly possible to change the condition of a color "ready for use" and the other color is not " operational ". Examples of distinguishable from each other Signals are not only chromatically distinguishable signals, but also also signals that differ from one another in their time behavior. So a constant light spot from a flashing light spot and a slow blink from a fast blink or one Constant light can be distinguished. For example, it may be possible be ready for operation via a constant light spot on the Light source opposite side of the inlet shaft too signal while the "cutting unit is working" status slowly flashing signal is displayed, then from the Light source did not produce light spots on the opposite side of the inlet shaft, but on the material to be cut. The The "fault" state can then be flashed rapidly, the Flashing frequency significantly increased compared to slow flashing (doubled) must be signaled. This described Signaling and its assignment to certain functional states can, as long as it is observed that the signals of the at least one Light source are clearly distinguishable from each other, even if they are not in immediate succession, but independently of each other are largely freely chosen. It is after Possibility an intuitive to understand as easy as possible Assignment of the signal to the signaled state desirable, however, the assignment can be described in manuals, for example be that the choice of mapping between signal and Operating state can be chosen largely freely.

According to a preferred embodiment of the invention, it is possible to arrange at least one light source in the inlet shaft such that the light spot generated by the light source on the opposite Side of the inlet shaft is visible to the user.

According to a further advantageous embodiment, it is possible to Arrange light source so that the light source itself for a user is visible, preferably at the same time that of the Light source generated light spot is visible. Such an arrangement is especially possible if the light source is as far forward as possible is arranged in the inlet shaft. On the other hand, a relative can arrangement far back in the inlet shaft may be advantageous. Then is namely extensive shielding of the illuminated area the inlet shaft of extraneous light possible, so that the light signal Light source is very easy to grasp.

According to a preferred embodiment, the at least one light source is in the Area of an operating switch of the cutting unit Light barrier, in particular adjacent to their signal generator, in Inlet shaft arranged. Photoelectric sensors are in the inlet shaft Usually arranged around the supply of material to be cut a signal to deliver, which is generated by the interruption of the light barrier and thus to record when the cutting unit is in operation should be taken and when the cutting unit will be in operation again can be interrupted because no more material to be cut is fed.

According to a particularly preferred embodiment of the invention the at least one light source of the signal generator in the inlet shaft arranged light barrier. The signal transmitter sends this Light barrier at least in the visible area. Another advantage it is when exactly one light source is provided. According to further development, it is possible that the light source Signal generator working with a predetermined clock frequency. there it may prove advantageous that the clock frequency of the Photoelectric sensor is chosen so that a human observer the visual impression of a permanently switched on light source is produced.

An advantage when using the at least one at the same time Light source as signal generator of a light barrier is that a component namely either light source or signal transmitter is omitted and the function of these two components is replaced by one. Furthermore, not only generates savings in component costs, but also in constant consumption of electrical energy in the ready state Status. Because data shredders normally work over the entire office are in the operational state and the periods in which the Cutting unit is actually in operation, are relatively short, the average power consumption is not essentially due to the Power consumption of the cutting unit, but through the Power consumption of the secondary consumers determined. Therefore it means a significant energy saving if instead of two light sources only a light source is required. This is particularly the case because light emitting diodes emit light in the visible spectral range have relatively high power consumption.

With such a configuration, care must be taken that the Frequency range in which the signal generator, which is also the light source is selected so that the signal receiver in this Spectral range is sensitive to light. This is particularly for example the case with a light source / signal transmitter emitting in the red area, since the photoelectric barrier acts as the signal receiver of the light barrier mostly in the infrared range, i.e. one that is close to the red range Frequency range are sensitive. Therefore it is possible both in visible red area as well as in the near IR area, see that visible light is generated at the same time and in the infrared range Photo transistor of the signal receiver in its optical work area is irradiated. This is possible so that the energy consumption of the a light source that emits at least not much larger than when using only one light source. Reduced further can be the power consumption of this light source, which at the same time as Signal generator serves when the light source is operated in a clocked manner, i.e. the light source only works intermittently. To signal the Operating state "device ready", however, it is advantageous when a continuous signal is received by the observer. at a human observer is able to with a high Clock frequency of the clocked emission of light to work, so that the visual impression of a constantly burning light, for example is operated above a frequency of 80hz, so that at the same time just an intermittent operation of the light source or the signal generator given is. This measure can go even further Energy saving can be generated as only by replacing it one of the two light sources signal generator and light source by one component performing both functions is possible.

In some cases it is also possible to use light sources that are in several chromatic color areas, e.g. in red and green or the blue area alternately, depending on, with what energy they are stimulated. This possibility can do that signals that are chromatically different from one another are used to generate a light source. Alternatively, it goes without saying possible to generate chromatically different signals in that for each color that should be able to be emitted, a separate light source is available.

Fig. 1

die schematische Darstellung eines erfindungsgemäßen Datenshredders.

The foregoing and other features emerge from the claims and also from the description and the drawings, the individual features being realized individually and in groups in the form of sub-combinations in an embodiment of the invention and in other areas and advantageous, as well as for Protectable versions can be represented, for which protection is claimed here. In addition, an embodiment of the invention is also described with reference to the drawing; shows:

Fig. 1

the schematic representation of a data shredder according to the invention.

1 is a schematic representation of an inventive Data shredder 10 shown. The data shredder 10 is on the Power supply 30 connected. Via the main switch 31, which can be operated manually, the operational readiness of the Data shredders created by the user. If the main switch 31 closed, the data shredder is ready for operation while in the open position of the main switch 31 is not ready for operation. about the power supply 30 becomes both the drive 11 and the Control electronics 13 supplied with voltage. To adjust the Operating voltage of drive 11 and control electronics 13 can between these units and the power supply 30 each corresponding transformers and converters, for example Rectifiers for the control electronics 13 may be provided. The Control electronics control the at the same time as a signal generator for the light barrier 14 trained light source. From the light source 14 is the light beam 15 in the direction of the reflective surface 16 that on the side of the inlet shaft 19 opposite the light source 14 is arranged, radiated down and is reflected there. The Reflection surface 16 is in particular a reflecting surface trained so that a reflection of the slightly divergent Light beam 15 takes place. The further beam expansion creates a clearly visible observation area for the observer 20. Instead of a reflection surface 16, it may also be sufficient if a simple Material surface or a separately smoothed material surface in this Area is formed on the inlet shaft and the observer this area can observe scattered light. As a reflection surface 16 can serve in particular a reflective film, which is preferably flush or recessed in the corresponding area of the Inlet is arranged so that it is not inserted through Cuttings can be detached.

In order to form a transmission path for the light barrier, for example in the middle of the reflection surface 16 Transmission area 17 arranged through which part of the light beam 15 can get to the signal receiver 18. The signals of the Signal receiver 18 are in the control electronics 13th evaluated. The control electronics 13 act on the switch 12 a. If the light barrier is interrupted, the receives Signal receiver 18 no signal emitted by the light source 14 more. Therefore, an interruption in the signal path between the light source 14 and the signal receiver 18 closed. It will therefore assumed the material to be cut into the inlet shaft 19 was introduced and therefore the cutting unit 21 put into operation shall be. For this purpose, the switch 12 is closed and then that Cutting unit 32 driven by the electric drive 11. In which Cutting unit 32 is preferably two cutting rollers, through which a strip cut or a particle cut of the material to be cut he follows. The cutting unit 32 does not necessarily have to be a Cutting process can be carried out in the true sense, it can also by tearing or similar processes Cuttings into different sections, for example in strips or particles of a predeterminable size. The cutting rollers 22 of the cutting unit 21 are driven by the electric drive 11 driven. The material to be shredded by the cutting rollers 22 is collected by the collecting funnel 23 and then in one Storage container or the like. collected.

The signal emitted by the light source may be either a pulsed light signal or a steady light act. It is also possible to get the pulsed signal in such a fast Sequence of pulses (pulse frequency) to be sent out by the observer 20 the impression arises that it would be a continuous act emitting light source. It is according to the schematic Drawing in Fig. 1 by the light barrier compared to Direction of insertion of the inlet shaft 19 inclined arrangement the light source 14 and the receiver 18 the observability of Light spots that the light source 14 generates on the reflection surface 16 been improved. This improvement can be seen in the fact that normal beam path that is reflected by the reflection surface 16 Light emits from the inlet shaft 19 and thus the Observability for the observer 20 is significantly increased. This is especially the case when the inlet shaft 19 essentially is aligned horizontally, which is just as possible as a vertical Alignment of an inlet shaft. The angle of inclination of the oblique standing arrangement can then be chosen in an advantageous manner be that the eye of the user at a usual Operating distance and excessive body size within the forming light cone of the light source 14 is located. To increase the Light intensity, it is possible for the light source to have optics or to provide a reflector through which the light is concentrated towards is emitted onto the reflection surface 16.

The light signal emitted by the light source 14 can also assigned different meanings. So with one normal operational readiness, for example, at least that Viewer as constant appearing light especially one, for example red color. If the Readiness for operation, for example due to a paper jam in the Cutting device 21, it is then possible to optically via the light source 14 emit visible pulsed light so that the observer 20 the Can detect the difference in the operating state. Of course, introduced cutting material, the light beam 15 on the surface of the Cuttings are scattered and should, if possible, also be observable. However, the observability of the light spot is improved in that the inlet shaft has a relatively narrow area is in which there is a shadowing from the ambient light is available. If there is a malfunction of course, still material to be cut in the inlet shaft 19, so that Light signal is reflected on the surface.

Designs in which the light source 14 is particularly favorable are both as a light source for the optical signaling of the Operating state serves the observer 20, as well as simultaneously Signal generator for the signal receiver 18 of the light barrier, which the Operation of the cutter 21 controls. In addition to this configuration, it is also possible, the light source 14 in the immediate vicinity of the Arrange the signal generator so that only the visual impression is created would be the same light source. So far the Light source 14 also serves as a signal generator, it is special advantageous if it emits in the red, visible optical range. On the one hand, this is due to the fact that red light-emitting diodes are easier to manufacture and also phototransistors as signal receivers 18 can serve. Here it is particularly advantageous if in addition to the visible red area even in the invisible, near Infrared range is emitted.

In addition, it is also possible in alternative configurations that the Radiate light source 14 in several optical spectral ranges can, so that, for example, in normal operational readiness Signal is in the range of green colored visible light while operational disturbance due to a signal in the red spectral range could be displayed. For example, by a yellow flashing signal could then indicate the operating status of the Reverse running of the cutter 21 can be communicated to the is required in the event of blockages above the cutting unit 22 lie, the material to be cut back out of the inlet shaft to promote to the operator.

Claims (11)

Data shredder with a cutting unit driven by an electric drive and with an inlet shaft for feeding material to be cut to the cutting unit, characterized in that on one side of the inlet shaft (19) at least one light source emitting in the optically visible area on the opposite side of the inlet shaft (19) (14) is arranged. Data shredder (10) according to Claim 1, characterized in that at least two signals which can be distinguished from one another are emitted by the at least one light source (14) depending on the operating state of the data shredder (10). Data shredder (10) according to Claim 2, characterized in that the at least two signals which can be distinguished from one another differ in the color of the light, in particular one state being assigned the "ready" state and the other color being the "not ready" state. Data shredder (10) according to one of the preceding claims, characterized in that at least one light source (14) is arranged in the inlet shaft (19) such that the light spot generated by the light source (14) on the opposite side of the inlet shaft (19) User is visible. Data shredder (10) according to one of the preceding claims, characterized in that the light source (14) is arranged in such a way that the at least one light source (14) is visible to a user. Data shredder (10) according to one of the preceding claims, characterized in that the at least one light source (14) is arranged in the inlet shaft (19) in the region of a light barrier which functions as an operating switch of the cutting unit (21), in particular adjacent to its signal transmitter. Data shredder (10) according to one of the preceding claims, characterized in that the at least one light source (14) is the signal transmitter of a light barrier arranged in the inlet shaft (19), which at least also emits in the visible area. Data shredder (10) according to claim 7, characterized in that the light source (14) is a signal transmitter operating at a predetermined clock frequency. Data shredder (10) according to claim 8, characterized in that the tracing frequency of the light barrier can be selected so that the visual impression of a permanently switched-on light source (14) is generated for a human observer (20). Data shredder (10) according to one of the preceding claims, characterized in that a reflection surface (16), in particular a reflective film, is provided on the side of the inlet shaft opposite the light source. Data shredder (10) according to one of the preceding claims, characterized in that the radiation angle of the light source has such an angle with respect to the orientation of the inlet shaft (19) that the resulting light cone for a conventional observer is at the usual operating distance in the field of view of this observer.

Images