DE10109524A1 - Detecting e.g. CD loading, employs sensor whose output is changed, as long as CD remains - Google Patents

Abstract

A signal U1 is produced by a sensor in the CD slot channel. This varies relative to its original value, and remains in the new state, as long as the CD remains. An Independent claim is included for the corresponding device.

Description

The invention relates to a method and a device for the detection of a sound and / or information carrier located in a loading shaft according to the preamble of patent claims 1 and 7 , and the use thereof for adjusting a cover covering the device unit according to the preambles of patent claims 2 and 8 ,

From the unpublished DE 101 00 931.3 is a cover for a device unit, for example for a car radio with additional devices, such as a CD player, cassette player etc., known. This cover is used to populate the one behind the cover Move the additional devices into the specified positions, whereby those embedded in the cover Insertion slots in accordance with the loading slots of the additional devices to be brought. Corresponding sound and / or information can then be in this position carriers are inserted into or removed from the loading slots. in particular special when removing the carrier, however, it can happen that this works are separated from the additional device, but there is lead in the loading slots ben. These carriers protrude into the slots of the cover, which is what automatic movement of the cover into its rest position to destroy the sound or Information carrier and / or the adjustment mechanism of the cover can lead.

From the likewise unpublished DE 100 04 683.5 is a cover for a Device unit, especially for ashtrays or cup holders known after the same principle is adjusted.

This results in the object of the invention, a method and an apparatus for de tection of a sound and / or information carrier located in the loading shaft give.

Furthermore, the object of the invention is, in the presence of a sound and / or ver the adjustment of the cover in the loading slot prevent or interrupt an adjustment movement.  

The object is achieved by the features of claims 1 and 7 and the patent sayings 2 and 8 solved.

The invention is based on the idea of providing means for the detection of a shaft occupancy hen that generate a signal swing or a signal reduction, the evaluation in the ses generated signal prevents adjustment of the cover or an already pre adjustment movement is interrupted.

For this purpose, there are different means in or on the loading shaft of a device unit and / or provided on the slot of the cover through which such a signal is generated can be.

In a first technical embodiment, several carbon fibers (carbon fibers) or conductive plastic fibers combined into a carbon brush and preferably on Component slot of the housing located behind the slot of the cover partly arranged the device unit. There are no sound and / or information carriers in the slot, the carbon fibers touch the opposite side of the component kung shaft. This side is connected to a battery ground, for example. The Carbon fibers then act as an electrical opener. As long as there is no sound or The information carrier located in the insertion or insertion slot is the electrical one Contact made via these fibers. With the introduction or ejection of the sound or information Mation carrier the fibers are abge from the opposite side of the shaft lifted and the opener opened as such. The corresponding, the manhole cover tion defining signal generated.

Are these carbon fibers over a greater or the entire width of the assembly arranged shaft, these can also serve as a dust-repellent closure for the Component slot function. When inserting or removing a corresponding one The fiber brushes then serve at the same time for cleaning the sound or information carrier area to be scanned. Electrostatic charges on a sound or information carrier can also be broken down by the fibers.

In a further modification of the brush, some carbon fibers cannot conduct between the plastic fibers can be arranged. This is then preferably to predetermined areas limited.  

In further versions, a Hall sensor, an inductive sensor, can in principle also be used or a reed contact can be integrated in the insertion slot or in the loading slot. These sensors / contacts are compared using a corresponding lever mechanism an element that generates the magnetic field (coil / permanent magnet) from a Ruhela ge shifted or vice versa, in which case the magnetic element is shifted and the sensor or contact is at rest. This also defines the shaft occupancy Signal generated and evaluated.

Furthermore, a distance measurement within the insert or assembly can be carried out the presence or absence of a sound or information medium be determined in the shaft. The measurements are available here as a distance measurement by means of laser beam, ultrasound or also by means of light wavelengths. For example if there is a disc in the loading slot, the height distance changes (above) right side to the lower side) in the shaft. This change causes another laser or Ultrasonic signal than without a disc.

The fact that various sound and In formation carriers are provided with a color. Is there such a carrier in the equipment shaft, the wavelength of the light changes due to the reflective color, whereby the sensor receiving the light wave confronts its output voltage signal changed the state of nonexistence.

Despite the small space requirements, the proposed solutions can Manhole occupancy detection can be detected simply and effectively.

Further advantages will also be addressed in the description of the drawing. In the Exemplary embodiments of the invention are shown in the drawing. The drawing, the Be spelling and the claims contain numerous features in combination. The subject It is also expedient to consider the features individually and to make them meaningful summarize other combinations.

Show it

Fig. 1 shows the state of the art, starting from which the solution is described,

Fig. 2 is a general view of a shaft occupancy detection,

Fig. 3 shows a first modification of the solution of Fig. 2

Fig. 4 shows a further modification for the solution of Fig. 2,

Fig. 5 shows a further embodiment for slot occupancy detection,

Fig. 6 illustrates the distance measuring Schachtbelegunsgerkennung medium,

Fig. 7 in a circuit diagram, the principle of the shaft occupancy detection.

In Fig. 1 a, the prior art reflecting unit 1 is shown with additional apparatuses 2. These are covered in their entirety by a height-adjustable cover 3 , which is attached in front of the device unit 1 . The additional devices 2 have 5 loading slots 2.1 for loading the same with sound and / or information carriers. The cover 3 has 5 insertion shafts 3.1 for feeding these sound and / or information carriers, which in use of the device unit 1 are brought into the appropriate position for the insertion shafts 2.1 of the additional devices 2 .

According to the invention, means 6 are now provided in front of or in the area of the respective loading chute 2.1 , by means of which a slot assignment can be recognized in a first step. For this purpose, several variants can be shown, for the sake of simplicity the description of the embodiments has in each case only been placed on one loading slot 2.1 .

In Fig. 2 6 carbon fibers 7 are provided as means, which are preferably combined into a carbon brush 8 . These carbon fibers 7 are preferably removed over the entire width b of the insertion slot 2.1 , to which an electrically connected contact contact surface 9 is assigned.

It should be noted that the electrical contact (K) between the carbon fibers 7 and the contact contact surface 9 is interrupted as early as possible when a sound and / or information carrier 5 slides into the insertion slot 2.1 , whereas the contact (K) between the two does not may already be closed when the middle carbon fibers 7 of the carbon brush 8 reach through a hole in the sound and / or information carrier 5 and abut the contact contact surface 9 at these points.

A first modification of the solution from FIG. 2 is shown in FIG. 3. The carbon fibers 7 of the carbon brush 8 are assigned opposite on electrically conductive surface areas 10 and 11 in a predetermined partial area of the contact contact surface 9 , preferably around the center of the insertion shaft 2.1 . The other surfaces 12 are designed insulating. The predetermined surface areas 10 and 11 cause an earliest possible interruption of contact by a sound and / or information carrier 5 lying in the insertion slot 2.1 , so that faulty slot occupancy detection is excluded, which would be possible, for example, for a CD as a sound and / or information carrier 5 , since this is known to have a hole in the center. Therefore, the surface areas 10 and 11 are preferably arranged around this hole.

In a further modification of the embodiment according to FIG. 2, as shown in FIG. 4, electrically conductive carbon fibers 7 and electrically non-conductive plastic fibers 15 can be incorporated into a plastic carbon brush 16 in predetermined areas 13 , 14 . The insulation of the contact contact surface 9 can then be omitted in the regions in which the synthetic fibers 15 abut the contact contact surface 9 .

In Fig. 5 another embodiment for shaft occupancy detection of the slot 2.1 is shown in FIG. 2. Here, a Hall or inductive sensor 20 or a reed contact 21 with the corresponding counteractuators 22 , 23 generating a magnetic field are integrated as means 6 . These are moved by a lever mechanism, not shown, when the sound and / or information carrier 5 is inserted or ejected into or out of the loading slot 2.1 from the rest position.

In a further embodiment according to FIG. 6, the means 6 is a distance measurement, which can be carried out by means of a laser beam, ultrasound or light wave measurement. For this purpose, the means 6 are an element 30 generating a laser beam, an ultrasound or a light, and an element 31 receiving a laser beam, an ultrasound or light waves. The element 30 is preferably placed on the upper shaft side, while the element 31 are arranged next to the element 31 . In the case of a sound and / or information carrier 5 located in the loading shaft 2.1, the element 31 then transmits a signal U ₁ indicating the shaft allocation to the evaluation unit 40 .

In principle, depending on the presence or absence of a sound or information carrier 5, a signal jump or a signal reduction is generated in the insertion slot, which jumps are used to define the presence or absence of it. It must not be discriminated whether the sound and in formation carrier 5 pushed into the loading bay 2.1 or this is being taken ent.

In the simplest case, as shown in Fig. 7, the presence or absence of the sound and / or information carrier 5 in the loading slot 2.1 is realized by a mechanical opener / closer principle. In this case, by actuating a normally closed or normally open contact (K, which does not show the latter), which symbolizes the means 6 , a low-current electrical circuit with a supply voltage U _q (battery) is interrupted. To avoid a short circuit, there is a series resistor R _V in the circuit, across which a voltage U _V drops.

In response to this contact interruption, a signal swing (U ₁ = U _q ) or a signal reduction (U ₁ ≠ U _q ), which depends on the wiring of the contact K, is detected by U ₁ and brought to an evaluation unit 40 for evaluation. This signal U ₁ is either compared with the stored signal U _q or its value is considered in order to determine the change. The evaluated signal U ₁ is then used, for example, to block the adjustment of the cover 3 . As long as there is a sound or information carrier 5 in the insertion slot 2.1 and protruding from it, an adjustment of the cover 3 is therefore impossible. For this purpose, the signal U ₁ is placed on a control unit 41 of the cover, as a result of which the output of this control unit 41 for controlling the adjustment motor for the cover (not shown in more detail) is blocked.

In the normal case, if no sound and / or information carrier 5 lies in the ejection of the insertion shaft 2.1 , the break contact K is closed, according to FIGS. 2 to 4, the carbon fibers 7 , which are on the contact contact surface 9 or the surfaces 10 and 11 apply, and the tapped signal value U ₁ ≠ U _q , for example = 0 V (to ground). If, on the other hand, there is a sound and / or information carrier 5 in the insertion slot 2.1 and thus also extends into an insertion slot 3.1 of the cover 3 , the opener contact K is opened, ie the carbon fibers 7 are bent and thereby from the contact contact surface 9 or conductive surfaces 10 and 11 separated, resulting in a U ₁ ≈ U _q .

When using the sensor 20 or the reed contact 21 to generate a changing value U ₁ , the sensor 20 or the reed contact 21 is shifted from its rest position by means of a corresponding lever mechanism (not shown in more detail) if a sound or information carrier 5 lies in the insertion slot 2.1 . This change in position of the counteractuators 22 , 23 causes the voltage change U ₁ on the sensor 20 or on the reed contact 21 . In addition to a normally closed principle, the normally open principle can be applied to the reed contact 21 if it is designed as a normally open contact. If the magnetic field holding the reed contact 21 is eliminated by the counteractuator 23 , this reed contact 21 closes the contact K of the circuit described above. For example, a voltage drop defines the shaft occupancy.

But it is also possible to lead the sensor 20 or the reed contact 21 out of a fixed magnetic field, which can also be done using a lever mechanism (not shown).

When using the distance measurement as a means 6 , the voltage swing U ₁ or voltage drop U _{1 to} be evaluated can be generated by a change in height in the insertion slot 2.1 , ie when a sound and / or information carrier 5 is located in the insertion slot 2.1 .

A light wave measurement as means 6 is also possible. A sound and / or information carrier 5 is often painted with a specific color. If this sound and / or information carrier 5 is now in the insertion slot 2.1 , the wavelength of the reflected color changes. The element 32 then supplies an output voltage U ₁ .

It goes without saying that, within the scope of the inventive idea, further explanations possible are.

Thus, the means 6 can also be attached to the insertion shaft 3.1 of the cover 3 itself (not shown in more detail).

Claims (14)

1. A method for the detection of a sound and / or information carrier located in an assembly slot of a device unit, characterized in that means ( 6 ) on the assembly slot ( 2.1 ) generates a signal (U ₁ ) which is opposite an original value changed, and remains as long as a sound and information carrier ( 5 ) is in the insertion slot ( 2.1 ). 2. A method for adjusting a cover covering a device unit, which is positioned for loading the loading shaft to the loading shaft of the device unit and is moved via a control unit, characterized in that
a signal (U ₁ ) is generated by means ( 6 ) located on the loading shaft ( 2.1 ) and / or on the insertion shaft ( 3.1 ), which signal changes compared to a stored comparison signal (U _q ) and remains as long as a sound and / or information carrier ( 5 ) is located in the insertion slot ( 2.1 ), wherein
when changing the signal (U ₁ ) this causes a blocking or prevention of the adjustment movement of the cover ( 3 ). 3. The method according to claim 1 or 2, characterized in that the change in the signal (U ₁ ) by a voltage swing (U ₁ ≈ U _q ) or a voltage drop (U ₁ ≠ U _q ) is described. 4. The method according to any one of claims 1 to 3, characterized in that the change tion of the signal (U ₁ ) by opening or closing one, the loading shaft ( 2.1 ) in the circuit integrating contact (K). 5. The method according to any one of claims 1 to 4, characterized in that the change tion of the signal (U ₁ ) is caused by a change in the wavelength of a reflective color of the sound and information carrier ( 5 ). 6. The method according to any one of claims 1 to 5, characterized in that the change tion of the signal (U ₁ ) is caused by an occurring height difference in the loading shaft ( 2.1 ). 7. Device for the detection of a sound and / or information carrier located in an assembly slot of a device unit, characterized in that means ( 6 ) are attached to the assembly slot ( 2.1 ) which are electrically connected to an evaluation unit ( 40 ) and a signal Deliver (U ₁ ) for comparison in the evaluation unit ( 40 ). 8. Apparatus for adjusting a cover covering a device unit with at least one insertion slot, which is brought into position with a loading slot for mounting the same with a sound and / or information carrier, the cover being electrically connected to a control unit , characterized by that
on the loading shaft ( 2.1 ) and / or on the insertion shaft ( 4.1 ) means ( 6 ) are introduced, which are electrically connected to an evaluation unit ( 40 ) and supply the signal (U ₁ ) for evaluation in the evaluation unit ( 40 ), the Output is led to the input of the control unit ( 41 ), wherein
In evaluation, a signal preventing or interrupting the adjustment movement is sent to the control unit ( 41 ). 9. Apparatus according to claim 7 or 8, characterized in that the means ( 6 ) car bon fibers ( 7 ) and / or conductive plastic fibers and these are contact contact surfaces ( 9 ) on which the carbon fibers / plastic fibers ( 7 ) as an opening con clock (K) if there is no sound and / or information carrier ( 5 ) in the insertion slot ( 2.1 ). 10. The device according to claim 9, characterized in that the contact contact surface ( 9 ) by electrically conductive surface areas ( 10 , 11 ) and electrically non-conductive surfaces ( 12 ) is formed. 11. The device according to claim 7 or 8, characterized in that the means ( 6 ) are elec trically conductive carbon fibers ( 7 ) and electrically non-conductive plastic fibers ( 15 ) which as an NC contact (K) on the electrically conductive contact contact surface ( 9 ) if there is no sound and / or information carrier ( 5 ) in the insertion slot ( 2.1 ). 12. The device according to one of claims 9 to 11, characterized in that the car bon fibers ( 7 ) individually as well as with the conductive plastic fibers or with the non-conductive plastic fibers ( 15 ) to a carbon brush ( 8 ) or plastic carbon brush ( 16 ) are summarized. 13. The apparatus of claim 7 or 8, characterized in that the means ( 6 ) by a Hall or inductive sensor ( 20 ) or reed contact ( 21 ) with a corresponding magnetic field generating element ( 22 , 23 ) is formed as a counteractuator become. 14. The apparatus according to claim 7 or 8, characterized in that the means ( 6 ) by a laser beam, an ultrasound or a light generating element ( 30 ) and a laser beam, an ultrasound or light wave receiving element ( 31 ) are formed GE.