WO1996001459A1 - Controlling device - Google Patents

Abstract

A controlling device, in particular for the access of persons to ski lifts or the like, has at least one reading device for portable data carriers carried on persons. The controlling device has a data receiver that receives data from data carriers. According to the invention, the data receiver (5, 9) hangs from a support (10) arranged above the data receiver (5, 9) of the reading device (3, 8), leaving a free space (F) below the data receiver (5, 9).

Description

 Control device

The invention relates to a control device, in particular for the access of people to ski lifts or the like, with at least one reading device for portable data carriers carried by people, which has a data receiver that receives data from the data carrier.

Such control devices are used, for example, in ski lifts and generally where access to people is restricted or to be checked. The authorized persons carry data carriers with them, the data of which provide information about the authorization. A reading device, which has a data receiver, reads this data and emits corresponding electrical signals. These can then be checked for certain criteria in a comparison device, for example, and access can take place in the case of authorization. It is possible to access by means of barriers, turnstiles or the like. first restrict and then open. However, it is also possible to allow free passage and, in the case of non-authorization, to trigger an alarm or to take a picture with a photo camera or video camera.

In particular in the case of access control to ski lifts, it has been shown that the usual control devices represent a bottleneck in which it is particularly difficult for beginners, without problems, at the lateral boundaries and the stands on which the control devices are arranged, come over. When used outdoors, there is also the problem that the snow depth varies and therefore the control device has a different height depending on the snow depth

BEST COPY to the snow surface. In the case of larger amounts of snow, it was previously necessary to shovel these areas out by hand because of the limited space in the area of the control devices. Apart from the work involved, this has led to annoying slopes and gradients in the area of the control stations, which make it difficult for even more experienced skiers to easily get through the control station.

The object of the invention is therefore to create a control station of the type mentioned at the outset which (in particular for skiers) allows easy passage and which enables simple adaptation to the prevailing conditions.

According to the invention, this is achieved in a device of the type mentioned at the outset by arranging a carrier above the data receiver of the reading device, on which the data receiver is suspended, with a in the area below the data receiver

Free space remains.

In contrast to the previously known control devices, in which the reading device or the data receiver is propped down on stands or feet, the basic idea according to the invention is to control the device (or more precisely at least its data receiver) by To hang up, which results in a free space underneath, in which no feet, stands or other holding devices of the control station are arranged. Skiers still have to pass their data receivers at the control station with their bodies. The big advantage, however, is that there are no obstacles in the foot area and especially on the snow surface with the skis are. The previously troublesome threading of the ski into feet, stands or other carrying devices of the control device is thus no longer necessary. The skier can also be issued laterally by the skier without a collision (plow or skate step) and reach the area below the data receiver without collision.

In addition, in preferred embodiments, the reading devices or their data receivers (for example, antennas or magnetic card readers) can be easily adjusted in height in order to enable adaptation to different circumstances, in particular to varying snow heights. It is possible to adjust individual data receivers hanging on the carrier relative to the carrier. However, it is also conceivable and generally sufficient if, in the case of several data carriers on a common carrier, this common carrier can be adjusted in height. Such a carrier can also be adjustable in other directions, in particular pivotable about a vertical axis. The carrier and the data receiver (s) attached to it can thus be pivoted away, so that mechanical preparation of the snow surface in the region of the operating position of the data carriers is also possible, for example with a caterpillar vehicle which is customary for snow preparation.

In the case of reading devices which read the data carriers without contact, it is necessary to record a large area of the possible position of the data carriers (for example from a low height in children to a high one)

Height in adults) necessary to arrange relatively large data receivers in the form of antennas. When the antennas have previously been accommodated in closed housings, there is a cramped impression of space in the passage next to the data carrier. To get this impression avoid, a variant of the invention provides that the data receiver, a housing of the data receiver and / or a functional part belonging to the data receiver is transparent. In particular, a transparent shield for shielding fields surrounding the antenna comes into consideration as the functional part. With regard to the transparent design, it should be noted that the individual components do not necessarily have to consist of transparent material. It is sufficient if translucent areas are present, as is the case, for example, with a screen from a grid or a network. The grid or network wires themselves can of course be made of opaque material. Overall, however, there is a transparent grid or network. Because of the transparency, one can at least see a vague view, with which the confining spatial impression, which previously resulted from large, closed control devices, can be avoided.

Further advantages and details of the invention are explained in more detail with reference to the following description of the figures.

1 shows a first exemplary embodiment of a control device according to the invention with four reading devices; 2 shows a further exemplary embodiment; 3 shows the data receiver of a variant of the invention in a perspective side view; 4 shows a further exemplary embodiment of a data receiver together with the shield in cross section; 5a and 5b show a side view and a front view of a suspended data receiver together with the housing and the free space underneath. The control device shown in Fig. 1 is designed to control the access of people to ski lifts. Four similar stations 1 are provided, which are arranged in parallel and each control access to a ski lift via a turnstile 2. In the exemplary embodiment shown, access is possible using two different data carrier types. For this purpose, each station 1 has two reading devices 3 and 4. The reading device 3 is designed for reading conventional magnetic cards and, for this purpose, has as a data receiver a reading head 5 which reads the magnetically coded data of the data carrier 6 inserted in an insertion slot, which is shown schematically in FIG. 1. In addition, each station can also read contactlessly active data carriers 7. For this purpose, the reading device 8 has an antenna 9, shown in broken lines, which receives data from the data carrier 7. The data carrier 7 can, for example, have a battery and continuously transmit data. However, it is also possible that the data carrier itself has no internal power supply, draws its operating energy from the field emitted via the antenna and only sends its data back to the antenna 9 after being queried by this field. The data read by the reading device 3 or reading device 8 are then available in the form of electrical signals. These signals can then be checked in a comparison device, which in the exemplary embodiment shown is integrated in each case in the reading device

(for example, whether the validity date is within a predetermined range). Thereafter, this comparison device can open or keep the turnstile 2, depending on the comparison result. The previously described functions of the control device for ski lifts shown in FIG. 1 are basically already known and therefore do not require any further explanation. Numerous other types of suitable reading devices or data receivers are also known in principle to the person skilled in the art.

According to the invention, it is now provided that the stations 1 or the data receivers 5, 9 accommodated therein are not, as was previously customary, via feet, stands or the like underneath. stand up on the ground, but are suspended from an overhead support 10 via a suspension 11, so that a free space F remains below. This storage enables simple adaptation to different situations and also makes it easier for the skier to pass through, since he can bring his skis into the free space F below the stations 1, without the usual feet or the like there. to collide.

It is possible to arrange several identical data receivers on the same carrier 10 at a lateral distance from one another. In the exemplary embodiment in FIG. 1, four adjacent stations 1 are provided. In addition, it is possible to hang two or more data receivers 5, 9 together on one and the same suspension 11 on the carrier 10. In the exemplary embodiment shown in FIG. 1, each station contains two data receivers for checking various data carriers (here magnetic cards on the one hand and active, contactless interrogator data carriers on the other).

Only one foundation 12 is required for this large number of data receivers 5, 9. This foundation 12 in the fixed floor 13 carries a vertical support column 14, from which the carrier 10 is a side arm. The carrier is therefore supported on one side and is therefore easily adjustable. First of all, the support 10, which advantageously runs horizontally, is height-adjustable in that a part 14 * of the column 14 is telescopically supported and height-adjustable in the direction of the parts 15 via a suitable drive mechanism. This adjustment option makes it easy to adapt the position of the stations 1 relative to the current height of the snow 16.

In addition, in the exemplary embodiment shown, the carrier 10 is mounted on the column 14 so as to be pivotable about a preferably vertical axis 17. It is thus possible to turn the carrier 10 away and to prepare the snow surface below the normal position of the stations mechanically and quickly.

In the exemplary embodiment shown in FIG. 1, in addition to the actual data receivers (read head 5, antenna 9), further electronic components of the reading device 3 or 8, together with the data receiver 5, 9, are suspended from the carrier 10 and with the associated data receiver 5, 9 housed in a common housing which forms the stations 1. Autonomous control devices are therefore suspended from the carrier 10 and in principle only require a power supply (not shown). Of course, these stations can also be connected to a control center and exchange data.

In the exemplary embodiment shown in FIG. 2, of the parts of the reading device essentially only the actual data receivers (here loop-shaped) installed antennas 9) are suspended from the carrier, while further electronic components of the reading device for processing the data received by the data receiver 9 into electrical signals are arranged at another location. The one shown in Fig. 2

Exemplary embodiment, these electronic components are housed in the area of the connection point of the carrier 10 to a building wall 19. This embodiment has the advantage that fewer components have to be accommodated in the already limited passage area between the data receivers, so that essentially only the actual data receivers (here antenna 9) need be arranged there. In the exemplary embodiment shown in FIG. 2, two data receivers 9 are arranged on each suspension 11, and the data carriers can read the suspension 11 on the left and right. A shield 20 (shown in dashed lines in FIG. 2) between the antennas 9 prevents interfering interactions of the fields. The antennas 9 and the shield 20 are each protected in a preferably transparent housing 21. While there is a turnstile 2 in each of the exemplary embodiments shown in FIG. 1, which enables or blocks access, the control device in FIG. 2 is designed as a pure monitoring device in which the skiers can pass through practically without interference. If the contactless check of the data carriers reveals that there is authorization, essentially nothing happens. If the control facility does not find a valid data carrier, there are various ways of sanctioning this. For example, a barrier further behind can approach. However, it is also possible that an alarm tone sounds or, for example, a video recording of the unauthorized user takes place. In the exemplary embodiment shown in FIG. 2, the carrier 10 designed as a lattice girder is fastened directly to a building 19 and itself cannot be adjusted in height. Nevertheless, the data receivers (antennas 9) can be adjusted in height by the suspension 11 having a device 22 for adjusting the height in the direction of the arrows 23. If necessary, the two stations 1 can also be set to different heights.

3 shows an optically particularly light-acting station 1 with a data receiver in the form of an antenna loop 9. The antenna loop 9 is fastened to a frame 24 made of round tubes. This frame 24 also carries a grid 20 made of electrically conductive, non-magnetic material, for example aluminum. This grating 20 shields interfering fields of the antenna 9 on one side, so that on the other side of the grating 20 or the frame 24 a further antenna, not shown here, can be provided without interfering interactions occurring. For protection, the antenna 9 and the shielding grid 20 can also be surrounded by a housing 21 made of transparent material, in particular acrylic glass.

In addition to the contactless acquisition of the data, the embodiment of FIG. 3 also provides for the acquisition of magnetic cards with the magnetic card reader 3, which can be attached to the frame 24.

Overall, in the exemplary embodiment in FIG. 3 there is an optically more easily appealing impression, it being possible to look through the stations 1, in particular through the shielding 20. Transparency can also be achieved by pouring the antenna 9 into transparent, curable material 10, as in the exemplary embodiment according to FIG. 4. The shield 20 can, for example, be vapor-deposited on the transparent carrier.

5a and 5b schematically show parts of a control device according to the invention suspended from above, the dimensioning of the free space F underneath being shown in broken lines. An embodiment is particularly preferred in which the free space extends horizontally outwards from the lower outer edges of the data receiver or a housing 21 thereof on all sides at least by an amount a = 20 cm (preferably at least 50 cm). The clearance height h should advantageously be at least 20 cm (preferably at least 30 cm) above the contact surface 25. Such free space ensures, in particular for skiers, that there are none

Collisions with disturbing construction elements occurs, but in the free space F an unimpeded movement of skis is possible.

The invention is of course not limited to the exemplary embodiments shown. The idea of the transparent control device can in principle also be realized in the case of the control device which has hitherto been usually mounted on the floor, although the suspended version also appears to be more favorable with regard to the space underneath.

In principle, the invention is not restricted to the use of certain data carrier types and reading units. It is also quite possible to use the disk to describe, in which case the data receiver can also work as a data transmitter. This makes it possible, for example, to debit a point supply on the data carrier as it passes through the control device until the point supply on the data carrier is used up. In addition, one and the same data carrier in the cash register can again be written with new points for a fee. Time cards such as daily, monthly or annual cards that do not have such a point pool can also be writable. You can use the same data carrier again on different days and do not need to throw it away.

In addition to the grating 20 shown in FIG. 3, a metal plate (preferably expanded metal plate) with a plurality of passage openings is particularly suitable as a shield, so that overall there is transparency. It is sufficient if the shielding in the view has a total area share of less than 20 percent made of opaque material

(for example the lattice bars) and intervening openings with a total area share of at least 80 percent.

The carriers can also be designed in different ways. In principle, it is also possible to use already existing devices as carriers, for example an existing ceiling from which the control device is suspended.

Claims

Patent claims: 1. Control device, in particular for the access of people to ski lifts or the like, with at least one reading device for portable data carriers carried by persons, which has a data receiver that receives data from the data carrier, characterized in that above the data receiver ( 5.9) of the reading device (3.8), a carrier (10) is arranged, on which the data receiver (5.9) is suspended, with a free space (F) remaining in the area below the data receiver (5.9) . Control device according to claim 1, characterized in that the data receiver is an antenna (9) of a reading device (8) for contactless detection of data from the data carriers (7). Control device according to claim 1, characterized in that the data receiver is a reading head (5) for reading magnetically or optically coded data on the data carriers (6). 4. Control device according to one of claims 1 to 3, characterized in that two or more, preferably identical data receivers (5,9) are suspended at a lateral distance from one another by the same carrier. 5. Control device according to one of claims 1 to 4, characterized in that two or more data receivers (5, 9) are suspended together on one and the same suspension (11) on the carrier (10). 6. Control device according to claim 5, characterized ge indicates that the preferably similar data receivers (9) on the same suspension (11) for detecting data carriers on the left or right of the suspension are formed. 7. Control device according to claim 5, characterized in that the data receivers (5, 9) on the same suspension (11) are designed to detect different types of data carriers (6, 7). 8. Control device according to one of claims 1 to 7, characterized in that in addition to the data receiver (5,9) also other electronic components of the data in the form of electrical signals emitting reading device (3,8) together with the data receiver (5,9) depends on the carrier (10) and is preferably accommodated in a common housing with the associated data receiver (5,9). 9. Control device according to one of claims 1 to 7, characterized in that from the parts of the reading device essentially only the data receiver (9) is suspended from the carrier (10) and further electronic components (18) of the reading device for processing the data received by the data receiver into electrical signals at another location, for example in or on the carrier (10). 10. Control device according to one of claims 1 to 9, characterized in that a barrier, a turnstile (2) or the like is hung together with the data receiver on the carrier (10) and in Dependence on the data recipient (6,7) taken and the associated reading device (3,8) processed data is controlled. 11. Control device according to one of claims 1 to 10, characterized in that the carrier (10) extends substantially horizontally. 12. Control device according to one of claims 1 to 11, characterized in that the carrier (10) is mounted adjustable in height. 13. Control device according to one of claims 1 to 12, characterized in that the carrier (10) is preferably pivotally mounted about an essentially vertical axis (17). 14. Control device according to claim 13, characterized in that the carrier (10) is supported on one side and the axis runs past next to all data receivers suspended on the carrier. 15. Control device according to one of claims 1 to 14, characterized in that the data receiver (9) is adjustable relative to the carrier (10), in particular is height-adjustable. 16. Control device according to one of claims 1 to 15, characterized in that the carrier (10) is attached as a lateral arm to a support column (14) anchored in the floor. 17. Control device according to one of claims 1 to 16, characterized in that the reading device (3,8) reads the data read from the data carrier (6,7) in the form of electrical signals to a comparison device for checking the data emits and this comparison device controls a peripheral device, for example a barrier, a turnstile (2), a video camera or an alarm device, depending on the result of the check. 18. Control device according to one of claims 1 to 17, characterized in that the data carrier (6,7) are writable. 19. Control device according to claim 18, characterized ge indicates that the data receiver (5,9) also work as a data transmitter for writing to the data carrier (6,7). 20. Control device according to one of claims 1 to 19, characterized in that the free space from the lower outer edges of the data receiver or from a holder or a housing thereof measured on all sides at least 20 cm (preferably at least 50 cm) horizontally outwards stretches and has a clearance height of at least 20 cm (preferably at least 30 cm) above the contact surface for the people passing through the control device. 21. Data receiver, in particular for a control device according to one of claims 1 to 20, characterized in that the data receiver (9), a housing (21) of the data receiver and / or a functional part (20) belonging to the data receiver is transparent . 22. Data receiver according to claim 21, characterized in that the data receiver is a preferably loop-shaped antenna (9) and that the functional part is a transparent shield. tion (20) for shielding fields surrounding the antenna (9). 23. Data receiver according to claim 22, characterized in that the shield is a grid or a Network is. 24. Data receiver according to claim 22, characterized gekenn¬ characterized in that the shield is a metal plate, preferably expanded metal plate with a plurality of through openings. 25. Data receiver according to one of claims 22 to 24, characterized in that the shield (20) in the view is a total area share of less than 20% of opaque material and openings in between with a total area share of at least 80%. 26. Data receiver according to one of claims 22 to 25, characterized in that the shield consists of electrically conductive, non-magnetic material, for example aluminum. 27. Data receiver according to one of claims 21 to 26, characterized in that the data receiver is preferably surrounded by an antenna including shielding by a closed housing made of transparent material, for example acrylic glass. 28. Data receiver according to one of claims 21 to 27, characterized in that the data receiver (9) is poured into transparent, curable material. 29. Data receiver according to one of claims 22 to 28, characterized in that the shield is evaporated onto a transparent carrier. 30. Data receiver according to one of claims 22 to 29, characterized in that at least one antenna is arranged on both sides of a flat shield.