DE10208939A1 - Touch screen-sensitive and transponder reading stylus has radio frequency identification electronics in hand part with tip region narrowing towards sensing tip, antenna(s), preferably coil - Google Patents

Abstract

The device has a hand part with read/write electronics, optional auxiliary elements, a sensing tip, radio frequency identification electronics, a tip region narrowing towards the sensing tip and at least one antenna, preferably an electric coil. The hand part is without electromagnetic screening at least near the antenna to produce an electromagnetic field without significant damping and for optically accurate sensing of screens.

Description

The invention relates to a screen reader and transponder reader pen.

There are well known so-called pens to work on touch-sensitive screens (touchscreens) of computers or Use PDAs (e.g. pens for PSION Series 5). These have i. d. R. Rounded stylus tips to the very sensitive Not to hurt screen surfaces.

Laser pens for scanning bar codes or for are also known automatic detection of steps.

Transponder read and write devices are also used Communicate with transponders via an inductive coupling or Radio frequency coupling known (see technical information from MICRO-SENSYS GmbH for the RF identification system iID-2000).

Due to the previously used in these devices However, they are not designed for use on antenna design Suitable for touchscreens.

The invention has for its object a screen stylus for Specify touchscreens that also communicate with Allows transponders.

The task is characterized by the distinctive features of the first Claim resolved. Advantageous configurations are of the subordinate claims recorded.

The invention is based on schematic Exemplary embodiments are explained in more detail. Show it:

Fig. 1 is a Bildschirmtast- and transponder reading pen in view and in longitudinal section,

Fig. 2 shows a first possible embodiment of the pen tip design together with a first read-write antenna,

Fig. 3a shows a second possible embodiment of the pen tip design together with a second read-write antenna,

FIG. 3b shows the view of the Tastpitze according to Fig. 3a,

Fig. 4a shows a third possible embodiment of the pen tip design together with a third read-write antenna, and

FIG. 4b shows the view of the Tastpitze according to Fig. 4a.

The pen according to the present invention consists of the hand part 1 and a tip 2 . The tip 2 is designed in the examples so that differently designed antennas 5 can be used in a specially shaped area 4 and in a further area 3 a probe tip is formed for touching touch screens. Both areas 4 and 3 can also merge. The antennas 5 are preferably formed by electrical coils that emit a magnetic field. Furthermore, the pen contains a read / write electronics 7 of the usual type, which is why it does not need to be described here, which is connected to the antenna 5 via coil wires 6 of the antenna 5 and optionally possible additional elements 9 such as battery, connector or cable or data radio modules, also usual type.

What is decisive is the special design and geometry of the tip and Antenna.

Fig. 2 shows a first axially symmetrical design of the pen tip together with the design of a first read / write antenna. In this example, a ferromagnetic core 11 is used , which is designed in the form of a rod, around which a coil 10 is wound, the tip region 3 tapering on all sides in a tapering and rounded manner.

With sufficient coupling between antenna 5 and a conventional transponder, not shown in the examples, the core material 11 can in individual cases and It may not apply, which also applies to the following examples, but is not a preferred embodiment.

Fig. 3a shows a second possible embodiment of the pen tip design together with a second read-write antenna having a U-core 12 that is suitable in particular for glass transponder and transponder having a shell core. The pen tip has an elongated oval shape, as the view of the probe tip shown in FIG. 3b shows. In the case of the ferromagnetic, U-shaped core 12 , in this example the coil 10 is wound around the core region that connects the two parallel vertices and the core region that connects them vertically, the tip region ( 3 ) being tapered in one dimension on both sides and one in the probe tip head Has chamfer 31 .

According to FIG. 4a, a shell core 13 is inserted, in which the coil 10 is inserted, the tip region 3 tapering acentrically and being provided with a bevel 31 in the probe tip head. The tip thus offers space for the asymmetrical shell core 12 and achieves a specific geometry. The tips in FIGS. 3 and 4 are optimally used when touching on touchscreens in a vertical position and when used with transponders at an inclination of 10 ° to 45 ° to the object in or on which the transponder is located. FIG. 4b show a view of the top from the bottom.

In all arrangements, the maximum diameter of the tip should be at Handpiece should not be larger than approx. 15 mm.

Also in the embodiments according to FIGS. 3 and 4, the chamfer 31 may be designed rounded in the region of the smallest radius of curvature 32nd

In each of the exemplary embodiments, the tip shape should be designed in such a way that the size of the tip can clearly touch the smallest possible touch fields on the touchscreen. The contact area should be less than 1 mm ² and the view of the user when used as a stylus or as a transponder reading pen for small transponders should be minimal and ergonomic handling should be allowed, while the achievable communication distance between pen and transponder should remain at a maximum.

The advantages of the present invention are a small and compact design, which enables universal use. When using PDAs, the user does not have to use two separate devices, as is customary in the prior art, such as a touch pen and reader pen. LIST OF REFERENCES 1 handset
2 tip
3 , 4 areas of the tip 2
5 antenna
6 coil wires
7 Read / write electronics
9 additional elements, such as batteries, connectors, cables or radio data blocks
10 spool
11 rod-shaped ferromagnetic core
12 U-shaped ferromagnetic core
13 ferromagnetic shell core
31 bevel
32 smallest radius of curvature of the bevel 31

Claims (8)

1. touch screen and transponder reader pen, consisting of a hand part ( 1 ), in which write / read electronics ( 7 ) and optionally possible additional elements ( 9 ), such as battery, connector or cable or data radio modules, are also housed in a conventional manner, characterized that a tip area ( 3 , 4 ) is provided, in which an antenna ( 5 ) is accommodated, at least in the tip area ( 3 , 4 ), in the area of the arrangement of a coil ( 10 ), this is free of electromagnetic shielding, so that the emerging electromagnetic field does not experience any significant damping, is formed and, moreover, the tip ( 3 ) is tapered at least in one dimension. 2. touch screen and transponder reader according to claim 1, characterized in that the electrical coil ( 10 ) is associated with an electromagnetic radiation amplifying ferromagnetic core ( 11 ; 12 ; 13 ). 3. Screen touch and transponder reader according to claim 2, characterized in that the ferromagnetic core ( 11 ) is rod-shaped, around which the coil ( 10 ) is wound, the tip region ( 3 ) tapering on all sides tapering and rounded. 4. touch screen and transponder reader according to claim 2, characterized in that the ferromagnetic core ( 12 ) is U-shaped, the coil ( 10 ) is wound around the two parallel legs and these vertically connecting core area, the tip area ( 3 ) is tapered on both sides in one dimension and has a bevel ( 31 ) in the probe tip head. 5. touch screen and transponder reader according to claim 2, characterized in that the ferromagnetic core is designed as a shell core ( 13 ) in which the coil ( 10 ) is inserted, the tip region ( 3 ) tapers acentrically and tapered in the probe tip head ( 31 ) is provided. 6. touch screen and transponder reader pen according to claim 4 or 5, characterized in that the bevel ( 31 ) is rounded in the region of the smallest radius of curvature ( 32 ). 7. touch screen and transponder reader according to one of the preceding claims, characterized in that the antenna ( 5 ) in the tip region ( 3 , 4 ) is fixed by means of a cast and hardened polymer. 8. Touchscreen and transponder reader pen according to one of the preceding claims, characterized in that the contact surface formed by the probe tip for use as a touchscreen stylus is less than 1 mm ² .