DE102016103341A1 - RFID reading device for a spectacle frame, spectacle frame, method for equipping a spectacle frame with an RFID chip - Google Patents

Abstract

The invention relates to an RFID reading device (1) for a spectacle frame, in particular for a spectacle frame according to one of claims 12 to 14, comprising: - a housing (10) with a guide (20); - An opening (11) for introducing a spectacle arm (61) in the guide (20); - A detection area (21) for detecting an RFID chip (65) positioned in the guide; - A substantially annular antenna device (30), which is arranged next to the detection area (21) for communication with the RFID chip (65).

Description

The invention relates to an RFID reading device for a spectacle frame, a spectacle frame equipped with an RFID chip, a method for equipping a spectacle frame with an RFID chip, and a method for producing spectacles in general.

An RFID system consists of a transponder with an RFID chip or an RFID transponder or RFID tag, which is located on an object and from a reading device or a reading device. Passive and active transponders are known on the side of the RFID transponders. Passive transponders often do not have their own independent power source and are powered by the RFID reader when retrieving information. Correspondingly short is their range.

Due to their own battery, active RFID transponders have a much longer range, which can be up to 1 km, depending on the permissible transmission power.

The RFID readers are known in numerous designs. Often table devices are used in which the RFID tag or the RFID transponder must be held at a specific position of the housing, so that it is detected. Furthermore, there are handheld devices that, like portable barcode scanners, must be held on the RFID tag to capture it.

The devices described are designed relatively complex and rather unsuitable for use for the detection of RFID tags on spectacle frames.

From the WO 12062243 A1 is a spectacle frame is known that is equipped with an RFID tag. The RFID tag is in the end attached to the temple. This form of attachment can solve and possibly leads to a reduction in the wearing comfort of the glasses. The described RFID tag is an active RFID tag which is to be used to identify a user or wearer of the spectacles and if necessary to open doors automatically. For mass production, this form of equipment of eyeglass frames with RFID tags is not suitable.

Based on the described prior art, it is the object of the present invention to provide an RFID reading device for spectacle frames. The reading device should be designed technically simple and work efficiently. Furthermore, it should, if possible, have very little interference with surrounding devices ("use at the counter").

This object is achieved by the subject matter of claim 1.

• – ein Gehäuse mit einer Führung;
• – eine Öffnung zur Einbringung eines Brillenbügels in die Führung;
• – einen Erfassungsbereich zur Erfassung eines in der Führung positionierten RFID-Chips bzw.- RFID-Tags;
• – eine im Wesentlichen ringförmige Antenneneinrichtung, die neben dem Erfassungsbereich zur Kommunikation mit dem RFID-Chip angeordnet ist.

In particular, the object is achieved by an RFID reading device for spectacle frames, which comprises:

• A housing with a guide;
• - An opening for introducing a spectacle arm in the guide;
• A detection area for detecting an RFID chip or RFID tag positioned in the guide;
• A substantially annular antenna device, which is arranged next to the detection area for communication with the RFID chip.

An essential aspect of this RFID reading device is that the eyeglass temple can be introduced via the guide into the housing of the reading device and is detected there. The guide is preferably designed such that an RFID chip arranged on the eyeglass temple is positioned relatively close to the antenna device. As a result, the communication between the RFID chip works reliably and reliably at relatively low power. Due to the reading within the housing, interference can be reduced.

The antenna device can - but does not have to be ring-shaped. According to the invention there is an inner region of the antenna device, which is essentially surrounded by the antenna device. The antenna device is designed to carry out a readout of the RFID chip or the communication with the RFID chip in this inner region or close to this inner region. The performance of the antenna device thus focuses on this interior area or on areas that are located close to this interior area.

According to the invention, "annular" can be defined such that this includes any configuration surrounding a certain inner region. According to this definition, at least the antenna devices that have a circular or elliptical configuration fall under the concept of the annular configuration. Partial interruptions or sections deviations from this embodiment may be present.

In an embodiment, the antenna device comprises a first and a second annular antenna section. The two Antenna sections can be used to focus power on the detection area.

The first antenna section may be an open ring. Preferably, this open ring is formed as a bent wire, wherein a first end portion of the first antenna portion is connected via a cable to a transceiver device and a second portion of the first antenna portion electrically contacts the second antenna portion.

In one embodiment, the first and / or second antenna section has an inner radius. That is, the first and / or second antenna sections extend substantially around a center, with the antenna sections spaced around the inner radius from that center. This inner radius may be greater than or equal to 3 mm and / or greater than or equal to 5 mm and / or greater than or equal to 7 mm.

Preferably, this inner radius is smaller than 5 cm. Optionally, this inner radius may be less than 3 cm. This ensures a compact design of the RFID reading device and enables operation of the RFID reading device with low energy consumption.

As already explained, the first antenna section may be formed at least partially from a wire. Preferably, this results in a circular cross-section, wherein the cross section in one embodiment of the teaching according to the invention has only a relatively small cross-sectional area. However, the cross-sectional area should be at least 0.5 mm ² or at least 0.7 mm ² .

The first and second antenna sections may be spaced from each other. Preferably, there is predominantly a spacing of at least 1 mm, in particular of at least 2 mm, in particular of at least 3 mm. According to the invention, it may be predominantly defined such that, starting from an overall length of the first and / or second antenna section, a corresponding distance is maintained at least over a distance of 70% of the total length. In a preferred embodiment, this distance is constant. In other words, the first antenna section may be arranged substantially or predominantly parallel to the second antenna section. In one embodiment, the first and / or the second antenna section extend at least in sections parallel to a reference plane.

The second antenna section may be formed at least in sections as a circular or elliptical band. Unlike the preferred wire-shaped configuration of the first antenna section, the second (planar) antenna section may have a planar configuration. The circular or elliptical band may have a width of at least 2 mm, in particular of at least 4 mm, in particular of at least 6 mm. In one embodiment, the first and second antenna sections are arranged such that the second antenna section is provided closer to the detection area than the first antenna section. The electromagnetic field generated in this way is particularly advantageous for detecting small RIFD chips which can be integrated in the eyeglass temple.

The tape can have a maximum diameter of a maximum of 2 cm or a maximum of 1.5 cm. In one embodiment, the flat band has only a very small thickness of about 1 mm.

The band is preferably interrupted at one location, resulting in a first and a second end portion. These end portions may be electrically connected by means of a capacitor.

The housing may comprise an electromagnetic shield, for example in the form of a copper alloy. The shield prevents interference from close to the devices according to the invention located RFID reader. Furthermore, the electromagnetic shielding can be arranged and designed so that only the RFID chip is detected, which is located inside the housing, preferably in the guide. In this respect, no further measures to avoid communication collisions with other RFID chips need to be taken.

In one embodiment, in addition to or instead of a copper alloy, at least one shielding plate is provided. The shielding plate causes the radiation of the RFID reading device is further reduced.

According to the invention, a spectacle frame is furthermore to be equipped in a simple manner with an RFID chip. The solutions of the prior art have the disadvantage in this regard that existing metal parts make communication with the RFID chip difficult.

The object is achieved by a spectacle frame with a first and a second eyeglass temple, wherein at least one of the eyeglass temple near the proximal end of the eyeglass temple comprises an RFID chip, the RFID chip at most 3 cm, in particular at most 2 cm from the proximal end of the eyeglass temple is arranged.

According to the invention, the proximal end of a spectacle arm is defined in such a way that it is to be understood as the portion of the spectacle arm that is farthest from the spectacle lenses. According to the invention, an arrangement of the RFID chip should take place as close as possible to this proximal end, since this area of a spectacle frame often contains no, or only a very small percentage of interfering metal parts in terms of percentage. Furthermore, this area is particularly suitable for reading the RFID chip in conjunction with the already described RFID reader. With the spectacle frame according to the invention, the RFID chip can be read out, wherein the part of the spectacle arm contained in the RFID chip is within a correspondingly designed RFID reading device. In other words, this section of a spectacle frame can be easily inserted into an RFID reader, so that communication with the RFID chip can be carried out at very low power and avoiding mispositioning.

In one embodiment, the at least one temple piece is made predominantly of plastic. Preferably, the entire spectacle frame can be made predominantly of plastic. According to the invention, "predominantly" may be defined such that more than 50% or more than 70% of the related material is plastic.

In one embodiment, in particular in the case of the aforementioned predominant production of plastic, the RFID chip can be introduced into a bore or milling of the eyeglass temple. This bore or milling can preferably be closed by a resin, in particular an epoxy resin. It is possible to provide a spectacle frame with a corresponding RFID chip at a relatively low cost even after the completion of the manufacturing process. The integral introduction of the RFID chip means that it does not affect the wearing comfort of the glasses. Furthermore, the RFID chip is safely protected against external influences, such as moisture.

According to the invention, a method for equipping a spectacle frame with an RFID chip is furthermore to be specified.

• – ein Einfräsen oder Bohren einer Aussparung in einen Brillenbügel des Brillengestells, wobei die Aussparung maximal 3 cm, insbesondere maximal 2 cm vom proximalen Ende des Brillenbügels vorgesehen ist;
• – ein Einbringen eines RFID-Chips in die Aussparung;
• – ein Verschließen der Aussparung, insbesondere mittels eines Harzes.

The invention achieves this object by a method, the method comprising the following steps:

• - A milling or drilling a recess in a temple of the spectacle frame, wherein the recess is provided at most 3 cm, in particular at most 2 cm from the proximal end of the eyeglass temple;
• - An introduction of an RFID chip in the recess;
• - Closing of the recess, in particular by means of a resin.

The procedure for equipping a spectacle frame yields similar advantages as have already been mentioned in connection with the spectacle frame according to the invention.

Furthermore, a method for producing a pair of glasses should be specified. This method may include manufacturing a spectacle frame as already described. In addition, the method may include inserting at least one spectacle lens and storing data describing the spectacle lens in the RFID chip.

According to the invention, it may thus be provided that the RFID chip used contains information describing the spectacles, in particular the related spectacle lenses. Corresponding data may include diopter information or cylinder lens information. Alternatively or additionally, the RFID chip may contain an identifier which makes it possible to uniquely identify the spectacles. Corresponding data describing the spectacle lens, for example on a server, can be stored for this identifier.

Further advantageous embodiments will be apparent from the dependent claims.

The invention will be described by means of several embodiments, which are explained in more detail with reference to figures. Hereby show:

1 a perspective view of an RFID reader according to the invention;

2 a plan view of the opened RFID reader according to 1 comprising the antenna means provided therein;

3 a section through the in 2 illustrated RFID reader;

4 a detailed view of the antenna device 2 ; and

5 a side view of a spectacle frame with RFID chip.

In the following description, the same reference numerals are used for identical and equivalent parts.

1 shows a housing 10 an RFID reader according to the invention 1 , The housing is designed essentially cuboid and has an insertion opening on one end face 11 as well as a plug 13 on. The plug 13 is suitable for the RFID reader 1 to connect with a transmitting and receiving device. In the exemplary embodiment described, the RFID reading device comprises an antenna device as an essential component 30 (see. 2 ). Other electronics used to read an RFID chip 65 (see. 5 ) is necessary, is in the housing 10 not included. In another embodiment, the necessary electronics in the housing 10 be integrated.

The insertion opening 11 is designed to be part of a spectacle frame 60 (see. 5 ), preferably the end of a spectacle arm 61 take.

A temples 61 that is above the slot 11 in the case 10 is preferably inserted inside the housing 10 by means of a bracket guide 20 (see. 2 and 3 ) guided. This ironing guide 20 extends centrally through the housing in the described embodiment 10 , In this embodiment, the ironing guide 20 a formed of plastic hollow tube and has at the end of a stop, so that when inserting the eyeglass temple 61 until it stops at a predefined position. According to the ironing guide 20 configured such that a in the temple 61 containing RFID chip 65 at a predetermined position, namely a detection area 61 located. In a further embodiment, a stop at the end of the ironing guide 20 be waived. Instead, a kink in the temple 61 attach to the outside of the case so that the eyeglass frame 61 is positioned in a preferred manner.

Like in the 2 shown, located above the bracket guide 20 an antenna device 30 , This antenna device 30 is in the described embodiment substantially parallel to a bottom plate of the housing 10 aligned. The antenna device 30 includes a first annular antenna portion 31 and a second annular antenna portion 32 , The first and the second antenna section 31 . 32 each extend substantially along a plane, the two through the antenna sections 31 . 32 spanned levels parallel to each other. The antenna sections are preferred 31 . 32 arranged such that they extend parallel to the bottom plate.

As based on the 2 and 3 can be seen, it is at the first antenna section 31 around a circularly bent wire, the circle in an area near the insertion opening 11 is interrupted. At this point end sections result 31a . 31b wherein the first end portion 31a over a cable 14 electrically with the plug 13 connected is. Preferably, the cable is a coaxial cable, wherein the core or inner conductor is electrically connected to the first end portion 31a of the first antenna section 31 and the outer conductor or the shield with the second antenna section 32 connected is.

The first annular antenna section 31 is of a planar configuration of the second antenna section 32 spaced apart by about 1.5 mm. An antenna section distance h thus amounts to approximately 1.5 mm, the second end section 31b of the first antenna section 31 via a vertical section with the second antenna section 32 is electrically connected and the first antenna section 31 relative to the second antenna section 32 positioned.

Below the first antenna section 31 is the second antenna section 32 , This is clearly planar and has as well as the first antenna section 31 a break, causing the end sections 32a . 32b (see. 4 ). This end section 32a . 32b are over a capacitor 34 connected with each other. Furthermore, the second antenna section 32 with the shielding of the cable 14 connected.

As based on the 4 As can be seen, it forms a kind of band, which has a width D of about 1.5 cm.

Below the second antenna section 32 is the ironing guide 20 with the coverage area 21 (indicated schematically by a plurality of X's).

Below the ironing guide 20 there is a shield plate 40 slightly spaced from the housing 10 is held. The shielding plate 40 has a copper alloy.

Furthermore, also the entire interior of the housing 10 a copper alloy for shielding the RFID reader 1 on.

As can be seen from the figure, both the first annular antenna section extends 31 as well as the second annular antenna section 32 around a center, the first antenna section 31 an inner radius R1 of 1.4 cm, and the second antenna section 32 has an inner radius R2 of about 1.2 cm.

In one embodiment, the inner radii R1, R2 are substantially the same. In another embodiment, the inner radius R1 is at least 10% greater than the inner radius R2.

5 shows a spectacle frame 60 with a temples 61 , Near the proximal end 62 of the eyeglass strap 61 is an RFID chip 65 in the temple 61 admitted. This RFID chip 65 has from the proximal end 62 a proximity distance pD of at least 5 mm. Preferably, the proximity distance pD is less than 4 cm.

LIST OF REFERENCE NUMBERS

1

RFID reader

10

casing

11

insertion opening

13

plug

14

electric wire

15

copper alloy

20

Ironing leadership

21

detection range

30

antenna means

31

first antenna section

31a, 31b

End portion of the first antenna section

32

second antenna section

32a, 32b

End portion of the second antenna section

35

capacitor

40

shielding plate

60

Brillengestell

61

Temples

62

proximal end

65

RFID chip

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• WO 12062243 A1 [0006]

Claims (16)

RFID reader ( 1 ) for a spectacle frame, in particular for a spectacle frame according to one of claims 12 to 14, comprising: - a housing ( 10 ) with a guided tour ( 20 ); - an opening ( 11 ) for introducing a spectacle arm ( 61 ) in the leadership ( 20 ); - a coverage area ( 21 ) to record one in the leadership ( 20 ) positioned RFID chips ( 65 ); A substantially annular antenna device ( 30 ) next to the detection area ( 21 ) for communication with the RFID chip ( 65 ) is arranged. RFID reader ( 1 ), characterized in that the antenna device ( 30 ) at least one first annular antenna section ( 31 ) and / or at least one second annular antenna section ( 32 ). RFID reader ( 1 ), in particular according to claim 2, characterized in that the first antenna section ( 31 ) is an open ring, wherein a first end portion ( 31a ) with a cable ( 14 ) and a second end section ( 32b ) of the first antenna section ( 31 ) with the second antenna section ( 32 ) is electrically connected. RFID reader ( 1 ), in particular according to claim 2 or 3, characterized in that the first and / or second antenna section ( 31 . 32 ) preferably has an inner radius (R1, R2) of at least 3 mm, in particular of at least 5 mm, in particular at least 7 mm. RFID reader ( 1 ), in particular according to one of claims 2 to 4, characterized in that the first antenna section ( 31 ) has a substantially circular cross-section, preferably with a cross-sectional area of at least 0.5 or 0.7 square millimeters. RFID reader ( 1 ), in particular according to one of claims 2 to 5, characterized in that the first antenna section ( 31 ) predominantly about 1 mm, in particular about 2 mm, from the second antenna section ( 32 ) is arranged at a distance. RFID reader ( 1 ), in particular according to one of claims 2 to 6, characterized in that the first antenna section ( 31 ) and / or the second antenna section ( 32 ) are arranged at least in sections parallel to a reference plane, wherein preferably the parallel sections of the first and second antenna sections ( 31 . 32 ) have a constant distance (h). RFID reader ( 1 ), in particular according to one of claims 2 to 7, characterized in that the second antenna section ( 32 ) is at least partially formed as a circular or elliptical band, wherein the band preferably has a width (D) of at least 2 mm, in particular of at least 4 mm, in particular of at least 6 mm. RFID reader ( 1 ), in particular according to claim 8, characterized in that the band has a maximum diameter of a maximum of 2 cm or 1.5 cm. RFID reader ( 1 ), in particular according to claim 8 or 9, characterized in that the band with a first and a second end portion ( 32a . 32b ) is interrupted, wherein the, preferably opposite, end portions ( 31a . 31b ) electrically by means of a capacitor ( 35 ) are connected. RFID reader ( 1 ) according to one of the preceding claims, characterized in that the housing ( 10 ) comprises an electromagnetic shield, in particular of a copper alloy Spectacle frame ( 60 ) with a first and a second eyeglass temple ( 61 ), characterized in that at least one of the eyeglass temple ( 61 ) near the proximal end ( 62 ) of the eyeglass temple ( 61 ) an RFID chip ( 65 ), wherein the RFID chip ( 65 ) at most 3 cm, in particular at most 2 cm from the proximal end ( 62 ) of the eyeglass temple ( 61 ) is arranged. Spectacle frame ( 60 ) according to claim 12, characterized in that the at least one temple ( 61 ), for example, more than 50% or more than 70%, is made of plastic. Spectacle frame ( 60 ) according to claim 12 or 13, characterized in that the RFID chip ( 65 ) in a bore or milling of the eyeglass temple ( 61 ), wherein the bore / milling is preferably closed by a resin, in particular an epoxy resin. Method for equipping a spectacle frame ( 60 ) with an RFID chip ( 65 ), characterized in that - a milling or drilling a recess in a temples ( 61 ) of the spectacle frame ( 60 ), wherein the recess at most 3 cm, in particular at most 2 cm from the proximal end of the eyeglass temple ( 61 ) is provided; An insertion of an RFID chip ( 65 ) in the recess; - Closing of the recess, in particular by means of a resin. Method for producing a pair of spectacles, comprising equipping a spectacle frame ( 60 ) with an RFID chip ( 65 ) according to claim 15, characterized by - an insertion of at least one spectacle lens; Storing data describing the spectacle lens in the RFID chip ( 65 ).

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