DE102005028441A1 - Antenna unit for medical sample dishes has integrated antenna on dielectric cover in work surface opening arranged to read RFID labels - Google Patents

Abstract

An antenna unit has a flat metal work surface with an opening covered by dielectric material with an integrated antenna (108) arranged to detect the RFID (Radio Frequency IDentification) radio labels of sample petri dishes placed on or above the cover. Independent claims are included for the dielectric cover with printed antenna.

Description

The The invention relates to an antenna arrangement for radio transceivers. Especially The invention relates to an arrangement for the identification of laboratory samples by RFID (Radio Frequency Identification, Radio Detection) in Petri dishes and similar containers especially on metallic work surfaces.

In many laboratories, especially in the medical field, is a clear one Identification of samples required. Classically, the identification takes place of samples using multi-digit alphanumeric codes, the on the slides or Petri dishes are applied. To process test results computerized to be able to It is then necessary for each manually or automatically detected value or to a series of measurements manually capture the multi-digit code. The error rate this detection increases with the length of the code. on the other hand are long to one-way identification of very many samples Codes required, so that increasingly with labels or labels with machine-readable identification such as. Barcode is being worked on. During filling of the sample container with the samples machine-readable identification by - usually optical - reader detected and a clear relationship between a sample number on the Petri dish or the slide and an entry in a database, list or similar. produced. This allows in the following each manipulation of each sample their flawless Identification by comparing the number or reading the barcode with a corresponding reader.

to Labeling and identification can be used instead of optical labels and readers also radio procedures such as RFID (Radio Frequency Identification) be used. The barcode is replaced by a radio tag and in place of the bar code reader, a transceiver unit. For the required relatively short distances is usually low and mid frequencies (125kHz to 13.56MHz) and one inductive Coupling between the transceiver unit (often too Reader) and the radio tag for information and energy transfer worked.

The Labeling by an RFID tag offers over the simple labeling or labeling such. With barcode a number of advantages, including the detection without visual contact in closed containers, in largely arbitrary positions and the quick capture as well a bigger one Number of samples within a short period of time without big ones manual effort. Furthermore are subject to optically readable labels of pollution and others impairments which make it difficult or impossible to read out these labels.

Of the Reader of an RFID solution can with a relatively small design effort in a number of laboratory equipment be integrated, including in countertops, hot plates, Sample holder for Microscope etc., as long as between the sample container with RFID tag, e.g. Petri dish or slide, and the antenna of the reader no (areal) metallic object, which is the transmission of electromagnetic Waves impeded.

In a number of cases but that is - from others Points of view - optimal or at least preferred arrangement of the antenna of the reader just so to choose that yourself a metallic surface between Antenna and label is located. For example, metallic work surfaces, about made of stainless steel, usual, because they are easy to clean and very robust. The order the antenna above the tabletop would on the one hand lead to the cleaning, to the straight in the medical field high demands placed be difficult, or even impossible, in the realm of the reader positively hard to reach Corners and joints, especially when retrofitting the reader, would arise.

on the other hand that would be retrofitting in most cases can only be achieved by mechanical processing of the work surface. An arranging of the reader below the tabletop - from the above point of view the preferred location - because the metallic table top the coupling between label and Strongly obstruct readers or entirely would prevent. Similar Problems also occur in connection with (mainly metallic) heating or positioning devices, as in microscopy devices can be found on.

It It is therefore an object of the present invention to provide an antenna arrangement for flat metallic Specify devices.

This object is achieved by an antenna arrangement which comprises a flat metallic body and an antenna of a radio transceiver and is characterized in that an opening is provided in the body with a cover of dielectric material matching the opening, wherein the antenna of the radio transceiver on one of a work surface the body opposite side of the body in connection with the cover is arranged so that on or above the work surface arranged radio elements, ins special radio tags, can be detected.

Of the Advantage of such an arrangement is the fact that for the above mentioned, Tables with metallic table tops installed in many laboratories, the common already openings which are closed by covers, replacement covers can be created on / in which an antenna of a radio transceiver is placed on /. Does a table have no opening it is very easy to for example, by drilling to create an opening of suitable size and with a cover with radio transceiver antenna tightly close, so that these Modification - in contrast for installing the antenna of the radio transceiver on the table top - the good Cleanability of the tabletop not impaired.

Microscopy devices often include one Table with metallic table top and a microscope, its light source is mounted below the table top. In the tabletop is then an opening provided, which is provided with a translucent cover and which is advantageous by a cover having substantially the same optical properties can be replaced, in addition to a Antenna of a radio transceiver, the applied on the underside of the cover or in the cover is integrated.

The The invention further relates to a work table with an antenna arrangement according to the invention and a cover for openings such tables.

in the The following is the invention with reference to embodiments in connection explained in more detail with graphical representations of the embodiments.

1 is a schematic representation of a metallic table top with an opening with a matching cover, which has according to the present invention, an antenna of a radio transceiver to contact readable attached to Petri dishes and / or slides radio tags.

2 Fig. 12 is a schematic illustration of a metallic table top with an opening covered by a positioning device having an antenna of a radio transceiver.

1 shows a schematic representation of a flat metallic body 102 with an opening through a cover 104 is covered by dielectric material. In the body 102 it may be a metallic worktop, for example made of stainless steel, a laboratory table, or the metallic base plate or the foot of a microscope. Below the metallic body 102 a light source for transmitted light microscopy can be arranged - not shown. In this case, it is the cover 104 around a translucent cover of a transparent material such as glass, transparent plastic or similar The cover may be formed as a diffuser to achieve a more uniform light distribution of the light source. It is of course possible the cover 104 be designed so that it is translucent and otherwise opaque only in a certain area. If incident light microscopy is provided, the cover may 104 completely opaque, but reflective, be designed.

On the surface or working surface of the body 102 and the cover 104 is a petri dish 110 represented, which has a radio tag. This tag has an antenna 112 on, shown schematically as the Petri dish 110 circulating in turns. On the bottom of the cover 104 An antenna of a radio transceiver is mounted, consisting of coil carriers 106 and turns of an antenna wire 108 , In this case, the geometry of the antenna in transmitted-light microscopy devices is preferably selected such that the antenna consists of coil carriers 106 and turns 108 the optical properties of the cover 104 not or only minimal change. Alternative antenna arrangements for the antenna of the radio receiver are described below in connection with the description of FIG 2 explained in more detail.

It should be noted that instead of a Petri dish 110 when microscopy directly on the cover 104 is turned off, also provided with a radio tag slide, which is arranged on a separate stage, can be detected by the radio transceiver - not shown. For slides, instead of rotating antenna turns 112 an antenna housed in an adhesive label together with electronics may be provided. Of course, the Petri dish can also be provided 110 during the microscopy on a separate object table of the microscope off.

A suitable radio technology for use in connection with the present invention is RFID. For the relatively short distances required is usually at low and medium frequencies (125kHz to 13.56MHz) and an inductive coupling between the antenna 108 the transceiver unit and the antenna 112 the radio tag for information and energy transmission worked. The selection of suitable parameters for number of turns, Windungsstärke, Antennenabmessun gene and antenna shape, the expert can make with reference to professional considerations. RFID systems of various types are commercially available, the selection of a suitable antenna combination for label and reader can be based on the dimensions of the opening in the metallic plate 102 on the one hand and the size of the slides or Petri dishes on the other hand done. Due to the short distances to be bridged, it can be assumed that the impairment of the radio transmission performance which may occur due to the surrounding metal table has no effect on the reliable radio coupling between the antennas 108 . 112 to have. The dimensioning of the antenna power can be advantageously chosen so that the radio tag on the dielectric cover 104 located Petri dish 110 is reliably detected, the label of a standing next to the metallic worktop (due to the shielding effect of the metallic plate), however, not. Thus, erroneous assignments in the identification of the samples can be avoided.

2 shows a schematic representation of a flat metallic body 202 with an opening through a cover 204 is covered by dielectric material. In the body 202 it can also be a metal worktop, for example made of stainless steel, a laboratory table, or the metallic base plate or the foot of a microscope. Below the metallic body 202 a light source for transmitted light microscopy can be arranged - not shown.

At the cover 204 is in the embodiment of the 2 around a positioning device, in the plane through the body 202 formed horizontal plane is movable (indicated by arrows 214 ). This positioning device 204 may be substantially opaque and an opening 218 for a light source for transmitted light microscopy. The positioning device 204 is powered by a drive 216 driven, which can be realized by stepper motors, piezoelectric elements or other principles.

A schematically illustrated antenna 208 a radio transceiver is related to the movable cover 204 arranged, for example on the opposite side of the work surface, ie on the bottom, the cover 204 , Alternatively, the antenna 208 of the radio transceiver in the movable cover 204 be integrated, for example, between two layers of a multilayer cover 204 , Such an arrangement of the antenna 208 has the advantage that the antenna is protected from contact.

In one embodiment, the cover 204 Made of ceramic and the antenna 208 the radio transceiver be applied by screen printing technology. Alternatively, parts of the movable PCB material may consist of a correspondingly structured interconnect layer, which is then the antenna 208 form. Depending on the requirements of the positioning system, the interconnects may be mounted on the top or bottom of the plate.

The movable cover 204 may additionally have a heater. Alternatively, instead of the cover 104 out 1 or the cover 204 out 2 a solid cover may be provided which has a heater.

In Embodiments may be provided that in addition to the wireless communication between the transceiver and the labels of Petri dishes and slides to identify the Also samples a wireless radio communication between the transceiver and other "active" devices or above the work surface, for example with sensors for the transmission of measured values.

Claims (13)

Antenna arrangement comprising a flat metallic body ( 102 . 202 ) and an antenna ( 108 . 208 ) of a radio transceiver, characterized in that in the body ( 102 . 202 ) an opening with a matching cover to the opening ( 104 . 204 ) is provided of dielectric material, wherein the antenna ( 108 . 208 ) of the radio transceiver associated with the cover ( 104 . 204 ) is arranged so that on or above a working surface of the body ( 102 . 202 ) arranged radio elements ( 112 ), in particular radio tags, can be detected. Arrangement according to claim 1, characterized in that the antenna ( 108 . 208 ) of the radio transceiver in the cover ( 104 . 204 ) is integrated. Arrangement according to one of the preceding claims, characterized in that the flat metallic body ( 102 . 202 ) a worktop and the cover ( 104 . 204 ) the cover one on the working surface of the body ( 102 . 202 ) opposite side of the body arranged light source or a covering the opening heater or a covering the opening positioning device is. Arrangement according to one of the preceding claims, characterized in that the detectable radio elements ( 112 ) Antennas of radio tags containing Petri dishes ( 110 ) or if are jektträger. Arrangement according to one of the preceding claims, characterized characterized in that Radio transceiver is an RFID reader and the radio elements are RFID tags. Arrangement according to one of Claims 1 to 4, characterized that the Radio transceiver an RFID radio transceiver is and the detectable Radio elements are also RFID radio transceivers. Worktable with a metallic worktop ( 102 . 202 ), in particular laboratory table, comprising an antenna arrangement according to one of the preceding claims. Dielectric cover ( 104 . 204 ) for an opening of a metallic worktop ( 102 . 202 ), in particular a laboratory table, comprising an antenna ( 108 . 208 ) of a radio transceiver. Dielectric covering according to claim 8, consisting made of translucent Material. Dielectric covering according to claim 9, consisting from an opaque Material. Dielectric covering according to claim 10, comprising a transparent area ( 218 ) having. Dielectric covering according to one of Claims 8 to 11, in which the antenna ( 108 . 208 ) of the radio transceiver is a printed antenna. Dielectric covering according to one of Claims 8 to 11, consisting of at least two layers, the antenna ( 108 . 208 ) of the radio transceiver is arranged between two of these layers.