AT8717U1 - LOADS ARRANGEMENT - Google Patents

Abstract

Piece goods arrangement (1) with two or more in a plane (E) side by side, in particular in a container (3) or on a pallet, arranged objects (2, 2 '), the objects preferably identical RFID transmitting units (5, 5' , 6, 6 ') with an antenna (7, 7', 8, 8 '), in particular a directional antenna, for detecting the objects (2, 2') by means of an RFID reading unit (4), wherein the RFID transmitting units (5, 5 ', 6, 6') arranged on the objects (2, 2 ') such, preferably glued, are that at least the emission characteristics, preferably the radiating surfaces of directly opposite RFID transmitting units (5, 5', 6, 6 ') are distinguishable or different.

Description

2 AT 008 717 U1

The invention relates to an article assembly with two or more in a plane next to each other, in particular in a container or on a pallet, arranged objects, the objects preferably identically constructed RFID transmitting units with an antenna, in particular a directional antenna, for detecting the objects by means of an RFID Have reading unit. 5

In the case of piece goods arrangements in which several objects are packed in a box or on a pallet, it is already known to mark the objects with RFID transmission units, in order, for example, to be able to carry out order picking or returned goods detection by means of an RFID reading unit, for example in the form of a bulk detection , 10

This results in the problem that the RFID transmitting units, usually in the form of rectangular adhesive labels, are glued horizontally to the objects, i. the horizontal side edges of the adhesive label are parallel to the plane in which the objects are arranged. This makes it possible for RFID-15 transmitter units to directly oppose and comprehensively contact adjacent objects in an article assembly, which may lead to errors in the detection of the objects by means of the RFID reader since a distinction between the two RFID transmitter units may not be possible more can be done. The invention has therefore set itself the task of creating a cargo assembly with two or more objects provided with RFID transmitting units, which avoids the disadvantages described above and ensures proper detection of all RFID transmission units of the cargo assembly. In a piece goods arrangement according to the invention, this is achieved in that the RFID transmission units are arranged, preferably glued, to the objects in such a way that at least the emission characteristics, preferably the emission surfaces, are distinguishable or different from directly opposite RFID transmission units. Until now, it has been necessary to position objects in a piece-goods arrangement in such a way that RFID transmission units of adjacent objects could not directly face each other in order to ensure that there are no read errors in the bulk detection, the inventive apparatus prevents from the outset it can come to a complete area-covering touch of adjacent RFID transmitting units, whereby 35 the detection of all RFID transmitting units of the cargo assembly is ensured, regardless of the spatial position and position of the objects.

If the objects of the piece goods arrangement have identically constructed RFID transmitting units, according to a further embodiment of the invention it is provided that the identically constructed 40 RFID transmitting units are vertically offset to the objects relative to the plane in which the objects are arranged. However, this solution requires that the RFID transmitting units of adjacent objects of the piece goods arrangement are mounted alternately once at the top and once at the bottom of the objects. In order to ensure that all RFID transmitting units of a piece goods arrangement can be uniquely identified by means of the RFID reading unit independent of the position and position of the objects of the piece goods arrangement, it is provided according to a preferred embodiment of the invention that identical RFID transmitting units with antennas, which in With respect to a plane normal to the axis g are arranged symmetrically to the RFID transmitting units are skewed so attached to the objects, it has proved to be beneficial if the RFID transmitting units to a between 5 ° and 65 °, preferably at about 30 °, angle are offset. This makes it impossible for symmetrical antennas at any angle that it comes to a completely comprehensive coverage of two adjacent RFID transmitter units, so that the reading of all RFID transmitting units of a cargo assembly is guaranteed 55. It goes without saying that the angle at RFID transmitting units, which is an antenna in 3 AT 008 717 U1

Form of a regular polygon with an even number of corners, not equal to 180 // \ nzahi the corners or a multiple thereof must be to ensure safe, that it can come with opposite RFID transmitter units to a complete area coverage. A further embodiment of the invention provides that antennas of different construction or antennas, which are arranged asymmetrically with respect to the axis g normal to the plane (E), are provided at least directly opposite RFID transmission units. Due to the different or asymmetrical shape of the antennas directly opposite RFID transmitting units have different Abstrahlcha-io characteristics, in particular, differ their radiating surfaces, which can not come to a complete coverage between two opposing RFID transmitting units, even if they are connected to the individual objects are positioned the same.

Furthermore, a method for arranging identically constructed RFID transmitting units on several levels in a plane next to one another, in particular in a container or on a pallet, arranged objects of a cargo assembly should be specified, each object is provided with an RFID transmitter unit and the RFID -Send units have an antenna, in particular a directional antenna. In order to ensure that all RFID transmission units of a piece goods arrangement can be uniquely identified by means of an RFID reading unit, the method according to the invention provides that the identically constructed RFID transmission units are arranged, preferably glued, differently positioned on the objects , become. 25

In this case, it does not play a significant role whether the identically constructed RFID transmitting units are mounted vertically offset relative to the objects in relation to the plane in which the objects are assigned, or whether the identically constructed RFID transmitting units are attached obliquely to the objects. According to an alternative embodiment of the method according to the invention, it is provided that the RFID transmitter units are equipped with antennas of different design or with antennas which are asymmetrical with respect to a plane normal to the plane and are preferably arranged and positioned, preferably glued, on the objects. 35 A basic idea of the invention is thus to distinguish the emission characteristic of objects arranged on objects directly opposite RFID transmitter units or to form them differently, in particular independently of the shape of the objects or their position in relation to the article arrangement. Further advantages and details of the invention will be explained in more detail below with reference to the following description of the figures with reference to the exemplary embodiments illustrated in the drawing. Show: 45 50

6a-6c Fig. 5a-5c Fig.6a-6c a piece goods arrangement with several objects and an RFID reading unit for detecting the objects of the piece goods arrangement, two identical RFID transmission units, multiple RFID Transmitting units with antennas of different shapes, objects of a piece goods arrangement with RFID transmitters according to the prior art, a first embodiment of a piece goods arrangement according to the invention and a further embodiment of a piece goods arrangement according to the invention.

In Fig. 1, a cargo assembly 1 is shown with a plurality of objects 2, 2 ', which are arranged in a box 3 in a plane E next to each other. Each of the objects 2, 2 'is provided with an RFID transmission unit 5. With the RFID reading unit 4, the RFID-55 transmitting units 5 and thus the objects 2, 2 'are now identified. As is known per se, the RFID transmitting units 5 are activated by means of radio waves 9 which are emitted by the RFID reading unit 4 and subsequently give information about the objects 2, 2 'in the form of signals. which in turn are received by the RFID reading unit 4 from. As can be seen from FIG. 1, the RFID transmission units 5 are arranged obliquely on the objects 2, 2 ', 5 so that the emission characteristics, in particular the emission surfaces of the individual RFID transmission units 5, can be distinguished, even if two RFID Transmit units 5 are directly opposite. This means that the antennas of the RFID transmitting units 5 of adjacent objects 2, 2 'do not coincide even if the antennas are directed towards one another. 10

In Fig. 2, two identical RFID transmitting units 5, 5 'are shown. Identical in this context means that the antennas 7, 7 'of identical RFID transmitting units 5, 5' have the same emission characteristic, in particular the same emission surface and the same shape. 15

In contrast, in Fig. 3, a plurality of RFID transmitting units 6, 6 ', 6 ", 6'", 6 "" represented, in which the shape of the RFID transmitting units is the same, the antennas 8, 8 ', however, differ with respect to the radiation characteristic, in particular the radiating surface and the shape. 20

FIGS. 4a to 4c show a piece goods arrangement as known from the prior art, FIG. 4a being a plan view, FIG. 4b a section along the line A from FIG. 4a, and FIG. 4c a section along the line B of Fig. 4a shows. In this known article assembly 1, the objects 2, 2 'are formed as a rotational body, wherein each of the objects 2, 25 2' with an RFID transmitter unit 5, 5 'is provided. The RFID transmitting units 5, 5 'are identical in construction (FIG. 2) and, as shown in FIG. 4b, lie directly opposite, whereby, in the case of a bulk detection by means of the RFID reading unit 4, a blanket overlaying of the RFID transmitting units 5, 5 '(Fig. 4c) comes. Nationwide means in this context that the emission characteristics, in particular the emission surfaces of two opposite RFID transmitting units 5, 5 'from the RFID reading unit 4 can no longer be distinguished so that reading errors occur through the RFID transmitting unit 5, whereby the result of a bulk capture is incorrect or incomplete.

A first exemplary embodiment of a piece goods arrangement 1 according to the invention is shown in FIGS. 5a-5c. Again, two adjacent objects 2, 2 'of a piece goods arrangement 1 are provided with identically constructed RFID transmission units 5, 5'. In contrast to known piece goods arrangements (FIGS. 4a-4c), in this first exemplary embodiment of the piece goods arrangement 1 according to the invention, the RFID transmission units 5, 5 'are arranged obliquely on the objects 2, 2', so that the longitudinal axes L, L 'of the RFID transmission units 5, 5 'enclose an angle α with a straight line e parallel to the plane E e. Although with rectangular antenna shape at each angle α it is impossible for there to be a complete blanket contact of two directly opposite RFID transmitter units, practice has shown that at an angle α of about 30 ° read error by the RFID reader unit is almost can be excluded completely. 45

It goes without saying that antennas in the form of regular polygons with an even number of corners at an angle 180 / number of corners or a multiple thereof would again result in a completely blanket contact of the RFID transmitter units 5, 5 ' is to be considered in the definition of the angle α. 50

This problem can be safely avoided according to the embodiment of a piece goods 1 according to the invention shown in FIGS. 6a-6c, since in this embodiment the objects 2, 2 'of the article assembly 1 are provided with RFID transmitters 6, 6', which are not identical are because the antennas 8, 8 'have a different shape (FIG. 3). Due to the different shape of the antennas 8, 8 'have the RFID

Claims (9)

5 AT 008 717 U1 transmitting units 6, 6 'on different radiation characteristics and can therefore also be clearly identified by means of the RFID reading unit 4, if, as shown in Fig. 6c, the RFID transmitting units 6, 6' of two adjacent objects. 2 , 2 'directly opposite. 5 This can be achieved even if the RFID transmitter units are identical, but with antennas 8 ", 8 '", 8 "", 8 ", 8 " are equipped. The exemplary embodiments of piece goods arrangements as well as the described examples of methods for arranging RFID transmission units on objects of a piece goods arrangement are of course not to be understood in a limiting sense, but just individual examples of numerous possibilities, the inventive idea of a cargo assembly of several objects, of which each is provided with an RFID transmitting unit 15 and in which can be uniquely identified by means of an RFID reading unit all RFID transmitting units of the cargo assembly to realize. Claims: 20 1. piece goods arrangement with two or more in a plane next to each other, in particular in a container or on a pallet, arranged objects, the objects preferably identically constructed RFID transmitting units with an antenna, in particular a directional antenna, for detecting the objects by means of an RFID 25, characterized in that the RFID transmitting units (5, 5 ', 6, 6') arranged on the objects (2, 2 '), preferably glued, are that at least the radiation characteristics, preferably the radiating surfaces, of directly opposite RFID transmitting units (5, 5 ', 6, 6') are distinguishable or different. 2. cargo assembly according to claim 1, characterized in that identical RFID transmitting units (5, 5 ') relative to the plane (E) in which the objects (2, 2') are arranged vertically offset on the objects (2, 2 ') are attached. 3. cargo assembly according to claim 1 or 2, characterized in that identical 35 RFID transmitting units (5, 5 ', 6, 6') with antennas (7, T, 8, 8 '), which ne with respect to a ne to Ebe (E) normal axis g are arranged symmetrically to the RFID transmitting units, are obliquely attached to the objects (2, 2 '). 4. cargo assembly according to claim 3, characterized in that the RFID 40 transmitting units (5, 5 ', 6, 6') by a lying between 5 ° and 65 °, preferably at about 30 °, lowing angle (a) are offset , 5. piece goods arrangement according to claim 1, characterized in that at least directly opposite RFID transmitting units (6, 6 ', 6 ", 6'", 6 "") antennas (8, 8 ') of different design or Antennas (8 ", 8 ", 8 " ") arranged asymmetrically on the RFID sending units with respect to an axis g normal to the plane (E). 6. A method for arranging identically constructed RFID transmitting units at a plurality of in a plane next to each other, in particular in a container or on a pallet, arranged 50 th objects of a piece goods arrangement, each object is provided with an RFID transmitting unit and the RFID transmitting units a Antenna, in particular a directional antenna, have, characterized in that the identical RFID transmitting units (5, 5 ') arranged differently positioned on the objects (2, 2'), preferably glued, be. 55 6 AT008 717U1 7. The method according to claim 6, that the identical RFID transmitting units (5, 5 ') relative to the plane (E) in which the objects (2, 2') are arranged, vertically offset at the objects (2, 2 ' ) are attached. 8. The method according to claim 6 or 7, characterized in that the identically constructed RFID transmitter units (5, 5 ') obliquely to the objects (2, 2') are attached. 9. A method for arranging RFID transmitting units at a plurality of in a plane next to each other, in particular in a container or on a pallet, arranged objects io a cargo assembly, each object is provided with an RFID transmitter unit and the RFID transmitting units an antenna, in particular a directional radio antenna, characterized in that the RFID transmitting units (6, 6 ', 6 ", 6'", 6 "") have antennas (8, 8 ') of different construction or with respect to one to the plane (E) normal axis g asymmetric antennas (8 ", 8 '", 8 "") equipped and preferably equal po-15 sioned to the objects (2, 2') arranged, preferably glued, be. For this purpose 2 sheets of drawings 20 25 30 35 40 45 50 55