NL8700336A - Coding system for prod. transport carriers - has unique bore patterns in or on hooks for prod. identification read=out by linear photocell array - Google Patents

Abstract

The coding system, for prod. transport carriers such as roller containers is applied to carcass hooks in a slaughter house to identify carcasses, monitor their progress and collect data regarding weight, classification and inspection results and utilises a unique pattern of openings (bores) arranged in or on each hook. The system is pref. used in conjunction with a camera with linear light detector array connected to a processing unit which decodes the encoded information and registers this.

Description

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Jloekotte Automation β, ν,

PO Box 1156 75ÖÖ BD Enschede tel, 053-323255

Patent Office Patentlaan 2 2288 EE Rijswijk

Our ref .; WH / IH

Enschede, June 18, 1987

Gentlemen,

I hereby apply for a patent on behalf of Moekotte Automatisering B.V. for an identification system for product carriers (internal transport units such as roll containers, slaughter hafcer).

In the slaughterhouse industry, there is a need for an identification system with which carcasses can be monitored during the slaughtering process. This offers the possibility to automatically collect data per carcass such as weight, classification and inspection results. 1 Description of the application of a code to product carriers and a device for identifying them.

The invention relates to a method for applying a coding to product carriers, in combination with a device for detecting and decoding the code.

Below is a description of the coding method.

A product carrier is provided with a unique hole pattern which is arranged in the carrier itself, or in an attached plate.

The total code is divided into contiguous groups of fields.

The size of a field is defined as unit or grid size. Each individual digit of a code covers five of the aforementioned fields.

15 Per five, the first four fields can contribute respectively.

1, 2, 4 and. 7 supply to the code digit.

The fifth field counts as a parity fieldï The numbers 0 to 9 can be composed by two holes, which are made at certain positions in the group of five fields (see 20 appendix).

Since each digit always corresponds to two holes, this has given the code a self-checking character.

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Sheet 2.

The code starts with a hole that marks the beginning of the code. After the starting hole, the fields follow, each containing five holes 25.

The end of the code is marked by a stop hole. If a diameter that is different from the diameter of the start hole is chosen for this stop hole, the direction of the intermediate code is unambiguously fixed. 30 Since successive fields connect directly to each other, a hole must be entirely within the boundaries of a field.

The coding can be extended with a second column of holes. This ensures that the size of the holes can be chosen larger and / or that the desired code can be longer.

Below is a description of the method of detection and decoding.

40 Installed along the transport system! - a linear array camera; - An elongated light source; - A light barrier, consisting of an infrared transmitter and receiver.

45 The coded product carrier passes between the light source and the camera. The moment of passage is detected by the light barrier; at that moment the applied code is read and decoded.

The need for passage detection will be eliminated by future 50 developments.

The camera is composed of an optics, a sensor and a processing unit,

The dimensioning of the optics and sensor is such that 55 only reads an optical image of a vertical line passing through the field of view of the camera. This line therefore contains image information about the object on which the code is applied.

60 The sensor is a linear array of, for example, 1728 photocells grouped in one line. The number of photocells required depends on the length of the code to be read.

The processing unit takes care of the timing for the exposure of the sensor, the acquisition and the processing of image information. Furthermore, the processing unit communicates with the outside world, through the registration of passages through the light barrier and through the connection with a product registration system.

The processing unit also contains a memory in which the 70 image information of 4 lines can be stored.

During passage through the light barrier, the contents of these 4 lines are inspected for the presence of a code, which is then decoded, 87 0 0 3 3 6 · «%

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Sheet 3.

The result is made available via serial communication lines to the product registration system, which is located elsewhere in building 70.

The above system is characterized, among other things, by a high degree of robustness. Slaughter hook coding develops on the basis of existing techniques such as the use of barcodes and electronic identification.

The disadvantage of the "barcode technology" is that the code is easily damaged and therefore becomes illegible.

The drawback of the "electronic identification" technique is that it cannot withstand extreme heating, such as in pig slaughtering furnaces.

The invention described here does not have these disadvantages and is moreover easy to apply, also to already operational transport systems.

t ./4 8700336

Claims (4)

1. The application of a coding on product carriers, characterized in that holes are provided in or on the carrier in a unique pattern, The application as in claim 1, characterized in that the 95 applied code is error-detecting by a built-in parity, A device for reading the code applied according to claim 1, built up from a linear array camera 100 and a processing unit, characterized in that the hole code is detected and decoded by means of transmitted light. A device as in claim 3, characterized in that the 105 identification code of moving product carriers can be read, according to the application of claim 1. The description of the invention on which a patent is applied for ends here. Relying on a good handling, 110 we stay, sincerely, lioekotte Automatisering B.V. ing. K. Klifman Director. SÜl§S§i Eoding code gstencode 8700336 * * jr Eijlege. j contribution field! i digit i 1 1 2! 4! 7 ί P! 1 ------- 1 ---! --- I --- I 1 [0 i -! - * ο ί ο ί ~ »! i! d 1 -! -! - i o! I ------- i --- 1 --- J ---! --- Ϊ ---! i 2 f - I c! - I - ί Q ί: ------- ί --- ί --- ί ---! --- ί --- ί ί 3 ί d! ο ί - ί - ί - ί ί _______ ι ___ ι ___! ___ j ---; --- 1 4 ί - I - ί ο ί - ί ο ί .-------! --- ι --- J-- -; ---! --- f; 5! ο'-ίσϊ -'- ί! b 5 - ί e ί ο I - 1 - ί ί 7! -! - ί - ί ο ί ο ί Table 1 ϊ ί ------- *> --- ί ---! —Ί —ί Encoding table ί 5! ο ί -! - 5 ο ί - * hole code. ΐ ----- ί> * * '* ί 9! - ί d! - ί ο ί - ϊ ("e" = hole, = no hole, * Ρ ,; = parity} 8700336