NL1008514C2 - Reusable identification transponder inn the form of a bolus for stock management - Google Patents

Abstract

The outer cover (10) contains a glass tube (6). This contains a potted transponder whose identification code is read by electromagnetic field. A serial number and identification relative to the code are visible. The housing is closed by a stainless steel weight (8). This ensures that the specific gravity of the bolus is suitable to keep it within the animal's stomach throughout its life.

Description

Title: Recyclable electronic bolus.

The invention relates to an electronic bolus for identification of an animal, wherein the bolus is arranged to be received in the stomach of the animal and wherein the bolus is provided with a housing and a transponder incorporated in the housing in which an identification code is stored which can be read using an electromagnetic field.

Such a bolus is known per se and is used in modern livestock farming. This mainly concerns the identification of ruminants, such as cows. The animal swallows the bolus, after which the bolus ends up in the stomach of an animal. It appears that the bolus generally remains in the stomach for the rest of the animal's life, provided that the specific gravity of the bolus is correct.

15 The animal is not affected by this.

An advantage of the known bolus is that it is fraud resistant. After all, once the bolus has been absorbed into an animal's stomach, it is not easy to remove the bolus and / or change anything about the bolus. 20 A disadvantage of the bolus, however, is that the bolus is relatively expensive.

The object of the invention is to meet the aforementioned drawback and is characterized in that the bolus is composed of a housing of an inert material such as glass, in which the transponder is located, a weight and removable connecting means that mechanically with the housing and the weight connect each other so that after removal of the connectors the housing and weight can be reused to be assembled into a new bolus using any new connectors.

According to the invention, it has therefore been achieved that those parts of the bolus that are relatively expensive, i.e. the weight and the transponder, are suitable for reuse.

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For example, when the animal is slaughtered, the bolus can; are recovered from the stomach. According to the invention, the connecting means are subsequently removed. What remains after that is the weight and the housing with the 5 transponder. Both parts can then be cleaned and disinfected. They can then be assembled into a new bolus using new connectors. It is clear that according to the invention the costs of identification by means of the bolus are considerably reduced.

Preferably, the connecting means consist of a tubular casing in which the housing is received, the tubular casing being provided at a free end with an opening closed by the weight.

The tubular casing can for instance be made of plastic. This makes the tubular casing relatively inexpensive, which is advantageous because it is the only part of the bolus that may not be used for reuse. Furthermore, the weight is preferably made of a metal such as stainless steel.

The tubular casing is preferably provided with at least one visible sign on its outside. This sign can be related to the identification code stored in the transponder 25.

The transponder is of a generally known type and can be designed as a passive or active transponder.

According to a very advantageous embodiment of the bolus, the transponder is designed to be reprogrammable for storing a new identification code in the transponder using the electromagnetic field. This means that the transponder can be reprogrammed when it is used again to be assembled into a new bolus. This allows each animal to be provided with a unique identification code.

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According to a further elaboration of the invention, the housing is at least partly filled with a filling material in which the transponder is embedded. In particular, it holds that the housing is at least partly made of a transparent material, wherein a part of the filling material is provided with at least one mark that is visible from the outside of the glass housing.

This sign can again comprise a relationship with the identification code or it may be the same as the identification code. The advantage is that the bolus can be identified visually. For example, when an animal is slaughtered, it can be determined which bolus is to be recovered. The sign applied to the filling material can also consist of a serial number of the transponder. In principle, this serial number need not be related to the identification code stored in the transponder. Such variants are each considered to fall within the scope of the invention.

The invention will now be further elucidated with reference to the drawing. Herein: figure 1 shows a bolus according to the invention; and Figure 2 shows the parts of the bolus according to Figure 1 before they are assembled into a suitable product for use.

In Figure 1, reference number 1 denotes an electronic bolus for animal identification. The bolus is suitable for absorption into the stomach of an animal. The bolus is provided with a housing 2 2 and a transponder 4 incorporated in the housing 2 (see figure 2). The transponder 4 is of a type known per se and will therefore not be further explained here. It is noted, however, that an identification code is stored in transponder 4, which can be read by means of an electromagnetic field.

1008514 4

The bolus is composed of a closed glass housing 6, which contains the transponder 4, a metal weight 8 and removable connecting means 10, which, as shown in figure 1, connect the glass housing 6 and the weight 8 to each other.

In this example, the connecting means 10 consist of a tubular casing 10 in which the glass housing 6 is accommodated (see figure 1). The tubular casing is provided at a free end with an opening 10 12 which is closed with the metal weight 8 (see figure 1). The metal weight 8 is preferably made of stainless steel. The function of the weight is to ensure that the bolus remains in the stomach when it is in the stomach of an animal. The tubular casing 10 and the weight 8 are each cylindrical in this example and moreover each have, at least substantially, the same diameter.

Near a free end 14 of the weight, the weight is provided with a section 16 with a slightly reduced diameter. This portion 16 can be inserted at the opening 12 of the tubular casing 10 to attach the weight to the tubular casing 10.

To assemble the bolus into a ready-to-use product, the glass housing 6 is slid into the tubular casing 10 through the opening 12. The opening 12 is then closed with the aid of the weight 8 and a product is obtained as shown in figure 1.

The product is now ready to be placed in the stomach of an animal. When the bolus is recovered from an animal's stomach - for example, when the animal is slaughtered - it can be recycled according to the invention. According to the invention, the connecting means 10 are designed for this purpose in a removable manner. In practice, this is achieved by releasing the metal weight 8 1008514 5 from the tubular casing 10. The glass housing 6 is then pushed out of the tubular casing 10. Because the glass housing consists of an inert material while the weight consists of stainless steel 5, these parts will not be affected by the stomach juices of the animal. Both the glass housing 6 and the metal weight 8 can now be cleaned and disinfected and thus re-used to be assembled into a new bolus. In general use will then be made of a new tubular casing. The weight is preferably connected to the tubular casing by means of a snap connection.

The tubular casing is preferably manufactured from a plastic material such as, for example, plastic. This makes the tubular casing relatively inexpensive, so that there is no objection to throw away the tubular casing after use. The tubular casing is preferably provided on its outside with at least one visible sign 17. In this example, four signs are provided, three of which each form a character. The first character here is an image.

The at least one character 17 may, for example, be related to the identification code stored in the transponder 25. However, it is also possible that the at least one character 17 represents a serial number of the bolus and is not directly related to the identification code stored in the transponder. The at least one mark can be applied to the tubular casing 10 in various ways. This could, for example, include the use of ink. However, it is also possible that the at least one sign 17 is formed by a relief which is provided in the outside of the tubular casing.

According to a very advantageous embodiment, the transponder is reprogrammable for storing a new identification code in the transponder with the aid of the electromagnetic field. This makes it possible for each animal to be provided with a unique identification code. Even when the animal has been slaughtered, the identification code of the slaughtered animal for the animal can be retained unchanged. After all, the transponder can be provided with a new identification code when it is used for another animal.

The transponder is of a generally known type and is preferably provided with a memory for storing the identification code and with means for reading the identification code stored in the memory by means of the electromagnetic field. These means are often also suitable for writing the identification code into the memory using the electromagnetic field. Since the transponder is known per se, no further explanation will be given on this point.

According to a further elaboration of the invention, the glass housing 2 is at least partly filled with a filling material 18 in which the transponder 4 is embedded. The filling material 18 consists of a kit such as, for example, polyurethane. However, other materials such as epoxy resins, PVC materials and polyethylene are also conceivable.

In this example, a part of the filling material 18 visible through the glass housing 6 is provided with at least one mark 20 which is visible from the outside of the glass housing. The at least one sign can very advantageously be applied to the filler material by means of a laser beam through the glass housing. The advantage is that in this way visual identification of the transponder is also possible.

Entirely analogously as described for the sign applied to the tubular envelope 10, the at least one sign may be a serial number of the transponder or another sign which may or may not be related to the identification code stored in the transponder. When the '1 1008514 7 transponder is used again, if desired, at least one new character can be applied by means of the laser beam. For example, the original at least one character can be "crossed out".

The invention is by no means limited to the embodiment outlined above. For example, the removable connecting means can be made of stainless steel, so that these means are also suitable for reuse. The removable connecting means 10 can also take other shapes than the previously described tubular shape. Consider, for example, a plastic or metal net. The first housing can be made of another inert material that is resistant to gastric juices. Inert material is therefore here understood to mean a material such as glass, which is resistant to gastric juices and which is water and gas-tight. Examples include crystal and materials of a kind that are marketed under the brand name ULTEM by General Electric Plastics Europe. The weight 8 can also be made of such a material.

Such variants are each considered to fall within the scope of the invention.

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Claims (15)

1. Electronic bolus for identification of an animal, the bolus being adapted to be received in the stomach of the animal and the bolus comprising a housing and a '5 transponder incorporated in the housing, in which an identification code is stored which is can be read from an electromagnetic field, characterized in that the bolus is composed of a housing of an inert material such as glass in which the transponder is located, a weight and 10 removable connecting means that mechanically connect the housing and the weight so that after removal of the connectors the housing and weight can be reused to be assembled into a new bolus using any new connectors. Bolus according to claim 1, characterized in that the connecting means consist of a tubular casing in which the housing is accommodated, the tubular casing being provided at a free end with an opening closed by the weight. Bolus according to claim 2, characterized in that the weight is connected to the tubular casing by means of a snap connection. Bolus according to claim 2 or 3, characterized in that the tubular casing and the weight are each cylindrical in shape with the same diameter. Bolus according to any one of the preceding claims 2-4, characterized in that the tubular casing is made of a plastic material such as, for example, plastic. Bolus according to any one of the preceding claims 2-5, characterized in that the tubular casing is provided on its outer side with at least one visible sign. 1008514 Bolus according to claim 6, characterized in that the at least one character is related to the identification code. Bolus according to claim 6 or 7, characterized in that the at least one sign is formed by a relief which is arranged in the outside of the tubular casing. Bolus according to any one of the preceding claims, characterized in that the weight is made of a metal 10 such as stainless steel. Bolus according to any one of the preceding claims, characterized in that the transponder is reprogrammable for storing a new identification code in the transponder using the electromagnetic field. Bolus according to any one of the preceding claims, characterized in that the transponder is provided with a memory for storing the identification code and with means for reading the identification code stored in the memory with the aid of the electromagnetic field and for write a new identification code into memory using the electromagnetic field. Bolus according to any one of the preceding claims, characterized in that the housing is at least partly filled with a filling material in which the transponder is embedded. 13. Bolus according to claim 12, characterized in that the first housing is at least partly transparent, wherein a part of the filling material visible through the housing is provided with at least one mark that is visible from the outside of the housing. Bolus according to claim 13, characterized in that the at least one mark is applied to the filling material by means of a laser beam through the housing. 1 00 85 14 Bolus according to claim 13 or 14, characterized in that the at least one character is related to the identification code. 1008514