NL1020416C2 - Bole with transponder for identifying farm animals has space between transponder and cavity wall inside bole filled with casting material - Google Patents

Abstract

A transponder (6) does not have its own casing and the space between it and the wall (18) of the bole casing cavity (4) in which it is located is filled with a casting material (20). A bole (1) comprises a casing (2) made from ceramic material and containing an internal cavity housing a transponder. A space between the transponder and cavity wall is at least partially filled with a casting material. The transponder does not have its own casing.

Description

Title: Bolus for young ruminants.

The invention relates to a bolus provided with a housing made of a ceramic material and a transponder accommodated in an inner space of the housing.

Such a bolus is known from the international patent application WO 98/01025.

With this known bolus, the transponder is accommodated in a glass housing which, in addition to the transponder, is also partially filled with air. The glass housing of the transponder is in turn accommodated in an inner space of the housing. A space between an outside of the glass housing of the transponder and the interior of the ceramic housing is filled with a damping material, for example an elastomer. This achieves that the glass housing of the transponder cannot easily be damaged within the ceramic housing of the bolus.

Such a bolus is intended to be introduced into the stomach of an animal. The weight of the bolus ensures that the bolus stays in the stomach indefinitely. When the animal with the bolus is brought into an electromagnetic interrogation field known per se, the transponder will respond to this, for example by transmitting an identification code. The advantage is that the animal can be identified at any time without the use of, for example, ear tags and the like. Such boluses are used, inter alia, with cows and sheep.

A drawback of the known bolus is that it is so bulky that it is only suitable for insertion in larger and substantially adult animals. Certainly the bolus cannot be introduced with lambs, which means that until the lamb is fully grown, use cannot be made of the bolus to identify the lambs in question. This makes the identification duty of such animals susceptible to fraud. A further drawback is that the boluses are relatively expensive.

The invention has for its object to provide a bolus which, if desired, can be made smaller than the known bolus and which, if desired, can be manufactured relatively advantageously.

According to the invention, it holds that a space between the transponder and inner walls of the inner space is at least substantially filled with a casting mass, wherein the transponder itself is not provided with its own housing. Because the transponder itself is at least completely embedded in a casting mass, the specific weight of the bolus according to the invention is greater than the specific weight of the known bolus. This has the advantage that if desired, the bolus according to the invention can be made smaller than the known bolus without the bolus according to the invention becoming too light in an absolute sense. Should the bolus become too light, there is a risk that it will stay in place in the animal's stomach. Because according to the invention the bolus can be made relatively small, it is then suitable for being introduced into the stomach of lambs. This can already happen when the lambs are only two weeks old.

A further advantage of the bolus according to the invention is that even when the bolus is made as large as the known bolus, the production costs can be lower than with the known bolus. After all, the transponder does not have its own glass housing. Another advantage of the bolus according to the invention, which advantage also occurs when it is not made smaller than the known bolus, is that more ferrite can be used when using a transponder with a ferrite core. After all, because the transponder is not provided with its own glass housing, this space can be used for applying additional ferrite. This has the advantage that the distance 3 over which a transponder can communicate with a reading unit that generates the interrogation field can increase.

In particular, it holds that the housing is of tubular design, the inner space being formed by a channel extending in the longitudinal direction of the housing. The channel can herein be provided with at least one open end which is sealed with a first rubber cap of an elastic and moisture-proof material. The casting mass can for instance be provided with polystyrene and / or epoxy resin.

The invention will now be further elucidated with reference to the drawing.

Herein: figure 1 shows a perspective view of a possible embodiment of a bolus according to the invention; and Figure 2 is a partially cut-away bolus of Figure 1; and figure 3 shows a perspective view of an alternative embodiment of a bolus according to the invention.

In Figure 1 and in Figure 2, reference number 1 designates a bolus according to the invention.

The bolus 1 is provided with a housing 2 which is made of a ceramic material. The housing 2 is of tubular design and comprises an inner space which is formed by a channel 4 extending in the longitudinal direction of the housing 2.

In the inner space of the housing 2, which inner space is formed by the channel 4, a transponder 6 known per se is included. This transponder 6 is provided with a ferrite rod (ferrite core) 8. A coil 10 is arranged around the ferrite rod. In this example, the ferrite rod is longer than the coil and protrudes from the coil on either side of the coil. One portion 12 of the ferrite rod 8 protruding from the coil 10 is slightly flattened. A chip 14 and a capacity 16 are furthermore arranged on this flattened part. The chip 14, capacity 16 and

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The coil 10 is electrically connected to each other in a manner known per se and together with the ferrite rod 8 form the transponder.

The space between the transponder and inner walls 18 of the ceramic housing 2 are at least substantially filled with a casting mass 20. In this example, therefore, this casting mass is in direct contact with the transponder on the one hand (ferrite rod 8, coil 10, chip 14 and capacity 16). ) and the inner wall 18 of the housing 2 on the other.

In this example, a first open end 22 and a second open end 24 of the channel 4 are sealed with a first cap 26 and a second cap 28, respectively. The first and second cap are made of an elastic moisture-tight material such as, for example, rubber. All this entails that in this example the channel 4 is completely filled with the transponder 6, the casting mass 20, and the first and second cap 26,28. The ceramic material may for example consist of aluminum oxide, silicon oxide, zirconium oxide or tungsten oxide. A combination of these materials is also possible. The casting mass 20 can be provided with polystyrene, epoxy resin, other materials and / or combinations thereof. Such a bolus protects the transponder 6 well against gastric juices of the animals.

In this example, it holds that the capacitance 16 and the chip 14 are arranged outside on the ferrite rod 8. The ferrite rod 8 thus carries both the coil 10 and the capacity 16 and chip 14. However, other constructions are also conceivable. In this example, the first open end 22 and the second open end 24 are closed with a cap 26 and a cap 28. These caps can for instance be made of rubber or another flexible material. However, it is also possible that one and / or both caps are omitted. In that case the first open end and / or the second open end is preferably also filled by the said casting mass 20. The channel can also comprise only one open end which is closed by the cap 26 or the casting mass 20. On the other hand, the 1 2042016 channel is closed due to the presence of the ceramic material (see Figure 3).

The housing 2 of the bolus can for instance be manufactured by first fabricating a long ceramic tube by extrusion. Subsequently, the long tube is cut into pieces of tube, each of which forms the basis for manufacturing a tubular housing of the bolus. Such a piece of tube is then tumbled to remove the sharp edges. The transponder 6 is then arranged in the channel of the housing. The casting mass is then applied. After the casting compound 10 has been applied, the two caps 26, 28 can be fitted.

The bolus as described above can, for example, be approximately 3.5 cm. be long and have a diameter of approximately 1 cm. The diameter of the channel can for instance be approximately 6 mm. Such a bolus is suitable for being introduced into the stomach of lambs, for example when they are only two weeks old.

Of course, the bolus can also be made larger so that, for example, the volume of the channel 4 will increase. This opens the possibility to enlarge the ferrite core, which increases the distance range of the transponder.

Furthermore, figure 3 shows a variant according to the invention which completely corresponds to the bolus according to figure 1, with the difference that the bolus is not provided with a second open end 24 which is sealed with a second cap 28. Instead, the bolus is at a second end 24 'closed by the housing 2 itself. The housing 2 here then comprises only one open end 22 which is closed by the cap 26 and a closed end 24 'made of the ceramic material of the rest of the housing. The housing 2 can be manufactured by partially drilling out a round solid tube of ceramic material. After this, the transponder 6 is arranged around the hollow tube via the open end 22.

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The casting mass is then applied. After the casting mass has been applied, the cap 26 can be fitted.

In this example, the bolus is cylindrical. However, other shapes such as egg-shaped boluses and / or spherical boluses are also possible. In that case, the housing 2 cannot generally be manufactured by extrusion but, for example, by sintering in which the channel is subsequently fitted with the aid of a drill. Such variants are each understood to fall within the scope of the invention.

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Claims (15)

Bolus provided with a housing made of a ceramic material and a transponder received in an inner space of the housing, characterized in that a space between the transponder and inner walls of the inner space is, at least substantially, filled with a casting mass where the transponder itself is not provided with its own housing. Bolus according to claim 1, characterized in that the housing is of tubular design, the inner space being formed by a channel extending in the longitudinal direction of the housing. Bolus according to claim 2, characterized in that the channel is provided with at least one open end that is sealed with a first cap of an elastic and moisture-tight material. 4. Bolus as claimed in claim 3, characterized in that the channel is provided with a second open end which is sealed with a second cap of an elastic and moisture-tight material. Bolus according to claim 3, characterized in that the channel is completely filled with the transponder, casting compound and the first cap. 6. Bolus according to claim 4, characterized in that the channel is completely filled with the transponder, casting mass, the first cap and the second cap. 7. Bolus according to claim 2, characterized in that the bolus is completely filled with the transponder and the casting mass. Bolus according to claim 7, characterized in that the channel is provided with an open end which is closed off by the casting compound. 9. Bolus according to claim 7, characterized in that the channel is provided with a first and second open end which are closed off by the casting compound. ; : * · Y 4 y (y A bolus according to any one of the preceding claims, characterized in that the ceramic material of the housing is provided with aluminum oxide, silicon oxide, zinc oxide and / or tungsten oxide. 11. Bolus as claimed in any of the foregoing claims, characterized in that the casting mass is provided with polystyrene and / or epoxy resin. A bolus according to any one of the preceding claims, characterized in that the transponder is composed of a ferrite core, a coil arranged around the ferrite core and a chip connected to the coil. Bolus according to claim 12, characterized in that the transponder 10 is further provided with a capacity that is connected to the coil and the chip. Bolus according to claim 13, characterized in that the capacitance and the chip are arranged outside on the ferrite core. 15 '020416