NL2023758B1 - VITALITY IMPROVEMENT DEVICE FOR IMPROVING THE VITALITY OF A BIRD - Google Patents

Abstract

Extract Vitality improving device for improving the vitality of a bird, in particular a pigeon, comprising extraction means for obtaining electrical power from an electromagnetic environmental field having a first frequency, transmission means for emitting one or more electromagnetic fields each having a transmission frequency , wherein the extraction means and the transmission means comprise, respectively, a receiving antenna and one or more transmitting antennas for respectively receiving and emitting the electromagnetic environmental field and the electromagnetic fields, the transmission means of the vitality improving device being provided during operation with electric power acquired by means of the extraction means, and wherein the transmission frequency differs from the first frequency.

Description

VITALITY IMPROVEMENT DEVICE FOR IMPROVING

The present invention relates to a vitality improvement device for improving the vitality of a bird, as well as a vitality improvement ring comprising a vitality improvement device according to the invention. Birds that are frequently used for bird sports are, for example, pigeons and birds of prey. For example, in the bird of prey sport, falcons are often used, which are trained to hunt ID for (small) prey, for example, and then return them to their guide, e.g. a falconer. In the pigeon sport, pigeons are bred and trained to take part in competition flights, for example, where pigeons are released at a certain location, ie release point, after which they have to fly back to their home base independently, eg the pigeon house in which they are kept by an owner, which owner is usually called a pigeon fancier or pigeon fancier (English: “pigeon fancier”). The winning pigeon is usually the one that travels the distance between the release point and its pigeon house with the highest average speed. A significant risk in bird sport is the loss of (sport) birds. For example, a bird may be hit by an accident, such as an attack from another bird or animal, or may get lost so that it cannot find its way to its home base. Particularly in high-level bird sports, the loss of a bird can have serious financial consequences, as top birds, i.e. high-performing birds, are traded for very high prices. For example, a significant decrease in the number of members is seen at, among others, Dutch and Belgian pigeon sport clubs. By way of illustration, in Belgium, approximately 200,000 members were known between 1950 and 1960, and there are currently only approximately 15,000. In the Netherlands, about 100,000 members were known at its peak, and there are currently only about 18,000. The significant loss of birds, namely around 50% per year, and the relatively high purchase price of a pigeon results on the one hand in reduced influx of members and on the other hand in increased outflow thereof. In addition, the welfare of the birds is endangered, since when they get lost they relatively easily fall prey to predators and other dangers, and as tame animals they are often less gifted in finding sources of food, shelter, and the like. Pigeon sport experts now see a significant annual increase in the number of lost pigeons in the pigeon sport worldwide. This makes the sport less attractive and significantly more expensive as a result of the loss of valuable trained pigeons. It is known that pigeons orient themselves at least partly by means of the electromagnetic field of the earth, in other words pigeons (and certain other types of birds) are sensitive to electromagnetic fields. Nowadays, electromagnetic fields are increasingly being used for telecommunications, for example. For example, antennas are rapidly being added for communication purposes, including communication with satellites, providing wireless internet and telephony to, for example, mobile telephones and the like, broadcasting television and radio signals, Wi-Fi, Bluetooth, and the like. Such electromagnetic fields, also called electromagnetic radiation, do not or hardly occur in nature by nature.

Practice has shown that the vitality of certain birds, in particular pigeons, is negatively influenced by such (artificial) electromagnetic fields. Vitality is understood to mean, for example, the ability to brood and to orientate. The negative effect on bird vitality, in particular with regard to orientation ability, has been demonstrated, for example, by Svenja Engels et al. ("Anthropogenic electromagnetic noise disrupts magnetic compass orientation in a migratory bird." Nature 509.7500 (2014): 353) and Joseph L. Kirschvink ("Sensory biology: Radio waves zap the biomagnetic compass." Nature 509.7500 (2014): 296). This negatively affects the welfare of birds, as they cannot find their home base again, so that they lack shelter and food.

Since the use of electromagnetic fields will only increase, there is a desire to be able to protect (sport) birds against the negative effects of such fields on their vitality, either well-being or health. In particular, there is a desire to improve the breeding ability and orientation ability of (sport) birds.

To this end, the present invention provides a vitality improvement device for improving the vitality of a bird, in particular a pigeon, comprising: - extraction means for obtaining electrical power from an electromagnetic environmental field with a first frequency, - transmission means for emitting one or more a plurality of electromagnetic fields, each having a transmitting frequency, - wherein the extraction means and the transmission means comprise, respectively, a receiving antenna and one or more transmitting antennas for respectively receiving and emitting the ambient electromagnetic field and the electromagnetic fields, respectively,

- wherein the transmission means of the vitality improving device are provided during operation with electric power acquired by means of the extraction means, and - wherein the transmission frequency differs from the first frequency.

It has been found that the vitality of birds, in particular pigeons, shows significant improvement when using the vitality improving device according to the invention. The absorption at least partly of an electromagnetic environmental field and the subsequent emission of an electromagnetic field with a different frequency, which other frequency is less harmful to the vitality of the bird or even favorable for the vitality of the bird, has a demonstrably positive effect. on the birds. When brooding, birds, in this example pigeons, look for a place where they are most comfortable and have the most rest. It has been found that pigeons take place in the vicinity of the vitality improvement device, as they apparently experience the least disturbance during brooding there. It has also been found that the orientation capacity of pigeons shows a significant improvement when using the vitality improving device. As a result, pigeon fanciers lose significantly less pigeons on the one hand, and the pigeons on the other hand achieve significantly better competition results. For example, a field study at a renowned pigeon fancier has shown a significant increase in the number of racing pigeons that finish in the top 10%, the top 5% and the top 1% in competition flights when using the vitality improvement device according to the invention. Namely, in one year approximately 40 pigeons ended up in the top 10%, and in the following year (using the vitality improvement device according to the invention) approximately 225 pigeons ended up in the top 10%. In the aforementioned one year approximately 25 pigeons ended in the top 5%, and in the aforementioned consecutive year approximately 140. Finally, approximately 10 pigeons ended in the aforementioned one year in the top 1%, and in the aforementioned subsequent year approximately 35. Respectively those are approximate increases of 463%, 460%, and 250%. It is noted that in the 3 years prior to the said one year the numbers of pigeons in the top 10%, top 5% and top 1% have remained virtually the same, so that these improvements in the following year are not an accidental outlier (ie no accidental anomaly). It is also advantageous that the vitality improving device does not need a power source, as it comprises the said extraction means. By not using a power source, any electromagnetic fields originating from such a power source are not introduced near the bird, so that the bird cannot be bothered by it. It is noted that the vitality improvement device contributes to animal welfare. Namely, as described above, the birds' welfare is compromised when they cannot reach their home base. The vitality improving device therefore prevents animal suffering, in particular in birds. It is estimated that several hundred thousand birds per year are lost worldwide, which could be prevented by the vitality improvement device.

According to a preferred embodiment of the vitality improving device, the transmission frequency lies within a margin of preferably approximately 10% of the frequency group consisting of

67 Hz, 80 Hz, 5 MHz, 8.5 MHz, 19.5 MHz, 20.5 MHz, 1.5 GHz, one of the first to the seventh Schumann resonance frequency, double one of the first to the the seventh Schumann resonance frequency, a gamma brain wave frequency of the bird, or double a gamma brain wave frequency of the bird.

More preferably the margin is 5%, and still further preferably the margin is 1%. Preferably, the transmission frequencies are correlated with each other by a specific ratio, which is preferably defined by the differences in the transmission frequency.

Certain birds, for example pigeons, are able to perceive electromagnetic fields, which is commonly referred to as magnetoreception.

It has been found that the frequencies from the aforementioned frequency group have a positive effect on birds, in particular pigeons, which are capable of magnetoreception.

However, it cannot be ruled out that birds without (proven) magneto-reception can also benefit from the use of the aforementioned frequencies.

For example, Schumann resonance frequencies are naturally occurring peaks in the electromagnetic spectrum, especially the "Extremely Low Frequency" (ELF) spectrum (between about 3 and about 30 Hz), that occur in Earth's atmosphere.

The space between the earth and the atmosphere, in particular its ionosphere, behaves like a hollow space in which resonances can arise as a result of standing waves.

Since on average about 1000 - 2000 thunderstorms are going on on earth at any given moment, which together generate about 50 lightning bolts per second, Schumann resonance frequencies are mainly generated by lightning.

The ground mode is a standing wave in the Earth ionosphere cavity with a wavelength equal to the circumference of the Earth, with the Schumann resonance frequency being approximately 7.83 Hz.

The first through seventh Schumann resonance frequencies are approximately 7.83 Hz, 14.3 Hz, 20.8 Hz, 27.3 Hz, 33.8 Hz, 39 Hz, and 45 Hz.

However, these frequencies vary daily with a value between about -0.5 Hz and 0.5 Hz.

It has been found that birds, such as pigeons and birds of prey, but also other organisms, respond positively to the naturally occurring ones

Schumann resonance frequencies.

These and the other frequencies included in the frequency group mimic a natural environmental electromagnetic field, so that the bird is less or not confused by artificial electromagnetic fields.

Gamma brain waves are often associated with a state of high alertness, by stimulating such gamma brain waves in birds, they remain alert for a longer period of time, so that they are less likely to get lost and efficiently follow their way to the home base, for example during competition flights.

It has been found that the frequencies from the aforementioned frequency group have a positive effect on birds when the vitality improving device according to the invention is used. According to a further preferred embodiment of the vitality improving device, the receiving antenna forms part of a first passive circuit. In order to achieve efficient acquisition of electrical power from an electromagnetic environmental field, it is advantageous if the receiving antenna forms part of a first passive circuit. Preferably, the first passive circuit is a resonant circuit, i.e. an LC circuit, preferably with a coil and a capacitor. It is also possible that the one or more transmitting antennas also form part IO of the first passive circuit.

According to a further preferred embodiment of the vitality improving device, the one or more transmitting antennas form part of a second passive circuit. Preferably, the second passive circuit is a resonant circuit, i.e. LC circuit, with preferably a coil and capacitor. The receiving antenna and the one or more transmitting antennas are further preferably manufactured at least partly from the same (electronic) components. The first passive circuit and the second passive circuit are further preferably manufactured at least partly from the same (electronic) components, the first and second passive circuit preferably being resonant circuits. In a further embodiment, various parts of the extraction means and the transmission means can be combined to provide a compact and efficient embodiment of the vitality improving device, using a minimal number of parts. It is also possible that the receiving antenna is also part of the second passive circuit.

According to a further preferred embodiment of the vitality improving device, the length of the transmitting antenna is related to the wavelength of the transmitting frequency. Preferably, the length of the antenna is approximately 14 of the wavelength.

According to a further preferred embodiment of the vitality improving device, the first passive circuit and / or the second passive circuit comprises a coil and / or a resistor, the coil and / or the resistor having a parasitic capacitance which is part of the first passive circuit and / or the second passive circuit. Preferably, the first passive circuit and / or the second passive circuit further comprises a capacitor. The combination of resistance, capacitance, and a coil results in a well-known damped resonant circuit. A resistor is also able to convert part of the electromagnetic environmental field to heat by means of thermal dissipation.

According to a further preferred embodiment of the vitality improving device, the resistor and / or the capacitor is formed by a discrete component and / or is part of another component. A discrete component, such as a discrete resistor, is understood to mean a component that can be placed as a whole within a circuit. It is also conceivable that the resistance is provided as an element consisting of divided resistance elements. When the resistor forms part of another component, this can be, for example, the resistor of a coil, a current wire, and / or another electronic component.

The first and / or second passive circuit may include a non-linear component for frequency transformation of electrical signals. Such a non-linear component can be formed by a discrete component with non-linear properties or by a separate device that transforms frequencies, for example from the first frequency to a transmission frequency.

According to a further preferred embodiment of the vitality improving device, components of the first passive circuit and / or the second passive circuit which carry a current are provided with an electrically insulating material on their outer side. This prevents short circuits with other components and damage by, for example, liquids such as water and contact by the bird and / or other animals or persons. This protects the components against external influences on the one hand, and protects people and animals from possible damage due to short-circuiting the components on the other. According to a further preferred embodiment of the vitality improving device, the vitality improving device further comprises an information carrier which contains information relating to the transmission frequency. The information carrier is preferably provided as a chip, liquid and / or powder. According to a second aspect of the invention, there is provided a vitality enhancement ring comprising a vitality enhancement device according to the invention, further comprising an annular housing which can be placed around a leg of the bird, the vitality enhancing device being connected to the annular housing. Preferably, the annular housing is a resilient annular housing and comprises a closure for opening it, such that the annular shape of the housing is interrupted in the open position of the closure, so that in the open position of the closure the housing is substantially in radial direction. around the leg of the bird. The housing is preferably made of plastic. When opened, the housing preferably has two ends which can be connected to each other and together form the closure.

One end preferably has a T-shape, and the other end preferably has a recess corresponding to one end, whereby the housing can be twisted, so that one end upwards or downwards relative to the other end. is moved, after which one end can be slid into the recess of the other end, after which the closure is closed and the housing has a closed ring shape.

A compartment is preferably provided in or on the housing in which the vitality improving device can be received.

The compartment can for instance be closed by means of a lid and / or a resin after insertion of the vitality improving device.

The housing is preferably shaped such that a cavity defined by the annular housing provides sufficient space for a bird's leg.

Preferably, the cavity offers sufficient space for the leg of the bird with some play, such that the leg of the bird is not pinched.

The vitality enhancement ring improves the bird's vitality by, among other things, extracting electrical power from environmental electromagnetic fields and preferably emitting an electromagnetic field that is less harmful, or even conducive to the bird.

Such a vitality enhancement ring is, for example, very suitable for use during a (competition) flight of a bird.

The invention is further elucidated below with reference to the enclosed drawings. - Figure | shows a first embodiment of the first and / or second passive circuit; Figure 2 shows a second embodiment of the first and / or second passive circuit; Figure 3 shows a third embodiment of the first and / or second passive circuit; Figure 4 shows a fourth embodiment of the first and / or second passive circuit; Figure 5 shows a fifth embodiment of the first and / or second passive circuit; Figure 6A shows an embodiment of a vitality enhancement ring in opened condition; Figure 6B shows the embodiment of the vitality enhancement device of Figure 6A in a twisted state; and Figure 6C shows the embodiment of the vitality enhancement device of Figures 6A and 6B in a closed state.

Figures 1 to 5 show embodiments of the first and / or second passive circuit, and are explained in more detail below.

It is noted that the components of the embodiments are placed, for example, in a housing made of metal, wood, and / or plastic.

Figure 1 shows a first embodiment of the first and / or second passive circuit.

The first output shape includes a coil of copper wire wrapped around a metal core.

The metal preferably consists of iron or stainless steel, but other suitable metals are also conceivable.

The components are defined according to the first embodiment as follows: - Number of turns of coil L4 = 360 - Resistance value of resistor R2 = 10 MΩ - Capacitance of capacitor C = 2200 uF - Capacitor voltage V = 25 V - Core diameter D = 10 mm - Parasitic capacitance P = 2.36E-12 F The quality factor, also called Q factor, of the first embodiment of the circuit can be calculated by the following formula: 0 R = x Where Q is the Q factor, is R is the resistance value, and is X; the inductive reactance at resonance defined as follows: AX, = 2EfL where f is the resonance frequency of the coil and L is the coil inductance.

In the case of the first embodiment, the resonance frequency and Q factor are as follows: - Resonance frequency = 66.47 Hz - Q factor = 9188166 Preferably the components are arranged such that the resonance is within a margin of £ 10% of the resonance frequency.

Figure 2 shows a second embodiment of the first and / or second passive circuit.

The components are defined according to the second embodiment as follows: Number of turns of coil L5 = 300

- Resistance value of resistor R3 = 10 MΩ - Capacity of capacitor C = 2200 uF - Capacitor voltage V = 25 V - Core diameter D = 10 mm - Parasitic capacitance P = 2.03E-12 F In the case of the second embodiment, the resonant frequency and Q factor as follows: Resonance frequency = 79.76 Hz Q factor = 11025799 Preferably the components are arranged such that the resonance lies within a margin of £ 10% of the resonance frequency.

Figure 3 shows a third embodiment of the first and / or second passive circuit.

The components are defined according to the third embodiment as follows: - Number of turns of coil L1 = 359 - Number of turns of coil L2 = 241 - Number of turns of coil L3 = 134 - Resistance value of resistor R1 = 10 MΩ - Core diameter D = 3 mm - Parasitic capacitance of coil L1 = 2.06E-12 F - Parasitic capacitance of coil L2 = 1.53E-12 F - Parasitic capacitance of coil L3 = 8.62E-13 F In the case of the third embodiment, the resonant frequency and Q are factor as follows: - Resonance frequency of coil L1 = 4.69 MHz - Resonance frequency of coil L2 = 8.11 MHz - Resonance frequency of coil L3 = 19.43 MHz - Q factor of coil L1 = 606 - Q factor of coil L2 = 778 - Q factor of coil L3 = 1052

Preferably, the components are arranged such that the resonance is within a margin of £ 10% of the resonance frequency.

Figure 4 shows a fourth embodiment of the first and / or second passive circuit.

The components are defined according to the fourth embodiment as follows: - Number of turns of coil L7 = 129 - Resistance value of resistor RS = 10 MΩ - Core diameter D = 3 mm - Parasitic capacitance P = 8 38E-13 F In the case of the fourth embodiment the resonance frequency and Q factor are as follows: - Resonance frequency = 20.46 MHz - Q factor = 1077 The components are preferably arranged such that the resonance lies within a margin of £ 10% of the resonance frequency.

Figure 5 shows a fifth embodiment of the first and / or second passive circuit.

The components are defined according to the fifth embodiment as follows: - Number of turns of coil L6 = 10 - Resistance value of resistor R4 = 10 MΩ - Core diameter D = I mm - Parasitic capacitance P = 9.80E-14 F In the case of the fifth In embodiment, the resonance frequency and Q factor are as follows: Resonance frequency = 1525.77 MHz - Q factor = 9395 Preferably the components are arranged such that the resonance is within a margin of £ 10% of the resonance frequency.

In Figures 6A, 6B and 6C an embodiment of the vitality enhancement ring 1 according to the invention is shown. Figure 6A shows the vitality enhancing ring 1, hereinafter referred to as ring 1, wherein its housing 2 is shown in the open position. In this state it is possible to arrange the ring 1 around a leg of a bird (not shown). In this case, the leg of the bird is brought through the opening 3 of the ring 1, which is available in the open position of the housing 2, so that the leg is located in the cavity 4, defined by the ring-shaped housing 2. The housing 2 can then be closed, as explained in more detail below with reference to Figures 6B and 6C. In the open position, the housing 2 comprises two ends, one end 5 of which is T-shaped, and the other end 6 has a T-shaped recess 7 corresponding to one end 5. One end 5 and the other end 6 form together the closure of the housing 2. Furthermore, the housing 2 comprises a compartment & in which the vitality improving device (not shown) can be received. Use is preferably made here of a miniaturized embodiment of the vitality improving device, for instance consisting of a coil and a resistor which together form a resonant circuit. It is noted here that in that case the receiving antenna and transmitting antenna are formed by the same component, such as the coil. After insertion of the vitality improving device, the compartment 8 can be closed by, for example, a suitable lid (not shown) or, for example, a resin (not shown), so that on the one hand the vitality improving device is protected against moisture and other external influences, and on the other hand, the bird is not comes into contact with the vitality improvement device. The dimensions of the housing 2 of the ring 1 are chosen such that the ring 1 cannot fall off the leg of the bird, but also does not sit tightly around the leg of the bird, so that the bird does not suffer from wearing the ring 1.

In Figure 6B it is shown that the housing 2 can be twisted from the ring 1, with one end 5 and the other end 6 away from each other in the axial direction, ie in a direction approximately parallel to the axial axis A of the ring 1. are placed. This makes it possible to slide the T-shaped one end 5 into the corresponding recess 7 of the other end 6 in the axial direction. After sliding one end 5 into the other end 6, the housing 2 of the ring 1 will be in the closed position as shown in Figure 6C. Twisting is possible because the housing 2 is made of a resilient material, such as plastic. Figure 6C shows the ring 1 in the closed position, with opening 3 closed. As a result, the leg of the bird, which extends along the axial axis A, is completely enclosed by the housing 2 of the ring 1. In other words, the leg of the bird is located in the cavity 4 formed by the housing 2. Through the resilience of the housing 2, one end 5 will be securely locked in the other end 6. In other words, two opposing forces in axial direction A are required to remove one end 5 from the other end 6, which will only occur with a deliberate removal of the ring 1.

It is noted that the invention is not limited to the embodiments drawn, but also extends to other variants falling within the scope of the appended claims. Embodiments of a vitality enhancement ring according to the invention: Embodiments: A. Vitality enhancement ring for improving the vitality of a bird, comprising: e an annular housing which can be arranged around a leg of the bird; a passive circuit connected to the housing, which passive circuit comprises a coil and a resistor, the coil and / or the resistor having a parasitic capacitance forming part of the passive circuit. B. Vitality enhancement ring according to embodiment A, wherein the passive circuit further comprises a capacitor. C. Vitality enhancement ring according to embodiment A or B, wherein the passive circuit forms a resonant circuit.

D. Vitality enhancement ring according to embodiment C, wherein the resonant circuit is a damped resonant circuit. E. Vitality enhancement ring according to any one of the preceding embodiments, wherein the ring-shaped housing is a resilient ring-shaped housing and comprises a closure for opening it, such that the ring shape of the housing is interrupted in the open condition of the closure, so that the housing in the open condition of the closure can be arranged substantially in a radial direction about the leg of the bird. F. Vitality enhancement ring according to embodiment E, wherein the housing has two ends in opened condition which can be connected to each other and together form the closure. G. Vitality enhancement ring according to embodiment F, wherein one end has a T-shape, and the other end has a recess corresponding to one end.

H. Vitality enhancement ring according to embodiment G, wherein the housing can be twisted, after which the one cast out can be slid into the other. I. Vitality enhancement ring according to any one of the preceding embodiments, wherein the housing comprises a closable compartment for receiving the passive circuit therein. J. Vitality enhancement ring according to embodiment I, wherein the compartment is closable by means of a lid and / or a resin.

K. Vitality enhancement ring according to any one of the preceding embodiments, wherein the housing is made of a plastic, wood, metal and / or a composite material.

Claims (13)

Conclusions i. Vitality improving device for improving the vitality of a bird, in particular a pigeon, comprising: extraction means for obtaining electrical power from an environmental electromagnetic field at a first frequency; transmission means for emitting one or more electromagnetic fields each having a transmission frequency; wherein the extraction means and the transmission means comprise a receiving antenna and one or more transmitting antennas, respectively, for respectively receiving and transmitting the environmental electromagnetic field and the electromagnetic fields; wherein the transmission means of the vitality improving device are provided during operation with electric power acquired by means of the extraction means; and wherein the transmission frequency is different from the first frequency. 2. Vitality enhancement device according to claim 1, wherein the transmission frequency is within a margin of approximately 10% of the frequency group consisting of 67 Hz, 80 Hz, 5 MHz, 8.5 MHz, 19.5 MHz, 20.5 MHz, 1.5 GHz, one of the first through seventh Schumann resonance frequency, double one of the first through seventh Schumann resonance frequency, a gamma brain wave frequency of the bird, or double a gamma brain wave frequency of the bird. 3. A vitality improvement device according to any one of the preceding claims, wherein the receiving antenna forms part of a first passive circuit. 4. Vitality improvement device according to any one of the preceding claims, wherein the one or more transmitting antennas form part of a second passive circuit. A vitality enhancement device according to any one of the preceding claims, wherein the length of the transmitting antenna is related to the wavelength of the transmitting frequency. 6. Vitality improvement device according to claim 3, 4 or 5, wherein the first passive circuit and / or the second passive circuit comprises a coil and / or a resistor, the coil and / or the resistor having a parasitic capacitance that is part of the first passive circuit and / or the second passive circuit. Vitality enhancement device according to any one of claims 3-6, wherein the first passive circuit and / or the second passive circuit further comprises a capacitor. 8. Vitality improvement device according to claim 6 or 7, wherein the resistor and / or the capacitor is formed by a discrete component and / or is part of another component. 9. Vitality improvement device according to any one of claims 3-8, wherein components of the first passive circuit and / or the second passive circuit which carry a current are provided with an electrically insulating material on their outside. 10. Vitality improving device according to any one of the preceding claims, wherein the vitality improving device further comprises an information carrier which contains information regarding the transmission frequency. 11. Vitality-improving device according to claim 10, wherein the information carrier is provided as a chip, liquid and / or powder. A vitality enhancement ring comprising a vitality enhancement device according to any one of the preceding claims, further comprising: an annular housing disposable about a leg of the bird, the vitality enhancing device being connected to the annular housing. The vitality enhancement ring of claim 12, wherein the ring-shaped housing is a resilient ring-shaped housing and includes a closure for opening it, such that the ring shape of the housing is interrupted in the open position of the closure, so that the housing in the open position of the closure. can be arranged around the leg of the bird in a substantially radial direction.