HU188837B - Automatic system for the identification of an animal - Google Patents

Abstract

SUMMARY OF THE INVENTION The present invention relates to an automatic animal identification system, in particular for the identification of animals in dairy farms, which is a power supply unit (22), a low-frequency current generator (2), a power input coil (3) connected to its output, a stable identification unit (20) comprising a code input coil (3), and a power supply coil (20). 12), a code code response unit (11) comprising a code signal generator (17) and a code encoder coil (12), wherein the stable identification signal generating unit (20) is provided with a signal processing unit (19), wherein the power supply coil and the code receiver are retrieved is formed as a common coil (3), the terminals of which are equipped with a filter and amplifier stage (5-7), its output is coupled with a code signal level (9), a state signaling stage (10) for the other input of the latter stage (9), the output being preferably a microprocessor signal processor unit (19) input to it is connected to a control input of a low frequency, preferably 100 kHz current generator (2); the power supply coil and the code encoder coil are formed as a common coil (12) whose terminals are modulated at power (18) with the output of the code signal generator (17), or connected to the input of a tuned circuit power supply circuit (13), the code signal generator (17, to its input via a synchronization amplifier stage (15) is coupled with a synchronous coil (14) coupled to the power supply and code encoder coil (12)) (1). -1-

Description

BACKGROUND OF THE INVENTION The present invention relates to an automated animal identification system, particularly for the identification of animals in dairy farms, which is capable of generating and transmitting a preprogrammed animal identification code to a suitable distance, and indicating an operational status of the system.

Automatic animal identification systems for smaller cows are known, which have the common feature that the range between the fixed power generator and the identification unit and the mobile (animal) response unit does not exceed 20-25 cm, and that each identifier only they are capable of continuous operation and are not robust enough to operate reliably. Such a system is, for example, manufactured by the Dutch company Wieh-Code, which has an operating distance of approx. 15 cm, powering frequency 50-60 kHz, and the Swedish company Alfa-Laval, which uses 27 MHz carrier frequencies and BCD code with 10-20 W primary side excitation power. In the latter case, it is disadvantageous that, due to the frequency and power used, a separate frequency use license must be sought from the competent Post.

The object of the present invention is to provide an automatic animal identification system which has a higher reliability than the known systems, significantly increases the detection distance of the code signal, stabilizes the code signal frequency over time, operates the individual identifiers in select mode and does not require postal authorization.

The object has been achieved by providing an automatic animal identification system comprising a power supply, a low frequency generator, a power transducer having a power supply coil connected to its output, a stable identifier forming unit comprising a coding stage and a processing stage, wherein the essence of the invention is that the power transmitting coil and the code receiving coil are formed as a common coil having terminals of a filter and amplifier stage, a code matching stage connected to its output, a state signaling stage connected to the other input of the latter stage, preferably an output microprocessor input its output is connected to the control input of a low frequency, preferably 100 kHz current generator; that the power take-up coil and the encoder coil are formed as a common coil having terminals through a modulating power stage with the output or output of the code signal generator. are connected to the input of a tuned circuit power supply circuit, a sync signal coil is connected to the input of the code signal generator via a synchronous amplifier stage, which coil is coupled to the power supply and code transmitter coils.

Preferably, the power supply and code receiving coils are flat 800-900 mm ² rectangular, a few times ten, preferably twenty-threaded coils.

In a further preferred embodiment of the system according to the invention, the power energy receiving and code signal do coils are flat, 300-400 mm ^z rectangular, several times ten, preferably sixty-five threads, oval, L = 0.5-0.6 mH, Q = 0.1 to 1.3, the sync signal coil is a flat, 75 to 100 mm ^J rectangular forty thread coil, the two coils are interchangeably coupled such that the planes of each flat coil are 2-5, preferably 3 mm wide.

The automatic animal identification system thus developed has a working range of approx. it can be doubled to 35-50 cm, reliable, has a large branch size as a result of synchronization and selection mode, and has no problem with the postal frequency license due to the value of the frequency used. In addition, the select mode has the advantage of ⁰ over continuous operation that the system has less power consumption and better selectivity, and the likelihood of misidentification is very low.

Advantageously, the stable identification signaling unit is molded with ⁰ resin and has a swivel cable connection.

It is further preferred that the selection circuit is provided with a second external control input.

, _c It is further preferred that a comparator stage having a reference signal source is connected between the active filter stage and the code signal interface stage.

It is also advantageous to have a frequency divider input coupled to the output of the synchronous amplifier stage, one of which is connected to the input of the code signal generator and the other output to the second input of the modulating power stage. At the input of the power supply of the stable identification signaling unit is connected the output of a safety low-voltage transformer located above the technological margin.

The automatic animal identification system of the present invention will now be described in more detail with reference to the accompanying drawings, in which:. Figure 1 is a block diagram of the system.

As shown in Figure 1, the automatic animal identification system of the present invention consists essentially of two units, a stable identifier signaling unit 20 and a mobile code signal response unit 11. The stable identification symbol generating unit 20 comprises a security low-voltage transformer 21 and its power supplies 22, the connection of which to the other units is not shown in the drawing. The unit 20 further includes a microprocessor signal processing unit ⁵⁵ , the output of which is controlled by a selection circuit 1, connected to a 100 kHz current generator 2 and a power supply coil 3 connected to its terminals. The terminals of the coil 3 are provided with a filter and amplifier stage 5, an output with active filter stage 6, active filter and amplifier stage 7, amplifier and comparator stage 8, code signal interface stage 9 with the second input, state signal stage stage 10 and output with microprocessor 65.

188,837 signal processors are connected to the input of 19 units. The code signal answering unit 11 comprises a power receiving and code transmitting coil 12, a tuned-circuit power supply circuit 13 connected to its terminals, the latter of which is not shown in the drawing. Also connected to the terminals of the coil 12 of the power supply receiver and transducer is a stage 18 output of modulating power, a code signal generator 17 for its input. Frequency divider 16 outputs are connected, wherein the other divider 16 output is connected to the code signal generator input 17, its input to the synchronous signal amplifier stage 15 output, and the phase 15 input is connected to the sync signal coil terminals 14.

Figure 1 shows the operating range 4 between units 11 and 20.

The power take-off and transducer coil 12 is preferably a sixty-five thread 68 x 54 mm flat-roll coil fixed on a printed circuit board. The coil 14 is a forty thread 17 x 54 mm flat coil whose plane overlaps the coil 12 at a common 54 m side at a depth of 2-5 mm. The degree of overlap can be set during tuning or measurement within the above limits, and the coil 14 is then fixed to the common printed circuit board. The other elements of the code response unit 11 are placed on the printed circuit board, and the assembly is preferably bent to match the animal's neck and cast with resin, and finally secured to the animal's collar.

The automatic animal identification system of the present invention operates as follows:

The code-response unit 11 is preferably molded with a resin, approx. 50 x 100 mm fitting, curved to fit the animal's neck and mounted on the animal's collar.

The code signal generator 17 is preferably a shifter register, such as two serially connected CD 4041 type ICs that can be programmed fixedly prior to pouring. The power take-up coil 12 and the synchronous signal coil 14 overlap each other by 2-3 mm.

The overlap can be slightly varied prior to casting, thereby tuning the system for optimal coupling between the coils 3, 12 and 14.

The stable identification symbol unit 20, together with the power transducer 3 coil, which is a flat rectangular surface with 20 threads of 860 mm ² , is also a resin molded assembly, which is preferably placed so that the coil 3 is at the animal's height above the ground. approx. It should be inclined at a height of 70 cm and at an angle of 30-45 °.

The selection circuit 1 activates the low frequency current generator 2, which is preferably a 100 kHz quartz controlled oscillator, under the control signal. The output power is radiated by the coil 3. When the code response transponder comes to the feeder, milking station or scales with 11 units, and as desired, the unit has about 11 units. Approximately 30 cm from the coil 3, a voltage is induced in the power take-up coil 12 and the desired voltage level is generated in the tuned-circuit power supply 13. The synchronous coil 14 as a tuned circular oscillator also generates a small amount of generator beat signal, the synchronous amplifier stage 15 amplifies it, and the frequency divider 16 generates a bit sequence which, according to the recorded program, generates the serial code signal in the code signal generator 17. three bits, beginning with a level 0-1-0 frame, containing 11 information bits, and ending with two level 1-1 bits. The pause signal is 16 bits of logic level "0". The code sequence shortens the power supply winding coil 12 through the modulating power stage 18, which modulates the oscillation circuit of the power supply coil 3 through inductive coupling. The filter and amplifier stage 5 connected to the output of the coil 3 suppresses the carrier frequency and amplifies the code signal level. Active Filter 6 steps further improve the code-to-carrier ratio by filtering, gaining, and feedback.

The active filter and amplifier 7 stages improve the quality of the code signal without feedback, while the amplifier and comparator 8 stages produce the original sequence of code pulses.

The code signal adapter provides a trouble-free, loadable output signal through a 9-stage power generator. The status indicator stage 10 changes the output signal level and provides a signal to the microprocessor processing unit 19: if the identification system is inoperative, the level is "0", if it is operational but the cow is not in level "1", and if the identification is done.

The microprocessor processing unit 19 is a tinned intelligent unit, which is preferably located in a closed box in a building - it can maintain information communication with other similar independent controllers. With the help of a special program, after several code readings, the microprocessor signal processing unit 19 decides whether the code is correct and uses it or responds with an identification error. With further sampling, you select each identifier again and again. The secondary side of the safety transformer 21 supplies low voltage to the power supply 22, which is also located in the tray. The stable ID - forming unit 20, together with the 3 coils, is molded into a complete unit that can be connected by cable. provides non-vulnerable, trouble-free operation.

Claims (8)

Claims 1. An automatic animal identification system, in particular for the identification of animals in dairy farms, comprising a power supply, a low frequency generator, a stable identifier comprising a power supply coil, a code receiver coil connected to an output thereof, and a power transmitter coil, -3188 837, wherein the stable ID signaling unit is provided with a signal processing unit, characterized in that the power transmitting coil and the code transmitting coil are formed as a common coil (3) having a filter and amplifier stage (5 to 7) for its outputs, a state (9) connected to the other input of the stage (9), the output of which is connected to the input of the preferably microprocessor processing unit (19), the output of which is connected to the control input of a low frequency, preferably 100 kHz current generator (2); that the power take-up coil and the code transmitter coil are formed as a common coil (12) having terminals through a modulating power stage (18) with the output or output of the code signal generator (17). connected to an input of a tuned circuit power supply circuit (13), a sync signal coil (14) is connected to the input of the code signal generator (17) via a synchronization amplifier stage (15), which coil (14) is coupled to the power supply and code transmitter coil (12). System according to Claim 1, characterized in that the power supply and code receiving coil (3) is a flat, 800 to 900 mm ² rectangular, several times ten, preferably twenty-winding coil. System according to claim 1 or 2, characterized in that the power supply and code transmitting coil (12) is flat, 300-400 mm ² rectangular, several times ten, preferably sixty-five threads, oval, L = 0, 5 to 0.6 mm, Q = 0.1 to 1.3, the sync signal coil (14) is also a flat, 75-100 mm ² rectangular forty thread coil, the two coils (12, 14) are interchangeable such that the planes of each flat roll (12, 14) overlap each other in a width of 2 to 5, preferably 3 mm. 4. System according to any one of claims 1 to 3, characterized in that the low frequency generator (2) is a quartz oscillating current generator. 5. System according to any one of claims 1 to 4, characterized in that the stable identification unit (20) is molded with resin and has a swing cable connection, System according to any one of claims 1 to 5, characterized in that the selection circuit (1) is provided with an external control input. ⁵ 7. System according to any one of claims 1 to 3, characterized in that a comparator stage (7) with a reference signal source is provided between the filter stage (7) and the code signal adaptation stage (9). 8) there is a captive pin. ^{! 0} 8 1 - System to any of the seventh claims, characterized in that the amplifier sync signal stage (15) the output of the frequency divider (16) input coupled with one of a _t g of threads of the code signal generator (17) to the input of another ^ö its output is connected to the second input of the modulating power stage (18). 9. System according to any one of claims 1 to 3, characterized in that the output of a low-voltage safety transformer (21) located higher than the technological margin is connected to the input of the power supply (22) of the stable identifier unit ₀ .