RU97265U1 - SYSTEM FOR DETERMINING THE OPTIMAL TIME OF SEEMING OF COWS AND BIRDS - Google Patents

Abstract

 1. A system for determining the optimal insemination time of cows and heifers, comprising a stationary information reader including a series-connected antenna, a receiving device, a signal processing unit, a memory unit, a matching unit, and a computer unit connected to a computer, sensors placed on the body of controlled animals, each sensor consists of an antenna with a receiver and transmitter connected to it, the output of the receiver is connected to the control input of the transmitter, the frequency of the signal emitted by the transmitter is fixed, and its value is set in accordance with the identification code of the animal for which it was previously set, while the sensor is configured to power it from the energy of the probing signals generated by a reader located on a detection animal containing an antenna with a transceiver device, the output of which through the power amplifier connected to the second antenna and an acceleration sensor, characterized in that the reader is equipped with a time delay unit of the control signal, the input of which is connected to the acceleration sensor, and the output to the transceiver. ! 2. The system according to claim 1, characterized in that the time delay unit contains a time relay and a trigger, while the acceleration sensor is connected to the first input of the trigger and the input of the time relay, the output of which is connected through the second input of the trigger to the transceiver.

Description

The utility model relates to agriculture, in particular, to the means used in veterinary medicine for the correct selection of the time of insemination of cows and heifers.

When using artificial insemination of farm animals, the correct choice of the time of insemination is one of the important factors determining the most complete use of the biological capabilities of the breeding stock

The determination of the time of insemination along with the diagnosis of hunting also contributes to the solution of such important problems as the diagnosis of pregnancy and infertility. Timely identification of infertile cows allows us to develop and implement a set of treatment and preventive measures with the greatest economic efficiency. With the wrong time of insemination, clinically healthy animals remain infertile (without a fetus in the uterus). In this case, economic losses are due to both the omission of reproductive cycles and the lack of fertilization of animals during their insemination outside of hunting. Thus, the period of time from calving to fertilization is lengthened and the period of infertility of animals increases.

A device for determining the optimal time of insemination of cows consisting of two independent measuring units. The device operates on alternating and direct current from a 220 V network. The principle of its operation is based on measuring the voltage drop across the measured sample using the four-probe method. A stabilized alternating or direct current is supplied through the sample and the voltage drop is measured by the input device. The DC resistance measurement unit includes a DC stabilizer, an input device, an amplifier, and an indicator, and the AC resistance measurement unit includes a sine wave generator, an AC stabilizer, an input device, a linear detector, an amplifier, and an indicator. The electrical resistance of the mucous membrane of the vagina of cows is measured by a measuring cell in the head of which four electrodes are mounted. The device allows for a relatively high reliability of measurements and determination of the time of insemination of cows (see RU 93004392 A, A61D 19/00, 10.03.97).

The disadvantages of the known device include low productivity, due to the need for measurements for each animal and the time spent on their registration (for example, recording in a journal) with identification numbers that are applied to the collars or large ear tags.

A known system for determining the optimal insemination time of cows and heifers, which is closest to the proposed one and contains a stationary information reader including a series-connected antenna, receiving device, signal processing unit, memory unit, matching unit and computing unit connected to a computer, sensors ( defendants) placed on the body of controlled animals, each sensor (responder) consists of an antenna with a receiver and transmitter connected to it, the output of the receiver is connected to ulation input of the transmitter, the frequency of the signal emitted by the transmitter is fixed, and its value is set in accordance with the identification code of the animal, for which it is pre-specified, wherein the transponder is adapted to be power of probing signals power. The system is also equipped with a reader (interrogator) placed on an animal-detector containing an antenna with a transceiver and an acceleration sensor, the output of which is connected to the control input of the transceiver, and the output of the transceiver through a power amplifier is connected to the second antenna ( RU 46427 U1 A61D 19/00, Bull. No. 19, 07/10/05).

The disadvantage of this known system is the insufficient reliability of detecting sexual hunting of an animal due to reader errors placed on a detection animal (probe bull). In the known system, the inclusion of the receiving-transmitting device and the radiation of the probe signal is carried out by the signal of the acceleration sensor, the operation of which occurs if there is a jump of the bull on the cow. However, if the female is not hunting (not ready for sexual intercourse), then she leaves the male after he jumps up. Since sexual hunting is a positive sexual reaction of the female to the male, during the hunting the female allows the male to jump freely with the possibility of sexual intercourse. Those. not only the fact of jumping the bull onto the cow should be recorded, but the cow should allow the bull to stay on it for some time, usually a few seconds, and only after this time it is possible to judge the true manifestation of cow sexual hunting. Thus, an improved reader functioning algorithm should be as follows: when a bull jumps onto a cow in a hunt, the acceleration sensor must turn on the reader control signal time delay unit for a specified time, approximately 3 s. The time delay block may comprise, for example, a time relay and a trigger. After the set time has passed, the transmitting and receiving device should turn on and read the identification code from the cow sensor. A positive result is the registration of the identification code of the cow, which allowed the cage of a bull. If the bull jumps off the cow before a predetermined time (3 s), then the acceleration sensor will turn on again, and the time delay unit will turn off without generating a control signal for reading the identification cow. This means that this cow is not in the hunt.

The technical result consists in increasing the reliability of the identification of sexual hunting of a cow or heifer due to the improvement of the reader located on the animal-revealer.

The technical result is achieved by the fact that the system for determining the optimal insemination time for cows and heifers contains a stationary information reader including a series-connected antenna, a receiving device, a signal processing unit, a memory unit, a matching unit and a computing unit connected to a computer, sensors placed on the body controlled animals, each sensor consists of an antenna with a receiver and a transmitter connected to it, the output of the receiver is connected to the control input of the transmitter, frequency the signal emitted by the transmitter is fixed, and its value is set in accordance with the identification code of the animal for which it is predefined, while the sensor is configured to be powered by the energy of the probing signals generated by a reader located on an animal-detector containing an antenna with a receiver a transmitting device, the output of which through the power amplifier is connected to the second antenna and an acceleration sensor, and the reader is equipped with a time delay block of the control signal nala, the input of which is connected to the acceleration sensor, and the output to the transceiver. The time delay unit contains a time relay and a trigger, while the acceleration sensor is connected to the first input of the trigger and the input of the time relay, the output of which is connected through the second input of the trigger to the transceiver.

The system for determining the optimal insemination time for cows and heifers with the above set of characters has a high reliability of identifying sexual hunting of a particular animal. This is ensured by improving the measuring algorithm of the reader located on the animal-revealer. In this case, the signal from the output of the acceleration sensor is generated both when jumping and when the animal-revealer is jumping from the controlled animal, and the control signal is transmitted to read the identification code after a predetermined time (3 s) after switching on the time delay unit. Those. reading does not occur if a signal about jumping is received from the time relay in the interval up to 3 seconds.

The drawing (figure 1) shows a functional diagram of a system for determining the optimal time for insemination of cows and heifers.

The system for determining the optimal insemination time of cows and heifers contains a stationary information reader 1, including a series-connected antenna 2, a receiving device 3, a signal processing unit 4, a memory unit 5, a matching unit 6, and a computing unit 7 connected to the computer 8, sensors 9, placed on the body of controlled animals (cows), each sensor 9 consists of an antenna 10 with a receiver 11 and a transmitter 12 connected to it, the output of the receiver 11 is connected to the control input of the transmitter 12, the frequency of the emitted transmitter the sensor 12 of the signal is fixed, and its value is set in accordance with the identification code of the animal for which it is predefined, the sensor 9 is configured to be powered by the energy of the probing signals generated by the reader 13 located on the animal-detector, the reader 13 contains a sensor 14 acceleration, time delay unit 15, containing the time relay 16, the trigger 17 and the transceiver 18. The output of the acceleration sensor 14, which can be used as an accelerometer, is connected to ode to the time relay 16 and to the first input of the trigger 17, the output of the timer 16 is connected to the second input of the trigger 17, and the output of the trigger 17 is connected to the control input of the transceiver 18 connected to the transceiver antenna 19. The output of the transceiver 18 a power amplifier 20 with a second (transmitting) antenna 21. The power of the transceiver 18 is supplied from an autonomous power source, for example, from a miniature battery or battery.

The system for determining the optimal insemination time of cows and heifers works as follows.

Antenna 2 of the receiving device 3 receives the signal within the controlled area of the space where the detection animal (bull) is located with the reader 13. In the absence of sounding signals, the sensors 9 placed on the body of the controlled animals (cows) are in standby mode and do not form response signals signals i.e. the input signal of the transceiver 18 of the reader 13 information signal is not received. When an animal-detector (test bull or cow-breeder) performs jumping, the acceleration sensor 14 located on its body is triggered, the signal from which is fed to the input of the time relay 16 and to the first input of the trigger 17 located in the time delay unit 15, the signal from the output of the relay time 16 after a predetermined interval (3 s) has passed to the second input of the trigger 17, and from the output of the trigger 17 is transmitted to the control input of the transceiver 18 and turns it on for the time required for the radiation of probing ignals and re-emission of the response signal. The antenna 19 of the transceiver 18 emits sounding signals, which are received by the antenna 10 of the sensor 9, placed on the body of a controlled animal (cow), which allowed itself to jump. The sensing signals received by the sensor 9 are fed to the receiver 11, where they are processed in amplitude and frequency. The sensor 9 is supplied directly from the energy of the received sounding signals. At the output of the receiver 11, a control signal is generated, which is transmitted to the control input of the transmitter 12, while the transmitter 12 is launched, which generates a response signal at a given fixed frequency, the value of which is pre-set in accordance with the identification code of the animal on whose body this sensor is mounted. The generated response signal from the output of the transmitter 12 is emitted by the antenna 10. The response signal received by the antenna 19 of the transceiver 18 is supplied to a power amplifier 20, where it is amplified and then re-emitted by a second (transmitting) antenna 21 connected to the output of the power amplifier 20. The re-emitted signal corresponding to the identification code of the animal (cow) from the antenna 21 is fed to the antenna 2 of the receiving device 3 of the stationary information reader 1, in which it is amplified and converted into the form required one for its further processing in the signal processing unit 4. In block 4 of the signal processing, the signal is converted into a form convenient for recording in block 5 of the memory. The signals received by the stationary reader 1 carry information about the identification code of the animal (cow) and how it is injected (since the radiation of the probing signal and the subsequent generation of the response signal are carried out by the signal from the acceleration sensor, which is triggered if there is an injection). All signals received by the stationary reader 1 after their processing in block 4 are recorded in the memory block 5, which also records their reception time, which is necessary for calculating the frequency of jumps within the selected time interval.

The data recorded in the memory unit 5 for processing and analysis are received from its output through the matching unit 6 to the input of the computing unit 7, the information from which is fed to the personal computer 8. Using the computing unit 7, identification numbers of animals that allowed the cage of the revealing animal are determined .

According to the data obtained by the livestock specialist using computer 8, based on the number of the animal and the time when the cage was allowed, it draws conclusions about the optimal time for insemination of cows and heifers.

The proposed system has a high reliability of detecting sexual hunting of a particular animal due to the improvement of the reader placed on the animal-identifier, to determine the optimal time of insemination of cows and heifers, and is a high-performance system, since it uses computer technology.

Claims (2)

1. A system for determining the optimal insemination time of cows and heifers, comprising a stationary information reader including a series-connected antenna, a receiving device, a signal processing unit, a memory unit, a matching unit, and a computer unit connected to a computer, sensors placed on the body of controlled animals, each sensor consists of an antenna with a receiver and transmitter connected to it, the output of the receiver is connected to the control input of the transmitter, the frequency of the signal emitted by the transmitter is fixed, and its value is set in accordance with the identification code of the animal for which it was previously set, while the sensor is configured to power it from the energy of the probing signals generated by a reader located on a detection animal containing an antenna with a transceiver device, the output of which through the power amplifier connected to the second antenna and an acceleration sensor, characterized in that the reader is equipped with a time delay unit of the control signal, the input of which is connected to the acceleration sensor, and the output to the transceiver. 2. The system according to claim 1, characterized in that the time delay unit contains a time relay and a trigger, while the acceleration sensor is connected to the first input of the trigger and the input of the time relay, the output of which is connected through the second input of the trigger to the transceiver device.