SU1704730A1 - Device for registering mass of moving animal - Google Patents

Abstract

The invention relates to agriculture, namely to means for measuring the masses of moving objects, such as animals. The aim of the invention is to increase the reliability of mass registration, as well as reduce measurement error. The device includes the source of the measured signal 1, digital filter 6, the first key element 3. the second key element 7, the memory block 8, the comparator 9, the data memory block 10, a custom Schmitt trigger 11, the address generator 12. the third key element 13, the processing unit and the output of the measured signal 5. The signal from the load-receiving platform is constantly analyzed, and the maximum signal is recorded in the memory unit 8. The bandwidth of the Schmitt trigger determines the range of data that goes to the processing unit and the output of the measured signal. Ala. 1 il.

Description

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The invention relates to agriculture, namely to means for measuring the masses of moving objects, such as animals.

The aim of the invention is to increase the reliability of recording the mass of the animal and reduce the measurement error.

The drawing shows a diagram of the proposed device.

It contains the source of the measured signal 1, which can be a load-carrying platform, coupled with load sensors, an analog-digital converter 2 connected by an input to the output of a signal source 1, the first key element 3 connected by an input to the output of an analog-digital converter 2 , Schmitt trigger 4, connected by the input to the output of the source of the measured signal 1 and the output to the control input of the first key element 3, the processing and output unit of the measured signal 5, which can be used as for example, an integrator, a digital filter 6 connected by the input to the output of the first key element 3. the second key element 7, the memory block 8, a comparator 9 connected by the input to the output of the digital filter 6 and the output through the second key element 7 to the input of the memory block 8 whose output is connected to another input of the comparator 9, a data storage unit 10 connected by an input to the output of the first key element 3, an adjustable Schmitt trigger 11, an address driver 12, a third key element 13 connected by an output to the input of the processing and output unit The real signal 5 and the input to the output of the data storage unit 10. The output of which is also connected to the input of the customized Schmitt trigger 11, the restarting unit of the address generator 14. the logical element NOT 15 and the fourth key VI

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The first element 16 connected by the input to the output of the memory block 8. The control input of the fourth key element 16 is connected through the logic element NO 15 to the output of the Schmitt trigger 4. The output of the fourth key element 16 is connected to the control input of the custom Schmitt trigger 11. Address input of the block The data memory 10 is connected via the address driver 12 to the output of the restart block of the address driver 14. In addition, the output of the digital filter 6 is connected to another input of the second key element 7.

The device works as follows.

At the source of measured signal 1, a signal other than zero appears, for example, when an animal approaches a load-receiving platform, which enters the Schmitt trigger 4. When the signal level of the upper threshold exceeds the threshold, the Schmitt trigger 4 opens the first key element 3. The upper threshold the triggers for the Schmitt trigger 4 are preselected to be equivalent to the mass of the lightest animal that may be encountered under these conditions.

Through the open first key element 3, the signal code from the analog-digital converter 2 connected to the source 1 of the measured signal is fed to the digital filter 6 and the data storage unit 10. The digital filter 6 is a low-pass filter (smoothing filter), length the window of which is equivalent to the minimum time the animal stays on the mass meter (for example, the time the animal stays on the receiving platform, provided that it passes quickly through it). The smoothed signal from the output of digital filter 6 is fed to a comparator 9, which compares this signal value with the value stored in memory block 8. If the signal value from digital filter 6 is greater than that stored in memory block 8, then the comparator 9 generates the signal that opens the second key element 7 and in memory 8 the stored value is replaced with a new one. Thus, the maximum value of the smoothed signal from the digital filter 6 is extracted, which after the descent of the animal is stored in the memory block 8.

 In parallel with the selection of the maximum value of the smoothed signal from digital filter 6, data is accumulated in data storage unit 10. Data accumulation is controlled by address generator 12, which is triggered by a Schmitt trigger 4

through the restart block of the signal conditioner 14.

After the animal disappears from the mass meter, the Schmitt trigger 4 returns to its initial state, which triggers the restarting operation of the address former 14 and opens the fourth key element 16 via the HE 15 logic element. After restarting, the addresser 12 again generates the addresses for the data memory block 10 Data from the data memory block 10 is fed to the input of a custom Schmitt trigger 11, the upper and lower trigger threshold of which is scaled by the maximum value of the smoothed signal, which of the block 8 m through the open fourth key element 16 is fed to the control input of a custom Schmitt trigger 11. The upper and lower thresholds of the Schmitt trigger 11 are set away from the signal level from the memory block 8, respectively, by the error value of the digital filter 6. By As data is received from the data memory block 10, the custom Schmitt trigger 11 controls the operation of the third key element 13, which passes only those data to the processing and output unit of the measured signal 5 that fall into the pass band by adjusting emogo Schmitt trigger 11. Thus, in the processing unit and output the measured signal 5 fall only those data which correspond to the animal being on mass meter,

5 which makes it possible to increase the reliability of tracking the animal on the mass meter,

In addition, cleaned data is supplied to the processing and output unit of the measured signal 5, i.e. only those that pass through the passband of the custom Schmitt trigger 11, i.e. cleaned both from above and below, which reduces the error in measuring the mass of the animal.

Claims (1)

5 claims A device for recording the mass of a moving animal, containing a source of the measured signal, connected to an analog-to-digital converter, which 0 output is connected to the input of the first key element, the Schmitt trigger. connected by the input to the output of the source of the measured signal and the output to the control input of the first key element, the processing and output unit of the measured signal about the current one. that, in order to increase the reliability of the animal mass recording and reduce the measurement error, it is equipped with a digital filter, the input of which is connected to the output of the first key element, the second key element, a memory unit, a comparator, a data memory unit tuned by a Schmitt trigger. the address generator, the third key element, the restart block of the address generator, the NOT element and the fourth key element, the output of the digital filter connected to the first input of the comparator and through the second key element to the input of the memory block whose output is connected to the second input of the comparator and with the input of the fourth key element, and the output of the comparator is connected to the control input of the second key element, in addition, the output of the Schmitt trigger is connected via ele NOT with the control input of the fourth key element, and the restarting unit of the address former and the address former: with the address input of the data storage unit, to the information input of which the output of the first key element is connected, the output of the fourth key element is connected to the first, and the output of the block the data memory to the second input of a custom Schmidt trigger, the output of which is connected to the governing guide, contains its key element, and the input of the latter is connected to the output of the data storage unit, the output being one third second key element is coupled to the input of the processing unit and output the measured signal. 13 I