SU869633A1 - Device for monitoring grain loss transducer converters - Google Patents

Description

(54) DEVICE TO CONTROL THE TRANSMITTERS CONVERTERS OF THE SENSOR OF TAMPER The MERCING OF THE INVENTION The invention relates to agricultural engineering, in particular to devices for monitoring the transducers of a grain loss sensor. A device for monitoring the coefficient of conversion of a grain loss transducer transducer is known, which includes an oscilloscope, a motor, a base and a rotating drum with simulated rods mounted above the surface of the transducer being monitored. However, this device has a low accuracy of transducer control due to insufficiently accurate simulation of the impact of grains on the transducer surface. and is associated with the slipping of the ends of the imitating rods along the transducer surface, moreover, it is impossible to operatively with change control modes. The purpose of the invention is to improve the accuracy of control converters, ensuring efficiency when changing control modes, the ability to more accurately simulate the impact of grains on the surface of the converter. This is achieved by the fact that the device is equipped with solenoids mounted on a plate with moving cores, a generator, a distributor and pulse shapers, and a current regulator, in addition, the cores of the solenoids are equipped with nozzles, and the pulse generator has a frequency regulator. Solenoids are installed above the surface of the controlled converter along its length, and the windings are connected to a pulse generator through a current controller, drivers, and a distributor. FIG. 1 shows the proposed device, a general view; in fig. 2 is an oscillogram of the distribution of the conversion coefficient along the length (1) of the converter. The device includes a base 1 with a bracket 2 for fixing a controlled converter 3. The strip 4 on the base 1 is strengthened with the aid of the brackets 5. The solenoids 6 are mounted on the strip 4 with a constant pitch. The cores 7 of the solenoids 6 have baffles 8 on both sides and are spring-loaded springs 9. A pulse generator 10 through a pulse distributor 11 pulses, a pulse former 12 and a current regulator 13 are connected to the solenoid windings 6. The oscilloscope 14 is turned on at the output of the controlled converter 3.

The device works as follows.

The pulse generator 10, through the pulse distributor 11 and the formers 12, alternately excites the windings of the solenoids 6 at alternating intervals. The cores 7 of the solenoids 6 overcome the force of the springs 9 and are pulled into the windings of the solenoids, striking with their elongation nozzles against the surface of the converter 3 all over its length. On the oscilloscope screen 14, a pulse of a certain duration and amplitude arises from the impact of each core of the solenoid, which corresponds to the transducer conversion ratio (at the location of the piezoceramics, the amplitude is greatest, as the amplitude decreases from the piezoceramics). A picture of the amplitude distribution along the transducer length appears in the oscilloscope screen (Fig. 2).

The material of the extension sockets of the cores of the solenoids, their shape, and the distance between the ends of the nozzles and the surface of the transducer are selected so that the impact force imitates the fall of the Grains from a given height. At the same time, the operative reorganization of the device to the control modes of the converter corresponding to different types of grain crops is performed using stepwise, smooth (or both) current regulators 13.

A change in the pulse frequency of the generator 10 makes it possible to quickly simulate a change in the speed of harvesting grain and (or) the degree of their yield. The sweep speed in the oscilloscope is chosen so that the picture on the screen is fixed.

The use of the proposed device allows to increase the accuracy of control and adjustment of converters due to more

accurate imitation of the impact of grains on the surface of the converter. The latter is achieved by eliminating the sliding effect of the imitating rods on the surface of the converter, the optimal choice in the wide range of material and the shape of the nozzle of the solenoid cores, precise adjustment of the amperage in the solenoids.

The absence of bulky rotating parts in the device (the rotor of the electric motor, the drum with simulating rods, the belt transmission) makes it possible to avoid interference, which leads to an additional decrease in the accuracy and reliability of the control.

Claims (3)

1. A control device for the loss of the Zeria loss sensor transducers, including a base with a transducer fixed on it, and an oscilloscope, characterized in that, in order to increase the accuracy of the control of the transducers and ensure efficiency when changing the control modes, the device is equipped with solenoids with moving cores, a generator, a distributor and pulse shapers, a current regulator, with solenoids installed above the surface of the controlled transducer along its length, and The solenoid currents through the current regulator, the formers, and the distributor are connected to a pulse generator. 2. The device according to claim 1, characterized in that, in order to imitate the impact of the grains, the cores of the solenoids are provided with nozzles. 3. The device according to claim 1, characterized in that, in order to simulate different grain harvesting speeds and degrees of yield, the pulse generator is provided with a frequency regulator. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 470271, cl. A 01 D 41/12, 1973.