CS222677B2 - Device for testing the sifting apparatus of the drill seeders - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for testing a seed drilling machine. With this device, it is possible to determine the automatic uniformity of grain supply to the seed elements under laboratory conditions. The device mimics the sowing of seed grains to the distances of the developed roots. After the measurement, its result is registered in numerical values on a punched tape per oscillogram.

Several devices are known for detecting evenly the grain supply in the longitudinal germ. According to one of the first devices to which the invention at least resembles, it is sown on an endless belt coated with glue or grease or on a board coated with glue, whereupon the ruin is measured with a class of root distance. According to another known method, it is sucked into the seed trough by means of a seeding mouth. Depending on the distance of the individual grain roots, the uniformity of supply is obtained.

In addition to these mechanical methods, the main drawback of which is the distortion of the millennium caused by the slower gradual movement of the Senn than the actual sowing and the need for a lengthy handpiece. .

However, known devices of this type have serious problems. In the case of devices which offer piezoelectric sensors, the disturbance of the signals results in the occurrence of disturbing signals when the grains fall. A disadvantage of the prior art photographic and fiberglass devices is the difficulty of adjusting the optical drive beyond their complexity. and easy to read this unit, which makes the results unreliable. Photographic-type devices supporting a twin mill are reliable as long as they function properly. Their disadvantage is the failure rate tosuaitující with their complexity and high purchase price. The complexity and failure rate of a microphone-equipped device equipped with a protective diaphragm, a recording device, and an oscilloscope are particularly important for the sake of complexity and failure.

^The lines ^{h é} oeaý ^y removes from the apparatus ^P ro testing výsevntao RA ^DK ovacíc ^h seeders, te8távajícího of fotoelektrCokéhl or piezoelectric snímače.az central electronic display unit, the invention whose principle consists in that the scanning head and předze8ilsarč are connected by their outputs o and the logic current input, the logic current output is connected to the serial current circuit, the memory current circuit, the time pulse generator and the oscilloscope control input, the progressive speed setting circuit output is connected to the time pulse generator, the time pulse generator output is connected oa serial current circuit, connected to the memory current circuit, the memory current circuit is connected to the signal regeneration current circuit, wherein the signal regeneration circuit is coupled to the control gate < The level controller and the parity signal generator.

The time pulse generator is a voltage-controlled oscillator whose control input is coupled to a sensor arranged. o and I sow for the compilation of fast or slow zmroy.

The advantage of the device according to the invention is that it ensures from the grain-regulating parts up to the opaque parts of the seed drill a fast, completely self-explanatory root evaluation. .

The uniformity of the grain supply can be determined very quickly by the device according to the invention. It requires no manual work, which eliminates the cost of labor and saves time. The measuring power of the device is accurate, its operation is almost trouble-free.

An example of one embodiment of the device according to the invention is explained in more detail below with reference to the drawing.

As can be seen from the drawing, the device for testing the sowing element according to the invention consists of a sensing head 6, a pre-feed line 2, a logic current circuit J, which is provided with a start button A, a reset button O, a shutdown switch B and an input 6. for the punching device, the serial current circuit 6, the memory current circuit 6, the signal recovery circuit 6, the controlled gate 2, the logic converter 8, the parity signal generator 6, the puncher 0, the indicator unit £, from the measuring transducer 12, from the time pulse generator 13, from the oscilloscope 14, from the speed setting circuit 15, and from the power supply 16.

The sensor head 6 forms, with the preamplifier 2, a unitary mechanical unit on which the seeding device to be tested is mounted. The pulse excited by the individual grains is amplified by preamplifier 2 to the logic level of transistor transistor logic. The amplified signals are transmitted to the logic current circuit 6 of the apparatus.

This logic current circuit 6 controls the partial current circuits of the apparatus and ensures their cooperation. The signal corresponding to the imitated sequential velocity and width of the individual grain classes is excited by the time pulse generator 13 and transmitted to the serial current circuit 6, where it is gradually stored.

The serial current circuit 6 has as many outputs as the memory device has. When the serial current circuit 8 has reached the last memory of the memory current circuit 8, it remains in this position until the next grain passes through the sensor head 6. When the grains continuously fall from the sowing element, the pulses produced by the individual grains are continuously transmitted to the logic current circuit 6.

Thereafter, the grain-induced signals are registered by a memory current circuit 6 activated by the serial current circuit 6. The grain-induced signals disconnect the timing pulse generator 60 and set the serial current circuit 6, i.e., the first memory of the memory current circuit 6 to zero, thereby returning the timing pulse generator splitter 13 to its home position, and then storing again.

When the content of any memory reaches the maximum number of 999, the logic current circuit 8 disconnects the grain countdown and signals this condition by switching on the bulb. Therefore, overfilling cannot occur. At the end of the measurement, the contents of the memory current circuit 6 can be read on the signaling unit or a punched tape can be formed by one of the holes connected to the logic converter 8.

It is furthermore possible that the amplitude distortions appearing on the oscilloscope screen, namely those caused by the diode-filled memory current circuit gates 6, are corrected by the signal recovery circuit 6.

As can be seen, the uniformity of the grain supply can be determined very quickly by the device according to the invention. There is no need for manual work, which can save labor and time. A particular advantage is that the reliability or accuracy of the measurements is very satisfactory.

Claims (2)

An apparatus for testing seeding equipment of a seed drill, consisting of a photoelectric or piezoelectric sensor and a central electronic indicating unit, characterized in that the sensor head (1) and the preamplifier (2) are connected to the input of a logic current circuit (3) , the output of the logic current circuit (3) is coupled to the serial current circuit (4), the memory current circuit (5), the time pulse generator (13) and the oscilloscope control input (14), connected to the time pulse generator (13), the generator output (13) connected to the serial current circuit (4) is connected to the memory current circuit (5), connected to the signal regeneration circuit (6), the current circuit (6) for the signal regeneration is connected to the controlled gate (7) and the controlled gate (7) is connected to the logic converter (8) and and a parity signal generator (9). 2. Apparatus for testing a sowing device according to claim 1, characterized in that the time pulse generator (13) is a voltage-controlled ossClalator whose control input is connected to a sensor arranged on the sowing device to compensate for rapid or slow change.