SU1055374A1 - Stand for testing seed sowing monitoring pickups - Google Patents

Abstract

1. STAND FOR NSPMTANY VALVE SEED CONTROL SENSORS, containing a seed bin, sowing machines with a drive mechanism, sem wires with seeding control sensors and their attachment unit, and a collection of seeds, characterized in that, in order to improve the accuracy of test results by approximating the test conditions to the actual ULAB, it is equipped with a device for creating a blockiness and a device for creating vibration loads, while the device for creating dustiness is made in the form of a fan connected by tion tube filled with abrasive capacity and cavities .sem wires, and means for generating vibratory stresses embodied as a lever, one end of which is rigidly fixed to the housing, and the other - is connected to the motor via an eccentric mechanism slab. 2. A stand according to claim 1, characterized in that the seed collection is divided by a horizontal perforated plate into compartments. ate joint venture 00 iu

Description

FIELD OF THE INVENTION The invention relates to agricultural machinery, in particular, to stands for testing sensors controlling the process of sowing seeds. A test bench for testing sensors for seeding seeding is known, which contains an exemplary, and test sensor mounting unit, a device for creating a periodic shock force, made in the form of a hollow drum mounted on a shaft and including a vertical guide tube, and bucket blades mounted on a cylindrical surface, the granulated material is placed inside the drum, and the attachment assembly of the sample and test sensors is located at the lower end of the guide tube. This is the absence of imitation of real conditions acting on the seeds as they move from the sowing unit to the test seeding control sensor through this wire. This does not allow to obtain the full amount of information about the operation of the tested sensor in real sowing conditions, since during operation of the stand, the effect of this wire on the control sensor is not taken into account. The closest to the invention to the technical essence is a stand for testing sensors for seeding control, including a bunker for se mne, seeding machines with a drive mechanism and an adjustable drive device, sem wires with seeding control sensors and a fastening assembly, a seed collection. The indicated bench allows testing the sensors taking into account the effect on its sensitive element - the sensor, both seeds and these C 2 wires. The disadvantage of the known stand is the inability to simulate, and therefore to obtain objective information about the effect on the sensor of external disturbing signals. factors such as the background color, vibration and three-way spruce nodes depending on soil irregularities and others. This is the accuracy of the test results. The purpose of the invention is to increase the accuracy of the test results by bringing the test conditions to real conditions. The goal is achieved by providing the stand with a device for creating dust and a device for creating vibration loads, while the device for creating dust is made in the form of a fan connected with a pipe with the capacity and cavities of the wires filled with an abrasive material, and the device for creating vibration loads is made in the form of a lever, one end of which is secured to the housing, and the other - Cpd nen to the motor through an eccentric mechanism. In addition, the collection of seeds is divided by a horizontal perforated plate into compartments. Fig. 1 shows a stand for testing seed monitoring sensors; Fig. 2 shows a section A-A for the FNG, 1. A test bench for testing sensors for monitoring seeding of seeds includes a housing 1, a seed bin 2, sowing apparatuses 3 with a drive mechanism, for example, an electric motor 4 with a regulator 5 turns of the sowing apparatus, at the funnels 6 of which flexible, flexible sem wires 7 are worn. The lower ends of the sem wires 7 are connected to a pipe I, one end of which is tightly closed, and the second one communicates with a container 9 filled with abrasive material and a fan 10, sensors are also connected to the pipe 8 11 control seed seeded By means of pipes 12 with a collection of 13 seeds, the upper part 14 of which is separated from the lower part 15 by a perforated plate 16, the pipes 12 are also connected to the lever 17, one end of which is fixed on the housing rigidly, and the second is connected to the electric motor 1Я, having on axis 19 eccentric mechanism 20, the speed of the electric motor 18 is controlled by a rheostat 21, the stand works as follows, seed material is poured into the bunker 2 for seeds, and abrasive 9 is loaded into the seed 9. When the electric motor 4 is turned on and the regulator 5 turns the required revolutions of the sowing devices 3, a damper opens (not shown in FIG. 1), the seeds flow through the funnels 6, these wires 7 into the working area of the investigated sensors .11 control the sowing seeds, and then through pipe 12 in the upper part 14 of the collection of 13 seeds. In this way, the researcher receives information from the output of sensor 11 of the control of seed sowing in the absence of disturbing factors (dust, dust, vibrations).

Then the fan 10 is turned on, and the abrasive material from the tank 9 through the pipe 8 enters the working area of the seed control sensors 11. At their exit, the researcher receives information taking into account the influence of abrasive material and dust. If it is necessary to study the effect on the sensor 11 of the control of seed sowing separately of abrasive material and dust, the electric motor 4 stops and the seeds from the bunker 2 are not fed into the working area of the sensors 11 of the control seed sown.

In order to investigate the influence and vibration of the sensors 11, an electric motor 18 is turned on, which causes vertical and horizontal oscillations of the tubes 2 and the sensors I1 of the control of seeding. The degree of influence is controlled by measuring the revolutions of the electric motor 18 by the rheostat 21, the Ori switched on electric motor 4 and the switched on electric motor 18 separately investigates the influence of the three and vibrating sensors 11 in the absence of seed,. For a comprehensive assessment of all disturbed factors for the operation of sensor 11, its output signal is recorded when electric motor 4 and 18 is turned on and fan 10,

To separate the seeds from the abrasive particles, the cell size of the corrugated plate 16 is smaller than the minimum size of the sown seeds, and therefore dust is applied to the lower part 15 of the collection 13 seeds.

The use of the proposed stand for testing seeding control sensors in comparison with the known MI stand will improve the efficiency and accuracy of the test results.

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Phys 2

Claims (2)

1. STAND FOR TESTS OF SEED SOWING CONTROL SENSORS, containing a seed hopper, sowing devices with a drive mechanism, seed tubes with sowing control sensors and their attachment unit, and a seed collection, distinguished by the fact that, in order to increase accuracy the test results by approximating the test conditions to real conditions, it is equipped with a device for creating dust and a device for creating vibration loads, while the device for creating dust is made in the form of a fan connected by t Uba filled with abrasive capacity and cavities .semyaprovodov and apparatus for creating vibratory stresses embodied as a lever, one end of which is rigidly fixed to the housing, and the other - is connected to the motor via an eccentric mechanism. 2. Stand by π. 1, characterized in that the collection of seeds is divided by a horizontal perforated plate into compartments. and „1055374>