SU1250190A1 - Test bed for checking monitoring sensors for sowing seeds - Google Patents

Description

periodic oscillations of the loose end of the bracket, and with it the monitored sensor 13, attached to the end of the bracket. As the shock pulse propagates through the body of the bracket, the pulse duration increases, and the fronts become more gentle, since the natural frequency of the rod depends on its thickness S, length L, elastic modulus E and density p and the invention relates to agricultural engineering and can be Used to test seed control sensors.

The purpose of the invention is to increase productivity and accuracy of control.

The drawing shows the proposed stand.

The stand contains a base 1, on which a simulator of shock impulses of seeds is fixed, made in the form of an L-shaped crown, determined from the ratio of matte 2 and connected to the generator, 1615 (5 / L) - V P electromagnet 4 pulses with a movable length and bracket thickness selected

core 5 for interaction with the crown, so that the mechanical shock pulse,

matte, knot of amplitude adjustment of blow-arising at the place of installation of the sensor

impulses, made in the form of a rod, corresponded to a shock impulse, wedge spring 7, one end of which has 15 caught fish falling on the sensor. To stop 8 to limit the course of the core, in this case each falling of the core 5

on bracket 2, the sensor is perceived as a seed punch. By changing the position of the stop 8 by turning the cam 9, the height of the fall of the moving core 5 and the force of its impact on the bracket are adjusted. On a scale of 11, the position of the cam, at which the response of the monitored sensor stops, is determined by the sensitivity

and the other interacts with a cam 9 having an arrow 10 sliding on a scale 11, and a node 12 for fastening the sensor 13. At the interface between the core 5 and the bracket 2, a gasket 14 of a nonmagnetic material is fixed on the latter.

The stand works as follows.

When you turn on the generator 3 on the winding of the electromagnet 4 receives electric 25 pulses with a frequency of 1-2 Hz. With the same frequency, the moving core 5 is drawn into the electromagnet and falls in the pauses between the pulses onto the bracket 2, causing

last one.

The gasket 14 provides an increase in the magnetic resistance of the core 5 section - the bracket 2, which is necessary for a fast retraction of the core when a current appears in the electromagnet coil.

periodic oscillations of the loose end of the bracket, and with it the monitored sensor 13, attached to the end of the bracket. As the shock pulse propagates through the body of the bracket, the pulse duration increases and the fronts become more gentle, since the natural frequency of the rod depends on its thickness S, length L, elastic modulus E and density p and is determined from the ratio, 1615 (5 / L) - V P last.

The gasket 14 provides an increase in the magnetic resistance of the core 5 section - the bracket 2, which is necessary for a fast retraction of the core when a current appears in the electromagnet coil.

Claims (2)

1. A STAND FOR CHECKING SEED SEED CONTROL SENSORS, comprising a seed impulse impulse simulator mounted on the base, a sensor attachment unit and an impact impulse amplitude adjustment unit, characterized in that, in order to increase the productivity and accuracy of control, the impulse impulse simulator is made in the form of a fixed one end on the base of the L-shaped bracket and connected to pulse generators of an electromagnet with a movable core for interaction with the bracket, and the shock amplitude amplitude adjustment unit lsov designed as a spring-loaded rod, one end of which has a stop for limiting the stroke of the core, and the other is located to cooperate with a cam having a pointer, the sensor unit attachment located on the free end of the arm. 2. Stand by π. 1, characterized in that in the place of interaction of the core with the bracket on the last fixed plate of non-magnetic material. V