SU712353A1 - Sensor of variable vessel moving in shaft - Google Patents

Description

are in the region between the upper 3-1 and lower 3-2 toroidal pole pieces. At the same time, the magnetic note of the tag closes along the magnetic circuit: a rope with a tag - a radial gap - an upper pole tip 3-1 - a magneto-sensitive element 4 - a lower pole tip 3-2 - a radial gap - a rope. As a result of the magnetic flux of the tag on the signal winding 7 of the magnetically sensitive element, an alternating voltage is applied to the input of the amplifier 8. The amplified AC signal flows around the winding 9 wound in the thread through both pole tips 3-1 and 3-2. The secondary winding of this transformer is a closed loop of communication, the elements of which are rope 1, grounding conductivity and primary winding of transformer 11. When exposed to a magnetic field, the marks in the net connection and, therefore, an alternating current occurs in the primary winding of the receiving transformer And causes a variable EMF on the secondary winding of this transformer. This EMF exists as long as the magnetic label is in the sensing range of the sensor (in the space between the upper and lower toroidal and polar tips). Thus, when the lifting vessel moves on the secondary winding of the receiving transformer 11, periodically synchronously with the tag entering the sensor's sensitivity zone, alternating voltage pulses 13 appear, which can be used as a signal to move the lifting vessel along the shaft. The resulting discrete information about the movement of the lifting vessel has a quantum equal to the magnetic marking step on the rope.

The toroidal ferromagnetic tips of the sensor have two purposes:

annular pole pieces providing constant sensitivity

the sensor with its transverse vibrations (together with the lifting vessel), since no matter where the hole is at the rope, the magnetic flux of the tag can be closed to any part of the internal surface of the tori;

the ferromagnetic core of the communication transformer, the primary winding 9 of which is the coils of a wire wound and bridged, and the secondary winding is a closed loop of communication, consisting of a rope, ground conduction and the primary winding of the receiving transformer 11.

Thus, the use of toroidal pole pieces of the magnetically sensitive element covering the rope increases the reliability of the reproduction of magnetic marks in the presence of transverse

oscillations of the lifting vessel or rope, and the combination of the functions of the pole pieces and the core of the communication transformer in one structural unit allows to significantly reduce the dimensions of the equipment located on the lifting vessel.

Claims (1)

Invention Formula The sensor for moving the lifting vessel along the shaft of the shaft contains a magnetically sensitive element placed on the lifting vessel parallel to the rope with magnetic marks, which is the secondary winding of the communication transformer, characterized in that, in order to increase the reliability of operation and reduce the size of the sensor, toroidal pole pieces on which the primary winding of the communication transformer is wound. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 523014, cl. B 66 B 3/02, 03/05/73 (prototype). chip