SU940844A1 - Apparatus for monitoring discharge slot of inertial cone crusher - Google Patents

Description

Ma FIG. 1 shows a functional diagram of the} -strontium to control the discharge gap of a cone inertial crusher; in fig. 2 - unit installation unit on the crusher; in fig. 3 - section A-A of FIG. 2

The device consists of a meter of 1 unloading value and; ate, a unit 2 for preliminary signal processing, a pointer 3 for the size of the unloading unit, a comparator 4, a level setting unit 5, an assembly element 6, an adjustment unit 7, a signal delay element 8, a crusher drive emergency shutdown unit 9 , the display unit 10 and the actuator 11 of the machine installation of the unit, connected with each other functionally.

The meter 1 of the deflection angle of the monitored element into the electrical signal is made in the form of a magnetic induction sietema consisting of coils 12 with cores interacting with the operation of the crusher with permanent magnets 13. The coils 12 are mounted on an on-board structure 14 mechanically connected to the body 15 crushers, and are located in a horizontal plane radially with respect to the vertical axis of the crusher around a controlled element, such as a disk 16, mechanically connected with an unbalance 17 and shaft 18 of a moving cone 19 fraction LCI. The magnets 13 are located on the disk 16. The rotation to the unbalance 17 at a frequency of 03 is transmitted from the drive of the crusher (the latter in the figures is not a knockout). The slit size 5 is controlled by raising or lowering the non-stemming cone 20. A crusher using soft damping devices 21 supports the foundation 22.

Element 6 includes, for example, two elements And 23 and 24 connected to the outputs of the comparator 4 by means of a delay element 25.

The device works in the following way.

Under the action of the centrifugal force developed by debalapse 17, the axis of the movable Cornus 19 performs a precessional motion relative to the vertical, in the same way as Pendulum Y; the latter is set in accordance with the size S of the discharge gap. When the magnet 13 passes near the coil 12, a discrete electrical signal is produced in the latter, the level of which depends on the distance B between the magnet 13 and the coil 12 and the speed of the two magnet 13 relative to this bar. The sequence of electric sigals from the outputs of coils 12 enters the input of block 2, which performs, for example, the functions of amplification, the conversion of a discrete signal into an analogue, the filtering of high-frequency components, the allocation of components of the spectrum.

the cut-off frequency of which is not npeBFiiniacT exists at a frequency from debalapse 17, and then converts the signal into a form convenient for subsequent use. This signal is in accordance with the angle Y and is fed to the pointer 3 and the comparator 4. The latter provides tracking on three signal levels: two limit values corresponding to the maximum and the minimum dimensions of the discharge gap and the nominal value of the slot set with block 5 .

From the outputs of the comparator 4, the control signal is supplied to the element 6, and the elements 23 and 24 provide the switching of the control signal to the block 7 by the maximum or the minimum levels, respectively. To prevent the block 7 from triggered by a random impulse, the elements are turned on And there is enough information in the accumulation of information, which is realized with the help of the element 25. This unit 7 provides, in a control from the level of the signal at its input, control in the directional sequence of drive II, 1 function of the node nod.ma-onuskapm copus 20, maintaining the size of the discharge unit H1, elp.

In the case of critical situations related, in particular, to the mechanism of the P1elp installation or to the excessive activation of the drive of the installation mechanism of the slot, for example, due to falling into the crusher of indestructible bodies, the crusher drive 9 is activated by means of the unit 8 signal delay.

Claims (2)

1. USSR author's certificate number 196536, cl. B 02C 2/00, 1965. 2. Authors certificate of the USSR 458335, cl. B 02C 25/00, 1973.