SU1692670A1 - Vibration exciter - Google Patents

Abstract

The invention relates to vibration technology and can be used in the chemical, metallurgical, construction, mining and other fields of industry, as well as in seismic prospecting for exciting seismic vibrations. The aim of the invention is to simplify the design of the vibration exciter. For this, in the exciter comprising a housing 1, a shaft 3 mounted therein, a fixed 5 mounted on the shaft and a movable b (associated with the shaft by a spring 7) unbalances, an excitation coil 8 is installed on the shaft 3 between unbalances, the power source is a direct current, and the bearings 2 are made of a non-magnetic material. The adjustment of the unbalance turning angle is carried out by varying the excitation current. 1 il.

Description

The invention relates to vibration technology and can be used in chemical, metallurgical, construction, mining and other industries, as well as in seismic exploration, E

The purpose of the invention is to simplify the design by removing restrictions on the choice of the pole of the drive motor and simplifying the installation of the excitation coil of the unbalance reversal mechanism. 1 The drawing shows the design of the exciter.

The vibration exciter contains a housing 1, in the bearing bearings 2 of which a shaft 3 is mounted rotatably on the busbars 4. On the shaft 3 there is a fixed unbalance 5 and a movable unbalance 6 connected to the shaft 3 by a spring 7, which transmits torque from the shaft 3 to to the moving unbalance 6. Between the non-movable 5 and the movable 6 unbalances, an excitation coil 8 is mounted on the shaft, the power of which is supplied through the contact rings 9 and the current lead 10 from the direct current source. 2

Vibration exciter works as follows.

When the shaft 3 rotates with unbalances 5 and 6, a circular perturbing force arises, the value of which at a fixed angle 3 rotational speed is determined by the relative position of the movable and stationary unbalances. In the initial state, when there is no power on the excitation coil 8 under the action of spring force 3 7, the movable unbalance 6 rotates in phase with the immovable unbalance 5 and the angle between the movable 6 and the immovable 5 unbalances is zero, and the disturbing force is determined by the 4 algebraic sum of the disturbing forces of the unbalances 5 and 6.

When connecting the excitation coil 8 through the contact rings 9 and the current lead 10 to a constant current source, 4 magnetic flux arises, which closes along the circuit: part of the shaft 3, movable unbalance 6, air gap, housing 1, air gap, fixed unbalance 5. Mobile 6 and motionless 5 unbalances perform the 5 function of the poles, and the housing 1 serves as a massive anchor of the magnetic system. When the shaft 3 of the vibration exciter is rotated by a drive motor with an angular frequency, the housing 1 is intersected by an alternating magnetic flux inducing alternating EMF and eddy currents, the interaction of which with the flow of poles - unbalances 5 and 6 creates a spreading moment, under the action of which a moving unbalance 6 5 rotates relative to the stationary unbalance 5, compressing the spring 7. If the spreading moment and the moment due to the stiffness of the spring 7 are equal, the unbalance 6 occupies a position on the shaft 9 with a certain angle of shift relative to still immovable unbalance 5.

Since the excitation current of the coil affects the spreading moment, the change in the current of the excitation coil 8 provides control of the magnitude of the spreading moment, and therefore the change in the required law of the angle of rotation of the unbalances, i.e. ultimately, the change according to a given law of the disturbing force of the vibration exciter.

Claims (1)

Claim A vibration exciter comprising a housing, a shaft with movable and fixed unbalances installed in it in the bearings, springs, one end of which is connected with a movable unbalance, and an unbalance reversal device made in the form of a power source and an excitation coil, characterized in that. in order to simplify the design, an excitation coil is mounted on the shaft between unbalances, a DC power supply, the other end of the spring is connected to the shaft, and the bearings of the latter are made of non-magnetic material.