SU243923A1 - MECHANICAL VIBRATION STAND - Google Patents

Description

There are known stands for testing the vibration of machine parts, which are brought into oscillatory motion relative to the vertical axis in two and three planes.

A vibrating stand is also known, the vibrator of which contains mobile and stationary unbalanced loads, the change in the disturbing force of the vibrator being achieved by changing the position of the center of gravity of the moving loads relative to the axis of rotation. On these stands it is impossible to get different trajectories of the table oscillations in space.

The proposed mechanical vibration stand differs from the known ones in order to obtain different trajectories of the oscillations of the table in space, namely: direct linear oscillations at any angle to the horizontal plane; purely rotating oscillations about an axis constituting any angle relative to the horizon; circular translational oscillations; screw vibrations with almost any pitch; complex oscillations, whose trajectories of points are arbitrarily oriented ellipses, as well as to simplify the stand design by providing self-locking vibrations, unbalance vibrators, the vibrator bodies are mounted on a vibrating table, which is common to them

the vibrating base, and the axes of the rotors of the vibrators are set by an arbitrary obase in mutually parallel planes perpendicular to the plane of the vibrating table.

The stand is shown in the drawing.

The working element of the stand is an annular table / with two diametrically located conical sockets in which the bodies of the vibrators 3 are fixed with bolts 2 with individual drives.

At both ends of the rotors 4 of the vibrators 3 fixed sectors 5, fixed with their axis, and 6 unbalances moving sectors 6 are fixed. In addition, the moving sectors are rigidly interconnected by an axis 7 passing through the axial holes of the rotors 4.

Moving the upper pair of unbalances causes a similar movement of the lower pair.

At the upper end of axis 7, a lock screw & is installed, fixing the relative position of the sectors of the unbalance.

The balancers of the vibrators 3 are driven in rotation; 1e collector motors 5 with a wide range of speed control.

wedged by semi-bolts 10 and 11, which are bolted.

The support springs 12 are attached to the support lugs of the lower half-coupling 11, with which the table / rests on the frame 13.

The stiffness of the support springs 12 is chosen so that the highest frequency of free oscillations of the mass of the table with vibrators 3 on these springs is 3-8 times lower than the frequency of operating oscillations of the stand.

The table can be rotated around a horizontal axis and fixed in any position by semi-bolts 10 and 11.

The bodies of the vibrators 3 can be rotated on their conical connections with the table relative to the latter and fixed in any intermediate position with bolts 2. The matched alignment of the vibrators 5 is achieved due to self-synchronization. In this case, when the vibrators rotate in opposite directions with the same ve;: due to the static moments of the unbalanced weights of each vibrator, straight line oscillations occur. If the oscillators are Bras, set in one direction, the oscillations will be translational circular when the condition is fulfilled 2 or rotary when

Жг2.,.

provided when

Here M is the mass;

/ is the moment of inertia of oscillating particles;

g is the distance from the axis of rotation of the vibrator to the center of gravity of the oscillating system.

If the static moments of the loads are not the same, the trajectories will be elliptical.

To change the amplitude of the table oscillations, the mutual arrangement of unbalanced weights is changed, and the number of revolutions of the electric motors is changed to change the oscillation frequency.

Subject invention

A mechanical vibrating stand containing a vibrating table for installing the tested objects and synchronously operating unbalanced vibrators, on the rotors of which are installed allowable relative displacement sectors of debalances, characterized in that, in order to obtain different trajectories of the table in space and to simplify the design of the stand by ensuring self-synchronization of the unbalanced vibrators,

allowing to obtain synchronous unbalance with different phases with different directions of rotation, their corus is mounted on a vibrating table, which is a common vibrating base for them,

and the rotor axes of the vibrators are arbitrarily set in mutually parallel planes perpendicular to the plane of the table being vibrated.