SU1697900A1 - Vibration exciter - Google Patents

Abstract

The invention relates to devices for producing mechanical vibrations and can be used as a drive for vibratory transport-technological machines, as well as in other parts of the national economy. The aim of the invention is to increase the reliability and expand the operational capabilities of the vibration exciter. For this, in the device, internal 2 and external 3 unbalances are inserted one into the other and made in the form of hollow cylinders with a cylindrical bore offset relative to their geometrical axis, internal 2 unbalance fixedly mounted on the shaft of electric motor 1 is made with a protruding section having a spline cut , and on the outer surface of the outer Zdobalance, grooves 4 and 5 are made along a helical line, the length of which exceeds half the circumference by the thickness of fingers b, their beginning and end are located opposite each other. In this case, one groove is made along the right and second along the left helix, and the distance from the bottom of the grooves to the geometric axis of the internal 2 unbalance is constant. In the device for controlling the static moment of unbalance, the fingers 6 installed in the screw grooves are rigidly attached to the carrier 7, connected by a shell 8 with a disk 9, having in the middle part a slotted sleeve 10, worn on the splines of the internal 2 unbalance, and on the outer surface the disk 9 is tapered and inserted into a conical groove made on the rack 12, mounted in the guide 13 and connected to the toothed sector 14 for smoothly adjusting the moment of unbalance. 6 Il. sl s o y h o o o o

Description

The invention relates to devices for producing mechanical vibrations and can be used in the construction industry, for example, as an exciter of vibrations of transport and technological machinery, as well as in other parts of the national economy.

The aim of the invention is to increase the reliability of the vibration exciter and enhance the operational capabilities beyond

by reducing the loads on the vibrating shaft and increasing the magnitude of the disturbing force while maintaining a constant value of the static moment of the unbalanced unbalance.

Figure 1 shows the vibration exciter, General view; Figures 2 and 3 are section A-A in Figure 1, with the minimum and maximum values of the static moment of the unbalances, respectively; figure 4 - execution

screw grooves on unbalance; Figures 5 and 6 illustrate the relationship between the disk and the toothed rack of the mechanism for adjusting the static moment of the unbalance.

The vibration exciter comprises an electric motor 1, an internal 2 and an external 3 unbalances, inserted one into another and made in the form of hollow cylinders with a cylindrical bore shifted relative to their geometrical axis. Internal, debalance 2, fixedly mounted on the shaft of the electric motor 1, you- | complete with a protruding section having a slotted cut. External unbalance 3 is set to rotate to internal unbalance 2. When the internal 2 and external 3 unbalances are located, corresponding to FIG. 2, their total eccentricity is zero, and when the external unbalance 3 is rotated 180 ° relative to the internal unbalance 2, the eccentricity is maximum (FIG. H). On the outer surface of the external unbalance 3, the grooves 4 and 5 are made along the helix (figure 4), the beginning and the end of which are opposite each other, the distance from the bottom of the grooves to the geometric axis of the internal unbalance 2 is constant, one groove is made along the right, and the second is a field helix, and their length exceeds half the circumference by the thickness of the fingers 6 inserted into them so that the external unbalance 3 has the ability to rotate relative to the internal 2 by 180 °. The fingers 6 of the static unbalance moment adjustment device are rigidly attached to the annular carrier 7 connected by a shell 8 to the disk 9. In the middle part the disk 9 has a splined sleeve 10, which is worn on the internal debalance spline cutting 2, and the outer disk 9 is tapered and inserted tapered groove 11, made on the rack 12 (Fig.5, 6). A gear rail 12 is installed in the guide 13 and is connected to the gear sector 14 of the static moment adjustment mechanism. Gear sector 14 is installed on the frame, where it can be fixed in the desired position and set in motion by any known method.

Works vibration exciter as follows. When the motor 1 is turned on, the internal 2 and external 3 unbalance begin to rotate. Initially, in order to reduce the starting torque, the external unbalance 3 occupies the position (figure 2), corresponding to the zero value of the total eccentricity of the internal 2 and external 3 unbalances. In operation, during rotation of the internal and external unbalances by means of a gear

sector 14 and the rack 12 moves the disk 9, and hence the annular carrier 7, which rotates together with the unbalances, along the longitudinal axis of the vibration exciter along spline cutting of the internal unbalance 2.

The fingers 6 abut against the side walls of the screw grooves 4 and 5, thereby creating a force that rotates the external unbalance 3 relative to the internal unbalance 2. In the working mode, the unbalances 2 and 3 occupy either an intermediate position or the one shown in FIG. 3, which corresponds to the rotation of the external unbalance 3 relative to internal 2 at 180 ° and the maximum value of the total eccentricity, and therefore the maximum value of the driving force of the exciter created by the mass of the internal 2 and external 3 unbalances.

This creates the opportunity

smoothly changing the moment of the unbalance of the vibration exciter from zero to the maximum value and back. After turning off the vibration exciter, the external unbalance 3 is set to its original position (Fig. 2).

Claims (1)

Claims of the invention A vibratory exciter comprising a housing, an electric motor placed therein, at the ends of the shaft of which unbalances are installed in pairs, one of which is fixed on the shaft rigidly, and the other is rotatably mounted, and a device for controlling the static moment of debalance, characterized in that increasing the reliability and expanding operational capabilities, the unbalances are made in the form of hollow cylinders with holes at the base that are eccentric relative to their geometric axes; mounted coaxially, internal unbalances are made with protruding sections having a spline cut, and screw grooves are made on the outer surface of the external unbalances, the adjustment device is made in the form of a rack and pinion gear connected to the ends of the rack wheels mounted on the splined sections of internal unbalances with the possibility of the translational movement along them, and the fingers, pairwise and diametrically fixed on the disks and installed in the screw grooves of the external bolts. figs 4 5 (puff. s