DE1203510B - Electromagnetic vibration exciter - Google Patents

Description

Electromagnetic vibration exciter The invention relates to on an electromagnetic vibration exciter, which acts as the main energy store cylindrical coil springs are provided. It is known with these vibration exciters to install additional leaf springs to achieve vibration control. There are Designs of this type have been proposed in which the oscillating movement longitudinal expansions caused by offsets or corrugations in the "Biegeeber.e be made possible.

In another known type of vibration exciter, leaf springs are used arranged, which are loosely clamped at their ends. As a result of this loose restraint however, the guide effect is not sufficiently achieved because of the transverse rigidity the guide springs is reduced as a result.

The vibration exciter receives adequate vibration guidance, if according to the invention spring elements on both longitudinal sides of the vibration exciter are provided in elongated form. the ends of which are firmly connected to the one mass and the center of which is firmly connected to the other ground. There are advantages especially from a structural point of view, if these leaf springs are at the level of the air gap to be ordered.

For many cases, especially when it comes to vibration exciters smaller type, you will end up with a single leaf spring on each Side of the vibration exciter get along. However, it may be necessary to on both sides of the vibration exciter and on both sides of the free mass or of the armature part to arrange a leaf spring, so that a parallel link guide on both sides arises.

A flat steel can be provided as the spring element, which is used for connection pierced through the two mutually oscillating masses at the end and in the middle is.

Embodiments according to the invention are shown in the drawing.

In Fig. 1 shows an electromagnetic vibrator whose free mass or magnetic part 1 is connected to the base plate or armature part 4 such that it can vibrate via cylindrical helical springs 2 which are held by spring bolts 3. The free mass 1 and the base plate 4 with the connected oscillating power unit represent two masses that oscillate against each other during operation. A magnet system is provided for excitation, the none of which is attached to the free mass 1 and the armature of which is stored in the base frame 4. When excited by an alternating current with mains frequency, the masses vibrate at a frequency of 100 Hz.

In order for a perfect oscillation to occur, it is necessary to arrange the parts 1, 4 oscillating against one another so that they move in an exactly linear direction to one another. To achieve this, an elongated spring element, preferably in the form of a leaf spring 5 , is provided on both sides of the vibration exciter at the level of the air gap, the ends of which are attached to the holding arms 6 of the free mass 1 and the center of which is attached to the base plate 4 with the aid of the connecting piece 7 connected. The leaf springs 5 ensure a linear oscillating movement.

In Fig. 2 is the vibration exciter according to FIG. 1 reproduced in a view of the narrow side.

The arrangement according to FIGS. 3 and 4, which show a vibration exciter in two mutually perpendicular views, differs according to the arrangement according to FIGS. 1 and 2 in that guide springs 5 and 5 'are arranged in pairs on each longitudinal side of the vibration exciter ant' Cle. The leaf springs 5 are similar to the arrangement according to FIGS. 1 and 2 connected to masses 1 and 4 via parts 6 and 7; the springs lying above the free mass 1 are connected to the free mass via the connecting pieces 6 ' and to the base frame 4 via the connecting pieces 7'.

Instead of a flat steel constant profile, a rod-shaped element according to FIG. 5 can be used. This element is essentially a spring steel in the form of a rod of thickness S, the end and center of which are thickened for connection to the two masses of the vibration exciter. For example, the ends and the center can be two to three times (2 S to 3 S) as thick as the rod. The clamping ends can be provided with a toothing in order to create a secure, form-fitting connection.

In Fig. 6 of the drawing, a vibration exciter is shown in which the guide springs 5 are hidden. To achieve the concealed shape, the free space is equipped with panels 8 on both sides. 8 A particular advantage of the guide springs according to the invention is that the spring thickness is decisive for the stress of the leaf springs in the main vibrating direction, but for the guiding effect of the spring width. By increasing the spring width, the guiding effect of the springs can be changed without affecting the main vibration.

Claims (2)

Claims: 1. Electromagnetic vibration exciter, in which the free mass is coupled to the base plate so that it can vibrate via cylindrical helical springs, characterized in that spring elements (5, 5 ') are provided in elongated form on both longitudinal sides of the vibration exciter, the ends of which are connected to the one mass ( 1 or 4) are rigidly connected, and the center of which is rigidly connected to the other mass (4 or 1). 2. Vibration exciter according to claim 1, characterized in that a spring element (5) is arranged at the level of the air gap on each side of the vibrator. 3. Vibration exciter according to claim 1, characterized in that a spring element (5, 5 ') is arranged on both longitudinal sides of the vibration exciter and on both sides of the free mass (1), so that a parallel link guide is formed on both sides of the vibration exciter. 4. Vibration exciter according to claim 1 or one of the following, characterized in that a flat steel is provided which is thickened at the clamping points at the end and in the middle. References considered: U.S. Patent No. 2,310,185.