DE1472363B2 - Two-mass electromagnetic linear vibrator - Google Patents

Description

In addition to conveyor belts, conveyor troughs with move the material to be conveyed further with a shaking movement. The drive of such a channel can by a rotating unbalance motor or an electromagnetic vibrator. The electromagnetic The vibrator represents a coordinated two-mass oscillation system with the utility device. One of the both masses is formed by the working side of the vibrator and e.g. the conveyor chute. the the other mass, the free side, is only swingingly connected to the working side via springs. Between Both masses an electromagnet is arranged as a drive, the core of the two masses is divided, with air gaps remaining between the two core parts. The winding of the electromagnet is excited with an alternating current, so that strong contraction in the air gaps in the core Forces that go synchronous with the network frequency take effect. The vote of the oscillatable free mass with the spring constants takes place so that the natural frequency is about is in the vicinity of the exciting current frequency, so that there is approximately resonance and the Vibrator working side executes strong vibrations. These vibrations are transmitted to the conveyor trough at the angle of the oscillation axis and set the conveyed goods in motion.

AJ's material for the spring elements is steel or rubber. There are two options for steel: the coil spring or the leaf spring. If leaf springs are used, it is known and customary to hold them symmetrically, i. H., one mass is connected to the ends and the other mass is frictionally connected to the center of the spring. Since these springs for reasons of frequency tuning and the required amplitude a must not be less than a certain length, there is a minimum overall length with this mounting arrangement, which corresponds to twice the single spring length is required. .-

F i g. 1 and 2 show the known arrangements. F i g. 1 shows a schematic representation of the U-shaped core part 2 which is connected to the carrier plate of the working side I and which carries electrical windings 3 on both legs. The yoke for closing the magnetic circuit is arranged on a base plate 4 opposite the U-shaped core part. The two rectangular base plates 1 and 4 are connected on the two narrow sides by helical springs 5, it being possible for bolts to be arranged for guidance.

Fig. 2 shows the known arrangement of leaf springs instead of coil springs. Here are the base plates 1 and 4 again, the masnet and the windings being omitted to simplify the illustration. The ends of the leaf spring 7 are fastened to the base plate 4 and are connected in the middle to the base plate 1. The base plate 4 can now swing against the base plate 1 with the provision of the masses and the spring constant. For the sake of simplicity, only one spring 7 is shown. In practice, a whole set of springs is generally used. The oscillation length effective for the spring constant is half the actual spring length, which is denoted by α. Since the electromagnetic vibrators generally vibrate at a mains frequency, that is to say 50 Hz, a certain minimum amplitude is required to cope with the conveying problems. Since the spring strength cannot be chosen as thin as desired for technical and economic reasons, the spring has a relatively large overall length a. This defines the minimum dimensions of the entire device.

In clocks, a bearing for rockers for watch escapements is known, in which the rocker

ίο by means of two or more themselves in the theoretical The pivot point of the rocker crossing springs or pairs of springs is mounted so that they can swing rotates around the point of intersection of the springs.

These are leaf springs arranged vertically in the width, which are in different Cross levels in the center of the watch escapement, each with one of their ends at the Watch escapement and the other is attached to the base plate.

The task of this arrangement is to avoid trunnion mounting of the rocker and a state of equilibrium to ensure in all positions to the direction of gravity, so that a reliable Chronometer speed is reached.

A similarity in terms of task and structure with an electromagnetic power vibrator for there is no conveyance of bulk materials.

In the case of an electromagnetic two-mass

Linear vibrator with spring fastening bolts in a rectangle, at which the two masses,

_ d. H. the working side and the free side, coupling leaf springs or Blaitfederpaket along two opposite sides Sides of the fastening rectangle run and by means of the fastening bolts with the masses are tensioned and the exciter magnet system is in the middle between the two springs or spring assemblies is located, you can achieve much smaller dimensions if, according to the invention, only the with both ends of the two springs or leaf spring assemblies that are diagonally opposite each other connected to the same ground.

With this type of fastening, the entire existing spring length is used as the oscillation length α, which can therefore occupy one side of the device in length, so that the overall dimensions of the Device can be significantly reduced. In addition, the diagonal arrangement of the fastening points ensures a uniform, parallel oscillation of the two vibrator masses.

F i g. 3 and 4 show the invention in a schematic representation. 1 and 4 are again the two base plates of the electromagnetic vibrator, in FIG. 3 from the narrow side and in FIG. 4 seen in plan view, the spring 7 being fastened on one side to the base plate 1 above and on the other side to the base plate 4 below. In contrast to the known arrangement according to FIG. 2, the free oscillation length α of the spring 7 takes up the entire width of the device.

The spring 7 is in the schematic picture as individual fields drawn. In general, an entire spring package connected in parallel will be used. To reduce the friction between the individual springs of a package, the ends of all Einzeifcdern clamped between Mcssingplattcn, so also between the individual leaf springs Brass spacer plates inserted.

Due to the arrangement of the working springs according to the invention 3 and 4 is in the connection of the arrangement of the electromagnet in the The longitudinal axis of the spring assemblies is extremely space-saving, more practical and therefore also more economical Structure allows the masses of the vibrator, and in particular the mass to which the utility device is arranged, can be held much more easily, so that a higher useful vibration power output can be achieved.

Claims (2)

Patent claims: 1. Electromagnetic two-mass linear vibrator with spring fastening bolts attached in a rectangle, at which the two masses, d. H. the working and the free side, coupling leaf springs or leaf spring packages along two opposite sides of the fastening rectangle run and are braced with the masses by means of the fastening bolts and the exciter magnet system is in the Is located in the middle between the two springs or spring assemblies, characterized in that that only the two diagonally opposite ends of the two Springs or leaf spring assemblies are connected to the same mass. 2. Linear vibrator according to claim 1, characterized in that the individual leaf springs of a spring assembly are clamped at the held ends between brass plates. 1 sheet of drawings