DE1533509C - Vibration generator - Google Patents

Description

The invention relates to a vibration generator, comprising a drive motor and an eccentric weight arrangement, with an eccentric weight that cannot be changed in its position and at least one eccentric weight that can be changed in its position, the resulting imbalance by changing the position of the center of gravity of the eccentric weights the axis of rotation is changeable, the movable eccentric weight with the help of one of The position of the pressure medium that can be fed in and out of the outside can be changed in relation to the axis of rotation.

Such a device is essentially known from British patent specification 769,547.

In the known arrangement, a single eccentric weight is guided displaceably in a diametrical channel of a rotor. This eccentric weight is biased by a spring into the one eccentric position of the radial channel and can be displaced by a pressure medium against the action of the helical compression spring towards the center of the rotor, so that the imbalance is reduced. In the event of a pressure failure in the pressure medium, the eccentric weight returns under the action of the spring and under the action of centrifugal force to one of the end positions of the diametrical channel, ie to the position of large unbalance.
. The invention is based on the object of specifying a vibration generator in which the imbalance becomes a minimum when the pressure of the pressure medium fails.

To solve this problem, it is proposed that the movable eccentric weight is arranged and guided in such a way that it is in the event of a pressure failure Pressure medium under the action of centrifugal force in the sense of a reduction in the resulting Relocated unbalance.

It is already known from US Pat. No. 2,703,490 to have two fluid chambers in a rotor to be arranged in such a way that by introducing pressure medium into one chamber, liquid enters the other Chamber penetrates and thus an imbalance can be generated. When the pressure of the print media If this known arrangement fails, the liquid between the two liquid chambers is equal again under the effect of centrifugal force off, so that here too the imbalance approaches zero again. In this known arrangement So a liquid serves as an eccentric weight. Liquids have apart from being difficult to handle and expensive mercury has a relatively low specific weight, so that for Generating a certain imbalance relatively large amounts of liquid and accordingly large fluid chambers are required. Also brings the use of liquid masseh Unbalance creates additional sealing problems in addition to the inevitable sealing problem for the print medium with it. In contrast, with the solution according to the invention with fixed flyweights can be worked, the displacement of which within the rotor is without a sealing problem simply designed and only take up the small construction and movement space.

According to a preferred embodiment, the movable eccentric weight is a sliding weight formed, which is displaceable along a, he spiral track on a rotor carrying the eccentric weights is. This sliding weight can be moved, for example, by means of a hydraulic power device which is made up of an arcuately curved cylinder and a corresponding piston is formed.

The figures explain an embodiment of the invention.

F i g. 1 shows a side view of one with one according to the invention Vibration generator equipped conveyor device;

F i g. 2 shows a section along line 2-2 of FIG

ίο Fig. 1;

3 shows a section normal to the axis through a vibration generator according to the invention;

F i g. 4 shows a section along the axis in a vibration generator according to FIG. 3.

The conveyor device 10 according to FIG. 1 comprises a container or working part 11, the material to be fed wearing. A funnel (not shown) is arranged above the container by means of which in the container a constant amount of material is kept in each case; the container is essentially along the with . The dashed line marked with an arrow moves back and forth and thus causes a movement of the material from left to right, like this, from FIG. 1 can be seen.

The material will usually go from the hopper on the left to one on the right used place of use transported out.

The working part is carried by damping springs 12, which in turn rest on a base 13.

An excitation member 14 is carried by the container and includes a constant speed one Electric motor 15 which is arranged on a tube 17 via bracket 16. Provided at each end of the tube Rubber spring springs 18 connect the

regular part with the work unit. The exciter part 14 includes two vibration generators 21 which are driven by the electric motor 15. These vibrators are in detail in FIGS. 3 and 4 shown.

In Fig. 3 can be seen a rotor 41 which contains a housing with a fixed counterweight 43 is provided. In the rotor 41, an arched cylinder 44 is arranged in which a Piston 45 is movable back and forth. The cylinder is

closed at one end by means of a closure part 46 through which a compressed air line 47 runs; the compressed air line 47 is connected to a compressed air supply 48 through which during the operation of the engine compressed air is supplied. In

The rotor 4i is furthermore an arcuate spiral path 49 with a radially inner section and a radially outer section. A sliding weight 50 arranged on rollers 51 is in the spiral path 49 moved by means of a curved piston rod 52, one end of which at the point 53 with the Sliding weight 50 and the other end of which is connected to the piston 45.

The centrifugal force tries to move the sliding weight into the radially outer track section.

This latter position is shown in FIG. 3 with extended Lines drawn. By introducing compressed air into. the cylinder 44 behind the piston 45 becomes the latter

moves into the cylinder and causes.die

Piston rod 52 pushes the weight 50 into the radial

inner track section moves, in which it is with dashed Lines is drawn. The weight can be adjusted in any position between the ends of the spiral path will.

When the pressure of the compressed air supply 48 collapses, the sliding weight 50 returns below the Effect of centrifugal force back into the radially outer track section; in this section of the railway it compensates for the unbalance of the fixed weight 43 to a large extent, so that the resulting unbalance is a Minimum is.

The vibration generator is connected to the motor via a shaft 54.

Claims (2)

Claims: IO 1. Vibration generator, comprising a drive motor and an eccentric weight arrangement, with an eccentric weight that cannot be changed in its position and at least one in its Position variable eccentric weight, whose. resulting imbalance by changing the position the center of gravity of the eccentric weights relative to the axis of rotation can be changed, with the movable eccentric weight with the help of a pressure medium that can be fed in and out from the outside can be changed in its position relative to the axis of rotation, characterized in that the movable eccentric weight (27, 50) is arranged and guided in such a way that it is in the event of a pressure failure of the pressure medium under the effect of centrifugal force in the sense of a reduction the resulting imbalance relocated. 2. Vibration generator according to claim 1, characterized in that the movable eccentric weight (50) is formed by a sliding weight which runs along a spiral path on a rotor (41, 42) is movable. ■ 3. Vibration generator according to claim 2, characterized characterized in that the sliding weight (50) by means of a hydraulic power device (44, 52) is displaceable, which of an arcuate cylinder (44) and a corresponding arcuately curved piston (45) is formed. · ■ ■ For this purpose i sheet of drawings