DE677509C - Rocking device - Google Patents

Description

Vibrating device The invention relates to a vibrating device. It is known for vibrating devices, the vibrating table or the one for holding casting molds or a sieve o. the like. For sifting a good frame on a proportionate basis to arrange weak feathers resting or hanging on them in such a way that the feathers exert no significant influence on the vibrations of the carrier. It is further known, in these vibrators on the carrier d. H. at the vibrating table or -frame to attack a main spring with a counterweight, that with a vibrator connected is.

According to the invention, there is also an auxiliary or stop spring on the carrier provided to regulate the vibration amplitude of the carrier and to get him going keep.

According to the invention, it is essential that the oscillating system in the In contrast to the known vibrators, it is not grounded. Consequently the carrier or the material to be vibrated without any significant loss of energy compared to the energy expended for the work of the vibration generator is set in vibration. The energy sent into the vibrator is almost completely free for the Generation and maintenance of the desired oscillation amplitude is used, so that vibrations of the basic structure are hardly noticeable and critical vibrations do not occur.

In an advantageous embodiment of the invention is also the The mass of the object to be shaken or the material to be shaken is considerably greater than that Mass of the counterweight. One achieves with this means known per se that Changes in the mass of the material being vibrated only a small change in the natural frequency of the vibration system.

In the drawing, a vibrating device according to the invention is for example shown; Fig. 1 shows such a device schematically, and Fig. 2 shows one Section along line I-I of Fig. Q., Fig. 3 is a plan view, partly in section Line II-II from fig. Z, fig. Q. a section along line III-III of Fig. 3.

According to Fig. I, a table, frame or the like is designated with A, which rests on weak springs B. A main spring C is attached to the table A and has a counterweight D to which the bearings of a rotating eccentric mass B or another vibration exciter are attached. The rigidity of the spring C and the mass of the counterweight D and the table A with the load resting on it are such that the natural frequency of the vibration with which the; Counterweight D and weight A swing in the opposite direction, equal to '-b which is approximately equal to the frequency of the eccentric centrifugal mass E or of the vibration exciter. The alternating vertical forces, which are transmitted from E to A, are then reinforced by the spring C. The horizontal forces that are caused by a rotating centrifugal mass are not amplified. The exciter E can also be constructed in such a way that it only generates perpendicular forces in opposite directions. If the mass of the table A with the load resting on it is considerably greater than the mass of the balance weight D, a substantial change in the weight on A will only cause a slight change in the natural frequency of the system.

An auxiliary spring F (stop spring) is attached to the table A. It takes effect as soon as the amplitude of the main spring C in relation to table A exceeds a certain value. The stop spring F is expediently considerably stiffer than the main spring C, and it can optionally be an almost rigid member. The stop spring F is set in action by means of fixed or adjustable stops G, which in the rest position of the device have the same clearance upwards and downwards between the stops and the stop spring. When the frequency of the exciter E gradually increases from zero, the amplitude of the weight D with respect to the table A and also the amplitude of A gradually increase until the amplitude of D with respect to A and F is equal to the distance between the stops G, during the The natural frequency of the system remains the same until then. If the frequency of the exciter E is further increased, the spring F will start to work, and the natural frequency of the system increases as the frequency of E increases, because of the increased stiffness caused by the spring F and because of the longer Duration of each period of time that is conditioned by the work of the spring. Die.g-anze device must run at such a speed, and the stops must have such a distance that the stop spring F works. As a result, the natural frequency of the system depends on the speed of the exciter E and the distance between the stops G. The natural frequency increases as the speed increases and decreases as the distance between the stops increases.

The dependence of the natural frequency on the size of this distance enables the vibration strength of the table to be changed by changing the distance. In the design described above, two stops are provided and, as can be seen, attached to .the main spring C. These stops # ,, can be used instead on the Stop spring F is seated. In this case there are an or on the main column C several counter-attacks provided.

Instead of two fixed or adjustable stops, a single Fixed or adjustable stop and counter stop can be used. The attack is then connected to the main spring or the stop spring. The stop spring in this case comes only once instead of twice, as with the previously described design, for each time period to effect. In Figs. 2, 3 and 4 a design is shown, in which only one stop is provided.

With i are designated U-shaped supports, which are attached to the ends by means of helical springs 2 supported on a foundation 3 and connected by longitudinal members 4 on to which the object to be treated is attached and from which under the supports i a strut 7 is guided. The longitudinal members 4 form together with the strut 7 the frame or table A according to Fig. i.

Between the carriers = there are two carriers 8 at a distance from one another. These are connected by angle irons g and plates io. - The carriers 8 correspond the stop spring F according to Fig. i. Between the carriers 8 is a sleeve ii with an internal thread attached. A bolt i2 is screwed into it, which corresponds to the stop G according to Fig. z corresponds to. A lever 14 is connected to the bolt 12, through which the position of the bolt 12 to the sleeve ii can be changed to the distance between the stop 12 and the counter bearing 15 to change. The threaded bolt i2 can be in any position be determined by a nut 13.

Plates 16 are located between the supports i. By spacers 17 and 18 a space is established between them and the links i. The plates are connected to the main spring 2o by angle pieces ig, which follow the link C. Fig.i corresponds.

A frame 23 is attached to the link 2o by means of plates 2, 1 and 2: on which a disk 24 with eccentric flanges 25 is seated. The flanges correspond the eccentric centrifugal mass E according to Fig. i.

The plates 21 and 22, the frame 23, the disc 24, the flanges 25 and part of the main spring 2o together form the counterweight D according to Fig. I.

Claims (3)

PATENT CLAIMS. ' i. Vibrating device with a vibrating table or Frame for holding casting molds or a sieve or the like for viewing goods, the one on the relatively weak Feathers rests or hangs on them, without the springs having a significant influence on the vibrations of the carrier exercise, and a main spring acting on the carrier with a counterweight, the -mit : .A vibration generator is connected, characterized in that on the T carrier (Ay; also an auxiliary or stop spring (F) with a fixed stop is provided, urii to regulate the vibration amplitude of the carrier (A) and to keep it going. 2. Apparatus according to claim i, characterized in that the mass of the to be shaken The object or the material being vibrated. greater than the mass of the counterweight (D) is. 3. Apparatus according to claim i or 2, characterized in that a adjustable stop member (G) or members for a stop or stops is attached to the main spring (C) and the stop spring (F). q. Device according to Claim 1, 2 or 3, characterized in that the stop spring (F) is so stiff is that it can almost be viewed as rigid.