DE2504832A1 - Vibratory discharge mechanism for a silo - has vibration cone and openings controlled by rotating a disc - Google Patents

Abstract

The silo should be fitted with a conical discharge. Inside the cone is an inverted deflector cone which maintains the exit of the discharge free. This cone is connected to a vibration mechanism. The discharge of the silo consists of two flat plates, one of which may rotate. The plates are cut by slots. The slots can form through passages or block the exit to the silo, by the holes in the plates being selectively aligned. The output may be controlled by varying the size of the discharge orifices and by controlling the frequency and amplitude of the vibration mechanism.

Description

Material container The invention relates to a material container and in particular a device for activating the container to achieve a effective discharge from a silo or hopper.

A device for container activation (container activator3 provides a vibration arrangement for effective, even and precise discharge a silo, a storage container and funnel-shaped containers or storage hoppers The invention relates to a Ver improvement of such Activation device, in addition to the features mentioned when discharging control of the material flow should also be possible.

It is already known to lower a container activation device Part of a container, for example a silo, a storage container or a funnel-shaped container to be arranged, which a vibration motor for activation of the vibrating conical element, which is located in the lower portion of the Container is arranged such that between the inner surface of the container and the outer peripheral surface of the conical element a gap is created.

Below the container and vibrating conical element is usually a conical discharge opening arranged ..

Vibration-damping or vibration-absorbing isolation devices or elements are to prevent vibration transmission from the activation device provided on the silo walls; rather, the vibrations become a material shaft of the container. The already known container activation devices have no measuring devices, but only provide one type of discharge device represents, while it is possible by the invention, in addition to an opening and Conclude the discharge opening to vary its capacity.

-The invention is thus advantageously intended to carry out the intended execution enable from a container and in addition ~ a certain control or Allow measurement of the discharge capacity.

In the following, preferred embodiments of the invention are based on explained in more detail by drawings. They show: FIG. 1 a perspective sectional view of the device according to the invention, Figure 2 is a plan view of the vibrating conical Element and the adjusting element according to the invention which interacts with it, wherein the boundary lines of the elements arranged below the conical element are shown in dashed lines.

Figure 3 shows the stationary flow scheme, which is in the invention Device results when the centrally located conical element does not vibrate is moved, FIG. 4 is a view of a flow diagram similar to FIG. 3 when the vibrations are applied, FIG. 5 becomes due to a control or setting resulting partial flow diagram of the device according to the invention, FIG. 6 a perspective Sectional view of a modified embodiment of the invention, FIG. 7 a plan view to the second embodiment of the invention according to FIG. 2 and FIG 5 shows a corresponding representation of a controlled or adjusted partial flow in the modified embodiment of the invention.

In Fig. 1 a typical structure is shown, which the invention includes; a material container 1, for example a silo or shaft storage with a generally cylindrical upper wall part 2 and a conical lower one Part 3 provided. On the conical lower part 3 is an actuatable unloading area 5 suspended in a resilient or flexible manner, the area 5 on an inner, vibrating conical element 13 is fixedly mounted. The springy suspension of actuated discharge section 5 and the attached inner conical element 13 is in the illustrated embodiment by a variety of fastening or storage devices 4 reached - in the drawing there is only one such Device 4 shown - with this storage device on a flange or Edge 10 is attached, which in turn on the conical bottom part 3 of the container 1 and is attached to a flange or edge 11, this flange 11 on is attached to the discharge section 5. The bearing device 4 also includes vibration dampers or vibration sensor 9. A flexible transition edge or connecting edge 8 extends around the gap between the conical lower part 3 of the container and the discharge section 5 and seals this gap so that, among other things,

an outflow of material is prevented. The transition edge 8 extends around the entire circumference of the downwardly extending portion of the flange or rim 10, as well as around the upper cylindrical end wall of the discharge area 5. Below the actuated unloading or discharge section 5 is a conical one Transfer section is provided which has a bottom opening 7 for discharge. A vibration motor 12 is located next to the device around the conical element 13 and the attached sections to the desired vibration to rent.

To control or adjust the discharge current from the container 1 to enable the conical element 13 according to the invention at its lower Perimeter provided with openings 17, between which sections 15 (see. Fig. 2) are provided in a protruding arrangement. Below the lower outer section of the conical element 13 is an adjusting element 14 with corresponding Openings 17 and with protruding portions placed between the latter openings 16. (Sections 15 and 16 can also be attached to the respective element Tongues are called). The adjustment element 14 extends over a suitable one Distance parallel to the inner surface of the conical element 13 to the apex of the conical element up; on the inside flat of this element is - at a distance to the outer diameter of this element - a guide for rotating the adjustment element provided, wherein the outer diameter has the openings. The guide 18 for A rotary actuation can be made possible in various ways; the inner end portion of the adjustment element 14 preferably has an angled one Flange section, on which wheels or rollers rest or revolve.

The rollers can be on a circular flange or on individual ones Flanges or pins may be supported by the inner surface of the conical Elements 13 hang down. The rotary movement of the adjustment element 14 along the guides 18 can be done in any suitable manner, either with the aid of a motor or by manual means Way to be obtained. Figure 2 illustrates the inner boundary of the adjustment element 14 by a dashed inner circle and the position of the guides, which through the outer, dashed circle are shown. The setting of the adjustment element 14 by the rotary movement is shown in Fig. 2 by an arrow.

Figures 3, 4 and 5 show various schematics Outflow patterns or examples in the first embodiment of the invention Contraption.

Figure 3 shows a stationary outflow scheme with one setting, due to an adjustment of the actuation device before the start of the vibration-like discharge results. The gap between the perimeter of the conical Elements 13 and the conical part 3 of the container is in the usual way on a stationary Outflow scheme set according to FIG. 3, the dimension of the air gap for example Due to the nature of the stored material, the resting or storage angle of the material, the characteristics of the stored material in terms of flow and compressibility properties etc. is determined. The distance between the lower edge of the conical element 3 and the discharge area 5 is chosen so that the material is not unaided of vibrations can flow out, the vibrations to the area 5 and the associated vibrating element 13 are applied. Fig. 4 illustrates a material flow diagram with the setting element fully open during oscillation operation and Figure 5 shows the manner in which partial flow can be obtained by the invention.

Figures 6 to 8 show a modified embodiment of the invention. Since the basic structure of this embodiment is similar to that of FIGS is, only the difference between these embodiments will be explained in detail.

The circumference of the lower portion of the conical element 13 is at this second embodiment is not provided with openings and tongue sections, however, the circumference is circular and not interrupted. Below the uninterrupted conical element, two angular elements are provided, one of which is preferably stationary and has tongue sections 15 and openings 17, while the other is rotatable and an adjusting member with tongue portions 16 and openings 17 located therebetween. The adjustment element is more suitable Way rotatable and arranged to execute the rotary movement, for example in such a way as explained in connection with the embodiment according to FIGS is. The interaction of the angular Element.e can be seen from Fig. 7; in Fig. 8 the device is in operation and with a controlled or set partial flow is given again. The lower angular element can be stationary be designed; in this case, however, it seems more suitable that the upper angular Element forms the rotatable setting element.

In the illustrated embodiments are different within Changes to the technical knowledge are possible.

For example, the rotary guide or rotary bearing of the setting element 14 run on different WQise; it should however, take care be taken that dirt-absorbing plain bearings are avoided because high stresses will result during operation. The adjustment element 14 has been illustrated as a conical, angular part or ring with openings 17; however, other options are also possible, for example the arrangement of slidable or displaceable closure or closure parts that are so be arranged so that they are pushed into the openings 17 of the conical element 13 and thereby control or adjust the size of the openings.

In Fig. 2, a large number of openings have been shown, however The number of these openings can depend on the requirements of the various Areas of application can be varied.

Claims (7)

Claims U aterial container with a device for activating the container, which is arranged under the container, d u r c h g e n n z e i c h n e t that the device for container activation has a vibration-driven discharge area having an inner vibrating conical element arranged thereon, that the device for container activation under a discharge opening of the container is suspended in such a way that the device must be activated before any material leakage it is obtained from the device for container activation that a device is provided for setting or controlling the discharged material flow and that the setting or control device cutouts or recesses and a Has means for partially or completely closing the recesses. 2. Material container according to claim 1, characterized in that the recesses are openings which are provided on the outer circumference of the conical element are, and that the closure device are formed by tongue-shaped sections, for the complete or partial closing of the Adjustable openings are. 3. Material container according to claim 2, characterized in that the Closure device is formed by tongue sections in the rotatable Adjustment element are provided, which in turn on the outer circumference of the conical Element and arranged on its inside essentially parallel to this is, and that openings are provided between the tongue sections, which the openings of the conical element. 4. Material container according to claim 3, characterized in that the Adjustment element for executing a limited movement between a position, in which the openings are open, and a position in which the openings are closed, is arranged rotatably on guides. 5. Material container according to claim 1 or 2, characterized in that that the closure device consists of displaceable sliding surfaces or the like. 6. Material container according to claim 1, characterized in that the Recesses are openings that are in the perimeter of the underneath of the conical element arranged angular element and below the angular element located adjusting element are provided and that the angular element or the adjustment element are rotatable. 7. Material container according to claim 1 or 2, characterized in that that the recesses or openings can be closed by sliding sliding surfaces are, the sliding surfaces radially along the surface of the conical element of whose apex and in the direction of the base circumference of the same are displaceable. L e r s e i t e