WO2000041461A2 - Tumbler screening machine - Google Patents

Abstract

A tumbler screening machine (1) comprises a drive shaft (4) which can be rotated by means of a motor (2); and a base plate (12) which is connected to said drive shaft and on which a foot plate (18) is arranged with an offset pin (20) fixed thereto. Said foot plate can be displaced in relation to the base plate (12) by means of first adjusting means (14) and the angle of the foot plate can be modified by means of second adjusting means (16). The offset pin (20) is rotationally connected to a screen structure (24) which is held in place by a support device (26). Said screen structure performs an oscillating and projecting movement when the base plate (12) rotates. The inventive tumbler screening machine (1) is characterised in that the second adjusting means (16) comprise a rotating shaft (16a) with an eccentrically mounted shaft section (36) on which the foot plate (18) or the base plate (12) are supported in such a way that when the shaft (16a) turns, the angle of the foot plate (18) is modified in the predetermined manner.

Description

 Tumbler screening machine

The invention relates to a tumbler screening machine with a base plate that can be rotated by a motor, a base plate that can be displaced with respect to the base plate by means of first adjustment means and the inclination of the base plate that can be changed by means of second adjustment means, a slanted pin attached to the base plate, and a screen structure that is rotatably connected to the slanted pin and held by a supporting device which performs a swinging and throwing movement when the base plate rotates.

A tumbler screening machine of the generic type is known for example from DE 33 43 615 C2. This is a positively controlled tumbler screening machine in which the tangential and radial inclination of the oblique pin is adjusted via a first and second adjusting pressure screw which can be screwed into the base plate carrying the oblique pin to a greater or lesser extent from the side of the oblique pin and their ends rest on the top of the underlying base plate. The holes for the adjusting pressure screws are open. two lines arranged at right angles to one another, which intersect in the area of a spherical-spherical bearing provided between the base plate and the base plate. In the screening machine described, the eccentricity of the oblique pin is adjusted by moving the base plate in relation to the base plate in the radial direction with the aid of an adjusting tension screw arranged between the base plate and the base plate. After the machine operator has adjusted the tangential and radial inclination angle as well as the eccentricity of the oblique pin by turning the corresponding first and second adjusting pressure screws or the adjusting tension screw, the position of the footplate is fixed using one or more clamping screws can be screwed through the base plate into the base plate. Even if the described device enables an independent and infinitely variable adjustment of the radial and the tangential inclination of the oblique pin, because of the large number of adjusting screws to be actuated, such an adjustment requires a comparatively great effort. Furthermore, it is not possible with the device described to set a desired angle of inclination in a reproducible manner by simple means, since the radial and tangential The angle of inclination when twisting and locking the associated setting pressure screws must be checked continuously.

DE 41 06 675 C2 describes a tumbler screening machine with a base plate which lies flush on a base plate arranged underneath and can be moved in the radial direction with the aid of a lag screw to adjust the eccentricity. The base plate carries a pivotable angle lever, on the upward leg of which a slanting pin is attached, the radial inclination of which can be changed by an adjusting screw engaging on the other leg and supported on the footplate. Even if the device described offers a simplified adjustment option for the inclination of the inclined pin compared to the screening machine according to DE 33 43 615 C2, there is a risk that the adjusting screw fixing the angle lever will loosen due to the forces and vibrations usually occurring during the operation of tumbler screening machines, whereby the machine setting changes unintentionally. In addition, backlash-free mounting and support of the bell crank requires the use of precisely manufactured and therefore expensive components. Finally, the described sieving machine also does not allow a quick and easily reproducible inclination setting, since the inclination angle must always be monitored when adjusting and countering the adjusting screw.

The present invention is therefore based on the object of providing a wobble screening machine which enables quick, simple and easily reproducible adjustment of the angle of inclination.

This object is achieved by the features of claim 1. Thereafter, the tumble screening machine according to the invention is characterized in that the second adjusting means comprise a rotatable shaft with an eccentrically mounted shaft section, which acts between the base plate or the base plate, so that the base plate or the base plate are supported against one another in such a way that when the shaft rotates, the Inclination of the footplate is changeable according to the rotational position of the shaft. This results in a structurally simple and inexpensive construction of the adjusting device for the inclination, the further advantage that the adjustment of the inclination of the inclined pin can also be carried out by less technically experienced people without prior special training, since a simple rotation of the shaft by hand in a position, preferably displayed on a scale, is sufficient for the selection of the desired inclination of the oblique pin. In particular, this reduces the risk of incorrect adjustment of the angle of inclination and inadvertent adjustment of the machine parameters during operation of the screening machine, which is the case, for example, when adjusting pressure screws to be countered are used, if one of the screws has not been tightened properly, loosens and then forcibly interruption of the sieving process.

By arranging the axis of rotation of the shaft at an angle of 45 ° to the direction in which the footplate can be displaced by the first adjusting means when the eccentricity of the oblique pin is adjusted, the handling can be simplified again, since this enables a common adjustment of the tangential and the radial The inclination of the footplate and the crooked pin attached to it is limited to a fixed selection of values. Of course, the angle can also have an angle deviating from 45 °, for example 20 ° or 70 °, or even be variably adjustable by a further rotary mounting of the shaft about an axis perpendicular to the axis of rotation and the base plate. It should be noted, however, that if the angle deviates from 45 °, rotation of the shaft leads to an increase in the radial or tangential part of the inclination.

According to a preferred embodiment of the invention, the eccentrically mounted shaft section has a polygonal cross section, which results in an advantageously large contact surface for the base plate or base plate resting on the shaft section and supported thereon. At the same time, it is ensured that the shaft is always aligned automatically and with very high accuracy in the correct angle of rotation position when the base plate is braced against the foot plate to fix the position of the foot plate due to the acting pressure forces that corresponds to the desired angle of inclination of the oblique pin. This can further increase the accuracy of the setting.

Furthermore, the use of a polygonal or polygonal cross section of the eccentrically mounted shaft section results in the additional advantage that there is only a number of setting options predetermined by the number of corners or the side faces of the cross section, so that the number of corners of the polygonal cross section depends on the choice a sieving machine with a number of setting options adapted to the respective application can be created in a simple manner.

It has proven to be particularly advantageous if a shaft section with an octagonal cross section is used, which, as shown in the figures, is mounted eccentrically in such a way that a total of five different inclination settings result, with regard to the number of setting options and the ease of use represent a good compromise with the screening machine and which are fully sufficient for most screening processes.

It is also conceivable that the shaft section has an elliptical cross section and the shaft is secured against inadvertent rotation during operation of the screening machine in a predetermined angular position by locking means. This results in the advantage of a stepless adjustment of the angle of inclination if, for example, a clamping screw acting in the radial direction on the bearing journal of the shaft or a corresponding securing means is used as the locking means.

According to a further embodiment of the invention, the rotatable shaft is preferably rotatably mounted on the base plate; and the base plate is supported with its underside directly on the eccentrically mounted shaft section. This results in the advantage of a particularly compact design, in particular if the shaft is accommodated in a recess formed in the base plate and the eccentrically mounted shaft section as such is likewise arranged in part within the recess. Furthermore, an abutment for supporting the footplate can be provided in the area of the oblique pin, which abutment can preferably be arranged in a guide on the base plate in the direction of displacement of the footplate. The use of an abutment results in an advantageous two-point bearing, the abutment forming a first support point and the support point of the eccentrically mounted shaft section on which the footplate rests, forming a second support point - or more precisely a support surface - which provides a stable and tilt-proof position of the Guaranteed footplate.

In order to secure the position of the footplate resting on the abutment and the shaft section after an adjustment of the eccentricity and the inclination of the oblique pin, clamping means are advantageously used with which the footplate can be braced against the baseplate. Through the use of clamping devices in connection with the tilting footplate resting on the abutment and the eccentrically mounted shaft section, a very simple and reliable position securing can be achieved, which is not only inexpensive to manufacture, but which can also be released very quickly and easily and again can be put on.

Although the clamping means are preferably formed by three bolts, which can be screwed into the base plate through elongated holes formed in the base plate, it is also conceivable that a clamping shaft arranged above the base plate and mounted on the base plate with eccentric clamping or arranged thereon Clamping cams are used, the tensioning or clamping cams being able to act on the top of the footplate in one or more points and pushing and bracing them in the direction of the baseplate against the abutment and the eccentrically mounted shaft section. Although such a tensioning shaft is more complex to manufacture, the time it takes to adjust the angle of inclination or the eccentricity of the slanting pin can be shortened again without the functional reliability of the screening machine being impaired.

Finally, by using a manually operated pivoting lever which is mounted on the base plate and which, for example, rotatably engages a projection of the base plate to move the base plate relative to the base plate, particularly easy-to-use adjustment means for adjusting the eccentricity of the crooked pin can be obtained. In order to fix the pivot lever in its position, which is preferably indicated by a scale, after a setting has been made, it can further be provided to secure it against unintentional rotation by means of a further clamp screw connection. Due to the comparatively large lever arm, the use of the pivot lever described above advantageously results in a very sensitive and preferably stepless adjustment of the eccentricity of the oblique pin, but it is also possible to adjust the pivot lever by means of a detent in predetermined angular positions. This results in a simplified adjustment possibility of the eccentricity compared to a stepless positionability, since the machine operator only has to choose between a fixed predetermined number of adjustment positions.

There are now various possibilities for advantageously designing and developing the teaching of the present invention. For this purpose, on the one hand, reference is made to the claims subordinate to claim 1, and on the other hand to the following explanation of an embodiment of the invention with reference to the drawings. In conjunction with the explanation of the preferred exemplary embodiment of the invention, preferred embodiments and developments of the teaching according to the invention are also explained in general.

The drawings show:

1 is a side view of a tumbler screening machine according to the invention with a schematic representation of the components necessary for understanding the invention and essential to the invention,

2 is an enlarged view of the drive shaft with the base plate attached to it and the base plate arranged in an inclined position relative to the base plate with the adjustment means according to the invention arranged thereon for adjusting the inclination of the inclined pin, 3 is a schematic plan view of the base plate with the base plate arranged above it and the rotatable shaft according to the invention with an eccentrically mounted shaft section for the inclination adjustment and the pivoting lever mounted on the base plate and acting on the base plate for adjusting the eccentricity of the oblique pin,

4a to d show a schematic representation of the different adjustment positions of the rotatable shaft of a first embodiment of the invention, in which the eccentrically mounted shaft section has an octagonal cross section and

5a to d show a schematic illustration of some adjustment positions of the rotatable shaft in a further embodiment of the invention, in which the eccentrically mounted shaft section has an elliptical cross section.

The swash screening machine 1 according to the invention shown in FIG. 1 comprises a drive shaft 4 which is rotatable via a motor 2 and which is rotatably mounted in bearings 6 in a base frame 8. The drive shaft 4 can be driven, for example, via a belt drive 10 shown. As is also shown in FIG. 1, the drive shaft 4 carries a base plate 12 on its shaft end pointing upwards, which base plate is connected to the drive shaft 4 in a rotationally fixed manner. Arranged on the base plate 12 is a foot plate 18 which can be displaced on the base plate 12 by means of first adjustment means 14 and whose inclination can be changed by means of second adjustment means 16, on the upper side of which a crooked pin 20 is fastened. The crooked pin 20 is rotatably connected via one or more bearings 22 to a screen structure 24 which is supported on the base frame 8 via an elastic support device 26 and which performs a swinging and throwing movement which is characteristic of tumbler screening machines when the drive shaft 4 rotates. The inclination and the offset, which is decisive for the eccentricity of the oblique pin, between the drive shaft 4 and the oblique pin 20 is indicated in FIG. 1 by the dash-dotted lines 28 and 30 running at an angle to one another. As shown in FIGS. 2 and 3, the base plate 18 is supported on the base plate 12 via an abutment 32 and a shaft 16a forming the core of the second adjusting means 16, which preferably by hand by means of a tool or lever acting on one of the shaft ends is rotatable. The shaft 16a is held on the base plate 12 in bearings 34 and has an eccentrically mounted shaft section 36 on which the base plate 18 rests. The eccentric mounting of the shaft section 36, on which the foot plate 18 is supported, means that when the shaft 16a rotates, the region of the foot plate 18 resting on the shaft section 36 is raised or lowered in accordance with the direction of rotation of the shaft 16a with respect to the abutment 32, whereby the inclination of the oblique pin 20 changes.

As shown in FIGS. 4a to 4c, the eccentrically mounted shaft section 36 has a preferably polygonal cross section. When using an octagonal cross-section, this results in a total of five different inclination positions, which, depending on the design of the shaft section 36 and the abutment 32, have an adjustment path of the contact surface of the foot plate 18 on the shaft section 36 in the range of e.g. Require 0 to 2.5 mm. In the preferred embodiment of the invention, this corresponds, for example, to a pivoting angle of the oblique pin 20 between 0 ° and 2 °.

Furthermore, there is the possibility of forming the cross section of the eccentrically mounted shaft section 36 in an elliptical shape, which results in a stepless adjustment of the angle of inclination of the oblique pin 20 if the shaft 16a e.g. is rotated in the manner shown in Figures 5a to 5d.

In order to fix the shaft 16a in a predetermined position, in this or the previously described embodiment of the invention e.g. a clamping screw 40 can be used as a locking means for clamping and securing the shaft 16a.

As can also be seen in FIG. 3, the first adjusting means 14 comprise a hand lever 44 which can be pivoted on the base plate 12 about a pin 42 for adjusting the eccentricity of the oblique pin 20, which via a pin 46 on a Nem protrudes 48 of the foot plate 18 and moves it in the direction of arrow 50. The direction of displacement of the base plate 18 is predetermined by elongated holes 52 formed in the base plate, through which tensioning screws 54 are screwed into the base plate 12, which clamp the base plate 18 resting on the abutment 32 and the eccentrically mounted shaft section 36 relative to the base plate 12 and in it Secure the position after the adjustments for the eccentricity and the inclination of the crooked pin have been made. In order to additionally secure the hand lever 44 in its position, a clamping screw 56 can also be provided, which extends through an elongated hole 58 formed in the hand lever 44.

Claims

Patent claims 1. wobble screening machine (1) with a base plate (12) which can be rotated via a motor (2), a base plate (18) which can be displaced with respect to the base plate (12) via first adjustment means (14) and the inclination of which can be changed via second adjustment means (16), a slanted pin (20) attached to the base plate (18) and a sieve structure (24) rotatably connected to the slanted pin (20) and held by a supporting device (26), which carries out a swinging and throwing movement when the base plate (12) rotates , characterized in that the second adjusting means (16) comprise a rotatable shaft (16a) with an eccentrically mounted shaft section (36) which acts between the base plate (12) or the base plate (18), so that the base plate (12) or support the base plate (18) against one another in such a way that when the shaft (16a) rotates, the inclination of the base plate (18) can be changed in accordance with the rotational position of the shaft (16a). 2. Tumbler screening machine according to claim 1, characterized in that the base plate (18) by the first adjustment means (14) in a predetermined direction (50) is displaceable, and that the longitudinal axis of the shaft (16a) with the displacement direction (50) an angle in the range of 45 °. 3. Tumbler screening machine according to claim 1 or 2, characterized in that the shaft section (36) has a polygonal cross section. 4. Tumbler screening machine according to claim 3, characterized in that the cross section of the shaft section (36) has the shape of an octagon, and that the eccentric mounting of the shaft section (36) takes place in such a way that there are a total of 5 different inclination settings. 5. Tumbler screening machine according to one of claims 1 or 2, characterized in that the shaft section (36) has an elliptical cross section, and that locking means (40) are provided which secure the shaft (16a) against rotation in a predetermined angular position. 6. Tumbler screening machine according to one of the preceding claims, characterized in that the rotatable shaft (16a) on the top of the base plate (12) is rotatably mounted (34), and that the bottom plate (18) with its underside directly on the eccentrically mounted Welien section (36) supports. 7. Tumbler screening machine according to one of the preceding claims, characterized in that an abutment (32) for supporting the base plate (18) is provided in the region of the crooked pin (20). 8. tumbler screen according to claim 7, characterized in that clamping means (54) are provided, with which the on the abutment (32) and the eccentrically mounted shaft portion (36) resting foot plate (18) after adjusting the eccentricity and the inclination of the Allow the slanted pin (20) to secure the position with the base plate (12). 9. Tumbler screening machine according to claim 8, characterized in that the clamping means (54) are formed by screw bolts which can be screwed into the base plate (12) through elongated holes (52) formed in the base plate. 10. Tumbler screening machine according to one of the preceding claims, characterized in that the first adjusting means (14) for adjusting the eccentricity of the oblique pin (20) comprise a pivot lever (44) mounted on the base plate (12) and acting on the base plate (18), which can be locked (56) in predetermined positions.