EP0197191A2 - Screening machine with a flexible screen bottom - Google Patents

Abstract

A screening machine with a screen frame or screen box (1), a drive arrangement and a flexible screen bottom (7) which forms a screen surface and is attached to screen bottom carriers (4, 5) arranged parallel to one another, which carriers are connected partially rigidly and partially movably to the screen frame (1), is intended to achieve a high screening performance with a simple design and to counteract blockages of the screen bottom (7). This is achieved in that the movable screen bottom carriers (5) are mounted on the screen frame (1) with spring elements (21) and/or connecting rod elements (21) so as to be movable independently of one another and can be driven individually or in a spring mass system formed with the screen frame (1). By means of the proposed mounting of the moving screen bottom carriers (5) on the screen frame (1), advantageous design possibilities of the screening machine according to the invention are obtained, as well as a simple design and good screening performance. <IMAGE>

Description

The invention relates to a sieve machine with a sieve frame or sieve box, a drive arrangement and a flexible sieve surface forming a sieve surface, which is fastened to sieve surface carriers arranged parallel to one another, which are connected to the sieve frame in a partially fixed and partially movable manner.

In a known sieving machine with a sieve frame and a flexible sieve covering, the sieve covering carriers are mounted such that they can be tilted to a limited extent about fixed axes in the sieving machine frame and are driven with alternating opposite tilting directions (DE-AS 1 275 339). Such a screening machine, in which all screen lining carriers are movably mounted, requires a not inconsiderable design effort for the storage and the drive of the screen lining carriers.

Screening machines of a similar design with two nested frame systems, on which the screen plate carriers are arranged alternately and which are essentially movable in the longitudinal direction of the screen, the two frame systems being supported against each other by rubber profiles or link springs (DE-GM 71 45 669), also lead to complicated and complex constructions.

In the case of a sieve device with a driven sieve frame and a flexible sieve covering, the sieve covering carriers are alternately firmly and movably connected to the sieve frame (DE-OS 34 11 719). The movable sieve pad carriers are each connected to the pendulum mounted on the support structure (sieve frame), the Axis runs transversely to the direction of vibration of the support structure which can be set in vibration by a drive. By arranging pendulums, which are connected to the screen covering, the inertia of the pendulums should be used for the deformation of the screen covering. In practice, however, the arrangement described does not lead to satisfactory sieving results.

It is an object of the present invention to avoid the disadvantages of the known prior art in a generic screening machine and to create a screening machine with a screen frame and a flexible screen covering which, with a simple structure, enables a high screening performance and counteracts blockages of the screen covering. This object is achieved by the features specified in the patent claims. The claims also relate to advantageous embodiments of the invention.

The inventive storage of the movable sieve plate carrier on the sieve frame with spring and / or link elements, which make it possible to move the sieve plate carriers independently of one another and to drive them individually or in a spring mass system formed with the sieve frame, results in advantageous structures in addition to simple construction and good sieving performance Training opportunities of the screening machine according to the invention.

If unbalance drives are arranged on the movable screen lining supports, the screen box can be easily built and the drive of the entire screen box can be omitted.

With elastic support of the movable sieve plate carrier on the sieve frame and resilient mounting of the sieve frame bil the movable sieve plate carrier with the sieve frame is a 2-mass system. The vibration behavior of the elastically supported sieve lining carrier can be determined in such a way that an intensive movement of the flexible sieve lining is generated, the oscillating systems expediently working somewhat below the resonance range.

The movable screen support can be arranged so that movements or vibrations in any direction are possible, for. B. horizontal, vertical, oblique or rotating. The screen lining carriers can be arranged both in the cross-screen direction and in the longitudinal screen direction. The screening machine can have an inclined or curved screen surface formed by the flexible screen covering. The screen frame is expediently supported on springs.

• Fig. 1 Siebmascnine mit geneigter Siebfläche
• Fig. 2 Siebmaschine mit gekrümmter Siebfläche
• Fig. 3 Siebmaschine mit horizontaler Siebfläche und Schwingantrieb (Figur 1 bis Figur 3 jeweils im Längsschnitt)
• Fig. 4 Lagerung eines beweglichen Siebbelagträgers mit Unwuchtantrieb im Vertikalschnitt
• Fig. 5 Anordnung nach Fig. 4 im Horizontalscnnitt
• Fig. 6 Lagerung eines beweglichen Siebbelagträgers mit Schwenkantrieb (Seitenansicht)

The invention is illustrated below using exemplary embodiments in the drawing and explained in more detail in the description. In a largely schematic representation:

• Fig. 1 Siebmascnine with an inclined screen surface
• Fig. 2 screening machine with a curved screen surface
• 3 screening machine with horizontal screening surface and oscillating drive (FIG. 1 to FIG. 3 in each case in longitudinal section)
• Fig. 4 storage of a movable screen pad carrier with unbalance drive in vertical section
• Fig. 5 arrangement according to Fig. 4 in the horizontal section
• Fig. 6 storage of a movable screen pad carrier with swivel drive (side view)

1 and 2 has a. Sieve frame or sieve box 1, which is expediently elastically supported on a foundation 2 by springs 3. The screen frame 1 consists essentially of two side walls and suitable connecting elements to form a stiff Frame construction. Between the side cheeks are alternately fixed and movably connected to the sieve frame sieve support, which are designed as open or closed profile elements or the like .. The sieve covering supports 4 are firmly connected to the sieve frame 1 or the side cheeks and can form part of the frame construction. Movable screen lining supports 5 are connected to the screen frame 1 via spring and / or link elements (see FIG. 4), so that they can move relative to the screen frame 1, as indicated for example by arrows 6. Imbalance drives, which will be described later, are arranged on the movable sieve pad carriers 5, which set the movable sieve pad carriers in vibration and move them, for example, in the direction of the arrow.

A flexible sieve covering 7, which forms the sieve surface, is fastened on the fixed and the movable sieve surface supports 4 and 5. The screen covering 7 is fastened to the screen covering supports 4 and 5 by known means. The devices required for the feeding and removal of the screenings are known and are therefore not shown in detail.

The oscillating movement of the movable sieve pad carrier 5 or the sieve pad 7 causes intensive sieving while simultaneously promoting the material to be sieved on the inclined S sieve surface. 1 and 2, the oscillating movement is directed perpendicular to the screen covering 7 or to the screen surface. The direction of movement of the movable sieve plate carrier can also lie in the plane of the sieve surface or at any angle to the sieve surface. Due to the movement of the screen pad carrier 5, the screen pad 7 is constantly tensioned and relaxed. This avoids clogging of the sieve openings, among other things.

In the exemplary embodiment according to FIG. 1, the screen surface is inclined with respect to the horizontal. The inclination of the sieve surface or the sieve box, the direction of oscillation as well as the number, the distance and the formation of the sieve support depend on the respective conditions of use.

FIG. 2 shows a screening machine with a "banana-shaped" curved screen surface, which works in the same way as the arrangement described in FIG. 1. The curvature of the screen surface can be adapted to the operating conditions of the machine.

In the arrangements according to Figures 1 and 2, a special drive for the screen frame is not required. This can therefore be easily formed.

FIG. 3 shows a screening machine in which the screening box has a drive. The screen box 1 is elastically supported on the foundation 2 via springs 3. In the sieve box, fixed sieve carrier 4 and movable sieve carrier 5 are provided. The flexible screen covering 7 is connected in a known manner to the screen covering supports 4, 5.

A drive or vibration exciter 10 is arranged on the screening machine, which generates linear vibrations in the direction of the arrows 11, which pass through the center of gravity S of the vibrating system. The vibrations have a horizontal and a vertical component. Since the screen surface of the machine runs horizontally, the oscillation movement must contain a horizontal component so that the material to be screened can be conveyed on the screen surface. In the example shown, the screenings are moved from left to right over the screen surface 7. With an inclined sieve surface, the oscillating movement of the sieve box 1 can also take place perpendicular to the sieve surface or the sieve covering 7. Instead of the linear vibration exciter 10, which generates directional vibrations, a circular vibration exciter can also be used, which sets the screening machine in circular vibrations. In this case, the screen surface is arranged inclined to produce a conveying movement in the conveying direction.

The movable sieve covering supports 5 are supported in the desired direction of vibration, in the illustrated case in the vertical direction, via spring elements on the sieve frame 1 in such a way that they can perform oscillating movements when the sieve frame is suitably excited. The sieve box 1 and the spring-mounted sieve plate carrier 5 form an oscillatory two-mass system in which the movable sieve plate carriers are excited to vibrate relative to the sieve box by the oscillating movements of the sieve box 1. The system works in or slightly below the resonance range of the movable sieve plate carrier. The vibrations can, as indicated by arrows 6, take place in the vertical direction. For this purpose, the spring elements for connecting the movable screen lining carrier 5 to the screen box 1 are formed in a suitable manner and arranged on the screen box.

The feaer elements can also be designed and arranged in such a way that vibrations of the movable sieve support 5 result in a horizontal or oblique direction.

The spring action of the spring elements on the movable sieve lining carriers 5 and the masses of these sieve lining carriers must be exactly matched to one another in the arrangement shown, in contrast to the arrangements according to FIGS. 1 and 2, in which the spring effect of the supporting elements is of no importance.

When the sieve box vibrates in a circular manner, the movable sieve plate carriers are arranged in such a way that they perform an essentially linear swinging movement.

FIGS. 4 and 5 show the mounting or arrangement of a movable screen covering support 5 in the screen frame of a screening machine according to FIGS. 1 and 2 (FIG. 4: vertical section, FIG. 5: horizontal section). Imbalance drives 20 are arranged on the two end faces of the screen lining carrier (FIG. 4: symbol representation, FIG. 5: schematic representation) ...

The screen support 5 is via spring elements 21 which, for. B. can be designed as coil springs, mounted on the screen frame 1. In the arrangement shown, the spring elements only serve to fix the screen lining carrier 5 in its rest position. They must be designed and arranged in such a way that they allow the movement of the screen lining carrier 5 in the desired direction of vibration. They are therefore soft in the direction of vibration and practically do not influence the vibration of the screen lining carrier in this direction. Instead of the springs, elastic link elements, spring / link combinations with movable links or the like can also be provided. It only has to be ensured that the screen lining carrier 5 assumes a stable rest position and can move freely in the desired direction of oscillation.

The unbalance drives 20 are fastened in a suitable manner, for example on a bearing base or a bearing plate, on both end faces of the screen-pad carrier 5. So-called self-synchronizing rotary exciters are used as unbalance drives. Such pathogens are known. They exist _e.g. B. each from a drive motor with two projecting shaft ends, on which unbalanced segments are arranged in the same angular position are not. The two excitation drives on a screen pad carrier 5 are installed in such a way that their shafts run horizontally, parallel to one another and perpendicular to the longitudinal axis of the screen pad carrier. During operation, the exciters synchronize themselves in a known manner, so that a linear oscillating movement of the screen pad carrier 5 occurs, in FIG. B. in the vertical direction, as indicated by arrows 8.

The following must be observed when arranging the unbalance drives. The axes of the two unbalance drives are always parallel to each other and in vertical planes perpendicular to the longitudinal direction of the screen pad carrier 5 . Dimensions. If the axes are arranged horizontally, as described in Fig. 4/5, a vertical movement or vibration occurs. If the axes of the unbalance drives are arranged vertically, there is a horizontal oscillating movement, if the arrangement is inclined, a movement with horizontal and vertical components is carried out in an inclined direction. In the screening machine according to the invention, any desired direction of movement of the movable screen lining carrier can therefore be generated by the arrangement of the unbalance drives. The design and arrangement of the supporting spring and / or link elements for mounting the movable screen lining carrier is in each case adapted to the drive arrangement.

Instead of the two unbalance drives arranged on the end faces of a screen plate carrier, a single linear drive or exciter can also be used, which is to be arranged in the middle of the screen plate carrier. This drive can directly, or z. B. can be connected via bracket elements to the screen covering support and arranged above or below the support. A further drive option for the movable screen lining support in screening machines according to FIGS. 1 and 2 with a swivel drive is shown in FIG. 6. In this arrangement, an unbalance drive designed as a torque exciter is arranged on an end face of a movable screen cover carrier 5 and, in conjunction with a corresponding mounting, generates pivoting or tilting movements of the movable screen cover carrier.

The Siebbelagträger 5 is mounted thereto for example via a link member or joint 22 so as to reciprocate in the direction of arrow 23 and reciprocate or pivot _- or can execute tilting movements, wherein the screen lining 7 is excited alternately and relaxed. The unbalance drive consists of a drive motor with two shaft ends on which unbalance segments are arranged. As indicated in the drawing, the unbalance segments are offset from one another in the circumferential direction by 180 degrees and form a so-called torque exciter 24 with the drive motor.

The drive shaft of the unbalance drive lies in a vertical plane perpendicular to the longitudinal axis of the screen lining carrier 5, in the exemplary embodiment in the paper plane or parallel to it. It can be horizontal as shown or in any other direction. The torque exciter 24 is expediently arranged in such a way that its axis intersects the pivot axis of the screen lining carrier or the joint axis of the carrier.

When the torque exciter is operated, the offset unbalance weights produce moments with an alternating direction about an axis perpendicular to the axis of the drive. In the present exemplary embodiment, moments about the swivel axis or the joint 22 of the movable screen covering support 5 and thus swiveling movements of the support in the direction of the arrows 23 are generated.

In the exemplary embodiments illustrated in FIGS. 1 to 3, the fixed and the movable sieve covering carriers 4/5 are arranged transversely to the longitudinal direction of the sieve, which lies in each case in the plane of the paper. However, the screen covering supports can also be installed in the longitudinal direction of the screen. Furthermore, it is possible, in contrast to the illustration in FIGS. 1 to 3, to arrange a plurality of movable sieve lining carriers next to one another.

Claims (11)

1. Sieving machine with a sieve frame or sieve box, a drive arrangement and a flexible sieve surface forming a sieve surface, which is fastened to sieve lining carriers arranged parallel to one another, which are partially fixed and partially movably connected to the sieve frame, characterized in that the movable sieve lining carriers (5) with spring and / or handlebar elements (21), which can be moved independently of one another on the screen frame (1) and can be driven individually or in a spring mass system formed with the screen frame (1). 2. Screening machine according to claim 1, characterized in that unbalance drives (20) which form the drive arrangement are arranged on the movable screen lining carriers (5). 3. Screening machine according to claim 1, characterized in that the movable screen covering carrier (5) on the screen frame (1) are elastically supported in such a way that they form a two-mass system with the screen frame, and that the screen frame (1) is resiliently supported and can be set into vibrations by the drive arrangement (10). 4. Screening machine according to one of claims 1 to 3, characterized in that the movable screen covering carrier (5) horizontally and / or vertically movable or rotatable / tiltable in the screen frame (1) are arranged. 5. Screening machine according to one of claims 1 to 4, characterized in that the screen covering carrier (4, 5) are arranged substantially parallel to one another and are alternately fixed and movably connected to the screen frame (1). 6. Screening machine according to one of claims 1 to 4, characterized in that a plurality of movable screen lining carriers (5) are arranged side by side. 7. Screening machine according to one of claims 1 to 6, characterized in that the screen covering carrier (4, 5) are arranged in the screen cross direction or in the screen longitudinal direction. 8. Screening machine according to one of claims 1 to 7, characterized in that the screen surface (7) is arranged inclined or curved in the longitudinal direction of the screen. 9. Screening machine according to one of claims 1, 2 and 4 to 8, characterized in that the screen frame (1) is supported on springs (3). 10. Screening machine according to claim 2, characterized in that self-synchronizing rotary exciters are arranged on both end faces of the screen lining carrier (5). 11. Screening machine according to claim 2, characterized in that the unbalance drives (20) are designed as torque exciters (24).

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