DD232876A1 - DEVICE FOR LOADING AN ELASTIC EXTRUDER - Google Patents

Abstract

The invention relates to a device for continuously feeding a power extruder with Fuetterstreifen whose Einfuelloeffnung is equipped with a feed roller. By using this device, workers are saved, an increased dimensional accuracy of the extrudate and the possibility of standardizing the dimensions of the lining strips are achieved. The feed is to be continuously adapted to the intake capacity of the screw and the output rate of the extruder, and this largely independent of the composition and geometry of the food streaks and the extrudates. The object is achieved by the Einfuelloffnung the extruder is preceded by a take-off roll, which is driven by a freewheel and the opposite is arranged a movable counter-roller. The counter roller is fastened together with a button which projects into the Einfuelloeffnung, and a pneumatic cylinder on a pivot frame whose bearing points are eccentric to the central axis of the take-off roll. The combination take-off roller and counter roller ensure the deduction and braking of the food strip as required.

Description

Field of application of the invention

The invention relates to a device for continuously feeding a Elastextruders with feeding strips, the filling opening is equipped with a feed roller.

Characteristic of the known technical solutions

Known devices for feeding feeding strips to the extruder have various disadvantages, and difficulties arise in making the feed uniform and adapting to the intake capacity of the screw and the discharge capacity of the extruder.

There are also limitations on the nature of the mix and the size of the feed strips, while other devices have the risk of blocking the feed strip or interrupting the feed in the event of shearing or tearing of the feeding strip.

From DD-AP 141131 a device for the controlled feeding of a quantity of material into the feed opening of an extruder is known in which the available for the material feeder part of the feed roller is changed in terms of its coming into contact with the material surface, said change depending on Filling degree of the filling opening takes place.

A continuous, adapted to the intake capacity of the screw feed of the extruder, regardless of the cross section of the feeding strip, is not feasible with this device. By partially covering the effective surface of the feed roller by means of a slider, the pull-in force of the extruder can not be influenced. The pull-in force is determined by the feed gap formed by the screw and feed roll and the circumferential forces transmitted there, as well as the dimensions and strength values of the feed strip.

The low angle of wrap of the free part of the feed roller, which is to be varied, does not allow power transmission; the feeding strip as well as the mixture bulge forming in front of the draw-in gap slide off.

If in this case the feeding strip is first grasped by the screw, it is drawn in without the possibility of adaptation to the output of the extruder. If the feed strip is too small in size compared to the extrudate, the extruder is constantly underfed. In the event of a possible tear, no re-feeding is possible, and the charge is interrupted and constant monitoring is inevitable.

It is known from DE-OS 1928293 a method and a device in which a cross-section oversized, plastically deformable feeding strip is guided by an extruder upstream braking device and braked in response to a level sensor in the filling constantly before retraction into the screw becomes. As a result, the fed from the extruder feeding strip between the braking device and extruder is stretched and thereby reduced in cross-section and thus adapted to the collection capacity.

The disadvantage of the device is its limited field of application, since feeding strips are required, which have a large elasticity. If the feeding strip is excessively loaded due to insufficient or even insufficient elasticity due to the constant braking, it will break in the area of the screw.

The feed is interrupted and the feeding strip must be tracked manually. Also interrupted is the charge when reinserting the feeding strips, as this is not directly applied to the previous, but must first be performed by multiple roles. The operating effort on the extruder is not lowered by this device, since the feed must continue to be monitored.

Furthermore, from DD-AP 138625 a device is known whose main elements are two hydraulically, counter-driven feed rollers on the feed opening of the extruder. This inevitably forces the mixture strip and the back-aggregated mixture material onto the screw of the extruder. By dan contact pressure of the dammed material to the feed rollers takes place a regulation of the torque of the hydrostatic drive, and thus an adjustment of the feed speed of the feeding strip to the trapping power of the screw can be achieved.

This device has several disadvantages with regard to the necessary restriction of the dimensions of the feeding strips to be fed and the use of extruders with feeding roller. Thus, according to the stationary arrangement of the feed rollers, the thickness of the feeding strips must be adapted to the feeding nip in order to prevent slipping or blocking and thus discontinuous feeding.

The assumption by changing the torque or the speed of the feed rollers to influence the intake capacity of the screw is unfounded, especially with existing feed roller. The extruder is relined with too small strip dimensions, despite pressing, since the screw tangentially slides past the pent-up strip and only detects the cross-section in the intake gap.

When overfeeding the feeding strip supply is delayed insufficiently, since the pull-in force of the extruder and the torque of the device act in the same direction and the feed roller can continue to feed the feeding strip. The sealing problem is considerable, especially in extruders with feed roller, since the pressed-in mixture material penetrates into the bearings of the feed roller and screw and can lead to accidents.

Object of the invention

The aim of the invention is to provide a device for feeding a equipped with feed roller elastomer extruder with feeding strips, through the use of a labor force savings on the extruder, increased dimensional stability of the extrudate due to a higher process stability of the extrusion and the possibility of standardizing the Fütterstreifenabmessungen in the Rohbetrieben achieved becomes.

Presentation and essence of the invention

The invention has for its object to continuously adjust the loading of a equipped with feed roller elastomer extruder with feeding strips the intake capacity of the screw and the output of the extruder, this largely independent of the nature of the mixture and geometry of the feeding strips and extrudates to over- and relining and entanglement to counteract the withdrawal route to the extruder. The object is achieved according to the invention in such a way that, starting from a maximum output capacity of the extruder intended for production, a correspondingly dimensioned feeding strip is fed between a driven take-off roll and a counter roll arranged opposite the filling opening of a waste-pressing extruder equipped with feeding roller as a function of its scanned filling level in the filling opening ,

In this case, the take-off roller is driven by a mechanical freewheel or by a DC drive with motor actuator whose freewheeling direction and motor-side set ground speed allows the feeding strip to be coated in the direction of the filler opening of the extruder. The feeding strip can thus be drawn automatically from the screw feed roller combination of the extruder and have according to the intake capacity of the screw in its intake speed fluctuations whose limits are determined by the setting of the freewheel. This ensures that at the beginning of the feed and Fütterstreifenriß in the filling opening, the Fütterstreifenanfang is nachgefördert with the set ground speed of the motor to the feed roller of the extruder. On the other hand, the freewheel is effective in entanglement of Fütterjstreifens on the trigger to the memory.

When the feeding strip decelerates below the basic speed of the engine, the freewheel transmits the full torque of the engine to the take-off roll. This transmits in conjunction with the counter roller the necessary peripheral forces for deduction on the feeding strip, which act in addition to the pull-in force of the extruder formed in the feed gap between the worm and feed roll. Thus, a substantially uniform supply of the feeding strip is achieved. This, together with, based on the maximum output of the extruder, large Fütterstreifenabmessungen a maximum filled extruder screw and beyond, according to the different sized extrusion parameters, the tendency to overfeeding, so a mixing accumulation in the filler opening of the extruder. Their size, the degree of filling, is detected with a protruding into the filler opening button.

This is displaced with increasing mixing accumulation from its zero position and actuates a pneumatic cylinder, which is connected to a swing frame on which also sits the counter roller. Due to the eccentric arrangement of the bearing points of the pivoting frame to the center axis of the take-off roll, the counter-roller is pressed at a multiple of the pressure force tangentially against the set-off take-off roll in the linear movement of the pneumatic cylinder and the feeding strip is locked. Due to the continued pulling-in force of the feed roller, the breakdown of the mixing accumulation in the filling opening takes place by reducing the cross section of the stretched feeding strip or by tearing the feeding strip when its strength values are exceeded in the region of the filling opening.

The braking time of the device is determined by a control device with variable timers. If the button can not return to its zero position after the end of the braking time because of the mixture accumulation that is still present, the braking process is triggered again until it has been reached. Only then does the renewed strip feed take place via the take-off roll. Compared with known devices thereby the continuous supply of the feeding strip is secured according to the intake capacity of the screw and achieved an increased process stability. The operating effort is low and is limited to the insertion of the Fütterstreifenanfanges in the device.

The device according to the invention is provided with an adjustable gap width limitation. This makes it possible to vary the feed nip between the take-off roll and the counter roll and to adapt as far as possible to the feeding strip dimensions used, preferably their thickness. This is achieved by the counter roller arranged on the pivoting frame being adjustable in parallel or in its inclination to the pivoting frame via spindles.

embodiment

The solution according to the invention will be explained in more detail below using an exemplary embodiment.

The accompanying drawings show:

Fig. 1: Extruder in the region of the feed zone in section and apparatus in partial section Fig.2: partial section through take-off roll and counter roll

The screw 1 and the feed roller 2 of a power extruder are arranged below the filling opening 3 of the housing 4 next to each other and form the feed nip 5. The feed opening is preceded by the take-off roller 6, which is driven by the motor 8 via the freewheel 7. This take-off roller 6 opposite a counter roller 9 is arranged, which is fixed to the pivot frame 10 with PneunriotiKzylinder 11, the bearing points 12 are eccentrically to the central axis of the take-off roller 6.

As a result, when the pneumatic cylinder 11 is put into operation, the counter roller 9 is pressed tangentially against the take-off roller 6. On the swing frame 10 are still a button 13, which projects into the filling opening 3 of the extruder, and the gap width limit 14 of the counter roller 9 is arranged. By means of the spindles 15 of the gap width limitation 14, the gap width between take-off roll 6 and counter-roll 9 is set according to the thickness of the feed strip 16 used.

At the beginning of the feed, the take-off roll 6 pulls the feed strip 16 from the store at a basic speed of the motor 8 which is at a fixed, adjustable ratio below the feed speed of the screw 1. With the help of the mechanical freewheel 7, the worm is able to cover the base speed of the motor 8 after detecting the feeding strip 16 in the nip 5. The task of mechanical freewheel 7 can also be taken over by a DC drive with motor actuator.

The feeding strip 16 and the take-off roller 6 run synchronously. If the basic speed of the motor drops below the feed line 3 of the extruder when the feeding strip 16 is caught in the filling opening 3, the mechanical freewheel 7 transmits the full torque of the motor 8 to the draw-off roller 6. The feeding strip is subsequently fed into the filling opening 3.

When a predetermined degree of filling in the filling opening 3 is exceeded, the button 13 is moved with increasing mixing accumulation 17 from its zero position, actuates the pneumatic cylinder 11 and sets the motor 8 out of operation. With the multiple of its compressive force, due to the lever length and the eccentric arrangement of the bearing points 12 of the swing frame 10, the counter roller 9 is pressed tangentially to the take-off roller 6 and thus locks the feeding strip 16. The braking time is set via variable timing elements in a control device. After the end of the braking period of the pneumatic cylinder is actuated again when the button 13 can not return to its zero position, since the degree of filling of the filling opening 3 is still exceeded.

Claims (4)

Invention claim: 1. A device for feeding a Elastextruders with feed roller, characterized in that a feed opening (3) upstream of a via a freewheel (7) with a motor (8) connected draw-off roller (6) is located opposite a movable counter roller (9), the, together with a pneumatic cylinder (11) and a button (13), attached to a pivot frame (10) whose bearing points (12) to the central axis of the take-off roll (6) are off-center is arranged. 2. Device according to item 1, characterized in that button (13), counter roller (9) and pneumatic cylinder (11) form a unit with variable timers. 3. Device according to item 1, characterized in that the freewheel (7) is designed as a mechanical freewheel (7) in the take-off roll (6) or in the form of a DC drive with motor actuator. 4. The device according to item 1, characterized in that on the counter roller (9) has a gap width limitation (14) is mounted. For this 1 page drawings