Device and method for adjusting a cutting gap

Cutting – Means to drive or to guide tool – Constantly urged tool or tool support

Reexamination Certificate

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C083S074000, C083S699510, C083S699610, C083S906000

Reexamination Certificate

active

06575069

ABSTRACT:

The present invention relates to a device for setting the cutting gap between a rotor, having cutting blades and rotatable about its rotor axis, and a counter-blade body, which carries a cutting edge and can be fixed in position and to a method of setting the cutting gap.
Such a device has been disclosed by publication DE 36 20 015 A1. In this device, the cutting gap between the rotor having cutting blades and the fixed counter-blade body carrying a cutting edge is set with regard to the rotor axis by two adjusting devices perpendicular to one another. Furthermore, the parallelism relative to the rotor axis is readjusted by two wedge-shaped regulating slides which can be adjusted independently of one another. An adjusting mechanism of such construction for setting the cutting gap requires at least four drives independent of one another in order to accurately align the cutting edge. Furthermore, the known device has the disadvantage that a readjustment of the cutting gap can only be effected when the machine is stopped, i.e. when the rotor having cutting blades is stopped, for example by means of feeler gauges or other measuring aids.
DE 692 11 672 T1 discloses a cutting apparatus having a blade roller comprising a blade which is radially adjustable within the roller body by a linear guide and is held in position by spring elements.
EP 0 841 132 discloses a method in which a cutting blade or a smooth counter roller are heated or cooled by heating elements and cooling elements respectively, to set the cutting gap.
EP 0 318 174 discloses a cutting edge supported by one leg of a U-shaped carrier, wherein screws are used to decrease the distance between the legs of said U-shaped carrier to set the gap during maintenance.
The object of the invention is to provide an adjusting mechanism which can be set and readjusted by means of a drive unit even during operation while preserving the parallelism between the rotatable rotor, having cutting blades, and the cutting edge.
To achieve this object, it is envisaged to use pressure elements as the drive unit for setting the cutting gap. To this end, the counter-blade body has a U-shaped profile, with a first leg which forms the cutting edge and a second leg which supports the counter-blade body. Pressure elements for elastically bending the counter-blade body apart for the fine setting of the cutting gap are arranged between the first and the second leg of the U-profile-shaped counter-blade body.
This solution has the advantage that, even within the submicrometre range, the cutting gap between cutting edge and cutting blades can also be readjusted during the operation when the rotor with cutting blades is rotating. To this end, the pressure elements press the two legs apart within the submicrometre range and thus press the cutting edge in the direction of the cutting blades of the rotor. The pressure elements used are preferably Peltier elements between the U-shaped legs, these Peltier elements expanding by the application of a variable external voltage and thus bending the legs apart, as a result of which the cutting edge is moved towards the rotor within the submicrometre range. In addition, this arrangement has the advantage that a feedback loop can be used between a sensor and a Peltier element, so that the cutting gap can be adapted within the submicrometre range to different operating conditions.
In a preferred embodiment the adjusting mechanism has a slide which is guided in a linear guide and has the counter-blade body with the cutting edge, the linear guide being arranged at an angle deviating slightly from the parallelism to the rotor axis, and the counter-blade body being fastened to the slide in such a way that the parallelism of cutting edge and cutting blade remains ensured. The counter-blade body therefore has an extremely acute angle relative to the slide, and this acute angle corresponds to the acute angle between rotor axis and linear guide, so that the counter-blade body with its cutting edge remains completely parallel to the rotor axis during the adjustment of the slide on the linear guide.
Such an adjusting mechanism not only has the advantage of a single central linear guide with which the adjustment of the cutting edge relative to the blades of the rotor becomes possible but also provides an adjustment in the two spatial directions, known from the prior art and perpendicular to one another, relative to the rotor axis with only one linear guide. This means a substantial saving in material and costs compared with the previous solutions and offers the possibility of automating the adjustment, especially as only one drive unit becomes necessary for the linear guide arranged at an acute angle to the rotor axis. In addition, it is possible, for example in the event of thermal expansion of the rotor during the operation, to continuously compensate for and adapt the thermal expansion of the rotor in its effect on the setting of the cutting gap via the automatic adjustment of the slide on the linear guide.
In addition, the U-shaped counter-blade body has the advantage that the first leg, which carries the cutting strip, is elastically deformable and flexible, so that faults due to microscopically fine solid particles, for example in the plastic strands, cannot lead to the total failure of the cutting edge or cause permanent damage to the blade body.
In a preferred embodiment, the counter-blade body has at least one sensor for recording a measurable distance variable between the cutting edge of the counter-blade body and the cutting blades of the rotating rotor. This is associated with the advantage that, to readjust or match the setting of the cutting gap during operation, no empirical values have to be recorded in tabular form and stored in order to adapt the setting of the cutting gap to the operating conditions in an optimum manner, but rather measurable distance variables can be recorded by the sensor and the cutting-gap depth can be kept at a set point by means of a corresponding control arrangement.
To form a cutting edge, the counter-blade body preferably has a cutting strip which preferably extends over the full length of the counter-blade body. Such a cutting strip has the advantage that it can be exchanged at any time without at the same time having to produce a new counter-blade body.
In a preferred embodiment of the invention, the pressure elements used are thermal pins, which produce a change in length either on account of increasing ambient temperature or on account of active heating or cooling and thus bring about a change in the elastic bending-apart of the blade body, so that it becomes possible to set the cutting gap and, if a sensor is used, control the cutting gap during the operation.
Finally, the pressure elements which can be used are preferably hydraulically or pneumatically driven actuators between the legs of the counter-blade body, which actuators, however, have to be specially designed with regard to space and feed requirements. Possible pressure elements are also preferably motor-driven actuators, which can preferably be set via a common camshaft.
The open flank of the U-profile-shaped counter-blade body preferably has a cover, which has the advantage that the pressure elements are protected from splashing water and granules.
In a further preferred embodiment, openings, aligned with one another, in the cutting strip and in the counter-blade body ensure recording of the cutting-gap depth by means of at least one sensor. This sensor is preferably arranged in the centre region, so that arching of the counter-blade body in the centre region is directly recorded and, when there are pressure elements between the legs of a U-profile-shaped counter-blade body, the widening of the cutting gap in the centre region can be compensated for directly.
When two sensors are used, these sensors are uniformly distributed over the length of the counter-blade body, so that the counter-blade body has three regions between which sensors are arranged for recording the cutting-gap depth. By interaction of preferably at le

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