EP2226168B1

EP2226168B1 - Plastics shredding unit

Info

Publication number: EP2226168B1
Application number: EP20100460007
Authority: EP
Inventors: Andrzej Moraczewski; Jan Wojtysiak; Wladyslaw Podsiedlik; Elzbieta Witczak; Grazyna Redlich; Krystyna Fortuniak
Original assignee: Instytut Technologii Bezpieczenstwa "moratex"
Current assignee: Instytut Technologii Bezpieczenstwa "moratex"
Priority date: 2009-03-02
Filing date: 2010-03-01
Publication date: 2015-05-06
Anticipated expiration: 2030-03-01
Also published as: PL387376A1; PL216116B1; EP2226168A1

Description

This invention is a device for shredding plastic materials with diverse length, width, and thickness, in particular multilayer textile waste.
The patent application no. P-381390 contains a description of the method of shredding waste from multilayer plastics with low melting point and low hardness, and the shredding unit for waste from multilayer plastics with low melting point and low hardness. The shredding unit consists of a feeder table fitted with feed rollers and serially located clamping elements and a cutting wheel with planetary motion, which cutting wheel rotates together with a roller around its own axis and around the axis of a cranked roller on which it is mounted. The input is periodically fed with the use of two rollers, one of which is periodically rotated by a ratchet mechanism. The input is clamped between the table and the actuator-controlled clamping elements.
The device known by the patent description no. EP 0 931630 , dedicated for shredding the multilayer materials of diverse dimensions, has two perpendicular, synchronised shredding units, which include feeding system and clamping system controlled by pneumatic actuator with adjustable clamping force which immobilize the material during cutting.
The invention is defined in the single claim.
The invention's design enables shredding of multilayer materials, especially textile waste with the thickness from 0,5 to 40 mm, into cubes with the assumed width and length dimensions not smaller than 5x5mm.
The shredding unit consists of two coupled shredding sub-units located perpendicularly to one another, either of which comprises feeding, clamping, cutting, and output removal systems.
Both shredding sub-units have separately adjusted speed, pressure, and input protrusion beyond the cutting wheel and are synchronised with one another, and thus keep up the same stream of the shredded material.
Separate adjustment of both sub-units enable for ex ample differentiation of hanging the material beyond the cutting knives of first and second sub-units.
The first shredding sub-unit has a feeding system that consists of a feeder table and several endless saw chains mounted on self-aligning parallel guides.
The saw chains moving the same speed provide constant linear velocity of feeding the material to the clamping zone.
The clamping system consists of blocks cyclically raised and lowered; controlled by pneumatic actuators that also adjust the blocks' pressing power.
When lowered, the blocks press to the table threshold the material, a part of which protrudes beyond the threshold, where the size of that protrusion is also adjustable.
The cutting system comprises a slidable threshold that keeps up the protruding material and is coupled with the cutting wheel in its reciprocating motion so that the threshold slightly forestalls the cutting wheel in the course of the cutting process.
Under the threshold of the first shredding sub-unit there is a transporter which, together with a couple of corrugated feed rollers, constitutes the feeding system of the second shredding sub-unit.
The second shredding sub-unit comprises a clamping system that consists of a table and separately controlled clamp blocks and a cutting system with another slidable threshold coupled with the second cutting wheel.
Under the threshold of the second sub-unit's table there is located a chute which receives the shredded output.
The shredding unit enables the input to be cut twice in different directions and helps to produce shredded output with the dimensions that approximate or differ from the two assumed dimensions of each element, which is the condition of its further processing.
In particular, the shredding unit can be applied for shredding soft and thin elements, as well as multilayer materials with diverse structures and different properties of each layer, since such elements are held up tight on the cutting wheel's attack.
The invention is shown in the drawing, where Fig.1 shows a schematic diagram of the shredding unit, Fig.2 - a schematic diagram of the input feeding system in the first shredding sub-unit.
The plastics shredding unit consists of two sub-units, the first of which comprises a feeder table 1 onto which fed is the input material to be shredded 2. Apart from the table 1, the sub-unit employs a chain input guiding system 2 comprised of endless saw chains 3 mounted on self-aligning parallel guides 4. The saw chains 3, with variable height and length of the links, ensure adequate adherence and stable transport of pieces of the material with variable thickness and softness into the operating zone of the clamping system comprising clamp blocks 5 controlled by a pneumatic actuator 6. When the input material is moved forward 2, the clamp blocks 5 are raised and then lowered to press the input down to the threshold 7, at the edge of which there is located the operating zone of the cutting wheel 8 . The input material's protrusion beyond the threshold is adjustable, whereas it has been assumed beneficial for that protrusion to be not smaller than 5 mm. The protruding input material 2 is kept up by a slidable threshold 9 , coupled with the cutting wheel 8 in its reciprocating motion. Such a solution ensures effective cutting of even thin and soft material, since it is kept up tight on the cutting wheel's attack 8 , which ensures adequate angle of attack and prevents the material from folding. The slidable threshold 9 is so configured with the cutting wheel 8 that the threshold slightly forestalls the cutting wheel in the course of the cutting process. When the material passes through this first sub-unit it is slit into pre-shredded output (10) with fixed width and random length and thickness.
The pre-shredded output 10 is received by the transporter 11 located under the threshold 7 and carried to the second shredding sub-unit which is set at the right angle to the first sub-unit. The transporter 11 that feeds the second shredding sub-unit is half-pipe shaped, which ensures relatively parallel arrangement and density of the pre-shredded output 10 within the middle part of the transporter. This is important for the further cutting process, because it stiffens the structure of the shredded material by thickening it and prevents scattering.
The pre-shredded output 10 is transported to the operating zone of corrugated feed rollers 12 . Their task is to regularly feed the material into the operating zone of the second clamping system and under the clamp blocks 13 . This system is a reproduction of that in the first shredding sub-unit, save any necessary changes intended to adjust it for cutting the pre-shredded output. Each clamp block 13 in the second system is controlled by a separate pneumatic actuator 14 for accurate adjustment of each unit pressure while the second cutting wheel cuts the pre-shredded output 15 . Both shredding sub-units are synchronised with one another and keep up the same stream of the shredded material. The shredded output with the pre-set width and length dimensions falls down into the chute located under the thresholds and is received by the receiver container.

Claims

The device for shredding plastics of multilayer structure, diverse dimensions, with two shredding modules located perpendicularly to one another and synchronized with each other, with the subsystems for feeding and clamping, with clamp elements controlled by the pneumatic actuators to immobilise materials when cut with cutting wheel of individually adjustable speed of the tieding systems for feeding and pressure of the subsystems for clamping onto the batch being fed for cutting, characterised in that it has two single-knife shredding modules, synchronised to each other and keeping up the same stream of material mass subject to cutting, featuring individual adjustment of speed and pressing force and input protrusion beyond cutting wheels (8,15) which allow for getting the output of multilayer materials, especially textile waist shredded to the cubes of presumed size in width and length, while the first shredding sub-unit has a feeding arrangement including the system of lead for pieces of material, consisting of at least some spring-pressed endless chains (3) of variable height and length of the links embedded on pivotally mounted, parallel guide rails (4), clamping arrangement in a form of periodically raised and lowered pressure blocks ( 5 ) and cutting arrangement comprising a sliding threshold coupled with a cutting wheel (8), and the second shredding sub-unit with half-pipe conveyor (11) equipped with corrugated feed rollers (12), This includes clamping system in which each of the clamping blocks (13) is controlled by individual pneumatic actuator (14) and the cutting arrangement with a cutting wheel (15).