PROCESS FOR PRODUCING THERMOPLASTIC SHEETS

Abstract

The present disclosure relates to the process of producing thermoplastic, smooth and/or corrugated tile type board, based on new polymers or polymeric waste, pure and or composed of various plastics, whether or not chemically compatible, with or without fillers, natural/industrial/mineral/animal, individually and/or combined up to 80% by lamination process, in single or multilayer form, using various melting process mechanisms; and also allowing the interlayer and/or superficial introduction of bodies, rigid or flexible, for the purpose of structural reinforcement and or surface finishing, characterized by using an extruder that delivers a large volume of plastic mass to the lamination line, where the already laminated plastic mass passes to the molecular fixing line, through cool pressing plates, moving into to the cutting line, through the side cutting and dividing saw, being the product sent to completion section, through the square cutting and deposition on distribution table.

Claims

1. A thermoplastic board production process includes using an extruder, with temperatures between 100 and 450° C., which delivers a large volume of plastic mass to a lamination line, wherein the already laminated plastic mass passes to a molecular fixing line, through cool pressing plates, passing to a cutting line, through a side cutting and dividing saw, and being the product sent to a completion section through a square cutting and deposition on a distribution table.

2. The thermoplastic board production process according to claim 1 including: (a) the introduction of a gelled mass by means such as flat die for pre-opening the mass into a first lamination group into an accumulator; b) after that, the pre-formed mass is by hand and/or automatically moved into a second lamination group, where the recompressed mass, pre-hardening and gas exhaustion by compression occur, where cool plates are holding between the two groups to start molecular fixing; c) in the second lamination group, the material automatically goes towards the next lamination groups, for hardening, always intermediated by cool pressing plates, until it reaches a molecular fixing point ensuring the final geometry desired; d) after completion of lamination, a first puller up to 50,000 kg/f pulls the formed product, and sends it to a group of pressing boards, until final molecular fixing desired, where, in the same process, the produced board is cut to define desired width, through the side cutting saw, divided lengthwise accordingly profiles width and number definition, automatic lengthwise cut, through the dividing saw, being the material pulled by a second puller; and e) this ready material is cut by the square cutting saw and automatically sent to a reception table.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0009] All images are for illustration purposes only and may vary whereas they do not evade the original claim. In such cases:

[0010] FIG. 1 shows the complete production unit containing the extruder, lamination/thermofixing line, screw saw and receiving table;

[0011] FIG. 2 shows the extruder;

[0012] FIG. 3 shows the lamination and hardening line;

[0013] FIG. 4 shows the thermofixing line by plates;

[0014] FIG. 5 shows the side cutting saw, dividing saw and haul off; and

[0015] FIG. 6 shows the completion of the process with square cutting and receiving table.

DETAILED DESCRIPTION

[0016] The thermoplastic plate production process uses an extruder (1) with temperatures from 100 to 450° C., which delivers a large volume of plastic mass to the lamination line (2), where the already laminated plastic mass passes to molecular fixing line (3), through cool pressing plates, passing to the cutting line (4), through the side cutting saw and dividing saw, being the product sent to completion through the square cutting (5) and deposition on distribution table (6).

[0017] Plastification/gelling/melting of the mass shall be by:

[0018] a. Extrusion by a high pressure and diffusion extruder (1), up to 1000 bar pressure, fed by a high pressure doser system (1.1) high pressure compacting (1.2), up to 500 bar, in order to provide a uniform in feed and minimize density bulk variations in waste; and,

[0019] b. Optionally plastification/gelling/melting can be performed by other continuous or batches plastification systems.

[0020] The introduction of a lamination system (non-calendar) offers plastic mass absorption from an extruder or any other continuous or batches plastification system, accumulating an important volume, thereby compensating for volumetric variation, and then forming the product via the laminator cylinder and not by flat die, in others words, it absorbs here the typical volumetric variations in waste extrusion.

[0021] Another innovation presented is that, throughout a multiple laminating system, it allows the recompression/hardening of the mass in order to reduce internal expansions from typical waste gases, thus allowing the production of profile up to 200 mm thickness, in width of up to 6,000 mm.

[0022] Also, the project foresees the molecular fixation, in addition to the laminator cylinders, through the introduction of a cool pressing plates system, offering molecular fixing until the complete thermal stabilization of the product.

[0023] The production process involves inserting the gelled mass by means such as flat die (2.1) for pre-opening the mass into the first lamination group (2.2) into an accumulator (2.3). Ensuring the absorption of volumetric oscillations from the laminating equipment, being formed the primary profile of the final product. After that, the pre-formed mass is by hand and/or automatically moved into the second lamination group (2.4), where the recompressed mass, pre-hardening and gas exhaustion by compression phase (2.5) occur, cool plates held in between the two groups (2.6) to start molecular fixing. In the second lamination group, the material automatically runs towards the next lamination groups, for hardening (2.7), always intermediated by cool pressing plates (2.8 and 2.9), until it reaches a molecular fixing (2.10) point ensuring the final geometry desired.

[0024] After completion of lamination, a first puller (3.1) up to 50,000 kg/f pulls the formed product (3.2), and sends it to a group of pressing boards (3.3), until final molecular fixing desired.

[0025] In the same process, the produced board (3.2) is cut to define desired width through the side cutting saw (4.1), divided lengthwise accordingly profiles width and number definition, automatic lengthwise cut, through the dividing saw (4.2), being the material pulled by a second puller (4.3), where this ready material is cut by the square cutting saw (5) and automatically sent to a reception table (6).

[0026] Additional inline surface finishing options such as texturizing, machining, polishing, grinding, brushing, printing, grooving, painting and hot stamping.