EP1254748A1 - Apparatus and method for cutting plastic profiles - Google Patents

Abstract

Cutting device (17) for separating plastic profiles (1) comprises a clamping device (2) for holding the profiles and a cutting element (3) for separating the profiles. The clamping device has a pre-tensioning device (4), especially in the form of a bending device (7), for producing tension in the plastic profile in the region of the cut (5). The cutting element is a cutting knife (6) which does not remove any material. An Independent claim is also included for a process for separating plastic profiles comprising the above cutting device. Preferred Features: The bending device consists of a cutting table (8), a holding-down device (9) arranged in the region of the cutting knife, and a setup block (10), preferably in the form of a clamping wedge (11), arranged at the side of the cutting knife.

Description

The invention relates to a cutting device with the features according to the preamble of claim 1 and a method for separating plastic profiles.

Plastic profiles for the production of links, for example a roller shutter, cladding or frame elements or Like. Are essentially in the way of extruding as Endless semi-finished product and then by separating cuts either to transport dimensions or directly to finished dimensions cut for the further manufacturing process.

A saw is widely used to make the separating cut, for example in the form of a miter saw with a rotating circular saw blade provided. The one for machining in the area of the cut energy is converted into heat implemented. The generally low thermal conductivity of the Plastic material requires one in the area of the cut high local heating, which leads to melting of the cut surface and can also lead to sticking of the saw blade. The quality of the cutting surface and also the cutting performance can be limited.

Most plastic materials also have only a slight electrical conductivity, which in particular related to the friction when making the cut can lead to electrostatic charging. Because of this when sawing off, chips tend to stick to the plastic profile. Especially when cutting hollow chamber profiles and / or transparent profiles, chips can become inaccessible Fix spots, making a necessary cleaning is difficult and expensive.

The invention has for its object a cutting device and a method for separating plastic profiles to provide with an improved cut quality.

The task is accomplished by a cutting device with the features of claim 1 and by a method with the features of claim 14 solved.

For this purpose, it is proposed to hold the clamping device Plastic profile with a pretensioner Mistake. With the pretensioner is in the area of a cut in the plastic profile applied. The cutting element for separating the plastic profile is at least approximately cutting without cutting Cutting knife designed to make a cut in the area the tension is executed. The tension leads to one Gaping the cut so that the cutting edge of the Cutting knife can penetrate the base of the cut without the cutting surfaces on the side clamp the cutting knife. As a result, essentially only the cutting edge comes into contact with the plastic profile, which means only low cutting forces are necessary and the amount of frictional heat is low is. The cut surfaces are very clean and need mostly no post-processing. Because of the low amount of heat a high cutting speed can be selected. The non-cutting process avoids an unwanted one subsequent cleaning process of the separated plastic profile.

In an expedient development, the pretensioning device is formed as a bending device, the section in the tension zone of the bend of the plastic profile becomes. By applying a bending stress with low clamping effort a precisely defined tension can be set in the cutting reason. The tension is there expediently only slightly less than the tensile strength of the Plastic material set so that for execution of the cut essentially only scratching the cut base is required and the separation energy essentially is applied by the tension. This is a fast cutting progress in connection with a high Service life of the cutting knife achievable. For a constant The cutting quality is expediently the tensile stress reproduced in the plastic profile with progressive cut. The one that diminishes in the course of the cutting progress This compensates for tensile stress, resulting in precisely set Cutting conditions and thus a constant one Cutting quality can be achieved across the entire depth of cut.

In an advantageous development, the bending device comprises a cutting table, one in the area of the cutting knife arranged and adjustable against the cutting table hold-down and one arranged to the side of the cutting knife Cutting base. By depressing the hold-down in This will be the direction of the cutting table on the clamping pad overlying plastic profile bent, the convex side the bending zone with a corresponding tensile stress Cutting knife is exposed. This arrangement allows with simple means a variable adjustment of the tension and easy adaptation to different plastic profiles Section. The tension pad is useful formed as a clamping wedge, whereby an at least approximately flat contact of the plastic profile with avoidance of undesirable impressions can be achieved. The plastic profile facing side of the clamping wedge advantageously has a convex curve. When adjusting the bending tension for example, by pressing it down of the hold-down device, the plastic profile along the curve perform a rolling motion, which means that during the whole Tracking process an at least approximately flat Place the plastic profile on the convex curve of the clamping wedge is given.

Another way of adjusting the bending stress consists of a tracking of the clamping wedge parallel to Surface of the cutting table in the direction of the cutting knife. The plastic profile can be held down with the hold-down device firm and immobile close to the cut to be made be clamped, whereby a high cutting precision can be achieved is. Especially in the latter arrangement expediently the cutting progress by delivering the Cutting knife and especially in combination with a Controlled tracking of the clamping pad. Depending on the application can also control the cutting progress Pushing down the hold-down device against a stationary one Cutting knife done.

To create a precise, especially rectangular Cut, it can be useful on both sides of the cutting knife one underlay in particular symmetrical to Arrange cutting knife. With a likewise symmetrical Arrangement of two hold-down devices on both sides of the cutting knife is a pure bending stress zone in the area of the cut to be made given that is essentially free of lateral forces and shear stresses. This is one of them Cutting precision reducing elastic or elastoplastic Deformation in the area of the cut avoided.

To achieve a symmetrical cut with the same There has been a surface quality on both cut surfaces Cutting knife with a symmetrical design in particular cut on both sides turned out to be useful. For special ones Cut quality requirements on one of the two Cut surfaces, for example when cutting off Remnants can be a cutting knife with a one-sided Sanding should be appropriate. For a rough, quick cut in combination with appropriate materials, a one or double-sided serrated edge may be advantageous.

Especially for separating plastic profiles with a low melting point is a coolable version of the Useful cutting knife. This is a sticking of the Cutting knife in the area of the cutting edge by melting of the plastic material avoidable. With less heat sensitive Plastic materials can be used for support the cutting performance a heatable version of the cutting knife be appropriate.

To achieve a long service life of the cutting knife as well Training for good heat dissipation has turned out to be an order an axis of rotation rotatable circular knife as appropriate exposed. In the course of one revolution of the circular knife one point of the cutting edge remains only a slight one Time in the area of the cut, making over the rest of the part the circular movement is given sufficient time to cool down. Depending on the application, a cutting knife with a straight, linearly movable cutting edge useful his. Depending on the material quality of the material to be cut Plastic profile, for example in connection with fiber-reinforced Plastics, an oscillating cutting movement be beneficial. Both are oscillating linear motion as well as an oscillating rotary motion possible, such as that of ultrasonic cutters is known.

Fig. 1

in einer schematischen Darstellung eine Schneidvorrichtung mit symmetrisch zum Schneidmesser angeordneten Biegevorrichtungen,

Fig. 2

in einer Prinzipdarstellung die Spannungsverhältnisse im Kunststoffprofil im Bereich des Schnittes,

Fig. 3

eine prinzipielle Querschnittsdarstellung eines Kunststoff-U-Profiles in Anlage an einen Spannkeil,

Fig. 4

eine Querschnittsdarstellung durch ein Schneidmesser mit einseitigem Schliff,

Fig. 5

eine Variante des Schneidmessers nach Fig. 4 mit einem beidseitigen Schliff,

Fig. 6

eine perspektivische Prinzipdarstellung eines Kreismessers mit einem Wellenschliff,

Fig. 7

eine Variante der Schneidvorrichtung nach Fig. 1 mit einer einseitigen Biegevorrichtung,

Fig. 8

eine Querschnittsdarstellung mit weiteren Einzelheiten der Anordnung nach Fig. 1.

Embodiments of the invention are explained in more detail below with reference to the drawing. Show it:

Fig. 1

a schematic representation of a cutting device with bending devices arranged symmetrically to the cutting knife,

Fig. 2

a basic representation of the stress relationships in the plastic profile in the area of the cut,

Fig. 3

a basic cross-sectional view of a plastic U-profile in contact with a clamping wedge,

Fig. 4

2 shows a cross-sectional representation through a cutting knife with a single-sided grinding,

Fig. 5

4 with a grinding on both sides,

Fig. 6

1 shows a perspective illustration of a circular knife with a serrated edge,

Fig. 7

1 shows a variant of the cutting device according to FIG. 1 with a one-sided bending device,

Fig. 8

2 shows a cross-sectional illustration with further details of the arrangement according to FIG. 1.

1 shows a cutting device in a schematic view 17 for separating plastic profiles 1 with a Tensioning device 2 for tensioning and a cutting element 3 for Separating the plastic profile 1. The cutting element 3 is as at least approximately non-cutting cutting knife 6 formed which in the embodiment shown a an axis of rotation 16 is a rotatable circular knife 19. The cutting knife 6 can also be used as a linearly movable cutting element 3 with a straight cutting edge or as a circumferential one Cutting tape may be formed. The clamping device 2 comprises a pretensioner 4 for applying tensile stress on the plastic profile 1 in the area to be executed Section 5. Depending on the application, the pretensioning device 4, for example, from two on the side of the cutting knife 6 arranged clamping elements exist between which the Plastic profile 1 is stretched. In the embodiment shown is the biasing device 4 as a bending device 7 trained and includes two symmetrical on both sides Cutting knife 6 arranged, fixed on a cutting table 8 Clamping pads 10 and two near the cutting knife 6 arranged hold-down 9. The clamping pads 10 can for example roles or the like. and are shown in Embodiment designed as clamping wedges 11, the Plastic profile 1 facing side 12 each convex Rounding 13 has. That straight in the unloaded state trained plastic profile 1 is shown in dashed lines and lies on the two clamping wedges 11. By pressing down of the two hold-down devices 9 in the direction of the arrows 20 the plastic profile 1 bent in the area of the cut 5 and assumes its shape shown with solid lines. This forms in the area of the hold-down device 9 or in the area of the cutting knife 6 a convex curved side 21 of the Plastic profile 1, which by means of the hold-down 9 against the cutting knife 6 is pressed. In the version shown the cutting knife 6 is stationary relative to the cutting table 8 stored, whereby the progress of the cut 5 through depressing the hold-down device 9 in the direction of the arrows 20 is controlled. By pressing down the hold-down device 9 the curvature in the plastic profile 1 is also increased, whereby the tension as well as the cutting progress is tracked in section 5. The area of Clamping device 2 and section 5 is through a hood 22 covered, against which the hold-down 9 in no closer are supported as shown.

Fig. 2 shows details in a schematic representation on the plastic profile 1 in the area of the cut 5. The plastic profile 1 is shown curved and has a concave Page 24 and a convex side facing the circular knife 9 21 on. In the area of the concave side 24 there is a through the arrows 25 indicated compressive stress and accordingly on the opposite convex side 21 one through the Arrows 26 shown tension. In section 5 arises a local increase in tension by the arrows 28 is shown. The tensile stress is slight in this area less than the tensile strength of the material from Plastic profile 1 set. The tension leads to one Gaping the cut 5, as a result of which a cutting edge 30 of the circular knife 19 in the intersection 29 of the cut 5 abuts while the two sides of the circular knife 19 with a symmetrical cut 14 on both sides exposed.

Fig. 3 shows details in a schematic representation the arrangement of FIG. 1 in the area of the clamping wedge 11. Das Plastic profile 1 is in the embodiment shown as U-profile with a web 32 and arranged laterally of the web 32 Flanges 31 formed. The bridge 32 and the two Flanges 31 enclose the wedge 11 such that the Tensioning wedge 11 with its facing the plastic profile 1 Page 12 bears against web 32. This is the plastic profile 1 guided on all sides. Other cross-sectional shapes can also be used of the clamping wedge 11 may be appropriate, for example with a trough-shaped cross section to accommodate rounded and / or hollow chamber profiles.

4 shows a schematic cross-sectional illustration a cutting knife 6 with a one-sided cut 14, in which the cutting edges 30 in a side plane 39 of the cutting knife 6 lies.

A variant of the cutting knife 6 is shown in Fig. 5, at which is a bilateral cut 14 in a symmetrical design is provided. The cutting edge 30 is thereby in the central plane 40 of the cutting knife 6.

In the variant of the cutting knife 6 shown in FIG. 6 this as a circular knife rotatable about the axis of rotation 16 19 formed with a one-sided cut 14. The Cut 14 has a number of waves 33 for generating a Serrated 15. It can also be a bilateral Cut 14 with pairs or mutually opposite Shafts 33 may be provided.

7 shows a variant of the cutting device 17 Fig. 1, in which the plastic profile 1 by a one-sided next to the circular knife 19 arranged hold-down firmly against the cutting table 8 is pressed. The cutting progress of the Cut 5 is made by setting the circular knife 19 in the direction controlled by arrow 35. Here is the delivery speed variable in the direction of arrow 35 depending on the material thickness to be cut. With a U-profile, for example 3 is a higher feed rate for the flanges 31 than for the cut through the web 32 intended. You can also adjust the speed of rotation the circular knife 19 in the direction of arrow 23 is useful his. On the side opposite the hold-down 9 of the circular knife 19 arranged wedge 11 is parallel to Surface 18 of the cutting table 8 slidably arranged. By feeding the clamping wedge 11 in the direction of the arrow 34 becomes a free end 38 of the plastic profile 1 in the direction of arrow 37 raised. This will cause the tension in the cutting base 29 depending on the cutting progress.

Fig. 8 shows a cross-sectional view through the arrangement 1 with further details, accordingly the hood 22nd pivotable from an open, shown in dashed lines Position in a closed with solid lines Position is stored. The hold-down 9 are against the hood 22 is supported and in the embodiment shown designed as a pressure spindle 41. Hydraulic cylinders, Knee lever or the like can be provided. The circular knife 19 extends through the cutting table 8 and is in the direction of arrow 23 rotatable. The rotary movement can be optional be set uniformly or oscillating. additionally is one for cutting wide or flat profiles linear horizontal mobility of the circular knife 19 in the direction of the double arrow 36 is provided. The circular knife 19 is can be cooled depending on the material to be cut or heatable.

Claims (14)

Cutting device for separating plastic profiles (1) with a clamping device (2) for holding and a cutting element (3) for separating the plastic profile (1),
characterized in that the tensioning device (2) comprises a pretensioning device (4) in particular in the form of a bending device (7) for generating a tensile stress in the plastic profile (1) in the region of the cut (5) and
that the cutting element (3) is an essentially non-cutting cutting knife (6). Cutting device according to claim 1,
characterized in that the bending device (7) comprises a cutting table (8), a hold-down device (9) arranged in the region of the cutting knife (6) and a clamping base (10) arranged to the side of the cutting knife (6), the clamping base (10) preferably is in the form of a clamping wedge (11). Cutting device according to claim 2,
characterized in that a clamping base (10) is arranged on both sides of the cutting knife (6), in particular symmetrically to the cutting knife. Cutting device according to claim 2 or 3,
characterized in that the clamping wedge (11) has a convex curve (13) on its side (12) facing the plastic profile (1). Cutting device according to one of claims 1 to 4,
characterized in that the cutting knife (6) has a one-sided, preferably two-sided, cut (14), which is in particular in the form of a serrated cut (15). Cutting device according to one of claims 1 to 5,
characterized in that the cutting knife (6) can be heated and / or cooled. Cutting device according to one of claims 1 to 6,
characterized in that the cutting knife (6) is designed as a circular knife (19) and is rotatable about an axis of rotation (16). Cutting device according to one of claims 1 to 7,
characterized in that the cutting knife (6) is oscillatingly movable. Method for separating plastic profiles (1), in particular with a cutting device (17) according to one of Claims 1 to 8, which comprises the following steps:

A tensile stress is applied to the plastic profile (1) with a pretensioning device (4) of a tensioning device (2) in the region of the cut (5) to be made, in particular by bending. A cut (5) is made in the area of the tensile stress with a non-cutting cutting knife (6). Method according to claim 9,
characterized in that the tensile stress in the plastic profile (1) is adjusted as the cut (5) progresses. A method according to claim 10,
characterized in that the pretensioning device (4) is designed as a bending device (7) which comprises a cutting table (8), a hold-down device (9) arranged in the region of the cutting knife (6) and a clamping base (10) arranged on the side of the cutting knife (6) comprises and that the tension is adjusted by tracking the hold-down device (9). A method according to claim 10,
characterized in that the tension is readjusted by tracking the tensioning pad (10) parallel to the surface (18) of the cutting table (8) in the direction of the cutting knife (6). Method according to one of claims 9 to 12,
characterized in that the tensile stress in the plastic profile (1) is set slightly less than its tensile stress. Method according to one of claims 9 to 13,
characterized in that the cutting progress is controlled by infeed of the cutting knife (6) and / or by infeed of the hold-down device (9).

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