EP1331068A2 - Cutting tool comprising a cutting head having driving means - Google Patents

Abstract

The cutting tool (100), in particular, for cutting PU elastomers comprises a cutting head (10) which delivers a separation agent into the cut produced by the blade (40).

Description

The invention relates to a cutting tool according to the preamble of Claims 1 to 4.

When cutting materials such. B. made of PU elastomers, PVC, TPO, TPU, TPE, TPE-E as structural skin, slush skin, spray spray skin, Casting skin with such cutting tools has been shown to Edges of the cut made in the material with the cutting blade glue together what with the known means and facilities cannot be prevented.

The object of the present invention is to provide a cutting tool for the Cutting materials such as B. PU elastomers, PVC, TPO, TPU, TPE, TPE-E as structural skin, slush skin, spray spray skin or cast skin to create the depth of the cut in the one to be cut Material is customizable and the V-cuts in the material with different V-shape enables. Another job is a cutting tool the known type so that the edges of the Cut can no longer stick and also a quality control over the cut made in the material is possible.

The first task is solved with a cutting tool of the specified type Kind with the features specified in claim 1.

• einem Antriebsmotor mit einer in Schneidkopflängsachse verlaufenden Antriebswelle,
• einer mit der Antriebswelle des Antriebsmotors in Verbindung stehenden, um die Antriebswellenlängsachse umlaufend angetriebenen Nockenscheibe mit auf der dem Antriebsmotor abgekehrten Seite ausgebildeten in verschiedenen Ebenen liegenden Steuerflächen,
• einem mit einer der Steuerfläche der Nockenscheibe in Wirkverbindung stehenden Laufrolle,
• einer vermittels einer Feder beaufschlagten Hubstange bzw. Stößelstange, die über ein Kupplungsstück mit der Laufrolle und der Nockenscheibe in Wirkverbindung steht und die an ihrem freien Ende den Klingenhalter für das Schneidmesser trägt,

besteht, wobei vermittels der Nockenscheibe die Hubbewegung des Schneidmessers erzielt wird.According to the invention, the cutting tool has at least one cutting head and, wherein the drive device is designed in a manner known per se, or made of

• a drive motor with a drive shaft running in the longitudinal axis of the cutting head,
• a cam disk which is connected to the drive shaft of the drive motor and is driven around the longitudinal axis of the drive shaft and has control surfaces located in different planes on the side facing away from the drive motor,
• a roller which is operatively connected to the control surface of the cam disk,
• a lifting rod or pushrod acted upon by a spring, which is in operative connection via a coupling piece with the roller and the cam disc and which carries the blade holder for the cutting knife at its free end,

exists, whereby the lifting movement of the cutting knife is achieved by means of the cam disk.

The lift rod or push rod is attached to the control surfaces by means of the spring the cam disc to the stop.

The cam disk preferably has two control surfaces with different ones Heights of deepening and raising.

The number of hills of the lifting rod or push rod is by change the speed of the drive motor can be changed.

According to a further embodiment of the invention, the cutting tool designed so that to create V-cuts in the to be cut Material the cutting tool has two cutting heads, wherein the two cutting heads are at an angle to each other, so that the two cutting heads with their longitudinal axes at an angle to each other stand. The angular position of the two cutting heads can also also be changeable.

The fact that the lifting movement of the cutting knife from a cam disc is controlled, are no additional and complex technical Facilities required to keep the up and down movement of the To effect cutting knife. Has the use of a cam disc furthermore the advantage that the cam disc in the cutting head against cam disks with differently designed control surfaces and with different switched recesses and elevations can be exchanged is, so that depending on the desired depth of cut by changing the cam discs, the stroke of the cutting knife is changeable.

Furthermore, the embodiment according to the invention is advantageous in the cutting tool two at a predetermined angle to each other has standing cutting heads, so that by means of the two cutting knives V-shaped cuts made in the material to be processed can be. By changing the angular position of the two The shape of the respective V-cut can be changed relative to each other and can therefore be adapted to the respective requirements.

The further task is done with a cutting tool which is known per se Way or according to claim 1 is formed with the in the claims 1, 2, 3 and 4 specified features solved.

Thereafter, the invention is that according to claim 2 in one Cutting tool over the cutting head in the generated in the material Cut a release agent is introduced.

According to claim 3 it is provided that in the in the Material produced an inorganic or organic fluorescent cut Substance is introduced.

In the cutting tool according to claim 4, the cutting head a metallic fabric is inserted into the cut created in the material.

Furthermore, a. provided to fluoresce together with the release agent Feed substances and / or metallic substances.

According to a further embodiment of the invention, the cutting tool one arranged on the cutting head or in the cutting head Supply line for the release agent, wherein the supply line connected at one end to a preferably micro-metering system while the other end of the feed line is in the area of the cutting knife opens.

With such a cutting tool designed according to the invention during the cutting process via the cutting knife into the cutting area the release agent supplied in metered form, so that the release agent reaches the cutting area, where the edges of the cut are wetted and thereby prevents the edges of the material from joining together stick together.

The supply of fluorescent substances and / or metallic Substances, especially in connection with the release agent, allow one Quality control of the cut made in the material is essentially about capturing the remaining wall thickness, i.e. the thickness the wall that remains in the material at the bottom of the cut. Especially when using metallic materials, the Perform quality control safely by measuring the thickness of the Residual wall thickness can be measured. The one with the release agent For example, you can insert metallic fabric into the cut through ultrasonic measurements, measurements with X-rays, proximity initiators to capture. This metallic substance is to such substances with properties that z. B. when using ultrasound clearly of the behavior of the plastic, d. H. the material in which the cut is made. It can also Residual wall thickness can be measured by sensors. Also other electrical Methods, electrical field measurement methods can be used become.

That is why a procedure is included with which a quality control the cuts can be made using the cutting tool in one material, especially one made of plastic Material are attached, namely in the cutting knife the cutting tool or other means of release is introduced into the cut, which is a fluorescent substance and / or a metallic substance, e.g. B. is added in powder form. Then will z. B. by ultraviolet radiation or depth of cut measurements that up be carried out to the bottom of the cut or fillet weld Measured the depth of the fillet weld and the result obtained with the wall thickness of the material compared, from which the remaining wall thickness is then calculated can be (indirect measurement). It is also possible with the method to determine the remaining wall thickness directly.

The fluorescence can be measured by means of absorption spectroscopy, fluorescence spectroscopy or excitation spectroscopy become.

Further advantageous embodiments of the invention are the subject of Dependent claims.

Fig. 1

in einer Ansicht den Schneidkopf mit Schneidmesser eines Schneidwerkzeuges,

Fig. 2

einen senkrechten Schnitt durch den Schneidkopf gemäß Fig. 1, jedoch unter Weglassung des Schneidmessers,

Fig. 3

einen senkrechten Schnitt gemäß Linie A-A gemäß Fig. 2,

Fig. 4 und Fig. 5

verschiedene schaubildliche Ansichten des Schneidkopfes,

Fig. 6

einen senkrechten Längsschnitt durch den Schneidkopf in einer schaubildlichen Ansicht,

Fig. 7

in einer Ansicht ein Schneidwerkzeug mit zwei in einem Winkel zueinander stehenden Schneidköpfen,

Fig. 8

eine Ansicht eines Schneidwerkzeuges mit zwei in einem Winkel zueinander stehenden Schneidköpfen, wobei die Winkelstellung veränderbar ist,

Fig. 9 bis Fig. 11

jeweils schematisch einen senkrechten Schnitt durch eine in einem Kunststoffmaterial angebrachte V-förmige Kehlnaht mit einer Restwandstärke im Schnittbereich, wobei die Kehlnähte unterschiedliche V-förmige Gestaltungen aufweisen,

Fig. 12

in einer Ansicht den Schneidkopf eines Schneidwerkzeuges mit Einrichtungen für die Zufuhr eines Trennmittels zum Schneidmesser,

Fig. 13 und Fig. 14

verschiedene schaubildliche Ansichten des Schneidkopfes,

Fig. 15

einen senkrechten Längsschnitt durch den Schneidkopf,

Fig. 16

eine schematische Ansicht des Schneidkopfes mit einer Bohrung zum Zuführen des Trennmittels,

Fig. 17

eine vergrößerte schematische Ansicht des Schneidmessers mit der Trennmittelaustrittsöffnung und

Fig. 18 und Fig. 19

jeweils schematisch einen senkrechten Schnitt durch eine in einem Kunststoffmaterial angebrachte Kehlnaht mit einer Restwandstärke im Schnittbereich.

Exemplary embodiments of the invention are shown in the drawings and show:

Fig. 1

in one view the cutting head with cutting knife of a cutting tool,

Fig. 2

2 shows a vertical section through the cutting head according to FIG. 1, but with the cutting knife omitted,

Fig. 3

2 shows a vertical section along line AA according to FIG. 2,

4 and 5

different perspective views of the cutting head,

Fig. 6

a vertical longitudinal section through the cutting head in a perspective view,

Fig. 7

in a view a cutting tool with two cutting heads at an angle to each other,

Fig. 8

1 shows a view of a cutting tool with two cutting heads at an angle to one another, the angular position being changeable,

9 to 11

each schematically shows a vertical section through a V-shaped fillet weld made in a plastic material with a residual wall thickness in the cut area, the fillet welds having different V-shaped configurations,

Fig. 12

in a view the cutting head of a cutting tool with devices for supplying a release agent to the cutting knife,

13 and 14

different perspective views of the cutting head,

Fig. 15

a vertical longitudinal section through the cutting head,

Fig. 16

1 shows a schematic view of the cutting head with a bore for feeding the release agent,

Fig. 17

an enlarged schematic view of the cutting knife with the release agent outlet opening and

18 and 19

each schematically shows a vertical section through a fillet weld made in a plastic material with a remaining wall thickness in the section.

The cutting tool 100 according to the invention for materials 70, in particular PU elastomers, PVC, TPO or TPE (Fig. 9 and Fig. 10) is from Manually controllable or program controlled and includes in one housing 15 a cutting head 10 with a drive device 20, which as Drive motor 21 is formed, a blade holder 30 and a Cutting knife 35 which is interchangeably arranged in the blade holder 30 (Fig. 1, 2, 3, 4, 5 and 6). In the case of FIG. 1 The cutting tool 100 shown in FIG. 6 has the cutting tool at least one cutting head 10, wherein - like FIGS. 7 and 8 show - also the cutting tool 100 'with two cutting heads 10, 10' can be provided.

The lifting movement or the back and forth movement for the implementation the cut in the material 70 for the cutting knife 35 is made by means of a driven cam 25. The drive device 20 for the blade holder 30 with the cutting knife 35 comprises a drive motor 21 with a drive shaft running in the longitudinal axis L of the cutting head 22. With the drive shaft 22 of the drive motor 21 is the cam disc 25 in operative connection. By means of the drive motor 22 is the cam disk 25 via the drive shaft 22 about the drive shaft longitudinal axis L2 driven all round (Fig. 2). The cam disk 25 is thus perpendicular to the drive shaft 22 of the drive motor 21 and assumes a horizontal position in the cutting head when the Cutting head 10 assumes a vertical operating position. On the Drive motor 21 facing away from side 25a are in different levels lying control surfaces 40, 41, the one shown in FIG Embodiment two control surfaces 40, 41 in the form of depressions 40a and elevations 41a are provided, these depressions 40a and the elevations 41a different heights from each other exhibit. These depressions 40a and elevations 41a go over guide surfaces into each other, so that an even lifting movement for the cutting knife 35 is guaranteed. The arrangement of the cam disc 25 in the cutting head 10 is such that the cam disc against Cam discs with differently designed control surfaces effortlessly is interchangeable. To support the orbital movement of the cam disc 25 this is stored and conveyed in a corresponding manner a coupling piece 28 with the free end of the drive shaft 22 of the Drive motor 21 connected.

The cam disk 25 is with its control surfaces 40, 41 over a Roller 26 with a lifting rod or push rod 45 in operative connection, the blade holder 30 with the cutting knife at its free end 45a 35 wears. The lifting rod or push rod 45 is by means of a Spring 27 against the roller 26 and thus against the control surfaces 40, 41st of the cam disk 25 so that the control surfaces 40, 41 the cam disk 25, the lifting movement of the cutting knife 35 is carried out becomes. The number of hills of the lifting rod or push rod 45 can be changed by changing the speed of the drive motor 21.

7 shows a cutting tool 100 'which has two cutting heads 10, 10' has, wherein both cutting heads are identical and the Cutting head 10, as described above, are formed. The two Cutting heads 10, 10 'are for creating V-cuts 50, 50' in the material 70 to be cut in an angular position α to one another arranged so that the two cutting heads 10, 10 'with their longitudinal axes L, L1 are at an angle to each other. In the embodiment 7, the two cutting heads 10, 10 'of the cutting tool 100 'arranged at a predetermined angle to each other, wherein the angular position of the two cutting heads cannot be changed, so that with this cutting tool 100 'V cuts in the to be cut Material are feasible, with each V-cut always the same shape has, e.g. B. as shown in FIGS. 9 and 10. The two Cutting heads 10, 10 ', however, can also be in their angular position according to FIG. 8 α designed to be mutually changeable. The two of them are for this Cutting heads 10, 10 ', for example, in their lower region a swivel 80 connected to each other. In the upper area you can both cutting heads 10, 10 'are also connected to one another and in such a way that, for example, by means of an adjusting screw, the distances the cutting heads 10, 10 'are changed in their upper areas can. With this embodiment it is possible to make V-cuts 50, 50 ' to produce with a different profile, as well as this in Fig. 9 and 10 are shown. The V-cut 50 in the material 70 according to FIG. 9 has a small angular position α 'that defines the V-cut Sidewalls, whereas according to FIG. 10 the V-cut 50 'is a larger one Has opening width, d. H. the angular position α2 of the two V-cut 50 'delimiting side walls is in this embodiment chosen larger. Due to the angular adjustability of the two cutting heads 100, 100 'can e.g. B. also V-cuts 50 "as shown in Fig. 11 are obtained in which a side wall of the V-section 50 "a has vertical position. It is also possible that the individual Side walls 50a of the V-cut 50 'differ from its longitudinal axis L3 Have angular positions so that V-profiles 50a, 50'a, 50 "a different shapes can be obtained.

The cutting tool 100 according to the invention for materials, in particular for PU elastomers, PVC, TPO or TPE, can be controlled by hand or is program-controlled and comprises a cutting head 10 with a Drive 20, a blade holder 30 and a cutting knife 35, which is interchangeably arranged in the blade holder 30 (FIGS. 12, 13, 14 and 15). The cutting tool 100 can also correspond to the foregoing described and shown in Fig. 1, 2, 3, 4, 5 and 6 Correspond to the cutting tool.

The cutting tool has one on the cutting head 10 or in the Supply line 150 arranged for the cutting head for a separating agent 160 on which also a fluorescent substance 160A or a metallic substance 160B can be added if a quality control of the cut in the Material should be made. The feed line 150 is one-sided at 150a connected to dosing system 170, which preferably is designed as a micro-dosing system. About this dosing system the release agent is fed to the cutting knife 140 in metered form. The cutting knife facing end 150b of the feed line opens in the area of the cutting knife 35. By the height extension X the exit opening, it is possible to cut both the bottom of the cut as well the side walls of the cut with the materials described above wet.

The feed line 150 for the release agent 160 is a capillary tube 151 formed, which opens into the blade holder 30 and into a bore 155 merges into the blade holder 30 and the cutting knife 35 is trained. The outlet opening 156 of the bore 155 lies in the cutting and Cutting area of the cutting knife 35. As FIGS. 16 and 17 show, the outlet opening 156 of the bore 155 lies in the cutting knife 35 in a rounded recess 141 in the corner area 142 of the Cutting knife 35, so that a direct supply of the release agent for Interface is guaranteed.

The release agent 160 used is designed so that it is an automatic Pre-sticking of the cut in the cutting material prevented.

The release agent 160 are inorganic or organic fluorescent Substances in liquid or solid form added. As inorganic substances can include, for example, fluorspar, some uranium compounds and the salts of rare earth metals, e.g. B. erbium, didym, lanthanum.

Benzene derivatives, for example, can be used as organic fluorescent substances be used. Fluorchromes, Fluogenic, fluorescent and optical brighteners are used.

18 and 19 each show one in material 170 with a wall thickness B, B 'attached cut (fillet weld) 180, its walls and floor are wetted with the release agent 160 to which the fluorescent substance 160A and / or the metallic fabric 160B is set. Is measured then the remaining wall thickness A, A 'of the material wall 170a, which after the attachment of the cut remains when cutting. The representation of the schematically shown sections in Fig. 18 and Fig. 19 corresponds to the open Cut immediately after running through the cutting tool. The Cut then takes again due to the elasticity of the material usual cut shape, which is just the risk of re-welding would entail what is due to the use of the release agent is effectively prevented.

Claims (20)

Cutting tool for materials, in particular made of PU elastomers, which can be controlled by hand or program-controlled, comprising a cutting head (10) with a drive device (20), a blade holder (30) and a cutting knife (35),
characterized in that the cutting tool (100; 100 ') has at least one cutting head (10; 10'), the drive device (20) in a manner known per se to drive a drive motor (21) for reciprocating in the longitudinal axis of the cutting head (L) Blade holder (30) with the cutting knife (35) or out a drive motor (21) with a drive shaft (22) running in the longitudinal axis of the cutting head (L), a cam disc (25) which is operatively connected to the drive shaft (22) of the drive motor (21) and is driven around the longitudinal axis (L2) of the drive shaft and has control surfaces (40) on the side (25a) facing away from the drive motor (21) and lying in different planes , 41), a roller (26) which is operatively connected to one of the control surfaces (40, 41) of the cam disc (25), a lifting rod or push rod (45) acted on by means of a spring (27), which is operatively connected to the roller (26) and the cam disc (25) via a coupling piece (46) and which has the blade holder (45a) at its free end (45a) 30) for the cutting knife (35), consists. Cutting tool for materials, in particular made of PU elastomers, which can be controlled by hand or program-controlled, comprising a cutting head (10) with a drive device (20), a blade holder (30) and a cutting knife (35),
characterized in that a cutting agent (160) is introduced into the cut (180) produced in the material via the cutting head (10). Cutting tool for materials, in particular made of PU elastomers, which can be controlled by hand or program-controlled, comprising a cutting head (10) with a drive device (20), a blade holder (30) and a cutting knife (35),
characterized in that an inorganic or organic fluorescent substance (160A, 160B) is introduced into the cut (180) produced in the material via the cutting head (10). Cutting tool for materials, in particular made of PU elastomers, which can be controlled by hand or program-controlled, comprising a cutting head (10) with a drive device (20), a blade holder (30) and a cutting knife (35),
characterized in that a metallic material (160B) is introduced into the cut (180) produced in the material via the cutting head (10). Cutting tool according to claim 1 and 2,
characterized in that by means of the spring (27) the lifting rod or push rod (45) is brought to a stop on the control surfaces (40, 41) of the cam disc (25). Cutting tool according to one of claims 1, 2 and 5,
characterized in that the cam disc (25) has two control surfaces (40, 41) with different heights of the depressions (40a) and elevations (41a). Cutting tool according to one of claims 1, 2, 5 and 6,
characterized in that the number of hills of the lifting rod or push rod (45) can be changed by changing the speed of the drive motor (21). Cutting tool according to one of claims 1, 2, 5 to 7,
characterized in that the cam disk (25) in the cutting head (10) can be exchanged for cam disks with differently designed control surfaces (40, 41) and with differently designed depressions (40a) and elevations (41a). Cutting tool according to one of claims 1, 2, 5 to 8,
characterized in that for producing V-cuts (50, 50 ') in the material (70) to be cut, the cutting tool has two cutting heads (10, 10') with the features of claims 1 to 6, the two cutting heads (10, 10 ') are at an angle to each other so that the two cutting heads (10, 10') are at an angle to each other with their longitudinal axes (L, L1). Cutting tool according to claim 9,
characterized in that the two cutting heads (10, 10 ') are fixed to each other in a predetermined angular position and their angular positions cannot be changed. Cutting tool according to claim 9,
characterized in that the two cutting heads (10, 10 ') of the cutting tool (100') in their angular positions to form V-cuts (50, 50 ', 50 ") in the material (70) to be cut with a different V-profile (50a, 50'a, 50 "a) are designed to be changeable. Cutting tool according to one of claims 1 to 4,
characterized in that a cutting agent (160) and a fluorescent substance (160A) and / or a metallic substance (160B) is introduced into the cut (180) produced in the material via the cutting head (10). Cutting tool according to one of claims 1 to 4 and 12,
characterized in that a fluorescent substance (160A) and / or a metallic substance (160B) is added to the release agent (160). Cutting tool according to one of claims 1 to 4, 12 and 13,
characterized in that the cutting tool (100) has a feed line (150) arranged on the cutting head (10) or in the cutting head (10) for a separating agent (160) and / or a fluorescent substance (160A) and / or a metallic substance ( 160B), which is connected at one end (150a) to a preferably microdosing system (170) and whose other end (510b) opens into the area of the cutting knives (35). Cutting tool according to one of claims 1 to 4, 12 to 14,
characterized in that the supply line (150) for the release agent (160) is designed as a capillary tube (151) which opens into the blade holder (30) and merges into a bore (155) which is in the blade holder (30) and in the Cutting knife (35) is formed and its outlet opening (156) lies in the cutting and separating area of the cutting knife (35). Cutting tool according to one of claims 1 to 4, 12 to 15,
characterized in that the outlet opening (156) of the bore (155) in the cutting knife (40) lies in a rounded recess (141) in one (142) of the corner regions of the cutting knife (35). Cutting tool according to one of claims 1 to 4, 12 to 16,
characterized in that the separating means (160) is designed in such a way that it prevents the cut from automatically re-gluing in the cutting material. Cutting tool according to one of claims 1 to 4, 12 to 17,
characterized in that the release agent (160) consists of a dispersion of waxes and silicones in a solvent mixture. Cutting tool according to one of claims 1 to 4, 12 to 18,
characterized in that inorganic or organic fluorescent substances in liquid or solid form are added to the release agent (160). Cutting tool according to one of claims 1 to 4, 12 to 19,
characterized in that the release agent (160) as a metallic substance (160B) is a substance with metallic properties, e.g. B. metal powder is added, which differs significantly in the case of ultrasound or other measurement methods from the behavior of the plastic.

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