EP0497233B1 - Apparatus for cutting thin planks from squared timber - Google Patents

Apparatus for cutting thin planks from squared timber Download PDF

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Publication number
EP0497233B1
EP0497233B1 EP92101218A EP92101218A EP0497233B1 EP 0497233 B1 EP0497233 B1 EP 0497233B1 EP 92101218 A EP92101218 A EP 92101218A EP 92101218 A EP92101218 A EP 92101218A EP 0497233 B1 EP0497233 B1 EP 0497233B1
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EP
European Patent Office
Prior art keywords
guide surface
edge
plane
cutting edge
adjustment
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
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EP92101218A
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German (de)
French (fr)
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EP0497233A1 (en
Inventor
Siegmar Gönner
Heinz-Hubert Braun
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Gebrueder Linck GmbH and Co KG Gatterlinck Maschinen Fabrik
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Gebrueder Linck GmbH and Co KG Gatterlinck Maschinen Fabrik
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Application filed by Gebrueder Linck GmbH and Co KG Gatterlinck Maschinen Fabrik filed Critical Gebrueder Linck GmbH and Co KG Gatterlinck Maschinen Fabrik
Priority to US07/826,818 priority Critical patent/US5318083A/en
Priority to NO920383A priority patent/NO177630C/en
Priority to CA 2060942 priority patent/CA2060942C/en
Priority to FI920411A priority patent/FI920411A/en
Publication of EP0497233A1 publication Critical patent/EP0497233A1/en
Application granted granted Critical
Publication of EP0497233B1 publication Critical patent/EP0497233B1/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B27WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
    • B27LREMOVING BARK OR VESTIGES OF BRANCHES; SPLITTING WOOD; MANUFACTURE OF VENEER, WOODEN STICKS, WOOD SHAVINGS, WOOD FIBRES OR WOOD POWDER
    • B27L5/00Manufacture of veneer ; Preparatory processing therefor
    • B27L5/06Cutting strips from a stationarily- held trunk or piece by a rocking knife carrier, or from rocking trunk or piece by a stationarily-held knife carrier; Veneer- cutting machines

Definitions

  • the invention relates to a device for cutting a thin board from a squared timber according to the preamble of claim 1.
  • the guide surface against which a squared timber to be processed is pressed while it is driven in its longitudinal direction as the conveying direction against the downstream knife can in principle be arranged in any orientation. However, it has proven to be expedient to arrange the guide surface horizontally so that the squared timber rests on it while it is being pushed against the knife.
  • a knife must necessarily have a finite wedge angle starting from the knife edge, which is why a board that has been cut from a squared timber cannot also be pulled off in the direction of the feed movement of the squared timber, but must be discharged laterally according to the wedge angle of the knife.
  • the knife can now be arranged in the device so that its substantially smooth knife back runs parallel to the guide surface at a distance and forms a further support for the squared timber reduced in thickness by the cut board, the wedge surface of the knife then serving as a discharge surface for the detached board serves.
  • the deflection angle is the acute angle at which the wedge-shaped deflection surface of the knife runs to the back of the knife or to the guide surface.
  • the installation of the knife can in principle also be reversed, so that the wedge surface of the knife runs parallel to the guide surface and forms a further support for the squared timber, which is reduced in thickness, and the back of the knife serves as a discharge surface.
  • a support surface lying in the same plane for the reduced squared timber is to be provided on the knife carrier, so that the squared timber is sufficiently supported in its further advancing movement behind the knife.
  • devices of the type concerned here have a pressure device with which the squared timber is pressed against the guide surface and the knife, and feed means are also provided, with the aid of which the squared timber is driven against the knife in the conveying direction.
  • the knife should prevent the board from splitting off. Since the squared timber is generally pressed against the guide surface and the back of the knife, the protruding pressure edge is pressed somewhat into the timber. However, since this indentation essentially regresses after the board has been cut off due to the at least partially elastic properties of the wood, the thickness of the board is essentially determined by the distance between the guide surface and the plane parallel to the guide surface running through the knife edge.
  • the thickness of a board to be separated is preselected by changing the distance between the guide surface and the plane containing the knife edge in such a way that, for example, in a machine with a horizontally running guide surface, either a support table carrying the guide surface or the knife carrier in a direction perpendicular to Guide surface is adjusted relative to the stationary machine frame.
  • a support table carrying the guide surface or the knife carrier in a direction perpendicular to Guide surface is adjusted relative to the stationary machine frame.
  • the pressure edge upstream of the guide surface is, as already mentioned, upstream of the knife edge.
  • this horizontal distance must be changed depending on the thickness of the boards to be produced in such a way that it increases with increasing board thickness so that the board being separated can be transferred with sufficient bending radius in its direction of discharge.
  • the printing edge should be as close as possible to the knife in order to avoid the already mentioned splitting effect.
  • the thickness setting it may also be necessary to also change the elevation of the pressure edge above the guide surface, so that a total of three adjustment paths on the machine may be necessary in order to set this up to a changed board thickness.
  • the board which is separated in each case also undergoes a twist when it is removed laterally along the discharge surface. It has been found that additional straightening devices for reversing this twisting can generally be dispensed with if the deflecting surface behind the pressure edge at a distance of the board thickness is compared with a supporting surface which, together with the deflecting surface, forms a channel for discharging the separated board, which at least has a certain amount Distance behind the knife edge or the printing edge.
  • the machine Since the discharge channel runs at an angle to the guide surface, the machine is set to a different board thickness by adjusting the height
  • the guide surface does not transfer the change in height in absolute size to the distance between the discharge surface and the support surface, so that when the machine is set up to a different thickness, the discharge channel for the separated board must also be adjusted by changing the distance of the support surface from the discharge surface. This would be a fourth adjustment, which is required when changing the board thickness in known machines.
  • the invention has for its object to improve a device of the type described in such a way that when changing the board thickness setting as few adjustment paths are required on the device.
  • the horizontal distance between the knife edge and the printing edge has to be changed essentially proportionally with the board thickness setting.
  • This horizontal distance between the knife edge and the printing edge should be in the range between about 0.05 and 0.2 times the board thickness. Preferred distances are between 0.1 times and 0.15 times the board thickness. If a constant factor is used in this respect, it can be achieved by an inclined adjustment according to the invention that when the board thickness setting of the device is changed, the distance between the knife edge and the printing edge is automatically adjusted accordingly. This results in adjustment angles in the range between approximately 3 and 15 degrees, preferably between 5 and 12 degrees.
  • the wedge angle of a conventional knife is about 20 degrees, and this wedge angle forms the discharge angle of the separated board, a separate setting of the discharge channel between the discharge surface and the support surface can be avoided if the adjustment angle corresponds to approximately half the discharge angle, which is the case with a knife wedge angle of 20 ° corresponds to an angle of 10 °, which falls within the preferred range for the adjustment angle.
  • the direction of adjustment runs along the bisector of the obtuse angle between the support surface and the discharge surface.
  • An adjustment in this direction has the effect that the vertical distance between the guide surface and the knife edge plane is changed in the same absolute amount as the distance between the discharge surface and the support surface of the discharge channel.
  • a separate adjustment of the width of the discharge channel can thus be omitted.
  • the inclined adjustment according to the invention between the knife and the guide surface can take place both by an adjustment of the support table carrying the guide surface and by a corresponding adjustment of the knife carrier.
  • FIG. 1 The section shown in FIG. 1 from a device for cutting a thin board from a square timber shows a support table construction 2 of the device, which is provided on its upper side with a horizontal guide surface 4 for a square timber 6.
  • the support table construction 2 is shown broken off along the line 8 below, where a (not shown in detail) fixed machine frame connects.
  • the device has a knife carrier construction 10, which is shown broken off along the line 12 and is likewise connected here to the most stationary machine frame (not shown).
  • a knife 14 with a knife edge 16 and a knife back 18 rests on the knife carrier construction 10 in a horizontal arrangement.
  • the squared timber 6 is pressed against the guide surface 4 and the knife back 18 by means of pressure means (not shown) and in one conveying direction by means of feed means (not shown). which is indicated by the arrow 20, moved against the knife edge 16, a board 22 being separated from the squared timber 6.
  • the conveying direction 20 does not extend in the drawing plane, but in the horizontal direction at an acute angle to Plane level, since the knife edge 16 in turn forms an acute angle with the conveying direction 20 in the device.
  • the squared timber 6 has been shown as if it were moving to the right along the arrow 20 in the plane of the drawing.
  • the squared timber 6 rests on the guide surface 4 before the board 22 is cut off, while the squared timber reduced in thickness by the thickness of the board 22 continues on the back 18 of the knife 14.
  • the knife edge 16 lies in a plane parallel to the guide surface 4 24, whose vertical distance from the guide surface 4 corresponds to the thickness of the board 22 between its main surfaces.
  • the knife weeps between its back 18 and a wedge surface 25 a knife angle ⁇ , which in the exemplary embodiment is 20 °.
  • the wedge surface 26 is at the same time a deflecting surface for the separated board 22, which is thus discharged obliquely downwards at a diverting angle to the guide surface 4, which corresponds to the knife angle ⁇ .
  • a component 28 is connected to the support table construction 2 on its side facing the knife 14, which is provided on its upper side with a pressure edge 30 which generally protrudes somewhat upwards over the guide surface 4 and thus presses into the squared timber 6.
  • the printing edge also runs perpendicular to the plane of the drawing and parallel to the knife edge 16.
  • the line 32 runs as normal to the guide surface 4 through the knife edge 16, while the perpendicular line parallel thereto 34 runs through the printing edge 30. The distance s between the lines 32 and 34 is thus the distance between the knife edge 16 and the pressure edge 30 in the horizontal direction.
  • a line 36 is also shown, which extends at an angle ⁇ to the normal 32 on the guide surface 4. This line 36 belongs to a plane that runs through the knife edge 16 and the pressure edge 30 in the exemplary embodiment.
  • the support table structure 2 is provided with height adjustment means 38, only shown schematically, with which a movable part 40 of the Support table construction together with the guide surface 4 and the pressure edge 30 can be adjusted along a plane 44 relative to a part 42 of the support table construction which is fixed to the frame.
  • This plane 44 runs parallel to the plane which contains the line 36, which thus forms an adjustment plane in which the pressure edge 30 can be changed at an angle ⁇ as the adjustment angle and with it the guide surface 4 for adjusting the board thickness of the machine in its height.
  • the guide surface 4 and the pressure edge 30 are raised to such an extent that the pressure edge is located on the knife edge 16. If the pressure edge 30 is lowered along the line 36 inclined by the angle ⁇ in this embodiment, the horizontal distance between the knife edge 16 and the pressure edge 30 increases in proportion to the increasing board thickness distance between the plane 24 and the guide surface 4.
  • the adjustment plane 36 running through the pressure edge 30 also runs through the knife edge 16, so that the pressure edge 30 and the knife edge 16 coincide approximately when adjusted to the same height
  • the adjustment plane 36 can rather also be placed so that it does not run through the knife edge 16, so that when the pressure edge 30 is raised to the level of the knife edge 16 there is still a certain horizontal distance s between the knife edge and the pressure edge.
  • the particular choice of the adjustment angle ⁇ and the position of the adjustment plane 36 is left to the choice of the person skilled in the art.
  • the adjustment angle ⁇ is chosen such that it is half the discharge angle ⁇ , the line 36 forms the bisector of the obtuse angle between the guide surface 4 and the support surface 50. Under this condition, an adjustment of the pressure edge 30 along the adjustment plane 36 leads to the same Distance changes between the plane 24 and the guide surface 4 on the one hand and the discharge surface 26 and the support surface 50 on the other hand, so that the thickness of the discharge channel for the separated board 22 is automatically adapted to the cut board thickness. In practice, certain deviations from the exact geometric compliance with these conditions may be permissible. In the exemplary embodiment, the adjustment angle is approximately 7-8 °.
  • a wedge element 52 is also arranged under the component 28, which carries the pressure edge 30.
  • a view perpendicular to the plane of the drawing in FIG. 1 is shown in FIG. 3.
  • adjusting screws 54 are provided with which the wedge element 52 can be displaced in its longitudinal direction, thereby causing a slight height adjustment of the pressure edge 30.
  • the spindles or set screws 54 could, for example, also be replaced by a hydraulic actuating cylinder acting on the wedge element 52.
  • elongated screw connections 56 which have to be loosened for the height adjustment of the component 28 and tightened again after its adjustment in order to firmly lock the component 28 with the pressure edge 30 on the support table construction 2.
  • positive guides eg dovetail guides, these screw connections could also be omitted.
  • the device for cutting boards from a single machine adjustment by means of the height adjustment means 38 can be adjusted to practically all conditions of a changed board thickness.
  • a relative adjustment of the pressure edge 30 with respect to the guide surface 4 is not necessary in every case and can, if necessary, be carried out in a simple manner by moving the wedge element 52.
  • FIG. 2 differs from that of FIG. 1 only in that instead of the height adjustment means 38 in the support table construction 2 corresponding height adjustment means 58 are provided with an inclined plane 60, with the aid of which the knife 14 can now be adjusted in height along the adjustment plane 36 ,
  • the adjustment plane runs through the knife edge 16, but does not necessarily have to run through the pressure edge 30.
  • the conditions are otherwise the same as in the embodiment in FIG. 1.
  • a guide plate 62 is also provided on the knife support structure 10 for guiding the separated board 22.

Abstract

In an apparatus for cutting thin planks (22) from squared timber (6) which is moved on a guide face (4) against the cutting edge (16) of a knife (14), the adjustment of the distance between the guide face (4) and the plane (24) parallel to the latter and running through the knife cutting edge (16), and hence the setting of the apparatus to different plank thicknesses to be produced is performed by relative adjustment of the knife cutting edge (16) with respect to the guide face (4) in an inclined plane (36) forming an acute adjustment angle ( alpha ) with a normal (32) to the guide face (4). As a result of this arrangement, the distance between the knife cutting edge (16) and a counterpressure edge (30) is automatically adapted in the cutting direction if the plank-thickness setting of the apparatus is altered. Furthermore, in a preferred embodiment it is possible with this one adjustment also for the width of the discharge channel (between the faces 26 and 50) for the cut plank (22) to be simultaneously set to the new thickness. <IMAGE>

Description

Die Erfindung betrifft eine Vorrichtung zum schneidenden Abtrennen eines dünnen Brettes von einem Kantholz nach dem Oberbegriff des Patentanspruches 1.The invention relates to a device for cutting a thin board from a squared timber according to the preamble of claim 1.

Eine Anordnung dieser Art ist beispielsweise in der DE-A-39 26 396 beschrieben, auf die in diesem Zusammenhang ausdrücklich ergänzend Bezug genommen wird.An arrangement of this type is described, for example, in DE-A-39 26 396, to which reference is expressly made in this connection.

Die Führungsfläche, gegen die ein zu verarbeitendes Kantholz angedrückt wird, während es in seiner Längsrichtung als Förderrichtung gegen das nachgeordnete Messer vorgetrieben wird, kann grundsätzlich in beliebiger Ausrichtung angeordnet sein. Es hat sich jedoch als zweckmäßig erwiesen, die Führungsfläche waagerecht anzuordnen, so daß das Kantholz auf ihr aufliegt, während es gegen das Messer vorgeschoben wird.The guide surface against which a squared timber to be processed is pressed while it is driven in its longitudinal direction as the conveying direction against the downstream knife can in principle be arranged in any orientation. However, it has proven to be expedient to arrange the guide surface horizontally so that the squared timber rests on it while it is being pushed against the knife.

Ein Messer muß notwendigerweise einen von der Messerschneide ausgehenden endlichen Keilwinkel aufweisen, weswegen ein von einem Kantholz schneidend abgetrenntes Brett nicht ebenfalls in Richtung der Vorschubbewegung des Kantholzes abgezogen werden kann, sondern entsprechend dem Keilwinkel des Messers schräg seitlich abgeführt werden muß. Das Messer kann nun so in der Vorrichtung angeordnet sein, daß sein im wesentlichen glatter Messerrücken im Abstand parallel zur Führungsfläche verläuft und eine weitere Auflage für das um das abgeschnittene Brett in seiner Dicke verminderte Kantholz bildet, wobei dann die Keilfläche des Messers als Ableitfläche für das abgetrennte Brett dient. Im Sinne dieser Beschreibung ist der spitze Winkel, unter dem die keilförmige Ableitfläche des Messers zum Messerrücken bzw. zur Führungsfläche verläuft, als Ableitwinkel bezeichnet. Der Messereinbau kann grundsätzlich aber auch umgekehrt sein, so daß die Keilfläche des Messers parallel zur Führungsfläche verläuft und eine weitere Auflage für das in seiner Dicke verminderte Kantholz bildet, und der Messerrücken als Ableitfläche dient. Bei einer solchen Anordnung ist jedoch im allgemeinen in Fortsetzung der Keilfläche des Messers eine in gleicher Ebene liegende Auflagefläche für das reduzierte Kantholz am Messerträger vorzusehen, so daß das Kantholz auch bei seiner weiteren Vorschubbewegung hinter dem Messer genügend unterstützt ist.A knife must necessarily have a finite wedge angle starting from the knife edge, which is why a board that has been cut from a squared timber cannot also be pulled off in the direction of the feed movement of the squared timber, but must be discharged laterally according to the wedge angle of the knife. The knife can now be arranged in the device so that its substantially smooth knife back runs parallel to the guide surface at a distance and forms a further support for the squared timber reduced in thickness by the cut board, the wedge surface of the knife then serving as a discharge surface for the detached board serves. In the spirit of this Description is the acute angle at which the wedge-shaped deflection surface of the knife runs to the back of the knife or to the guide surface, referred to as the deflection angle. The installation of the knife can in principle also be reversed, so that the wedge surface of the knife runs parallel to the guide surface and forms a further support for the squared timber, which is reduced in thickness, and the back of the knife serves as a discharge surface. With such an arrangement, however, in general, in continuation of the wedge surface of the knife, a support surface lying in the same plane for the reduced squared timber is to be provided on the knife carrier, so that the squared timber is sufficiently supported in its further advancing movement behind the knife.

An der dem Messer gegenüberliegenden Seite des Kantholzes weisen Vorrichtungen der hier betroffenen Art eine Andruckeinrichtung auf, mit der das Kantholz gegen die Führungsfläche und das Messer angedrückt wird, außerdem sind Vorschubmittel vorgesehen, mit deren Hilfe das Kantholz in Förderrichtung gegen das Messer vorgetrieben wird. Diese nicht unmittelbar von der vorliegenden Erfindung betroffenen Teile einer gattungsgemäßen Vorrichtung werden als bekannt und dem Fachmann geläufig vorausgesetzt.On the side of the squared timber opposite the knife, devices of the type concerned here have a pressure device with which the squared timber is pressed against the guide surface and the knife, and feed means are also provided, with the aid of which the squared timber is driven against the knife in the conveying direction. These parts of a generic device not directly affected by the present invention are known and assumed to be familiar to the person skilled in the art.

Es wird diesbezüglich beispielsweise auf die DE-A-40 38 486 verwiesen.In this regard, reference is made, for example, to DE-A-40 38 486.

Die am Ende der Führungsfläche angeordnete und dem Messer vorgelagerte Druckkante, die sich im allgemeinen etwas über die Führungsfläche erhebt, dient dazu, einen zusätzlichen Gegendruck auf das Kantholz auszuüben, der ein unkontrolliertes Abspalten des Brettes durch das Messer verhindern soll. Da das Kantholz allgemein gegen die Führungsfläche und den Messerrücken angedrückt wird, drückt sich die vorstehende Druckkante etwas in das Holz ein. Da diese Eindrückung aber wegen der zumindest teilweise elastischen Eigenschaften des Holzes nach Abtrennen des Brettes sich im wesentlichen wieder zurückbildet, wird die Dicke des Brettes im wesentlichen durch den Abstand zwischen der Führungsfläche und der durch die Messerschneide verlaufenden zur Führungsfläche parallelen Ebene bestimmt.The pressure edge arranged at the end of the guide surface and upstream of the knife, which generally rises somewhat above the guide surface, serves to exert an additional counterpressure on the squared timber, which is an uncontrolled one The knife should prevent the board from splitting off. Since the squared timber is generally pressed against the guide surface and the back of the knife, the protruding pressure edge is pressed somewhat into the timber. However, since this indentation essentially regresses after the board has been cut off due to the at least partially elastic properties of the wood, the thickness of the board is essentially determined by the distance between the guide surface and the plane parallel to the guide surface running through the knife edge.

Die Dicke eines abzutrennenden Brettes wird dadurch vorgewählt, daß der Abstand zwischen der Führungsfläche und der die Messerschneide enthaltenden Ebene in der Weise verändert wird, daß beispielsweise bei einer Maschine mit horizontal verlaufender Führungsfläche entweder ein die Führungsfläche tragender Stütztisch oder der Messerträger in einer Richtung senkrecht zur Führungsfläche relativ zum ortsfesten Maschinengestell verstellt wird. Bei horizontaler Anordnung der Führungsfläche handelt es sich dabei um eine reine Höhenverstellung einer dieser beiden Maschinenbaugruppen.The thickness of a board to be separated is preselected by changing the distance between the guide surface and the plane containing the knife edge in such a way that, for example, in a machine with a horizontally running guide surface, either a support table carrying the guide surface or the knife carrier in a direction perpendicular to Guide surface is adjusted relative to the stationary machine frame. When the guide surface is arranged horizontally, this is a pure height adjustment of one of these two machine assemblies.

Zur Vereinfachung der Beschreibung wird im folgenden von einer Maschine ausgegangen, die einen Stütztisch mit horizontaler Führungsfläche für das Kantholz aufweist.To simplify the description, a machine is assumed below which has a support table with a horizontal guide surface for the squared timber.

Die der Führungsfläche vorgelagerte Druckkante ist, wie bereits erwähnt, parallel verlaufend der Messerschneide vorgelagert. Das heißt, daß die senkrechte Projektion der Messerschneide auf die verlängert gedachte Führungsfläche einen gewissen horizontalen Abstand von der Druckkante aufweist. Zum Einhalten optimaler und gleichbleibender Schneidbedingungen muß dieser horizontale Abstand je nach Dicke der zu erzeugenden Bretter in der Weise verändert werden, daß er mit zunehmender Brettdicke vergrößert wird, damit das in Abtrennung begriffene Brett mit ausreichendem Biegeradius in seine Ableitrichtung überführt werden kann. Andererseits soll die Druckkante möglichst nahe am Messer liegen, um den bereits erwähnten Spalteffekt zu vermeiden. Es ist daher bei einer veränderten Dickeneinstellung zusätzlich erforderlich, auch den Horizontalabstand zwischen Messerschneide und Druckkante zu verändern. Schließlich kann es bei geänderter Dickeneinstellung auch erforderlich sein, die Erhebung der Druckkante über die Führungsfläche ebenfalls zu verändern, so daß insgesamt drei Verstellwege an der Maschine notwendig sein können, um diese auf eine geänderte Brettdicke einzurichten.The pressure edge upstream of the guide surface is, as already mentioned, upstream of the knife edge. This means that the vertical projection of the knife edge onto the elongated guide surface has a certain effect has a horizontal distance from the printing edge. In order to maintain optimal and constant cutting conditions, this horizontal distance must be changed depending on the thickness of the boards to be produced in such a way that it increases with increasing board thickness so that the board being separated can be transferred with sufficient bending radius in its direction of discharge. On the other hand, the printing edge should be as close as possible to the knife in order to avoid the already mentioned splitting effect. When changing the thickness setting, it is therefore also necessary to change the horizontal distance between the knife edge and the printing edge. Finally, when the thickness setting is changed, it may also be necessary to also change the elevation of the pressure edge above the guide surface, so that a total of three adjustment paths on the machine may be necessary in order to set this up to a changed board thickness.

Da bei Vorrichtungen der hieb betroffenen Art die Messerschneide im allgemeinen unter einem spitzen Winkel zur Förderrichtung des Holzes liegt, erfährt das jeweils abgetrennte Brett bei seinem seitlichen Abführen entlang der Ableitfläche zusätzlich eine Verwindung. Es wurde gefunden, daß auf zusätzliche Richteinrichtungen zum Rückgängigmachen dieser Verwindung allgemein verzichtet werden kann, wenn der Ableitfläche hinter der Druckkante im Abstand der Brettdicke eine Stützfläche gegenübergestellt wird, die zusammen mit der Ableitfläche einen Kanal zum Abführen des abgetrennten Brettes bildet, der zumindest eine gewisse Strecke hinter der Messerschneide bzw. der Druckkante einnimmt. Da der Ableitkanal unter einem Winkel zur Führungsfläche verläuft, wird bei einer Einrichtung der Maschine auf eine andere Brettdicke durch Höhenverstellung beispielsweise der Führungsfläche die Höhenänderung nicht in absoluter Größe auf den Abstand zwischen Ableitfläche und Stützfläche übertragen, so daß bei Einrichtung der Maschine auf eine andere Dicke auch der Ableitkanal für das abgetrennte Brett durch Änderung des Abstandes der Stützfläche von der Ableitfläche speziell eingestellt werden muß. Dies wäre eine vierte Verstellung, die bei Änderung der Brettdicke bei bekannten Maschinen erforderlich ist.Since the cutting edge of devices of the type in question is generally at an acute angle to the direction of conveyance of the wood, the board which is separated in each case also undergoes a twist when it is removed laterally along the discharge surface. It has been found that additional straightening devices for reversing this twisting can generally be dispensed with if the deflecting surface behind the pressure edge at a distance of the board thickness is compared with a supporting surface which, together with the deflecting surface, forms a channel for discharging the separated board, which at least has a certain amount Distance behind the knife edge or the printing edge. Since the discharge channel runs at an angle to the guide surface, the machine is set to a different board thickness by adjusting the height For example, the guide surface does not transfer the change in height in absolute size to the distance between the discharge surface and the support surface, so that when the machine is set up to a different thickness, the discharge channel for the separated board must also be adjusted by changing the distance of the support surface from the discharge surface. This would be a fourth adjustment, which is required when changing the board thickness in known machines.

Der Erfindung liegt die Aufgabe zugrunde, eine Vorrichtung der eingangs beschriebenen Art in der Weise zu verbessern, daß bei Änderung der Brettdickeneinstellung möglichst wenige Verstellwege an der Vorrichtung erforderlich sind.The invention has for its object to improve a device of the type described in such a way that when changing the board thickness setting as few adjustment paths are required on the device.

Diese Aufgabe wird allgemein durch die kennzeichnenden Merkmale des Patentanspruches 1 gelöst.This object is generally achieved by the characterizing features of patent claim 1.

Es hat sich nämlich herausgestellt, daß der horizontale Abstand zwischen Messerschneide und Druckkante im wesentlichen proportional mit der Brettdickeneinstellung verändert werden muß. Dabei soll dieser horizontale Abstand zwischen Messerschneide und Druckkante im Bereich zwischen etwa dem 0,05-fachen und dem 0,2-fachen der Brettdicke liegen. Bevorzugte Abstände liegen zwischen dem 0,1-fachen und dem 0,15-fachen der Brettdicke. Wird mit einem konstanten Faktor in dieser Beziehung gearbeitet, kann durch eine erfindungsgemäße Schrägverstellung erreicht werden, daß bei Veränderung der Brettdickeneinstellung der Vorrichtung automatisch auch der Abstand zwischen Messerschneide und Druckkante entsprechend richtig angepaßt wird. Hierbei ergeben sich Verstellwinkel im Bereich zwischen etwa 3 und 15 Winkelgraden, bevorzugt zwischen 5 und 12 Winkelgraden.It has been found that the horizontal distance between the knife edge and the printing edge has to be changed essentially proportionally with the board thickness setting. This horizontal distance between the knife edge and the printing edge should be in the range between about 0.05 and 0.2 times the board thickness. Preferred distances are between 0.1 times and 0.15 times the board thickness. If a constant factor is used in this respect, it can be achieved by an inclined adjustment according to the invention that when the board thickness setting of the device is changed, the distance between the knife edge and the printing edge is automatically adjusted accordingly. This results in adjustment angles in the range between approximately 3 and 15 degrees, preferably between 5 and 12 degrees.

Da der Keilwinkel eines üblichen Messers bei etwa 20 Winkelgraden liegt, und dieser Keilwinkel den Ableitwinkel des abgetrennten Brettes bildet, läßt sich zusätzlich eine getrennte Einstellung des Ableitkanales zwischen Ableitfläche und Stützfläche vermeiden, wenn der Verstellwinkel in etwa dem halben Ableitwinkel entspricht, was bei einem Messerkeilwinkel von 20° einem Winkel von 10° entspricht, der in den bevorzugten Bereich für den Verstellwinkel fällt. In diesem Fall verläuft nämlich die Verstellrichtung entlang der Winkelhalbierenden des stumpfen Winkels zwischen der Stützfläche und der Ableitfläche. Eine Verstellung in dieser Richtung bewirkt, daß der senkrechte Abstand zwischen Führungsfläche und Messerschneidenebene im gleichen Absolutbetrag Verändert wird wie der Abstand zwischen Ableitfläche und Stützfläche des Ableitkanales. Eine getrennte Einstellung der Weite des Ableitkanales kann damit entfallen.Since the wedge angle of a conventional knife is about 20 degrees, and this wedge angle forms the discharge angle of the separated board, a separate setting of the discharge channel between the discharge surface and the support surface can be avoided if the adjustment angle corresponds to approximately half the discharge angle, which is the case with a knife wedge angle of 20 ° corresponds to an angle of 10 °, which falls within the preferred range for the adjustment angle. In this case, namely, the direction of adjustment runs along the bisector of the obtuse angle between the support surface and the discharge surface. An adjustment in this direction has the effect that the vertical distance between the guide surface and the knife edge plane is changed in the same absolute amount as the distance between the discharge surface and the support surface of the discharge channel. A separate adjustment of the width of the discharge channel can thus be omitted.

Auf diese Weise können drei unterschiedliche, bei der Brettdickenverstellung der Vorrichtung erforderliche Verstellwege in einer einzigen Maschinenverstellung zusammengefaßt werden. Lediglich der Vorstand der Druckkante über die Führungsfläche bedarf erforderlichenfalls einer getrennten Nachstellung. Diese kann jedoch in bevorzugter Ausführungsform sehr einfach erfolgen, indem die Druckkante auf einem sich in ihrer Längsrichtung erstreckenden Keilelement gelagert wird, so daß eine relative Längsverschiebung zwischen der Druckkante und diesem Keilelement zu einer Höhenänderung der Druckkante führt. Diese Verstellung kann durch einen einfachen seitlichen Spindelantrieb oder einen Betätigungszylinder erfolgen, da bei entsprechend flachem Winkel des Keilelementes verhältnismäßig große Verstellwege nur eine geringe Höhenveränderung der Druckkante bewirken.In this way, three different adjustment paths required for the board thickness adjustment of the device can be combined in a single machine adjustment. Only the board of directors of the printing edge above the guide surface needs a separate adjustment if necessary. In a preferred embodiment, however, this can be done very simply by mounting the pressure edge on a wedge element extending in its longitudinal direction, so that a relative longitudinal displacement between the pressure edge and this wedge element leads to a change in the height of the pressure edge. This adjustment can be done by a simple lateral spindle drive or an actuating cylinder, since at a correspondingly flat angle Wedge element relatively large adjustment only cause a small change in height of the printing edge.

Die erfindungsgemäße Schrägverstellung zwischen Messer und Führungsfläche kann sowohl durch eine Verstellung des die Führungsfläche tragenden Stütztisches wie auch durch eine entsprechende Verstellung des Messerträgers erfolgen.The inclined adjustment according to the invention between the knife and the guide surface can take place both by an adjustment of the support table carrying the guide surface and by a corresponding adjustment of the knife carrier.

Im folgenden werden die geometrischen Zusammenhänge anhand von beigefügten Zeichnungen, die den hier betroffenen Bereich der Vorrichtung betreffen, im einzelnen noch näher erläutert Es stellen dar:

Fig. 1
eine Anordnung für eine Vorrichtung zum schneidenden Abtrennen eines dünnen Brettes von einem Kantholz, bei der der die Kantholzführungsfläche aufweisende Stütztisch in schräger Richtung höhenverstellbar ist,
Fig. 2
eine entsprechende Anordnung, bei der der Messerträger in schräger Richtung höhenversteilbar ist, und
Fig. 3
eine Schnittansicht der Höhenverstellbarkeit der Druckkante.
The geometric relationships are explained in more detail below with reference to the attached drawings, which relate to the area of the device concerned here.
Fig. 1
an arrangement for a device for cutting a thin board from a squared timber, in which the support table having the squared timber guide surface is height-adjustable in an oblique direction,
Fig. 2
a corresponding arrangement in which the knife carrier is height-adjustable in an oblique direction, and
Fig. 3
a sectional view of the height adjustability of the printing edge.

Der in Fig. 1 dargestellte Ausschnitt aus einer Vorrichtung zum schneidenden Abtrennen eines dünnen Brettes von einem Kantholz zeigt eine Stütztischkonstruktion 2 der Vorrichtung, die an ihrer Oberseite mit einer horizontalen Führungsfläche 4 für ein Kantholz 6 versehen ist. Die Stütztischkonstruktion 2 ist unten entlang der Linie 8 abgebrochen gezeichnet, wo sich ein (im einzelnen nicht dargestelltes) ortsfestes Maschinengestell anschließt.The section shown in FIG. 1 from a device for cutting a thin board from a square timber shows a support table construction 2 of the device, which is provided on its upper side with a horizontal guide surface 4 for a square timber 6. The support table construction 2 is shown broken off along the line 8 below, where a (not shown in detail) fixed machine frame connects.

Als weitere Baugruppe weist die Vorrichtung eine Messerträgerkonstruktion 10 auf, die entlang der Linie 12 abgebrochen dargestellt ist und hier ebenfalls mit dem (nicht dargestellten) ortstesten Maschinengestell verbunden ist.As a further assembly, the device has a knife carrier construction 10, which is shown broken off along the line 12 and is likewise connected here to the most stationary machine frame (not shown).

Auf der Messerträgerkonstruktion 10 ruht in horizontaler Anordnung ein Messer 14 mit einer Messerschneide 16 und einem Messerrücken 18. Das Kantholz 6 wird durch (nicht dargestellte) Andruckmittel gegen die Führungsfläche 4 und den Messerrücken 18 angedrückt und durch (nicht dargestellte) Vorschubmittel in einer Förderrichtung, die durch den Pfeil 20 angedeutet ist, gegen die Messerschneide 16 bewegt, wobei ein Brett 22 vom Kantholz 6 abgetrennt wird.A knife 14 with a knife edge 16 and a knife back 18 rests on the knife carrier construction 10 in a horizontal arrangement. The squared timber 6 is pressed against the guide surface 4 and the knife back 18 by means of pressure means (not shown) and in one conveying direction by means of feed means (not shown). which is indicated by the arrow 20, moved against the knife edge 16, a board 22 being separated from the squared timber 6.

Wenn man in der zeichnerischen Darstellung davon ausgeht, daß die Messerschneide 16 bei dem im wesentlichen im Schnitt schematisch dargestellten Vorrichtungsteil senkrecht zur Zeichenebene der Fig 1 verläuft, so erstreckt sich die Förderrichtung 20 nicht in der Zeichenebene, sondern in horizontaler Richtung unter einem spitzen Winkel zur Zeichenebene, da die Messerschneide 16 in der Vorrichtung ihrerseits einen spitzen Winkel mit der Förderrichtung 20 bildet. Der Einfachheit halber ist das Kantholz 6 jedoch so dargestellt worden, als bewege es sich entlang dem Pfeil 20 in der Zeichenebene nach rechts.If one assumes in the drawing that the knife edge 16 in the device part shown essentially schematically in section runs perpendicular to the drawing plane of FIG. 1, the conveying direction 20 does not extend in the drawing plane, but in the horizontal direction at an acute angle to Plane level, since the knife edge 16 in turn forms an acute angle with the conveying direction 20 in the device. For the sake of simplicity, however, the squared timber 6 has been shown as if it were moving to the right along the arrow 20 in the plane of the drawing.

Es ist erkennbar, daß das Kantholz 6 vor Abtrennen des Brettes 22 auf der Führungsfläche 4 aufliegt, während das um die Dicke des Brettes 22 in seiner Dicke verminderte Kantholz auf dem Rücken 18 des Messers 14 weitergeführt wird. Die Messerschneide 16 liegt in einer zur Führungsfläche 4 parallelen Ebene 24, deren senkrechter Abstand von der Führungsfläche 4 der Dicke des Brettes 22 zwischen dessen Hauptflächen entspricht. Ausgehend von seiner Schneide 16 weint das Messer zwischen seinem Rücken 18 und einer Keilfläche 25 einen Messerwinkel β auf, der im Ausführungsbeispiel 20° beträgt. Die Keilfläche 26 ist gleichzeitig Ableitfläche für das abgetrennte Brett 22, weiches somit unter einem Ableitwinkel zur Führungsfläche 4 schräg nach unten abgeführt wird, der dem Messerwinkel β entspricht.It can be seen that the squared timber 6 rests on the guide surface 4 before the board 22 is cut off, while the squared timber reduced in thickness by the thickness of the board 22 continues on the back 18 of the knife 14. The knife edge 16 lies in a plane parallel to the guide surface 4 24, whose vertical distance from the guide surface 4 corresponds to the thickness of the board 22 between its main surfaces. Starting from its cutting edge 16, the knife weeps between its back 18 and a wedge surface 25 a knife angle β, which in the exemplary embodiment is 20 °. The wedge surface 26 is at the same time a deflecting surface for the separated board 22, which is thus discharged obliquely downwards at a diverting angle to the guide surface 4, which corresponds to the knife angle β.

Mit der Stütztischkonstruktion 2 ist an deren dem Messer 14 zugewandten Seite ein Bauteil 28 verbunden, welches an seiner Oberseite mit einer Druckkante 30 versehen ist, die im allgemeinen etwas nach oben über die Führungsfläche 4 vorsteht und sich damit in das Kantholz 6 eindrückt. Unter der Annahme, daß die Messerschneide 16 senkrecht zur Zeichenebene verläuft, verläuft auch die Druckkante senkrecht zur Zeichenebene und parallel zur Messerschneide 16. In der zeichnerischen Darstellung verläuft die Linie 32 als Normale zur Führungsfläche 4 durch die Messerschneide 16, während die hierzu parallele senkrechte Linie 34 durch die Druckkante 30 verläuft. Der Abstand s zwischen den Linien 32 und 34 ist somit der Abstand zwischen der Messerschneide 16 und der Druckkante 30 in horizontaler Richtung. Es ist ferner eine Linie 36 dargestellt, die unter einem Winkel α zur Normalen 32 auf die Führungsfläche 4 verläuft. Diese Linie 36 gehört einer Ebene an, die beim Ausführungsbeispiel durch die Messerschneide 16 und die Druckkante 30 verläuft.A component 28 is connected to the support table construction 2 on its side facing the knife 14, which is provided on its upper side with a pressure edge 30 which generally protrudes somewhat upwards over the guide surface 4 and thus presses into the squared timber 6. Assuming that the knife edge 16 runs perpendicular to the plane of the drawing, the printing edge also runs perpendicular to the plane of the drawing and parallel to the knife edge 16. In the drawing, the line 32 runs as normal to the guide surface 4 through the knife edge 16, while the perpendicular line parallel thereto 34 runs through the printing edge 30. The distance s between the lines 32 and 34 is thus the distance between the knife edge 16 and the pressure edge 30 in the horizontal direction. A line 36 is also shown, which extends at an angle α to the normal 32 on the guide surface 4. This line 36 belongs to a plane that runs through the knife edge 16 and the pressure edge 30 in the exemplary embodiment.

Die Stütztischkonstruktion 2 ist mit nur schematisch dargestellten Höheneinstellmitteln 38 versehen, mit denen sich ein beweglicher Teil 40 der Stütztischkonstruktion zusammen mit der Führungsfläche 4 und der Druckkante 30 gegenüber einem gestellfesten Teil 42 der Stütztischkonstruktion entlang einer Ebene 44 verstellen läßt. Diese Ebene 44 verläuft parallel zu derjenigen Ebene, welche die Linie 36 enthält, die somit eine Verstellebene bildet, in der die Druckkante 30 unter dem Winkel α als Verstellwinkel und mit ihr die Führungsfläche 4 zur Brettdickeneinstellung der Maschine in ihrer Höhenlage verändert werden kann.The support table structure 2 is provided with height adjustment means 38, only shown schematically, with which a movable part 40 of the Support table construction together with the guide surface 4 and the pressure edge 30 can be adjusted along a plane 44 relative to a part 42 of the support table construction which is fixed to the frame. This plane 44 runs parallel to the plane which contains the line 36, which thus forms an adjustment plane in which the pressure edge 30 can be changed at an angle α as the adjustment angle and with it the guide surface 4 for adjusting the board thickness of the machine in its height.

Wird die Brettdickeneinstellung auf Null reduziert, werden die Führungsfläche 4 und die Druckkante 30 soweit angehoben, daß sich die Druckkante an der Messerschneide 16 befindet. Wird die Druckkante 30 bei dieser Ausführungsform entlang der um den Winkel α geneigten Linie 36 abgesenkt, so vergrößert sich der horizontale Abstand zwischen der Messerschneide 16 und der Druckkante 30 proportional zum zunehmenden Brettdickenabstand zwischen der Ebene 24 und der Führungsfläche 4.If the board thickness setting is reduced to zero, the guide surface 4 and the pressure edge 30 are raised to such an extent that the pressure edge is located on the knife edge 16. If the pressure edge 30 is lowered along the line 36 inclined by the angle α in this embodiment, the horizontal distance between the knife edge 16 and the pressure edge 30 increases in proportion to the increasing board thickness distance between the plane 24 and the guide surface 4.

Es ist nicht unbedingt erforderlich, daß die durch die Druckkante 30 verlaufende Verstellebene 36 auch durch die Messerschneide 16 verläuft, so daß die Druckkante 30 und die Messerschneide 16 bei Einstellung auf gleiche Höhenlage in etwa zusammenfallen, die Verstellebene 36 kann vielmehr auch so gelegt werden, daß sie nicht durch die Messerschneide 16 verläuft, so daß bei Anheben der Druckkante 30 auf das Höhenniveau der Messerschneide 16 noch ein gewisser horizontaler Abstand s zwischen der Messerschneide und der Druckkante verbleibt. Die spezielle Wahl des Verstellwinkels α und der Lage der Verstellebene 36 ist der Wahl des Fachmannes überlassen.It is not absolutely necessary that the adjustment plane 36 running through the pressure edge 30 also runs through the knife edge 16, so that the pressure edge 30 and the knife edge 16 coincide approximately when adjusted to the same height, the adjustment plane 36 can rather also be placed so that it does not run through the knife edge 16, so that when the pressure edge 30 is raised to the level of the knife edge 16 there is still a certain horizontal distance s between the knife edge and the pressure edge. The particular choice of the adjustment angle α and the position of the adjustment plane 36 is left to the choice of the person skilled in the art.

In der Darstellung der Fig. 1 befindet sich rechts von dem die Druckkante 30 aufweisenden Bauteil 28 noch ein Bauteil 48, welches an seiner Oberseite mit einer schrägen Stützfläche 50 versehen ist, die parallel zur Ableitfläche 26 verläuft und mit dieser zusammen eigen Ableitkanal für dar abgetrennte Brett 22 bildet. Wird der Verstellwinkel α derart gewählt, daß er die Hälfte des Ableitwinkels β beträgt, so bildet die Linie 36 die Winkelhalbierende des stumpfen Winkels zwischen der Führungsfläche 4 und der Stützfläche 50. Unter dieser Bedingung führt eine Verstellung der Druckkante 30 entlang der Verstellebene 36 zu gleichen Abstandsänderungen zwischen der Ebene 24 und der Führungsfläche 4 einerseits und der Ableitfläche 26 und der Stützfläche 50 andererseits, so daß der Ableitkanal für das abgetrennte Brett 22 in seiner Dicke automatisch der geschnittenen Brettdicke angepaßt wird. Gewisse Abweichungen von der genauen geometrischen Einhaltung dieser Bedingungen können in der Praxis zulässig sein. Im Ausführungsbeispiel beträgt der Verstellwinkel etwa 7-8°.In the illustration in FIG. 1, to the right of the component 28 having the pressure edge 30, there is still a component 48 which is provided on its upper side with an oblique support surface 50 which runs parallel to the discharge surface 26 and together with this discharge duct for the separated one Board 22 forms. If the adjustment angle α is chosen such that it is half the discharge angle β, the line 36 forms the bisector of the obtuse angle between the guide surface 4 and the support surface 50. Under this condition, an adjustment of the pressure edge 30 along the adjustment plane 36 leads to the same Distance changes between the plane 24 and the guide surface 4 on the one hand and the discharge surface 26 and the support surface 50 on the other hand, so that the thickness of the discharge channel for the separated board 22 is automatically adapted to the cut board thickness. In practice, certain deviations from the exact geometric compliance with these conditions may be permissible. In the exemplary embodiment, the adjustment angle is approximately 7-8 °.

Unter dem Bauteil 28, welches die Druckkante 30 trägt, ist noch ein Keilelement 52 angeordnet. Eine Ansicht senkrecht zur Zeichenebene der Fig. 1 ist in Fig. 3 dargestellt. An den Enden des sich in Richtung der Druckkante 30 erstreckenden Keilelementes 52 sind Verstellschrauben 54 vorgesehen, mit denen sich das Keilelement 52 in seiner Längsrichtung verschieben läßt, wodurch eine geringfügige Höhenverstellung der Druckkante 30 bewirkt wird. Die Spindeln oder Stellschrauben 54 könnten beispielsweise auch durch einen am Keilelement 52 angreifenden hydraulischen Betätigungszylinder ersetzt werden. Im Ausführungsbeispiel der Fig. 3 sind noch Langlochverschraubungen 56 angedeutet, die zur Höhenverstellung des Bauteiles 28 gelöst und nach dessen Einstellung wieder angezogen werden müssen, um das Bauteil 28 mit der Druckkante 30 fest an der Stütztischkonstruktion 2 zu arretieren. Bei entsprechenden Zwangsführungen, z.B. Schwalbenschwanzführungen, könnten diese Verschraubungen auch entfallen.A wedge element 52 is also arranged under the component 28, which carries the pressure edge 30. A view perpendicular to the plane of the drawing in FIG. 1 is shown in FIG. 3. At the ends of the wedge element 52 extending in the direction of the pressure edge 30, adjusting screws 54 are provided with which the wedge element 52 can be displaced in its longitudinal direction, thereby causing a slight height adjustment of the pressure edge 30. The spindles or set screws 54 could, for example, also be replaced by a hydraulic actuating cylinder acting on the wedge element 52. in the 3 are still indicated elongated screw connections 56, which have to be loosened for the height adjustment of the component 28 and tightened again after its adjustment in order to firmly lock the component 28 with the pressure edge 30 on the support table construction 2. With corresponding positive guides, eg dovetail guides, these screw connections could also be omitted.

Aus der vorstehenden Darstellung ergibt sich, daß die Vorrichtung zum schneidenden Abtrennen von Brettern durch eine einzige Maschinenverstellung mittels der Höheneinstellmittel 38 auf praktisch alle Bedingungen einer geänderten Brettdicke eingestellt werden kann. Eine relative Verstellung der Druckkante 30 gegenüber der Führungsfläche 4 ist nicht in jedem Fall erforderlich und kann notfalls auf einfache Weise durch Verschieben des Keilelementes 52 erfolgen.From the above illustration it follows that the device for cutting boards from a single machine adjustment by means of the height adjustment means 38 can be adjusted to practically all conditions of a changed board thickness. A relative adjustment of the pressure edge 30 with respect to the guide surface 4 is not necessary in every case and can, if necessary, be carried out in a simple manner by moving the wedge element 52.

Die Anordnung der Fig. 2 unterscheidet sich von derjenigen der Fig. 1 nur dadurch, daß anstelle der Höheneinstellmittel 38 in der Stütztischkonstruktion 2 entsprechende Höheneinstellmittel 58 mit einer schrägen Ebene 60 vorgesehen sind, mit deren Hilfe nunmehr das Messer 14 entlang der Verstellebene 36 höhenverstellbar ist, wobei hier die Verstellebene durch die Messerschneide 16 verläuft, aber nicht unbedingt durch die Druckkante 30 verlaufen muß. Die Verhältnisse sind im übrigen die gleichen wie bei der Ausführungsform der Fig. 1.The arrangement of FIG. 2 differs from that of FIG. 1 only in that instead of the height adjustment means 38 in the support table construction 2 corresponding height adjustment means 58 are provided with an inclined plane 60, with the aid of which the knife 14 can now be adjusted in height along the adjustment plane 36 , Here the adjustment plane runs through the knife edge 16, but does not necessarily have to run through the pressure edge 30. The conditions are otherwise the same as in the embodiment in FIG. 1.

Sowohl in Fig. 1 wie auch in Fig. 2 ist an der Messerträgerkonstruktion 10 noch ein Leitblech 62 für die Führung des abgetrennten Brettes 22 vorgesehen.Both in FIG. 1 and in FIG. 2, a guide plate 62 is also provided on the knife support structure 10 for guiding the separated board 22.

Claims (9)

  1. A device for cutting separation of a thin board from squared timber, comprising:
    - a guide surface (4), along which the squared timber can be fed in its longitudinal direction as conveying direction,
    - a cutting blade (14) arranged downstream of the guide surface (4) when viewed in the conveying direction, the cutting edge (16) of which cutting blade (14) is arranged at an angle to the conveying direction in a plane (24) which runs in parallel with the guide surface (4) at an adjustable distance corresponding substantially to the thickness of the board to be separated,
    - a pressure edge (30) running parallel to the cutting edge (16) and to the guide surface (4) and arranged at the end of the guide surface (4) facing the cutting edge (16), which pressure edge (30) projects if necessary slightly out of the plane of the guide surface (4), and
    - adjusting means for altering this distance between the guide surface (4) and this parallel plane (24) containing the cutting edge,
    characterised in that the adjusting means (38,58) effect a parallel displacement of the cutting edge (16) or the pressure edge (30) in an adjusting plane (36) which forms an acute angle of adjustment (α) with a line (32) normal to the guide surface (4), the adjusting plane (36) being so oriented that, upon an increase in this adjustable distance between the cutting edge (16) and the guide surface (4), the distance between the cutting edge (16) and the pressure edge (30), projected onto the plane of the guide surface (4), increases.
  2. A device according to claim 1, characterised in that the adjusting plane (36) is a plane running parallel with that plane which contains the cutting edge (16) and the pressure edge (30), or in that the adjusting plane (36) itself substantially contains the cutting edge (16) and the pressure edge (30).
  3. A device to claim 1 or claim 2, characterised in that the angle of adjustment (α) lies in the range of from 3° to 15°.
  4. A device according to claim 3, characterised in that the angle of adjustment (α) lies in the range of from 5° to 12°.
  5. A device according to claim 1 or claim 2, comprising a diverting surface (26), starting from the cutting edge (16), for diverting a separated board (22), which diverting surface (26) forms an acute angle of divertion (β) with the plane running through the cutting edge (16) and parallel with the guide surface (4), wherein a supporting surface (50) is provided which is arranged downstream of the pressure egde (30) when viewed in the conveying direction, which runs substantially parallel to the diverting surface (26) and which forms, together with the diverting surface (26), a channel for the diversion of a separated board (22), the distance between diverting surface (26) and supporting surface (50) is substantially equal to or slightly greater than the distance between the guide surface (4) and the plane (24) running through the cutting edge (16) and parallel to the guide surface (4), and the angle of adjustment (α) corresponds approximately to half the angle of diversion (β).
  6. A device according to at least one of claims 1 to 5, characterised in that the guide surface (4) is adjustable relative to the cutting blade (14) fixed to the frame.
  7. A device according to at least one of claims 1 to 5, characterised in that the cutting blade (14) is adjustable relative to the guide surface (4) fixed to the frame.
  8. A device according to at least one of claims 1 to 7, characterised in that the pressure edge (30) is height-adjustable relative to the guide surface (4).
  9. A device according to claim 8, characterised in that the pressure edge (30) is mounted on a wedge member (52) extending in the longitudinal direction thereof and is height-adjustable by a relative longitudinal displacement between the pressure edge (30) and the wedge member (52).
EP92101218A 1991-01-30 1992-01-25 Apparatus for cutting thin planks from squared timber Expired - Lifetime EP0497233B1 (en)

Priority Applications (4)

Application Number Priority Date Filing Date Title
US07/826,818 US5318083A (en) 1991-01-30 1992-01-28 Apparatus for cutting and severing of a thin board from squared timber
NO920383A NO177630C (en) 1991-01-30 1992-01-29 Device for cutting a thin table from an angled wood
CA 2060942 CA2060942C (en) 1991-01-30 1992-01-29 Apparatus for cutting severing of a thin board from squared timber
FI920411A FI920411A (en) 1991-01-30 1992-01-30 ANORDINATION FOR AVAILABILITY AV EN TUNN BRAEDA FRAON KANTAD TRAEVARA.

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE4102664 1991-01-30
DE4102664 1991-01-30

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EP0497233A1 EP0497233A1 (en) 1992-08-05
EP0497233B1 true EP0497233B1 (en) 1994-06-15

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EP92101218A Expired - Lifetime EP0497233B1 (en) 1991-01-30 1992-01-25 Apparatus for cutting thin planks from squared timber

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EP (1) EP0497233B1 (en)
JP (1) JPH0564802A (en)
AT (1) ATE107219T1 (en)
DE (2) DE9116211U1 (en)

Families Citing this family (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE4244701C2 (en) * 1992-09-26 1994-06-30 Linck Masch Gatterlinck Device for cutting a thin board with a board support device
DE4232399C2 (en) * 1992-09-26 1994-07-14 Linck Masch Gatterlinck Device for cutting a thin board with a board support device
ATE129950T1 (en) * 1992-12-28 1995-11-15 Linck Masch Gatterlinck DEVICE FOR CUTTING THIN BOARDS FROM SQUANTED WOODS.
DE4316463C2 (en) * 1992-12-28 1996-05-23 Linck Masch Gatterlinck Device for cutting thin boards from squared timber
DE4316589A1 (en) * 1993-05-18 1994-11-24 Linck Masch Gatterlinck Device for cutting thin boards from a square timber
CN103286827B (en) * 2012-03-30 2015-08-12 王玉芹 longitudinal slicer

Family Cites Families (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE51933C (en) * E. BRAIj-LEY, Doctor der Medicin, in New-York, Nr. i^ West 30th Street, V. St. A Wood cutting machine
DE73544C (en) * F. PODANY in Wien XVII., Hernalser Hauptstr. 114 Fournier cutter
DE238774C (en) *
US1644961A (en) * 1925-06-19 1927-10-11 Turner Tanning Machinery Co Splitting machine
US1828873A (en) * 1929-06-24 1931-10-27 Evans Prod Co Riving machine
US3727654A (en) * 1971-04-21 1973-04-17 Marunaka Tekkosho Inc Planer machine
IT1038462B (en) * 1975-05-28 1979-11-20 Cremona Angelo SHEARING MACHINE FOR WOODEN LOGS FOR THE PRODUCTION OF VENEERS WITH THE BLADE HOLDER UNIT PLACED ABOVE THE BAR HOLDER UNIT
JPS546142U (en) * 1977-06-14 1979-01-16
JPS586654U (en) * 1981-07-06 1983-01-17 トヨタ自動車株式会社 Liquid tank device in automobile
CA1227961A (en) * 1985-04-16 1987-10-13 Frank F. Liska Engineered wood flakes, wafers or strands and method of their production
DE3926396A1 (en) * 1989-08-10 1991-02-14 Linck Masch Gatterlinck Chipless conversion of tree into boards - involves use of adjustable pressure bar ahead of slicing knife
JPH03254901A (en) * 1990-03-06 1991-11-13 Marunaka Tekkosho:Kk Slicer for woodwork
DE4029752C1 (en) * 1990-09-20 1991-08-01 Gebrueder Linck Maschinenfabrik "Gatterlinck" Gmbh & Co Kg, 7602 Oberkirch, De

Also Published As

Publication number Publication date
ATE107219T1 (en) 1994-07-15
DE9116211U1 (en) 1992-04-23
EP0497233A1 (en) 1992-08-05
DE59200230D1 (en) 1994-07-21
JPH0564802A (en) 1993-03-19

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