DE3936883A1 - Milling cutter for woodworking machine - has rack-and-pinion device for accurate radial adjustment of cutting edges - Google Patents

Abstract

A milling cutter for a wood working machine has pairs of base plates, (20) each plate having a recess (50) to received a cutting insert. Each pair of base plates is mounted on a guide plate (24), and a number of such guide plates are mounted on a common tubular shaft (10). Each base plate has a toothed rack. The toothed racks of each pair of base plates engage a common pinion (84) mounted on the tubular shaft. The radial distance of each base plate is adjusted by a screw and the racks and pinion ensure that the radial adjustment is exactly the same for each member of the same pair of base plates. USE - Milling cutters for woodworking machines.

Description

The invention relates to a milling head for woodworking, the egg NEN body with a central hole for mounting and Clamping on the machine spindle and arranged on its circumference Knife parts.

Known cutter heads, also called face cut milling heads, wear Individual, evenly around the perimeter and on the front of an unung distributed disk-shaped knife carrier, whose Cutting in the radial or axial direction are effective. For machining larger areas with certain contours also several milling heads on a common milling arbor into one Set milling cutters can be put together.

The invention has for its object to provide a milling head fen, which makes it possible to attach the cutting profile in a simple manner adapt to different and varying contours, so that after finishing editing a particular profile with the same milling head others different in terms of width and / or height Profiles can be produced.

In the case of a milling head of the type mentioned at the beginning, this is opened solved according to the invention by

• - That the base body with at least one base plate to each other  has diametrical side guides, between those in pairs same, opposite carrier plates for the knives parts can be moved radially,
• - That both carrier plates via a toothing with a center mounted ring gear for evenly opposing adjustment in Stand in engagement and by means of a in the direction of displacement de support plate extending adjusting screw relative to each other be are movable
• - That the ring gear as an externally toothed washer on one Base plate penetrating centrally and the central hole containing sleeve is stored,
• - And that the base plate and the support plates between two with the cover plates connected by a releasable axial press are fixed against each other with positive and / or frictional connection.

With this new milling head, the z. B. in axial you the sequence of cutting knives next to each other or the load-bearing jaws either and effortlessly on any profile adjust shapes; if necessary, they can be dismantled or into a retracted position, so that following a setting, for example, of 15 different side by side Carrier plate pairs used for the next machining only three or four pairs of carrier plates can be used nen. The coupling of a pair of carrier plates with each other With the help of their face teeth and a common centric tooth Kranz ensures that two can be set quickly opposing uniform cutting edges, what for the Balancing of the milling head and for the quiet running properties  of great importance on the milling spindle. So it is possible when mounted on the spindle milling head according to the invention Securing the backing plates to loosen the backing plates each Pair over the gear transmission connecting them together To take cutting operation or to the desired cutting diameter bring water without unscrewing or removing the milling head must be taken apart or disassembled. - A special one whose advantage is that all of the carrier plates of the pairs and also of the pairs arranged offset by 90 ° consistently of the same shape and therefore an inexpensive one Overall structure is created.

The carrier plates arranged in pairs are preferably included rear guide arms and recesses complementary thereto led against each other. In one embodiment, any carrier plate by means of at least one face gear with a small pitch and a fixed face gear running parallel to it in a chuck body and with a narrow pas in between solution axially displaceable locking pin in the respective one position of the toothed gear can be fixed. It intends that the locking pins through corresponding openings in one or two cover plates of the milling head, so that according to Be fixation of the carrier plates by moving the Locking pins and after removal of the cover plates exerted axial locking pressure on the carrier plates individual cutter blades are jointly adjusted via the toothed gear can be.  

In a preferred embodiment of the milling head after the Er is the set screw held in a carrier plate secured against axial movement, while using a screw Bolt end arranged fine thread in an assigned thread bore of the other support plate engages. The set screw and the associated threaded hole can be near an outside of the Carrier plates can be arranged while close to the opposite Outside in reverse arrangement a pin and a receptacle bore are provided as a weight balance. Because of the fine threading and self-locking are the carrier plates already fixed against each other in this respect. In addition there is the opposite Coupling via the gear transmission connection, which at the same time opposite adjustment of the carrier plates and thus the one other diametrically opposed cutter edges guaranteed. In this way, the cutting edge setting once selected remains with certainty received until the overall arrangement of the next mutually located base plates and carriers arranged therein plates on the sleeve due to the releasable axial pressure with shape conclusion or adhesion are fixed against each other.

Are preferably alternately next to each other in the axial direction Base plates offset by 90 ° each for adjustable supports plates provided, the side guides of each base plate such recesses for receiving the bottom of the neighboring Base plate included that be in the axial distance between two neighboring base plates the support plates are adjustable, solan no axial pressure is exerted on the cover plates.  

It is also useful if the base plates in general my rectangular floor plan with rounded corners, at which the shorter width between the side guides belong to the adjacent base plate fits, and the rounding one circular milling head circumference can correspond.

On the carrier plates, preferably with the help of Spannbac ken, the actual cutting knife attached. For this purpose be there is one in the rounded circumference of each carrier plate outside open receptacle for attaching one with a cutting knife provided jaws.

According to an advantageous feature of the invention is located in each shot is generally perpendicular to the slide bottom wall and two to each other parallel side walls in one in the direction of rotation of the milling head from the radial leading angle between approximately 30 ° and Are inclined at 45 °. In this way, the jaws at the Rotation of the milling head by the milling pressure into the recess indented and is therefore particularly good against loosening chert.

According to a further important feature of the milling head according to the invention it is proposed that on the bottom wall of the receptacle a square adjusting disk can be adjusted about an eccentric axis extending parallel to the radial axis, so that the knife part or clamping jaws provided with a receptacle adapted to the centering disk is rotated by a quarter turn of the adjusting disk in the direction of the milling spindle with respect to the respective carrier plate is finely adjustable. In this way, fixed adjustment dimensions z. B. 1 or _^1/2 mm pretend to one or the other side, so that the Schnei deneinstellung or optimizing a set Fräserpro can be particularly carried out quickly fils.

To ensure the axial adhesion from the sleeve to the base plates and to effectively transfer the carrier plates arranged therebetween gene, the base plate adjacent to a sleeve flange can be one have reinforced bottom while at the other end of the milling head fes for power transmission from one to the external thread of the sleeve screwed nut provided a reinforced cover plate is that one inwards to the neighboring base plate section with the outer dimensions or limits tongues of the bottom of a base plate.

In another embodiment, the as a ring gear on the Scope of the sleeve stored and to each other with the help of distance holder arranged externally toothed washers two each wear diametrically arranged teeth or projections over the Length of the adjustment stroke of the carrier plates constantly with a Tooth gap trained recess are engaged, the Shape of the recess of the tooth rolling process in the linear shift exercise of the carrier plates is adapted.

Further advantages and features result from the claims as from the following description of Darge  presented embodiments of the milling head according to the invention. The individual features described, including those of the claims, can NEN further or in any combination form forms of the invention. In the drawings, the fiction contains essential details, shows

Fig. 1 a longitudinal section through a cutter head according to the dung OF INVENTION,

Fig. 2 is a partially sectioned plan view of one of two supporting plates and a base plate consisting Bauein integral of the milling head in the mounted state on the sleeve and engaged with the common ring gear,

Fig. 3 shows the same assembly as in Fig. 2 at in drawn apart state of the two support plates opposite,

Fig. 4 is a plan view of a base plate for a milling head according to the invention,

Fig. 5 shows a cross section through the baseplate of Fig. 4,

Similar to FIG. 6 is a cross-sectional Fig. 5, however, by a base plate (cover plate) with reinforced bottom

Figure 7 shows the view zes a removable on the support plate Ansat.,

Fig. 8 is a side view of the tab of FIG. 7,

Fig. 9 is a view of a carrier plate,

Fig. 10 is a side view of the support plate according to Fig. 9 with a view toward the periphery,

Fig. 11 is a side view of the support plate facing towards the rear end,

Fig. 12 is a view of a gear rim with individual teeth,

Fig. 13 is a side view of the sprocket of FIG. 12,

Fig. 14 is a side view of a clamping jaw with the blade and the lateral spurs,

Fig. 15 is a view of a clamping jaw with integrated clamping dickenbegrenzer,

FIG. 16 shows a group of several clamping jaws similar to FIG. 14, which can be combined into a predetermined milling profile.

In the illustrated embodiment of a milling head according to the invention He according to FIGS . 1 to 5 contains a sleeve 10 , a central through bore 16 with which it can be mounted on the spindle, not shown, of a milling machine. On the lower end of the sleeve, a sleeve flange 12 can be firmly attached, ge against which one or more (any number) knife parts or cutting knife-bearing assemblies can be clamped after being pushed onto the sleeve in order to produce a milling profile with a desired length. Each individual assembly comprises a base plate 20 as shown in FIGS. 4 and 5, which tion 28 is pushed onto the sleeve 10 with a central drilling.

The assembly supported by the base plate 20 is shown in its details in FIGS. 2 and 3 and mainly consists of two identical support plates 40 which are offset by 180 ° to one another and each have a recess 50 on their periphery for receiving a suitable cutting knife with clamping jaws 94 .

Each base plate 20 has shown in FIG. 4 is a rectangular, close to square in plan with rounded corners 22, which approximately correspond to the minimum diameter of the milling head, and 32, the support plates 40 walls with lateral guide walls 24, at the bottom guide surface 30 and lateral guide surfaces with their outer sides 44 are performed. Two opposing support plates 40 are coupled to one another in an adjustable manner according to FIGS . 2 and 3 by means of an adjusting screw 70 . The adjusting screw, e.g. B. an Allen screw, extends through a Boh tion 72 in one carrier plate and is secured there by a ring 74 against axial movements. The free end of the bolt carries a fine thread 76 , which engages in a threaded bore 78 of the opposite support plate 40 , so that by turning the adjusting screw 70, the two support plates are approximated or distanced from one another and thus the circumference of the cutting knife accommodated there is reduced or enlarged can. On the opposite side of the carrier plates, which can have a wall thickness of 8 or 10 mm in an exemplary embodiment, a pin 80 is provided for purposes of weight compensation, which corresponds to the threaded portion 76 , and a receiving bore 82 in the opposite carrier plate. Instead of the additional pin or bolt for the thread shown in FIGS. 2 and 3, as in the embodiment according to FIG. 9, only one receiving bore can be provided for a fixed pin to be pressed in there.

Each carrier plate has a rounded peripheral surface 42 and is preferably hen with an extended peripheral portion 60 verse, which closes the peripheral surface of the assembled cutter and is provided with a recess 62 into which the side guides 24 of the base plate 20 are received in the radial displacement of the carrier plates . From the radially inner end of each carrier plate 40 go two guide arms 46 and 48 , and between these two an inner recess 102 is formed , which is narrowed to an approximately square shape in the state shown in FIG. 2 between the two carrier plates 40 . The guide arm 48 contains a since Liche recess for receiving a rack portion 66 which is fixed there with feeler or notch pins 68 . This Planver toothing of the two carrier plates 40 is in constant engagement with a common toothed ring 84 corresponding to FIGS . 1 and 2, so that when the approach is carried out with the aid of the adjusting screw 70 or the mutual removal of the two carrier plates is constantly de-centered with respect to the central axis of the sleeve or the milling spindle is retained.

Each of two carrier plates 40 in a base plate 20 , the assembly is assigned a ring gear 84 . The ring gears 84 are rotatably supported on the circumference of the sleeve 10 and are held in place by means of spacer rings or sleeves 114 pushed onto the sleeve in axial association with the face teeth 66 of the carrier plates. In a variant, a ring 86 in the enlarged representation corresponding to FIGS. 12 and 13 can take the place of the ring gear 64 provided with a relatively fine tooth pitch, which ring has two outer diametrical individual teeth 110 . In this simplified embodiment, the individual teeth engage in a single recess or tooth space 88 which is located in the rear guide arm 48 of the carrier plates according to FIG. 9. - To limit the adjustment stroke of the two support plates 40 with respect to the respective base plate, two stop pins 36 can be provided on the base plate te, which cooperate with the stroke length corresponding slot slots 64 in the respective support plate 40 .

The carrier plate according to FIG. 9 to 11 differs from the embodiment of FIGS. 2 and 3 except for the single tooth slot 88 in the rear guide arm 48 by a structure, the Reduced production costs made possible because of the scope elongata te shoulder 60 of FIG. 2 and 3 is detachably attached as a detachable individual part by screwing in the threaded bore 116 . The circumferential extension of the rounded peripheral surface with forming de item 112 is shown in Figure 7 and 8.. With the United screwing through the common openings or threaded bores 116 , the alignment of the extension part 112 takes place via its contact surface 118 on the outer side wall 44 of the carrier plate 40 according to FIG. 9. It goes without saying that two carrier plates belonging to one assembly group which has a female threaded bore for the set screw and on the other side the thread equalizing pin or a press-fit opening provided for this in accordance with FIG. 9, while the other carrier plate has the receiving hole 82 for the threaded equalizing pin and the through hole 72 for the set screw 70 contains. -. The assembled cutting head according to Figure 1 is provided to improve transmission of the applied via the clamping nut 18 clamping force with a lower, for example, 5 mm reinforced base plate 108, which is shown as an example in Figures 6 and intended to bear on the sleeve flange 12th. In the specific example, the base plate 108 can be provided with threaded holes 38 and can be fixed there with corresponding screws extending through the sleeve flange 12 . Furthermore, the top of a base plate and two support plates assembly in FIG. Closed by a reinforced cover plate 104 1 carrying one after the raised bottom portion 106, with which it is received in the recesses 34 of the upper base plate 20 and positioned.

Each base plate is provided on its side walls 24 with inner guide surfaces 32 and with the upper recess 34 , which at the same time forms a lateral positioning stop. Between these two stop surfaces 34 each base plate fits accordingly Fig. 1, the next higher base plate after rotation by 90 ° with the side edges 26 of its narrower width. In other words, the base plate 20 according to FIGS. 4 to 6 differs from a square outline insofar as the side guides 24 increase the width dimension or serve as a widened receptacle for the narrower side. The side guides 24 are accordingly recognizable in FIG. 1 as a spacer between one at the adjacent, each offset by 90 ° to each other.

The receptacle 50 arranged on the circumference of each carrier plate 40 contains a bottom surface 52 which runs transversely or perpendicularly to the radial direction and two mutually parallel side walls 54 . The side walls are inclined at a leading angle with respect to the radial in accordance with the direction of rotation A ( FIG. 2), so that in the receptacle 50 in its rearward side in the direction of rotation there is an acute-angled receiving space for a clamping jaw, which is thus inevitably retained during the cutting operation.

A clamping jaw 94 provided for mounting in the receptacle 50 of the carrier plate 40 is shown in various embodiments in FIGS. 14 to 16. The clamping jaw 94 carries at its front end in the direction of rotation of the milling head two chip thickness limiting blades 100 . A cutting knife 96 is held on the rear side of the clamping jaw 94 in the direction of rotation by means of a fastening screw 98 . The cutting knife 96 is reground on its lower contact surface in FIG. 14 so that the cutting edge is automatically sharpened. At its rear end, the cutting knife 96 is held by a projection 97 and by mutually opposing or abutting inclined surfaces which run at the same inclination as the screw axis.

As a special feature, the clamping jaw 94 according to FIG. 14 contains a lower square recess 95 , which can optionally be extended in the longitudinal direction of the opposite bottom surface 52 of the recess 50 . The recess 95 is intended to receive an adjusting plate 90 which is held in the carrier plate 40 according to FIG. 9 by means of an adjusting screw 92 . The over the Bo denwand 52 protruding adjusting plate 90 is connected eccentrically to the adjusting screw so that after a quarter turn the adjusting disk is adjusted laterally in one or the other direction, ie in the axial direction of the milling spindle. By adjusting the adjusting plate 90 , the jaws 94 can consequently be precisely and easily adjusted if necessary fine adjustments are made.

The clamping jaw 94 according to FIG. 15 differs from that according to FIG. 14 by an integrated chip thickness limiter at the front in the direction of rotation and by a lower transverse groove 120 which takes the place of the receptacle 95 in FIG. 14. With the help of the transverse groove 120 z. A plurality of clamping jaws 94 are brought more quickly into the associated radial relationship by the intended milling profile shape corresponding template B. according to Fig. 16. The group of clamping jaws shown in FIG. 16 belongs to three (at a distance) stacked support plates, the radial position of which is adjusted accordingly to the common mold template inserted in the groove 120 . For fixing a clamping jaw 94 in the off recess 50 is an engaging from the side into the receptacle 50 and in a corresponding seat 124 on the jaw front fastening screw 58, which in compliance with Fig. 9 a threaded bore is provided in the support plate 40 56 .

In an embodiment not shown, the reinforced cover plate 104 for the upper end of the milling head can have a lower raised section with two opposing straight lines zueinan the parallel guide surfaces which bear against the side guides 24 of the underlying base plate 20 . On the cover plate 104 , the clamping nut 18 is screwed onto the external thread 14 of the sleeve 10 and the entire arrangement is thus clamped. The sleeve 10 can be slightly drilled out at the upper end in order to receive there the cylindrical section of a snap ring which continues into a wider flange section. This snap ring lies with its end face on the bottom of the widened sleeve bore (boring). However, it is not with its widened flange on the clamping nut 18 of the milling head when the clamping nut is tightened. In order to be able to adjust the milling head when the milling head is mounted on the machine spindle - without having to solve this assembly - the clamping nut can be loosened by half a turn, for example, so that the individual carrier plates can then be adjusted again. At the same time, however, the bracing of the milling head on the milling spindle is maintained. In a variant, the hedging disk described can be firmly connected to the sleeve by special devices or also by soldering, in order to ensure increased safety of the tool.

Claims (15)

1. milling head for woodworking, which has a base body with a central bore for mounting and clamping on a machine spindle and knife parts arranged on its circumference, characterized in that

• - That the base body has at least one base plate ( 20 ) with each other diametrical side guides ( 24 ), between which a pair of identical, opposite support plates ( 40 ) for the knife parts ( 94 ) is radially displaceable,
• - That both carrier plates ( 40 ) via a toothing ( 66, 88 ) with a centrally mounted ring gear ( 84; 86 ) for uniformly ge opposed adjustment are engaged and by means of a in the direction of displacement through both carrier plates adjusting screw ( 70 ) movable relative to each other are,
• - That the ring gear ( 84; 86 ) as an externally toothed washer on a base plate ( 20 ) centrally penetrating and the central bore ( 16 ) containing sleeve ( 10 ) is mounted,
• - And that the base plate and the carrier plates between two with the sleeve ( 10 ) connected cover plates ( 12 ) by a releasable axial pressure with positive and / or non-positive fi xed against each other.

2. Milling head according to claim 1, characterized in that the carrier plates ( 40 ) of each pair with rearward or radially a downwardly directed guide arms ( 46, 48 ) and complementary recesses ( 47, 49 ) in the opposite carrier plate are guided on the opposite side . 3. Milling head according to claim 1 or 2, characterized in that the adjusting screw ( 70 ) is secured in one carrier plate ( 40 ) against axial movements and engages with its fine thread ( 76 ) arranged at the bolt end in an associated threaded bore ( 78 ) of the other carrier plate . 4. Milling head according to one of the preceding claims, characterized in that the adjusting screw ( 70 ) and the associated Ge threaded bore ( 78 ) are arranged near an outside of the carrier plates ( 40 ) and that near the opposite outside in reverse arrangement a pin ( 80 ) and an associated receiving bore ( 82 ) are provided as a weight balance. 5. Milling head according to one of the preceding claims, characterized in that between each carrier plate ( 40 ) and the base plate ( 20 ) to limit the adjustment stroke a connection is seen before, which consists of an elongated hole extending in the direction of adjustment ( 64 ) and one there is displaceable pin ( 36 ) arranged in the other component. 6. Milling head according to one of the preceding claims, characterized in that in the axial direction side by side, alternately offset by 90 ° base plates ( 20 ) are each provided for carrier plates ( 40 ) adjustable therein, the side guides ( 24 ) of each base plate having such recesses ( 34 ) for receiving the bottom of the adjacent base plate, that in the axial position between two adjacent base plates ( 20 ) the carrier plates ( 40 ) are adjustable as long as no axial pressure is exerted on the cover plates. 7. Milling head according to one of the preceding claims, characterized in that the base plates ( 20 ) have a generally rectangular plan with rounded corners ( 22 ), in which the shorter width fits between the side guides ( 24 ) of the base plate to be associated. 8. Milling head according to one of the preceding claims, characterized in that the circumference ( 42 ) of each carrier plate ( 40 ) is adapted to the smallest adjustable cutter diameter rounding and an outwardly open receptacle ( 50 ) for fastening a knife part or one with a cutting knife ( 96 ) provided clamping jaw ( 94 ). 9. Milling head according to claim 8, characterized in that the acquisition ( 50 ) on the circumference of each carrier plate ( 40 ) has a generally perpendicular to the direction of the bottom wall ( 52 ) and two mutually parallel side walls ( 54 ) in one in the direction of rotation of the milling head are inclined from the radial from a leading angle between approximately 30 ° -45 °. 10. Milling head according to claim 8 or 9, characterized in that the carrier plate ( 40 ) a transverse to the direction of movement de and through a side wall in the knife part receptacle ( 50 ) opening thread bore ( 56 ) with a screw bolt ( 58 ) for fastening Includes the knife part or jaw. 11. Milling head according to one of claims 8 to 10, characterized in that on the bottom wall ( 52 ) of the knife part receptacle ( 50 ) a square Jusiter disc ( 90 ) about an eccentric axis ( 92 ) running parallel to the radii is adjustable, so that the knife part provided with a receptacle adapted to the centering disk can be finely adjusted by rotating the adjusting disk ( 90 ) in the direction of the milling spindle with respect to the respective carrier plate ( 40 ). 12. Milling head according to one of the preceding claims, characterized in that the clamping jaws or knife parts ( 94 ) with axially wider cutting knives ( 96 ) and at the end the end with outer chip thickness limiting cutting edges ( 100 ) are hen. 13. Milling head according to one of the preceding claims, characterized in that one end of the central bore contain the sleeve ( 10 ) has a flange ( 12 ) and the other sleeve end carries an external thread for receiving a clamping nut ( 108 ). 14. Milling head according to one of the preceding claims, characterized in that the sleeve flange ( 12 ) adjacent base plate has a reinforced bottom with threaded holes for receiving screws extending through the sleeve flange, and that at the other end and for power transmission of the nut ( 108 ) is provided with a reinforced cover plate ( 104 ), which has an inwardly towards the adjacent base plate ( 20 ) raised portion with the outer dimensions or boundaries of the bottom of a base plate. 15. Milling head according to one of the preceding claims, characterized in that the as a ring gear on the circumference of the sleeve ( 10 ) and each other with the aid of spacers angeord Neten externally toothed ring discs ( 86 ) each carry two diametrically arranged teeth or projections ( 110 ) that are constantly engaged over the length of the adjustment stroke of the carrier plates with a recess ( 112 ) designed as a tooth gap, where the shape of the recess is adapted to the tooth rolling process in the near displacement of the carrier plates.