FI87745B - Device for controlling the relief angle of the cutter in a veneer lathe - Google Patents

Abstract

The invention relates to a control arm mechanism for a veneer lathe, by means of which the position of a cutter in the lathe is adjusted in line with the diminution of the block as the veneer cutting proceeds. The cutter advances in time with the veneer cutting supported by an arch bearing on guides in the body of the lathe. The inclination of the cutter on the arch bearing is controlled through the use of a mechanism consisting of three arms 9,10,11. One 9 of the arms is articulately joined to the cutter slide of the lathe, one 10 to the body of the arch bearing and one 11 to the body of the lathe. <IMAGE>

Description

87745

Device for adjusting the release angle of the veneer lathe cutting blade

The present invention relates to an adjustment lever for a veneer-5 lathe, with which the release angle of the lathe blade is adjusted as the veneer cut proceeds depending on the distance of the blade from the axis of rotation of the log to be turned.

Veneer lathes implementing such an adjustment model are known per se in many implementations. In such lathes, the basic structure of the lathe is formed by the arcuate bearing structures which are reciprocally supported on the sides of the lathe by the guides of the frame structure and which support the blade beam or the blade carriage. The cutting blade (as well as the counter-15) is in turn attached to this blade bar. The blade beam rests on an arcuate bearing structure so that it can rotate about an axis parallel to the axis of rotation of the log to be turned. The cutting blade is attached to the blade bar so that the cutting edge remains in the center of rotation of the arcuate bearing during 20 turns.

Various mechanisms are used to provide controlled rotation of the blade bar, many of which are based on tracking a guide surface, such as a guide, attached to the lathe body of the blade bar or portion thereof. The organ following the guide is often a wheel or similar organ. However, there are problems in use, such as getting the wheel rim and / or guide dirty, if it causes an error in the change of the discharge angle. Contamination does not have to be very large in the event of an error, as the adjustment range for the emission angle is relatively limited, on the order of about 2 °.

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According to the invention, said adjustment of the rotation of the blade bar is realized in a new way by means of a lever mechanism consisting of three essential finger elements, i.e. a frame articulated to the free end of the lever attached to the arch bearing structure, and that the free end of the articulated lever attached to the blade bar is articulated to the lever attached to the arch bearing structure, between its attachment points.

The invention will be explained with the aid of the accompanying drawing, in which Figure 1 shows a detailed view of a section of a veneer,

Figure 2 shows a preferred emission angle control curve based on experimental observations, 15

Figure 3 shows the operation of the emission angle adjusting device as turning progresses as subjects a, b and c.

Figure 1 shows, in a reduced form, the devices essential for determining the cutting area of the veneer lathe, the emission angle. The log 2 to be turned is on a lathe supported and rotated by rotating devices not shown. The blade 4 cutting the five logs, in turn, is fixed / supported by the 25 blade bar 5. The blade beam 5 is supported by the arcuate bearing structure 6 so that it can rotate about an axis passing through the center of the arcuate bearing, parallel to the axis of rotation of the log 2, under the control of the rotating position determining members. The blade 4 is fixed to the blade beam so that the cutting edge of the blade is on said axis of rotation of the blade beam passing through the center 3 of the arc bearing.

The arc bearing structure 6 rests on the guides 7 in the body 12 of the lathe and is displaceable along them in relation to the axis of rotation of the log 2, corresponding to the progress of turning.

3,87745

During turning, the lathe blade 4 rests on the surface of the log 2 with its passing surface 1 of width b. The width of this support surface is sought to be kept at the desired size as the radius r pie-5 of the log decreases during turning. This causes the need to adjust the clearance angle k of the blade 4 during turning, which adjustment is made possible by said rotation of the blade beam 5 on the arcuate bearing structure 6.

10 Said emission angle k varies during turning within relatively small limits on both sides of the vertical plane. The range is about 1 ° on each side of the vertical plane, which value is denoted by a positive reading when the blade is tilted against its feed direction (Fig. 3a), and a negative reading by a positive reading when the blade is inclined towards the turning log (Fig. 3c). The preferred emission angle adjustment range is shown in the accompanying drawing 2. The mechanism rotating the blade bar should be able to operate so that the value of the emission angle k 20 remains within this preferred range.

In order to achieve such a rotational movement on the cutter bar 5 as the turning progresses, a lathe 9,10,11 according to the invention is mounted on the lathe, the structure and special attachment points of which are shown in Figures 3a-3c.

First, a lever arm 9 articulated at point A is attached to the blade bar 5, a lever arm 10 articulated at point 30B is also attached to the arc bearing 6, and a lever arm 11 articulated at point E is attached to the body 12.

These lever arms are connected to each other as a functioning Vivus case, so that the free end of the lever arm 10 attached to the arch structure 35 is articulated to the free end of the lever arm 11 fixed to the body 12.

The free end of the lever arm 9 fixed to the blade bar 5 is in turn fixed to the lever arm 10, between its articulation points B7745. By properly selecting the lengths of the lever arms 1,10,11 and their attachment points, a mechanism can be provided which controls the rotational position of the blade beam 5 relative to the arcuate bearing structure 6 as the arcuate bearing structure 5 and the blade carriage supported by it move on the guides 12 so that the release angle k

In order to implement the invention, the dimensioning of the following linkage and related devices can be used as an example. As a dimensioning example, a lathe can be used that is capable of turning a log with a diameter of about 800 mm. In this case, sizing can be used for the linkage and the location of its attachment points: 460 mm between the hub center and lever arm 15 9, distance between joints A and B 735 mm, distance between joints C and D of lever arm 10 and 300 mm between lever arm D and 5 .

In order to change the setting values of the adjusting lever, the lever arm 9 can be made adjustable in length, or alternatively its pivot point A in the blade bar 5 can be adjusted in position. These adjustments can be made as a manually adjustable mechanical function, such as an adjusting nut affecting the length of the lever arm 9. Alternatively, a controllable actuator can be included in the apparatus, with which either the length of the lever 9 or the position of its attachment point can be changed.

Claims (3)

An apparatus for controlling the release angle (k) of the cutting bite in a veneer turn as the cutting progress of the cutting 5 in the lathe, which cutting bite is attached to a bait beam (5) which, supported by a cup bearing structure (6), can be displaced along guides (7) in the turning body where the turning continues, and depending on the distance from the rotation axis can be rotated about one with the body (2) to be turned parallel axis, characterized in that in order to determine the rotation position of the bait beam (5), arm (9) articulated (A) attached to the bait beam (5), that a lever (10) is articulated (C) attached to the cup bearing structure (6), that a lever (11) is articulated (E) attached to the body (12) , That the free end of the lever attached to the frame is hinged (D) attached to the free end of the lever attached to the cup bearing structure and that the free end of the lever attached to the beam is hinged (B) attached to the the cup bearing structure attaching the lever, between d 20 fastening points (C, D). Device according to claim 1, characterized in that the lever (9) fixed to the bait beam is longitudinally adjustable to realize alternative changes for the release angle (k). 3. Device according to claim 1, characterized in that: the fastening point (A) of the lever (9) fixed to the bait beam is adjustable in relation to its position.