EP0124802A2 - Machines for working several sides of a work piece simultaneously - Google Patents

Abstract

A multi-sided planer with machine frame (1) and height-adjustable superstructure (5), in each of which horizontal tool shafts (2, 6) are mounted, has a vertically movable housing (9) with a horizontal pressure plate (17) instead of a front table. A vertically movable housing (10) with a pressure plate (18) is suspended in the superstructure (5) in mirror symmetry to the center plane (8), both housings (9, 10) are rigidly coupled in opposite directions to one another by means of hydraulics. In both housings (9, 10) there are parallel chains (29), the transport surfaces of which are aligned with the pressure surfaces (17.1, 18.1) in the outlet. Each pulling strand (29.1) runs over a slide rail (31), two superimposed slide rails (31) are coupled to each other in the same way by a hydraulic system. This device distributes the oversize of the workpiece evenly to the upper and lower planing tools (3, 7).

Description

The invention relates to a multi-sided planer according to the preamble of claim 1.

Multi-sided planing machines are planing machines with two or more tool shafts, the tools of which machine the workpiece as it passes through on different sides, at least on the top and bottom. The simplest form is represented by thickness planers, which plan the workpiece to a constant thickness (planing thickness).

A generic multi-sided planing machine is described in the wood lexicon by Ewald König, Volume 1, page 591 f., DRW-Verlags-GmbH Stuttgart 1972.

In front of the first (lower) tool shaft, this machine has a height-adjustable front table. The height difference of the front table to the top point of the tool flight circle determines the thickness of the lower chip to be cut. This thickness is fixed and cannot be changed during the run. Following the processing on the underside, the rest of the excess of. the upper tools planed on the top.

The disadvantage of this planing machine is an unsatisfactory material yield. In order to ensure planing on all sides, the constant adjustment of the lower chip means that more is planed than would be necessary if the excess were distributed more evenly over the lower and upper tools. In addition, one is forced to add more when cutting wood, since workpieces with changing oversize are no longer planed out on the top where the lower chip thickness exceeds the oversize.

The invention has for its object to provide a generic - multi-sided planing machine in which a higher material yield is achieved by better distribution of the oversize on the upper and lower tools.

This object is achieved by the characterizing features of patent claim 1.

When pulling in, the workpiece between the pressure plates is aligned exactly in the middle plane between the horizontal tangents to the flight circles of the upper and lower tools, which means that an oversize with changing sizes is evenly distributed over the lower and upper tools. In addition, depending on the strength of the pressure between the two pressure plates 17, 18, a workpiece in a keyed or rotated state can be guided over the lower tool 3 without pressing it flat. This is how the workpiece is dressed, i.e. a flat reference surface is created on its underside without eliminating the previously existing distortion by appropriate pressure.

The multi-sided planer according to claim 2 represents a skilful constructive embodiment of the invention.

The feature of claim 3 ensures a smooth planing surface without a blow.

Due to the feature of claim 4, the workpiece can be pressed flat with an adjustable pressure, which enables planing with a smaller chip thickness.

The feature of claim 5 enables an exact feeding of the workpiece between the pressure plates.

The features of claim 6 ensure a large-area power transmission from the transport device even to warped workpieces.

The feature of claim 7 enables precise positive guidance of the workpiece to the tool.

Due to the features of claim 8, a uniform pressure is transmitted from each chain to the workpiece, thereby preventing it from twisting due to different contact pressures on the top and bottom.

The multi-sided planer according to claims 9 and 10 are preferred embodiments of the invention.

The drawings serve to explain the invention with reference to an embodiment shown in simplified form.

Figure 1 shows roughly schematically a vertical longitudinal section through part of the multi-sided planer with the features according to the invention.

Figure 2 shows the control of the distance of the slide rails in the multi-sided planer according to claim 9.

The multi-sided planing machine according to the invention has a solid machine frame 1 in a welded construction, in which a tool shaft 2 is mounted horizontally and transversely to the feed direction, which carries the planing tool 3.

The machine frame 1 ends behind the tool shaft 2 with a horizontal planing table 4, the planing table surface being aligned with the highest point of the flight circle of the tool 3. (- "In front" and "Behind" are always seen in the feed direction).

In the machine frame 1, a superstructure 5 is supported in a height-adjustable manner, e.g. over columns and guides with synchronously running threaded spindles. At a certain distance behind the lower tool shaft 2 and parallel to it, a second tool shaft 6 with tool 7 is mounted horizontally in the superstructure 5. Furthermore, in the machine frame 1 and in the superstructure 5 drives, transport and pressure devices with the associated control devices, suction systems for the shavings etc. are accommodated, which are not the subject of the invention.

In front of the lower tool 3, a two-part centering device is installed in the machine frame 1 and the superstructure 5, mirror-symmetrical to the central plane 8 between the two horizontal tangents of the flight circles of the tools 3, 7. The centering device consists of a lower housing 9 and an upper housing 10, both of which are in parallel cranks 11, 12 and 13, 14, which are connected to each other with adjustable trailing arms 15 and 16, vertically movably mounted in the machine frame 1 and superstructure 5. In each case at the outlet end of the housings 9, 10, horizontal pressure plates 17, 18 lying one above the other are rigidly fastened and extend over the entire width of the planing machine and the pressure surfaces 17.1, 18.1 of which face one another. The lower pressure surface 17.1 extends directly to the flight circle of the lower tool 3 and is aligned with the highest point of the flight circle in the starting position. The printing area 18.1 coincides with the printing area 17.1. In the starting position it is aligned with the lowest point of the flight circle of the tool 7. Hydraulic cylinders 19, 20, which are connected via lines 21, act on the parallel cranks 11, 12 of the lower housing 9 and on the parallel cranks 13, 14 of the upper housing 10. and which are switched so that the hydraulic cylinders 19, 20 move in unison. It is thereby achieved that the lower housing 9 and the upper housing 10 can only move synchronously and in opposite directions to one another in the vertical direction, ie either both move synchronously towards or away from the central plane 8. Instead of the hydraulic coupling, an equivalent coupling can also be used, for example rigid adjustable handlebars or a system consisting of racks and pinions. A throttle valve (not shown) is installed in the return of the hydraulic housing coupling. Pneumatic cylinders 22 — two in the present example — act on the lower parallel crank 12, which determine the pressure force of the pressure plates 17, 18 and hold the housings 9, 10 in the starting position.

On the inlet and outlet side of the lower housing 9 and the upper housing 10, a shaft 23-26 is mounted transversely to the feed direction. The shafts 24, 25 on the inlet side are provided with a plurality of deflection rollers 27 - in the present example there are 7 -, the shafts 23, 26 on the outlet side are driven and have the same number of chain wheels 28. A coated roller chain 29 runs in each of the housings 9, 10 via a pair of sprocket deflection pulleys. The strands adjacent to the central plane (inner strands 29-1) pull in the feed direction, their transport surfaces are aligned in the rear part with the associated pressure surfaces 17.1, 18.1 and thus limit with these the passage opening for the planed goods. In the front part, the distance between the inner runs 29.1 is increased from one another, which means that the passage opening in the inlet is widened for better loading. In addition, the deflection rollers 27 are covered by parallel guide plates 30 in the inlet.

The pulling strand 29.1 of each chain 29 is guided over a slide rail 31. Each slide rail 31 has the shape of a pressure shoe and is rotatably mounted at its rear end in the associated housing 9 or 10. In the central area, each slide rail 31 is supported by hydraulic cylinders 32. It is also possible to rotatably support the slide rails 31 at their front end and at the same time to support them in the middle or rear region. The hydraulic cylinders 32 of two superimposed slide rails 31 are connected to one another via lines 33 (FIG. 2). The lines 33 are switched so that two superimposed slide rails 31 move essentially in the same direction, ie, they move in parallel. In the system of lines 33, a cylinder 34 with an adjustable air cushion is additionally switched on, which allows easy adaptation to irregularities in the workpiece top allows area. This adjustment is limited by an adjustable stop 35. The drawn (outer) runs of the chains 29 are additionally tensioned by chain tensioners 36.

Before the workpiece runs in, the centering device is brought into the starting position: the planing thickness, i.e. the vertical distance between the flight circles of the tools 3, 7 from one another is set and the desired contact pressure of the pressure plates 17, 18 is built up via the pneumatic cylinders 22.

The workpiece is inserted between the guide plates 30 in the multi-sided planer. It is then grasped by the pulling runs 29.1 of the transport chains 29 and continued. It pushes the slide rails 31 apart, as a result of which hydraulic oil is pressed from the cylinders 32 through the lines 33 into the cylinder 34. When the piston of the cylinder 34 has reached the stop 35, only parallel movements of the superimposed slide rails 31 are carried out, thereby ensuring that all pulling strands 29.1 of both the upper and the lower chains 29 rest on the workpiece with the same contact pressure . This contact pressure can be set via the pressure of the air cushion in the cylinder 34. The warping of the workpiece is compensated for by dividing the transport surface into several parallel tracks - there are 7 in the example.

On the way to the pressure plates 17, 18, the contact pressure on the workpiece increases, since the slide rails 3i are less and less able to adapt to warpage of the workpiece due to their mounting. At the same time, the workpiece is aligned more and more in the desired position (= middle plane 8). The alignment inevitably takes place through the rigid opposite coupling of the two housings 9, 10 to one another, since these are set at the same distance from the central plane 8. When the pressure plates 17, 18 are reached and thus immediately before the intervention of the lower tool 3, the workpiece has reached its optimal position. It is aligned in the central plane 8, which results in a uniform distribution of the workpiece oversize on the lower tool 3 and the upper tool 7. At the same time, the max. Apply the contact pressure to the workpiece and flatten it depending on the setting of the pneumatic cylinder 22. While it is exposed to this contact pressure, the workpiece is then machined by the lower tool 3 on the underside, then fed to the upper tool 7 in a known manner and machined by the latter on the top. Through the throttle valve in the return of the housing coupling, the oil flow of the coupling is braked when the housings 9, 10 are returned to the starting position. As a result, the movement of the pressure plates 17, 18 during the workpiece runout is greatly delayed and the workpiece is not torn.

In the embodiment according to claim 10, each slide rail 31 is supported by pneumatic cylinders instead of the hydraulic cylinders 32. The pneumatic cylinders are connected to one another via a common air reservoir.

The same air pressure is thus present on all cylinders, and a uniform contact pressure of all transport chains 29 on the workpiece is ensured. In this embodiment, the contact pressure is set via the pressure of the air cushion in the common air reservoir.

In contrast to conventional planing machines, the thickness of the chip planed from the lower tool 3 varies in the multi-sided planing machine according to the invention, since the excess of the workpiece is evenly distributed to the lower and upper tools 3, 7 during the passage. However, it is also possible to set an uneven, fixed relationship between the upper chip and the lower chip by adjusting the housing coupling.

Claims (10)

1. Multi-sided planer - With a machine frame (1) in which a horizontal tool shaft (2) is mounted, and which ends behind the tool shaft (2) with a planing table (4) - With a superstructure (5) with an embedded horizontal tool shaft (6), which is arranged in the feed direction behind the lower tool shaft (2),
the vertical distance between the flight circles of the tools (3, 7) (= plane thickness) is adjustable,
characterized by a lower housing (9) suspended vertically movably in front of the lower tool shaft (2) in the machine frame (1) and an upper housing (10) suspended vertically movably above the lower housing in the superstructure (5),
the two housings (9, 10) being rigidly coupled in opposite directions,
and two pressure plates (17, 18) lying one above the other, which are each rigidly fastened to the upper and lower housings (9, 10), the lower pressure plate (17) extending directly to the flight circle of the lower tool (3). 2. Multi-sided planing machine according to claim 1, characterized in that each housing (9, 10) by parallel arms (15, 16) connected parallel cranks (11 - 14) is suspended, and that the parallel cranks (13, 14) of the upper housing (10) are hydraulically coupled to the parallel cranks (11, 12) of the lower housing (9). 3. Multi-sided planing machine according to claim 2, characterized by a throttle valve in the return of the hydraulic housing coupling. 4. Multi-sided planing machine according to claim 2 or 3, characterized by at least one pneumatic cylinder (22) which engages a parallel crank (12). 5. Multi-sided planing machine according to one of claims 1 to 4, characterized by a in front of the pressure plates (17, 18) arranged transport device which is mounted in the housing (9, 10) and the transport surfaces during passage of the workpiece with the sides facing the workpiece of the associated printing plates (printing surfaces 17.1, 18.1) are aligned. 6. Multi-sided planing machine according to claim 5, characterized by a transport device in each housing (9, 10), each consisting of several parallel chains (29), the deflection wheels (27, 28) in the housing (9, 10) are and their pulling strands (29.1) extend directly to the associated pressure plate (17, 18), the transport surfaces of the upper and lower pulling strands (29.1) during passage of the workpiece in the outlet with the associated pressure surfaces (17.1, 18.1) of the pressure plates (17, 18) are in alignment. 7. Multi-sided planing machine according to claim 6, characterized in that each pulling strand (29.1) runs over a slide rail (31) which is rotatably mounted in the housing (9, 10) at one end and is movably supported at a distance from this end. 8. Multi-sided planing machine according to claim 7, characterized in that two superposed slide rails (31) are coupled to each other in the same direction. 9. Multi-sided planing machine according to claim 8, characterized by a hydraulic cylinder (32) for each chain (29) which is arranged between the strands and engages on the slide rail (31), and in that two superimposed hydraulic cylinders (32) with each other via lines (33) are connected. 10. Multi-sided planing machine according to claim 7, characterized by a pneumatic cylinder (32) for each chain (29), which is arranged between the strands and engages on the slide rail (31), and that the pneumatic cylinders (32) are connected to one another.

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