EP1636001A1

EP1636001A1 - Machine for profiling oblong flat workpieces along the longitudinal edges

Info

Publication number: EP1636001A1
Application number: EP04729883A
Authority: EP
Inventors: Heinz Kempkensteffen
Original assignee: Homag Holzbearbeitungssysteme GmbH
Current assignee: Homag GmbH
Priority date: 2003-06-24
Filing date: 2004-04-28
Publication date: 2006-03-22
Anticipated expiration: 2024-04-28
Also published as: DE10328204A1; ES2312995T3; DE502004008278D1; WO2004113037A1; EP1636001B1

Abstract

The invention relates to a machine in which the workpieces (3) are machined on passing, said workpieces being transported through an inlet zone and a profiling zone (18). A guide straight edge (10) is provided in the inlet zone on which the workpieces (3) are aligned with the passing direction. According to the invention, the machined cut surfaces may be made more exactly parallel, whereby the inlet zone (1) is provided with a transport device (4), running synchronously with the workpiece supply device, along the one side of which runs the guide straight edge and along the other side of which runs a pressure device (11), for holding the workpiece in contact with the guide straight edge. An upper pressure device (14) is arranged above the transport device in the inlet zone, within the working range of which a sawing device with at least one sawing tool (17) for cutting at least one guide groove (3, 2) in the upper or lower side of the workpieces is arranged. A guide track (24) runs on from the workpiece engaging region of the sawing tool, in the pass direction, on which the workpiece runs with the guide groove thereof and which runs in a straight line through the profiling zone in the pass direction.

Description

MACHINE FOR PROFILING LONG, PLATE-SHAPED WORKPIECES ALONG THE LENGTH EDGES

TECHNICAL AREA

The invention relates to a machine for profiling elongated, plate-shaped workpieces made of wood and / or wood substitutes, such as panels for floor coverings, ceiling or wall cladding, in the area of opposite longitudinal edges in a pass with a conveyor device for lying flat and on both sides with the Longitudinal edge areas protruding receiving the workpieces in a transport plane and for conveying the workpieces in a straight passage direction, with a profiling zone through which the conveying device extends and in which processing units with exciting profiling tools are arranged on both sides of the conveying device, and with one Above the conveying device, the workpieces on their upper pressure device acting on the side remote from the conveying device along the profiling zone, with an inlet zone in the direction of passage before the profiling zone with a stop ruler which extends in a straight line in the direction of passage for aligning the workpieces with one of their longitudinal edges on the direction of passage.

STATE OF THE ART

In the known continuous machines of this type follows the entry zone with the stop ruler directly on the profiling zone with the profiling tools. The conveying device which extends through the profiling zone is extended towards the inlet side of the machine and thus also runs through the inlet zone without being covered here by the upper pressure device. The stop ruler is arranged laterally next to this area of the conveying device which is free at the top. The workpieces in the infeed zone are already placed on the conveyor device and guided along the stop ruler with one of their longitudinal edges.

The workpieces correspondingly aligned in the entry zone to the straight-line direction of passage with one of their longitudinal edges are clamped for the machining process in the profiling zone between the conveying device and the overpressure device as soon as the overpressure device has gripped the respective workpiece when passing from the entry zone into the profiling zone. The conveyor device is primarily a transport chain, the links of which are designed to absorb high compressive forces. The workpieces clamped between the conveying device and the top pressure device should not change their orientation during the profiling processes, so that the cut surfaces made by the profiling tools in the longitudinal edge region of the workpieces extend parallel to one another in the direction of passage. Around To reduce inaccuracies, the Profilierungswe tools are arranged on both sides of the conveyor opposite each other in the profiling zone so that the machining forces exerted on the workpieces cancel each other out as far as possible transversely to the direction of travel.

Nevertheless, such tolerances still occur on the finished workpieces that lead to disruptive protrusions, gaps or the like when the workpieces are installed. This is particularly the case with such panels with which a continuously flat surface must be achieved in the assembled state. This is especially true for floor panels, where high accuracy of parallelism is required on their opposing, profiled longitudinal edge areas.

In the known throughfeed machines, the adherence to narrow tolerances on the machined workpieces reaches its limits because relative movements between the conveying device and the overpressure device can occur transversely to the conveying direction or throughput direction. This is because the chain links of a chain used as a conveyor tend to roll or yaw, which increases with increasing wear. Some workpieces, as long as they are still unprocessed, show a warpage along their length, which is why the longitudinal workpiece edge that runs along the stop ruler in the entry zone does not is exactly straight. Corresponding to the undefined system on the stop ruler, such a workpiece is clamped between the conveyor device and the top pressure device in the profiling zone in an undefined orientation. This can also contribute to machining inaccuracies that lead to disturbing deviations in the parallelism of the cut surfaces in the longitudinal edge areas of the workpieces to lead.

THE INVENTION

The invention is therefore based on the object of creating a machine of the type mentioned at the outset with which a more precise parallelism of the cut surfaces in the longitudinal edge regions of the workpieces can be achieved.

This object is achieved in a machine of the aforementioned type by the characterizing features of patent claim 1.

It is essential for the invention that through the guide ruler which extends through the profiling zone of the machine and which engages in the guide groove cut into the workpieces in the inlet zone of the machine, the conveying device and the upper pressure device of the profiling zone from the guidance of the workpieces are exempt. The guide groove becomes exact in the entry zone Cut in the straight-line direction in which the guide rail is also located. This is ensured by the pressure device arranged in the infeed zone, which holds the workpieces in a constant orientation as they run along the stop ruler, in which orientation the workpieces are clamped between the overpressure device and the transport device of the infeed zone and are guided along the sawing device. There is therefore greater freedom in the choice of the conveyor device for the profiling zone, so even a slideway can be considered as the conveyor device, on which the workpieces are advanced by the top pressure device. For sensitive workpieces, the conveyor device of the profiling zone can alternatively consist of a conveyor belt which moves with its upper run on a sliding surface.

The workpieces to be machined with the continuous machine are already finished on their broad sides determined as visible sides. The workpieces accordingly have a good side, namely the surface-ready broadside, which must not be impaired, in particular not be damaged, during the machining process. So it goes without saying that the guide groove to be cut into the elongated workpieces is attached to the broad side of the workpieces remote from the good side. The workpieces can pass through the machine with their good side lying downwards, and accordingly the guide groove incised on the upper side of the workpiece. Accordingly, the sawing device is arranged on top, namely in the area of the upper pressure device of the inlet zone. Likewise, the workpieces can also run through the machine with their good side lying upwards, in this case the sawing device is arranged in the region of the transport device of the infeed zone and the at least one sawing tool projects beyond the transport plane of the workpieces according to the groove depth. The sawing tool of the sawing device preferably consists of a circular saw blade which, with its blade plane, is on the one hand in the direction of passage and on the other hand perpendicular to the transport plane of the workpieces.

For the rest, advantageous design features of the invention result from the subclaims.

BRIEF DESCRIPTION OF THE DRAWING ILLUSTRATION

The invention is explained in more detail below with reference to the drawing using an exemplary embodiment. Show:

1 is a schematic side view of a continuous machine of the aforementioned type,

2 shows the top view of the continuous machine according to FIG. 1, 3 shows a cross section through the machine along the line III-III in FIG. 2,

Fig. 4 shows a cross section through the machine along the

Line IV-IV in Fig. 2 and

5 shows a cross section through the machine along the line V-V in Fig. 2nd

WAY OF CARRYING OUT THE INVENTION

In detail, FIGS. 1 and 2 show, starting from the infeed side of the continuous machine, an infeed zone 1, to which 2 workpieces 3 are transported by means of an auxiliary conveyor, which are elongate panels or board-shaped, as is particularly the case for floor coverings in Interior fittings can be used. In the area of the inlet zone 1 of the machine, the workpieces 3 are received lying flat on a transport device 4, in the present case the so-called good side of the workpieces 3, that is to say the surface-ready broadside, lying downward.

The transport device 4 comprises a base body 5, which has a sliding surface 6 on its upper side, over which a revolving conveyor belt 8 slides with its upper run 7. The conveying direction of the transport device 4 corresponds to the straight through direction of the entire dimension machine. To reduce the sliding friction, the upper run 7 of the conveyor belt 8 is blown out with supporting air; for this purpose, a plurality of air nozzles 9 are arranged in the area of the sliding surface 6 of the base body 5 in one or more rows lying in the direction of passage.

On the upper run 7 of the conveyor belt 8, the workpieces 3 are aligned with one of their longitudinal edges 3.1, see FIG. 3, in the direction of passage. For this purpose, a stop ruler 10 is arranged laterally next to the upper run 7 of the conveyor belt 8 of the transport device 4, the stop surface 10.1, see FIG. 3, extends in a straight line in the direction of passage.

Opposite the stop ruler 10 there is a pressure device 11 lying at the same height, which ensures that the workpieces 3 to be machined abut against the contact surface 10.1 of the stop ruler 10. This is done by means of air which emerges from nozzles 12, which are at the level of the transported workpieces and are arranged in a plurality in succession in the direction of passage. The nozzles 12 of the pressing device 11 are at a distance from the longitudinal edge of the workpieces 3 running past them, which is accordingly only blown in such a way that the workpieces 3 easily contact the guide surface 10.1 of the stop ruler 10. This is in the form of an air cushion 13, which lies between the longitudinal edges of the workpieces 3 and the workpiece Pressure device 11 builds up, produces an elastic, yielding pressure medium, which can also be formed from a mechanical device, such as a resiliently supported runner.

An overpressure device 14 is arranged in the inlet zone 1 above the transport device 4, the beginning of which is offset in the direction of passage in relation to the start of the transport device 4. The upper pressure device 14 consists of two peripheral belts 15 which, as shown in FIG. 3 in particular, grasp the workpieces 3 with their lower strands 15.1 and hold them down on the upper strand 7 of the conveyor belt 8. The workpieces 3 are thus fixed in their orientation predetermined by the stop ruler 10 along the effective range of the top pressure device 14, and in order to secure the position fixation of the workpieces 3, the stop ruler 10 and the pressing device 11 extend in the direction of passage beyond that area from the Upper pressure device 14 is covered.

A sawing device 16 is integrated into the top pressure device 14 and has sawing tools 17 in the form of two saw blades, each of which lies with its plane of the blade in the direction of passage and is perpendicular to the plane of transport of the workpieces 3. As can further be seen from FIG. 4, the two bands 15 of the top pressure device 14 are guided past the sawing tools 17 on both sides in order to cover the area on the upper side Te of the workpieces 3 not to be acted upon, in which the sawing tools 17 cut into a guide groove 3.2 which extends in the direction of passage, that is to say longitudinally, see upper illustration of FIG. 4. Even if the workpieces 3 should have a certain distortion on their longitudinal edge 3.1 lying against the stop ruler 10, the longitudinal guide groove 3.2 is cut into the workpieces 3 lying exactly straight in the direction of passage.

The workpieces 3 provided with the guide groove 3.2 are passed on by the transport device 4 and the upper pressure device 14 in the direction of passage to a further conveying device 20 and an upper pressure device 22, wherein the upper pressure device 22, as can be seen from FIG. 5, likewise consists of two rotating pressure belts 23 , which act on the workpieces 3 on the above sides with their sub-strands 23.1. These subspaces 23.1 of the overpressure device 22 move synchronously with the subspaces 15.1 of the belts 15 of the upstream upper pressure device 14. A special feature is that the upper pressure device 22 also simultaneously ensures the feed of the workpieces 3 along the transport device 20, namely from a Slideway exists. In the area of this slideway 20, the workpieces 3 are blown out by means of supporting air, and for this purpose air outlet nozzles 21 are integrated in the slideway 20, which are arranged one behind the other in the transport or passage direction in one or more directions. rere rows are arranged. The conveyor device 20 and the associated overpressure device 22 extend through a profiling zone 18, in which the workpieces 3 are provided with a longitudinal profiling in the regions of their longitudinal edges running on both sides, which, like a tongue and groove connection, connect adjacent workpieces 3 to one another Allow installation at the installation location. 5, the longitudinal profiles on the edges of the workpiece shown are indicated by 3.3 and 3.4. The profiles 3.3 and 3.4 are started on the workpieces 3 by means of stationary processing units with rotating, clamping profile tools 19, and these processing units are arranged in the profile zone 18.

A guide rail 24, which extends in a straight line in the direction of passage and extends over the entire length of the profiling zone 18, is integrated into the top pressure device 22. When feeding into the profiling zone 18, the workpieces 3 slide with their guide groove 3.2 onto the guide rail 24, with the workpieces 3 being held securely transversely to the direction of passage. Accordingly, the cross section of engagement of the guide rail 24 is adapted to the cross section of the guide groove 3.2 of the workpieces 3. In addition, the guide rail 24 is arranged such that it is aligned in the direction of travel with those areas of the sawing tools 17 which are in workpiece engagement when the guide grooves 3.2 are made. The Workpieces 3 are of such a length that when the machine passes through the leading end, the workpieces are already received with their guide groove 3.2 on the guide rail 24, while at the end of a workpiece the sawing device 16 is still in engagement with it, to the rear in the direction of the passage Finish cutting the guide groove 3.2 at the end of the respective workpiece 3.

At the outlet end of the conveyor device 20 and the associated upper pressure device 22, the finished workpieces are taken over by a further auxiliary conveyor 25 and transported away.

Claims

CLAIMS:

1. Machine for profiling elongated, plate-shaped workpieces. (3) made of wood and / or wood substitutes, such as panels for floor coverings, ceiling or wall cladding, in the area of opposing longitudinal edges in the passage with a conveyor device (20) for receiving the workpieces (3) lying flat and projecting on both sides with the longitudinal edge areas. in a transport plane and for conveying the workpieces in a straight passage direction, with a profiling zone (18) through which the conveying device (20) extends and in .der to both. On the side of the conveying device (20) processing units with tensioning profiling tools (19) are arranged, and with an upper pressure device acting on the workpiece (3) remote from the conveying device (20) along the profiling zone (18) above the conveying device (20) (22), an inlet zone (1) with a stop ruler (10), which extends in a straight line in the direction of passage, for aligning the workpieces (3) with one of their longitudinal edges on the direction of passage, is located in the passage direction in front of the profiling zone (18), characterized in that in the inlet zone (1) a synchronously with the workpiece conveying device (20) as well as in this The transport device (4) for the workpieces (3), which is aligned with the direction of flow, is arranged along one side of which the stop ruler (10) and along the second side of which a pressure device (3) holding the workpiece (3) in contact with the stop ruler (10) 11), which both overlap an upper pressure device (14) arranged downstream in the direction of passage for holding down and / or advancing the workpieces (3) on the transport device (4), in the effective area of which a sawing device (16) with at least one sawing tool (17) for cutting at least one guide groove (3.2) into the top or bottom of the workpieces (3), with a guide rail (24) adjoining the workpiece engagement area of the sawing tool (17) in the direction of passage, on which the workpieces (3) with their guide groove (3.2) and which are straight through the profiling zone (18) in the major direction extends.

2. Machine according to claim 1, characterized in that the workpieces (3) in contact with the stop ruler (10) holding pressure device (11) has a yielding pressure means which acts on the workpieces (3) without deforming them.

3. Machine according to claim 2, characterized in that the pressing means of the pressing device (11) consists of an air cushion and for this purpose the pressing device (11) has a plurality of air nozzles (12) arranged in the direction of passage, which are at a distance from them passing longitudinal edge of the workpieces (3) are adjustable.

4. Machine according to one of claims 1-3, characterized in that the sawing device (16) in the top pressure device (14) of the inlet zone (1) is integrated and this top pressure device (14) two synchronously running, the workpieces (3) with has belts (15) which act on their lower strands (15.1) and are guided along the sawing device (16) on both sides.

5. Machine according to claim 4, characterized in that the guide rail (24) extending through the profiling zone (18) is integrated in the top pressure device (22) and the top pressure device (22) has two synchronously running pressure bands (23) which run with their lower runs (23.1) on both sides of the guide rail (24).

6. Machine according to one of claims 1-5, characterized in that the transport device (4) of the inlet zone (1) consists of a conveyor belt (8) which with its upper run (7) on a on a base body (5) on the upper side sliding surface (6) slides.

7. Machine according to claim 6, characterized in that the base body (5) of the transport device (4) along its sliding surface (6) has air nozzles (9) for blowing in supporting air.

8. Machine according to one of claims 1-7, characterized in that the conveying device (22) of the profiling zone (18) consists of a slideway (20) and the upper pressure device (22) of the profiling zone (18) at the same time feed device for the workpieces (3) is.

9. Machine according to claim 8, characterized in that in the slideway (20) of the conveying device (22) of the profiling zone (18) air nozzles (21) for blowing out supporting air are arranged.

0. Machine according to one of claims 1-9, characterized in that the at least one sawing tool (17) of the sawing device (16) is a circular saw blade, which with its blade plane on the one hand in the direction of travel and on the other perpendicular to the transport plane of the workpieces (3 ) stands.