EP1657035B1 - Double end profiler with workpiece guide rail and process for manufacturing workpieces therewith - Google Patents

Description

The invention relates to a double end tenoner according to the preamble of claim 1 and to a method according to the preamble of claim 8 (see for example DE-C-102 49 775).

In a known embodiment, such a double end tenoner is designed such that the guide along a central region of the workpieces, in particular exactly in the longitudinal center plane of the workpieces, is cut. Thereafter, the arrangement of the cutting tool for the attachment of the guide groove and the guide rail for engaging in the guide groove on the workpieces depends. It is assumed that the workpieces can be optimally guided, especially without jamming, if the guide groove on the workpieces is located between those areas in which the workpieces move forward on the slide tracks of the support rails from the two spaced-apart friction belts of the top pressure device be charged. Consequently, the passage of the cutting tool for the attachment of the guide groove and the guide rail for engagement in the guide groove of the workpieces extending in the direction of passage extends between the two friction belts of the top pressure device.

The plate-shaped workpieces to be processed are primarily those which are used as flooring, Wall or ceiling panels are used. For this purpose, laminates are used, which in many cases have only a small thickness. In such workpieces, the material thickness is considerably weakened in the region of the guide groove. In the subsequent processing, handling and use of workpieces lying on both sides of the guide groove workpiece areas can assume an angular position to each other due to the instability in the weakened area, worst case, the workpieces may break apart in the guide. This risk is particularly great for workpieces that have a considerable width, so that from both longitudinal sides of the plate a longer lever arm to the region of the guide groove, over which the easier bending forces can be transmitted to the weakening area.

The invention has the object of providing a Doppelendprofiler of the type mentioned in such a way that the guide groove is mounted in a region of the workpieces, in which the consequent material weakening for the further use of the workpieces does not matter.

This object is achieved in a double-end of the type mentioned above by the characterizing features of claim 1.

For the invention is essential that the guide is laid in one of the longitudinal edge regions of the elongated plate-shaped workpieces, that is, is located on one of the workpiece longitudinal edges, which is processed in a sweeping manner by the double end tenoner. In the panels, which are made of the elongated plate-shaped workpieces, including along the longitudinal edges of the workpieces form-fitting nestable or latchable profiles are cut, in any case, during further processing and processing consideration is taken not to damage these profiles. For the stability of the plate-shaped workpieces as a whole, the material weakening plays a negligible role as a result of cutting the guide groove in one of the longitudinal edge regions, because the stiffness in the plate surface itself is not affected. With regard to the guidance of the workpieces through the Doppelendprofiler through it has surprisingly been found that even then a rectilinear guidance of the workpieces over the entire pass path is achieved with the required accuracy when the engagement of the guide rail in the guide grooves of the workpieces laterally next to the top pressure device outside the outside of one of the Friktionsriemen, which is remote from the second, opposite Friktionsriemen.

The guide groove can even be laid on the relevant one longitudinal side of the workpieces in the profiling area. So can the guide groove on the workpieces also form a portion of the profile to be attached thereto. In these cases, the position of the guide groove for the strength, in particular the flexural rigidity of the plate-shaped workpieces plays no role, they no longer falls on the finished workpieces as a guide. If in the edge or edge region of the plate-shaped workpieces on which the longitudinal guide groove is removed material during profiling, then the guide is so deeply incised that it is still present after profiling with a residual residual depth, so that the leadership of Workpieces are not lost until they leave the double end tenoner. Correspondingly, the depth of cut, at least of the relevant milling or profiling tool 13.1, is smaller than the depth of the guide groove 5.1.

Advantageous design features of the invention will become apparent from the dependent claims.

Fig. 1

eine Seitansicht eines Doppelendprofilers,

Fig. 2

einen Querschnitt durch die Profilierungszone des Doppelendprofilers nach Figur 1 in einer ersten Anordnung,

Fig. 3

in vergrößerter Darstellung die in Figur 2 eingekreiste Einzelheit und

Fig. 4

einen Querschnitt durch die Profilierungszone des Doppelendprofilers nach Figur 1 in einer zweiten Anordnung.

The invention will be explained in more detail with reference to the drawing of an embodiment. Showing:

Fig. 1

a side view of a double end profiler,

Fig. 2

a cross section through the profiling zone of the Doppelendprofilers of Figure 1 in a first arrangement,

Fig. 3

in an enlarged view of the circled in Figure 2 detail and

Fig. 4

a cross section through the profiling zone of the Doppelendprofilers of Figure 1 in a second arrangement.

In detail, one recognizes in Figure 1, a machine bed 1, on which a plurality of stands 2 are arranged, which carry a first base body 3 and a second base body 9. On the first base body 3, a circumferential transport device 4 is arranged, which has an endless belt or chains. Then plate-shaped workpieces 5 are added, which are passed through the double end tenoner in a continuous pass. Along one side of the transport device 4 extends parallel to the direction of passage a stop rule 6, on which the Werkstükke 5 are aligned with their one lying in the direction of passage longitudinal side. With the help of a first top pressure device 7, which holds down the workpieces 5 on the transport device 4, the Werkstükke 5 are passed under two saw units 8.1, 8.2, which cut into the passing overhead side of the workpieces an eccentrically longitudinally extending guide groove. The saw units 8.1, 8.2 can also be in the area of the transport device 4 be arranged that the guide groove is attached to the respective lower side of the workpieces 5. The cutting of the guide groove is merely a preparatory machining operation, in order subsequently to be able to make the main machining of the workpieces 5, which are profiled along their longitudinal edges or narrow sides in the passage direction, in order to attach mutually opposite tongues and tongues or otherwise positively fitting or latchable profilings can.

This takes place in a subsequent profiling zone of the double-end profiler, and the devices required for this purpose are arranged on the second basic body 9. In particular, FIGS. 2 and 4 show that the main body 9.2 in a parallel to the passage direction extending left main body part 9.1 and a right main body part 9.2. is divided, the basic body parts 9.1, 9.2 are supported by accordingly up left and right on the machine bed 1 upstanding uprights 2.1 and 2.2 on each of the basic body parts 9.1, 9.2 a support rail 10.1, 10.2 is arranged on the upper side and these support rails 10.1, 10.2 have on their tops in the passage direction continuously extending sliding surfaces 10.3, wherein the sliding surfaces 10.3 of both support rails 10.1, 10.2 lie in a common horizontal plane. One of these sliding surfaces 10.3, namely that of the left support rail 10.1, can be seen in FIG. 3, and from this it is also particularly clear that in the support rails 10.1, 10.2 air nozzles 11 are integrated. The mouths of the air nozzles 11 are in the plane of the upper side sliding surfaces 10.3 of the support rails 10.1, 10.2 and this support air between the sliding surfaces 10.3 of the support rails 10.1, 10.2 and the workpieces 5 conveyed along it is blown. The workpieces 5 are thus transported on an air cushion of small thickness floating on the sliding surfaces 10.3 of the support rails 10.1, 10.2, wherein the feed of the workpieces 5 takes place exclusively from the overhead side.

Serves an upper pressure device 12, which are also, as the figures 2 and 4 make clear, are divided into a left upper pressure part 12.1 and in a right upper pressure part 12.2. Both upper pressure parts 12.1, 12.2 are provided with friction belt 12.3, 12.4, which act with their Untertrumen the workpieces 5 at the overhead side. The friction belts 12.3, 12.4 of the top pressure device 12 extend in the vertical direction exactly above the two support rails 10.1, 10.2 in order to hold down the workpieces 5 against the pressure of the support air from the air nozzles 11 and to take them with frictional engagement in the transport direction. In this way, the workpieces 5 are conveyed along processing units, which with exciting machining tools 13.1, 13.2, in particular form cutters, the workpieces 5 along their Profiles in longitudinal direction lying longitudinal edges. The exciting tools 13.1, 13.2 are sufficient for engagement in the workpieces close to the relevant support rail 10.1, 10.2 zoom.

In order to guide the workpieces 5 sufficiently securely in the direction of passage, in particular against lateral displacement, a guide rail 14 engages in their guide groove 5.1, which can either be continuous through the profiling zone of the end profiler, but is segmented in a preferred embodiment is. If the guide groove 5.1 on the workpieces 5 on the upper side, the guide rail 14 is correspondingly above the conveying plane for the workpieces 5, which Figure 2 illustrates. If, however, the guide groove 5.1 cut into the underlying side of the workpieces 5, the guide rail 14 is arranged so that it projects beyond the conveying plane for the workpieces 5 upwards, this is shown in Figure 4. The respectively to be selected arrangement of the guide rail 14 depends on it from whether the good side of the workpieces 5, which in retrospect represents the viewing side in their installed position, is arranged lying downwards, which corresponds to the representation of FIG. Since the workpieces 5 are transported floating on the support rails 10.1, 10.2, in this type of arrangement of the workpieces 5 whose Gutseite does not damage. FIG. 4 shows the arrangement of the guide rail 14 in the case in which the workpieces 5 are conveyed with their Gutseite upwards lying through the profiling zone of the Doppelendprofilers through. The guide 5.1 is always located on the side remote from the Gutseite of the workpieces 5 side, then the arrangement of the guide rail 14 and the upstream cutting tools of the saw units 8.1, 8.2.

Regardless of whether the guide rail 14 engages from above into the overhead on the workpieces 5 guide 5.1 or from below into the underlying guide 5.1 on the workpieces 5, it has relative to the longitudinal direction of the workpieces 5 and thus to the longitudinal direction of the profiling zone the double end profiler an exceptional position. It lies in a vertical plane which extends on the outside of the top pressure device 12 over. This is true both in the arrangement of the guide rail 14 above the arranged on the respective longitudinal side of the profiling zone Auflagerschiene 10.1 and in the arrangement in which the guide rail 14 projects beyond the sliding surface 10.3 of this support rail 10.1 upwards. Thus, the guide rail 14 is moved so far transversely to the direction of passage to one side of the profiling zone that it comes close in the alignment of the direction of travel very close to the engagement region of the profiling tools 13.1. Correspondingly close to the longitudinal edge or the longitudinal edge of the Workpieces 5, the guide is 5.1 attached, which requires a corresponding position of the cutting tools of the upstream sawing 8.1, 8.2 at a small distance from the fence 6.

In order to be able to derive the cutting pressure of the profiling tools 13.1, 13.2 and also to be able to keep away from the top pressure device 12, skids 15 to 18 are provided above the support rails 10.1, 10.2 and, if necessary, laterally beside them, which, as FIG. 1 makes clear on the basis of the skid 15, in the passage direction in alignment one behind the other sliding skid segments 15.1 are divided. The skid segments 15.1 as well as the skid segments 16.1, 17.1 and 18.1, not shown in FIG. 1, are each arranged between the processing units 13, 13.1, 13.2 one behind the other in the direction of passage, and extend close to them. The guide rail 14 is - as mentioned above - also segmented in a preferred embodiment and the guide rail segments 14.1 are arranged either on the above the management plane of the workpieces 5 arranged runner segments 15.1 or located on the below the conveying plane runner segments 17.1, depending on which of the broadsides the workpieces 5, the guide 5.1 is provided.

Thus, the skid segments 15.1 and 17.1 complement each other and the guide rail segments 14.1 arranged thereon to take over the marginal support and guidance of the workpieces 5. The skid segments 15.1 or 17.1 and the guide rail segments 14.1 also make it possible to lay the guide groove 5.1 on the workpieces 5 as far laterally outward that it is located in the profiling area. Here, the guide groove can also be arranged where material is removed in the profiling of the workpieces in the longitudinal edge region. Important here is only that the guide 5.1 has a sufficient depth and still exists after the removal of material with a residual depth, which further allows engagement of the guide rail segments 14.1, thus ensuring a management of the workpieces 5 to the outlet from the machine. The depth of cut of the respective profiling tools 13.1 is set correspondingly smaller than the depth of the guide groove 5.1, wherein the depth of penetration of the profiling tools 13.1 in the material of the workpieces 5 in the region of the guide groove 5.1 is to be understood here as the depth of cut.

As Figure 3 further shows, in particular in the skids 15 or skid segments 15.1 and the skids 17 and skid segments 17.1, which are provided with the guide rail 14 and the guide rail segments 14.1, air nozzles 19 are integrated to between To blow the sliding surfaces of these skids 17 and the workpieces 5 supporting air, which is also a Rinse purpose has. This prevents chips from settling between the skid 14 or its segments 14.1 and the flanks of the guide groove 5.1 of the workpieces 5. As a result, the guide accuracy is secured to the guide rail 14, and there is no unnecessary frictional heat that can occur in a jamming of the guide rail 14 in the guide grooves 5.1.

As FIGS. 2 and 4 further make clear, workpieces of different widths can be machined on the double end tenoner without the need for extensive retrofitting. For this purpose, the stand 2 are also subdivided on the machine bed 1 into the right-hand upright 2.1 and left-hand upright 2.2, which carry the basic body parts 9.1, 9.2 and the attachments located thereon. By changing the distance of the stand 2.1 and 2.2 from each other, the entire profiling zone of the Doppelendprofilers can be adjusted to the respective width of the workpieces 5.

Claims (9)

1. Double end profiler for machining oblong panel-type workpieces (5) along their longitudinal edges in a continuous run with two support rails (10.1, 10.2) which can be adjusted in their distance from one another with horizontal slide faces (10.3) supporting the workpieces by means of incoming supporting air, and an upper pressing device (7, 12) which slides the workpieces forwards on the slide faces and which has an endlessly revolving friction belt (12.3, 12.4) above each support rail, furthermore with machining assemblies which are mounted on the two longitudinal sides of the support rails facing away from one another and which have milling tools (13.1, 13.2) which reach close up to the support rails, and with a guide rail (14) which projects down above one of the support rails or up over the slide faces thereof and which extends in the run-through direction to engage in a guide groove (5.1) on the workpieces, wherein at least one cutting assembly (8.1, 8.2) with at least one cutting tool which is in alignment with the guide rail in the run-through direction is mounted in the run-through direction in front of the machining assemblies for the purpose of providing the guide groove,
   characterised in that
   the guide rail (14) and the cutting tool (8.1, 8.2) are arranged in the run-through direction in an alignment which reaches close up to the workpiece engagement areas of the milling tools (13.1) located on the outer longitudinal side of the support rail (14) or which passes through these workpiece engagement areas and which extends along the outer side of the upper pressing device (7) next to the outer side of the friction belt (12.3) lying closest to the guide rail (14).
2. Double end profiler according to claim 1,
   characterised in that
   the guide rail (14) is divided into segments (14.1) which are aligned with one another in the run-through direction and which are arranged at a distance from one another.
3. Double end profiler according to claim 2,
   characterised in that
   in the run-through direction close to the workpiece engagement areas of the milling tools (13.1) in alignment above and/or in the support plane of the workpieces (5) in addition to the support rail (10) there are skids (15-18) which load the workpieces (5) against the cutting pressure of the milling tools (13.1) with slide faces, and the guide rail segments (14.1) are mounted on one of the skids (15,17) on the relevant longitudinal side of the support rail (10).
4. Double end profiler according to claim 3,
   characterised in that
   at least the skids (15,17) on which guide rail segments (14.1) are mounted are likewise divided into skid segments (15.1, 17.1) which are aligned with one another in the run-through direction.
5. Double end profiler according to claim 4,
   characterised in that
   the skid segments (15.1, 17.1) are each arranged with the guide rail segments (14.1) between two milling tools (13.1) located one behind the other in the run-through direction on the relevant longitudinal side of the support rail (10).
6. Double end profiler according to one of claims 3 to 5,
   characterised in that
   at least the skids (15, 17) or the skid sections (15.1, 17.1) on which the guide rail (24) or guide rail segments (14.1) are mounted have air nozzles (19) on the slide faces which bear against the workpieces (5).
7. Double end profiler according to one of claims 1 to 6,
   characterised in that
   the first support rail (10.1) on which the guide rail (14) or guide rail segments (14.1) are mounted is designed to be fixed and the second support rail (10.2) is designed to be adjustable in its distance from the first support rail (10.1).
8. Method for manufacturing oblong panel-type workpieces (5) where connecting profiles are cut in a continuous run into the longitudinal edges thereof whereby the workpieces run through a double end profiler having support rails (10.1, 10.2) on which the workpieces are transported floating on horizontal slide faces (10.3) by means of incoming supporting air by means of an upper pressing device (7, 12) which slides them along, wherein the double end profiler has machining assemblies which are mounted along the longitudinal sides of the support rails and have milling tools (13.1, 13.2) which reach up to the support rails, and furthermore the workpieces are guided during the profiling machining process on a guide rail (14) for which a guide groove has previously been cut into the workpieces,
   characterised in that
   the guide groove (5.1) is provided along one of the longitudinal sides of the workpieces which are to be profiled close to the area to be profiled or through same.
9. Method according to claim 8,
   characterised in that
   in the case of the arrangement through the area to be profiled the guide groove is cut into a depth which is greater than the cutting depth of the relevant profiling tools.

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