The device has a transport path 1 on which workpieces to be sawed are transported to a saw 3. The transport path 1 is comprised of adjacently positioned transport rollers 4 that are freely rotatable about horizontal axles. Above the transport path 1 there are feed rollers 6, 11, 12 that are preferably height-adjustable so that they can be adjusted relative to workpieces 2 having different thickness. The feed roller 6 has arranged downstream thereof a measuring wheel 5 that is rotatable about a horizontal axle in the same way as the feed rollers 6, 11, 12. The measuring wheel 5 has a larger diameter than the feed roller 6 and is not driven. The feed rollers 6, 11, 12 are driven in rotation by a drive 9, respectively. The drives 9 can be actuated independent of one another. The feed rollers 6, 11, 12 are adjusted such that they rest on the workpiece 2 so that the workpiece is reliably supplied on the transport path 1 to the saw 3.
The saw 3 has a saw blade (not illustrated) that, in the illustrated embodiment, is moved from below the workpiece upwardly during the sawing process. The saw blade is moved into housing 10 below which the workpieces 2 passes through.
The saw 3 is provided upstream and downstream of the saw blade with a feed roller 11, 12, respectively. The feed rollers 11, 12 are rotatably driven about parallel horizontal axles. Both feed rollers 11, 12 have advantageously the same diameter and, like the feed roller 6, can be adjusted advantageously to the thickness of the workpieces 2. Below the feed rollers 11, 12 there are additional transport rollers 13 on which the workpieces 2 can be reliably transported.
It is also possible to drive the table rollers or transport rollers and to use the top rollers 6, 11, 12 only as pressure rollers. It is also possible to rotatably drive the top rollers 6, 11, 12 as well as the bottom rollers 13.
In the transport direction of the workpieces 2 behind the saw 3 there is at least one holding-down device 14 that holds down the sawed-off workpieces as they are transported by means of an endless circulating sorting belt 15. The end of the holding-down device 14 facing the saw 3 is configured to extend upwardly at a slant so that the sawed-off workpiece parts 2′ are transported reliably into a position underneath the holding-down device 14. The holding-down device 14 is plate-shaped and can be height-adjusted transverse to the sorting belt 15. Also, it is possible to adjust the holding-down device 14 parallel to the sorting belt 15. In this way, the holding-down device 14 can be adjusted optimally to the workpiece parts 2′ to be transported. The holding-down device 14 is provided on a support device 16 on which the drives for height adjustment and/or transverse adjustment of the holding-down device 14 are provided also.
In the illustrated embodiment, two sorting rollers 17, 18 are provided on the support device 16 and are independently height-adjustable. For this purpose, adjusting cylinders 19, 20 are provided on the support device 16 with which the sorting rollers 17, 18 can be adjusted by the desired amount. The sorting rollers 17, 18 project through openings in the holding-down device 14. By actuation of the adjusting cylinders 19, 20 the sorting rollers 17, 18 are moved downwardly until they contact the sawed-off workpiece part 2′.
The deflection rollers 22 for the sorting belt 15 positioned adjacent to the saw 3 can be adjusted in the transport direction of the workpieces 2. In the position illustrated in
The sorting belt 15 is driven continuously during operation of the sawing device. By means of the sorting belt 15 the sawed-off workpiece parts 2′ are transported farther, in particular to a sorting device with which the workpiece parts 2′ are sorted with regard to their length.
The workpiece parts 2 are marked before the sawing process with regard to flaws. This can be done manually, for example, by applying a chalk mark, or automatically by scanning devices. When the marked pieces enter the sawing device, the marks on the workpieces 2 are detected by a corresponding reading device and input into a control unit of the device. In this way, it is possible to cut a workpiece 2 detected in this way at the marks and to sort the good parts 2′ by means of the sorting belt 15 and to sort out the waste parts 2′ by opening the waste part chute 21. The corresponding adjustments are done automatically by means of the control unit.
Based on
When the waste part 2″ is longer (
Because the good parts 2′ can be accelerated after the cut by means of the respective sorting rollers 17, 18, the waste part chute 21 can be opened very early without there being the risk that the workpiece part 2′ can drop accidentally into the waste part chute 21.
In order for the waste parts 2″ to drop reliably into the waste part chute 21, the actual dropping action is assisted by blowing air into the waste part chute 21. For this purpose, advantageously at least one blowing nozzle 23 (
The sorting rollers 17, 18 are moved downwardly by the adjusting cylinders 19, 20 for each good part 2′ and pressed against the good part 2′. Immediately thereafter, the adjusting cylinders 19, 20 return the sorting rollers 17, 18 so that the subsequent workpiece part 2′ can reliably reach a position underneath the holding-down device 14.
It is also possible to provide only one sorting roller on the holding-down device 14 with which the corresponding good parts 2′ can be pressed against the sorting belt 15. The use of two or several sorting rollers, positioned in the transport direction at a spacing behind one another, has the advantage that good parts 2′ of different length can be accelerated within a very short period of time. The movement of the deflection rollers 22 of the sorting belt 15 is realized advantageously by means of a servo motor with which the sorting belt 15 or its corresponding deflection roller 22 can be positioned for opening and closing the waste part chute 21.
Instead of the waste part chute, it is possible to employ, for the purpose of sorting out the waste parts 2″, different sorting devices, for example, slides that push the corresponding waste parts 2″ transversely from the sorting belt 15. The corresponding slides can operate pneumatically, hydraulically, electrically or in a similar way. This sorting process can be done very quickly. In the above described way, the good parts 2′ that have no flaws are transported by being accelerated away from the saw 3 after the sawing process on the sorting belt 15 by means of the sorting rollers 17, 18.
It is also possible to sort out the waste parts 2″ along the further transport path of the workpiece parts.
It is possible to saw workpieces 2, to sort out waste parts, and to finally sort the good parts at high speed by means of the device.
The specification incorporates by reference the entire disclosure of German priority document 10 2006 039 702.9 having a filing date of 17 Aug. 2006.
While specific embodiments of the invention have been shown and described in detail to illustrate the inventive principles, it will be understood that the invention may be embodied otherwise without departing from such principles.
Number | Date | Country | Kind |
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10 2006 039 702.9 | Aug 2006 | DE | national |