EP1857237A1 - Sawing device for moving workpieces - Google Patents

Abstract

A continuous sawing device (1) has a feed/advancer device (2) for feeding slab-form workpieces in a through-flow direction, a number of sawing-elements (4) arranged in the region of the feed device (2), and a rotary drive device for the sawing elements (4) with a drive and a drive shaft (6b). The sawing elements (4) are joined to the drive shaft (6b) such that they can be shifted in the longitudinal direction of the drive shaft (6b).

Description

Technical area

The invention relates to a continuous sawing device with a plurality of saw blades for splitting or grooving workpieces, which are preferably plate-shaped, according to the preamble of claim 1.

State of the art

There are already continuous saws for splitting plate materials with a cutting shaft, lined up on the individual saw blades and firmly clamped or stretched on this wave known. Such a device is described for example in a brochure of the applicant "saw program FSL and FSQ for splitting plate materials". This principle has the disadvantage that for a change in the individual strip widths to be cut, the saw blades must first be loosened, adjusted and re-clamped or clamped. Since it is not possible to adjust the saw blades during machine operation, standstill and changeover times must be expected when subsequent workpieces are to be sawn into narrower workpieces with a different strip width.

As also disclosed in the above-mentioned brochure, continuous saws are alternatively developed in which each saw blade has its own drive motor and its own adjustment, so that the strip widths can be adjusted during operation of the machine from the outside. The disadvantage here, however, is the high cost, for Each unit to provide its own drive motor. The corresponding footprint of the drive motor determines the minimum possible strip width to be cut, whereby the variability of the saw is impaired.

Presentation of the invention

The invention is based on the technical problem of providing a continuous sawing device which has a high variability at low standstill and changeover times.

This technical problem is solved by a device having the features of claim 1. Particularly preferred developments of the invention are the subject of the dependent claims.

The invention is based on the idea of designing a continuous saw device for splitting or grooving plate-shaped workpieces in such a way that the rotary drive and the saw width setting are largely decoupled from each other. For this purpose, the invention provides that in a continuous sawing device of the type mentioned, the sawing elements are connected to the drive shaft so that they are displaceable in the longitudinal direction of the drive shaft.

This ensures that even during operation of the device, i. without any downtime and changeover times, virtually any strip width can be adjusted.

The displaceability of the saw elements along the drive shaft can be achieved in the context of the present invention in various ways. According to one embodiment of the invention, however, it is provided that the saw elements form fit in the direction of rotation of the drive shaft are connected, so that it is possible to dispense with clamping elements, clamping screws or the like and it is possible that the sawing elements can be moved at any time - even during operation - along the drive shaft.

In order to achieve positive engagement, the drive shaft and sawing elements can in principle have any desired cross section, which can also have depressions, projections or the like, for example. However, in order to achieve a positive and effective manner in the direction of rotation of the drive shaft, it is preferred according to a development of the invention that the drive shaft has a deviating from a circular cross-section, in particular an at least approximately polygonal cross-section.

In order to achieve a stable, yet displaceable rotary drive relationship between the sawing elements and the drive shaft, it is provided according to a development of the invention that the sawing elements have at least one saw blade and a flange connected thereto.

Although the sawing elements can in principle be connected directly to the respective drive shaft, it is provided according to a development of the invention that the sawing elements are respectively connected to the drive shaft via a transmission element. The use of a transmission element allows the compensation of manufacturing tolerances and a reduction of the components that must be replaced when changing a saw blade or saw element. It is particularly preferred that the transmission elements are positively connected to the respective saw element, whereby the advantages already discussed above are also achieved.

In addition, it is provided according to a development of the invention that between the transmission elements and the respective saw element at least one elastic element is provided, in particular at least one O-ring. In this way, in addition to the compensation of manufacturing tolerances, vibration damping is achieved during operation of the continuous saw device, resulting in a wear and quiet and precise operation of the continuous saw device according to the invention.

As already stated above, takes place between the drive shaft and the respective sawing elements primarily a rotary drive. In order to achieve moreover a precise and directionally stable guidance of the sawing elements and a correspondingly precise sawing operation, it is provided according to a development of the invention that the sawing elements are each rotatably mounted in a bearing element which is attached to a base frame of the continuous saw device. It is particularly preferred that the bearing elements in the longitudinal direction of the drive shaft along the base frame are displaceable, so that the sawing elements can maintain a fixed relationship with the respective bearing elements even with an adjustment of the saw width.

The adjustment of the respective sawing elements or bearing elements can be done in the context of the present invention in any way, for example, by manual adjustment of each component. In view of a rapid and trouble-free operation of the continuous saw device according to the invention, it has proved to be advantageous, however, that it further comprises an adjusting device by means of which the saw elements can be adjusted along the shaft. In this way it is possible that the sawing elements and possibly also the bearing elements can be adjusted even during operation of the continuous saw device. In this case, the adjusting device, for example, work manually-mechanically, for example in the form of a crank provided with an adjusting spindle. Alternatively, however, it is within the scope of the invention also possible and preferred that the adjusting device has an adjustment, which is in communication with the saw elements and / or bearing elements and is controllable by a control device.

Brief description of the drawings

• Fig. 1 shows schematically a side view of a continuous sawing device as a preferred embodiment of the present invention;
• Fig. 2 shows schematically partial sectional views of the pass-saw device shown in Fig. 1;
• FIG. 3 shows a cut-away partial view of the continuous saw device shown in FIG. 1.

Detailed description of preferred embodiments

Preferred embodiments of the present invention will be described below in detail with reference to the accompanying drawings.

A continuous sawing device 1 as an embodiment of the present invention is shown schematically in Fig. 1 in a side view. The continuous sawing device 1 is used for splitting or grooving plate-shaped workpieces (W), which are preferably at least partially made of wood, wood-based materials, plastics or the like. Such workpieces can be, for example, wooden boards, parquet or laminate floors, etc.

The continuous sawing apparatus 1 first has a conveying device 2 for conveying plate-shaped workpieces W in a passing direction, wherein a plate-shaped workpiece W is shown schematically and partially in FIG. In the conveying device 2 may be, for example to act a belt, belt or chain conveyor. In the area of the conveying device 2, a plurality of sawing elements 4 are arranged, which are all mounted on a common drive shaft 6b. The drive shaft 6b is operatively connected to a drive 6a, wherein the connection may be direct or optionally also indirect, for example via toothed belts or the like (see Fig. 3).

The sawing elements 4 are connected to the drive shaft 6b such that they are displaceable in the longitudinal direction of the drive shaft 6b. This is achieved in the present embodiment in that the sawing elements 4 are positively connected to the drive shaft 6b in the direction of rotation of the drive shaft 6b. As best seen in FIG. 2, in the present embodiment, the drive shaft has a cross section deviating from a circular shape, more specifically, an approximately polygonal cross section.

Although the drive shaft 6b in the present invention may also be connected directly to the respective saw elements 4, in the present embodiment, a transmission element 8 is arranged between these components whose inner cross-section fits positively to the drive shaft 6b and whose outer cross-section is positively connected to the drive shaft 6b Saw elements 4 fits. It is sufficient in the region of the connection between the drive shaft 6b and transmission element 8 game available that a longitudinal displacement of these components is possible, while at the same time a torque about the axis of the drive shaft 6b can be transmitted.

Furthermore, a plurality of O-rings are respectively provided between the respective transmission elements 8 and the associated sawing elements 4, as best seen on the left in FIG.

The sawing elements themselves are each formed in the present embodiment by a saw blade 4a and a flange 4b, which is fixedly connected to the saw blade 4a. The embodiment of the flange 4b shown in FIG. 2 enables a relatively large engagement and support surface to be provided between the saw element 4 and the associated transmission element 8 with the O-rings 10 provided therebetween. Furthermore, the configuration of the flange 4b shown in FIG. 2 allows the sawing elements 4 to be rotatably and easily rotatably supported by a bearing element 12 mounted on the base frame 14 of the continuous sawing device shown in FIG. In this case, the rotatable mounting of the sawing elements 4 or flanges 4b can be achieved in the bearing elements 12, for example by a ball bearing 20 or the like. Furthermore, the bearing elements 12 are slidable via suitable guides along the base frame 14 in the longitudinal direction of the drive shaft 6b. For moving or moving the sawing elements 4 and bearing elements 12 in the longitudinal direction of the drive shaft 6b, the continuous sawing device further comprises an adjusting device 16 which in the present embodiment has a plurality of rotatably mounted spindles which are connected to the sawing elements 4 and / or the bearing elements 12 and can be adjusted from outside the continuous saw device, for example manually or via a suitable drive.

The above-described construction of the inventive Durchlaufsägevorrichtung allows the mutual distance of the saw elements 4 and saw blades 4a can be easily and quickly adjusted at any time, especially during operation of the device so that virtually any strip width can be adjusted without any downtime and changeover times.

Claims (10)

Continuous sawing device (1) for splitting or grooving plate-shaped workpieces (W), which are preferably at least partially made of wood, wood-based materials, plastics or the like, with
a conveying device (2) for conveying the plate-shaped workpieces in a passage direction,
a plurality of in the region of the conveying device (2) arranged sawing elements (4), and
a rotary drive device (6) for the sawing elements (4) with a drive (6a) and a drive shaft (6b),
characterized in that
the saw elements (4) are connected to the drive shaft (6b) in such a way that they are displaceable in the longitudinal direction of the drive shaft (6b). Continuous sawing device according to claim 1, characterized in that the sawing elements (4) with the drive shaft (6b) in the rotational direction of the drive shaft (6b) are positively connected. Continuous sawing device according to claim 1 or 2, characterized in that the drive shaft (6b) has a deviating from a circular cross-section, in particular an at least approximately polygonal cross-section. Continuous sawing device according to one of the preceding claims, characterized in that the sawing elements (4) have at least one saw blade (4a) and a flange (4b) connected thereto. Continuous sawing device according to one of the preceding claims, characterized in that the sawing elements (4) with the drive shaft (6b) are each connected via a transmission element (8). Continuous sawing device according to claim 5, characterized in that the transmission elements (8) with the respective sawing element (4) are positively connected. Continuous sawing device according to claim 5 or 6, characterized in that between the transmission elements (8) and the respective sawing element (4) at least one elastic element (10), in particular O-ring, is provided. Continuous sawing device according to one of the preceding claims, characterized in that the sawing elements (4) are each rotatably mounted in a bearing element (12) mounted on a base frame (14) of the continuous sawing device (1). Continuous sawing device according to one of the preceding claims, characterized in that bearing elements (12) in the longitudinal direction of the drive shaft (6b) along the base frame (14) are displaceable. Continuous sawing device according to one of the preceding claims, characterized in that it further comprises an adjusting device (16) by means of which the sawing elements (4) along the shaft (6b) can be adjusted.

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