阅读说明：本技术 用于连续铣削机器的切割装置和用于制造面板的方法 (Cutting device for a continuous milling machine and method for manufacturing panels ) 是由 简·德·里克 于 2020-02-24 设计创作，主要内容包括：用于连续铣削机器(1)的切割装置,该连续铣削机器用于形成面板(3)的一个或多个边缘(2)的轮廓。切割装置包括滑动支承块(4)或压力支承块(5),该滑动支承块或压力支承块具有一个或多个滑动表面(6),以用于在一个或多个滑动表面之上引导待铣削的面板(3)的表面(7-8)。上述滑动支承块(4)或压力支承块(5)设置有至少一个切割刀片(9)以用于加工面板(3),其中,此切割刀片在此加工期间保持固定位置。滑动支承块(4)或压力支承块(5)设置成通过其一个或多个滑动表面(6)将待铣削的面板的表面支撑在旋转铣削切割器(11)上,该旋转铣削切割器在面板的边缘上进行铣削操作。(Cutting device for a continuous milling machine (1) for profiling one or more edges (2) of a panel (3). The cutting device comprises a sliding bearing block (4) or a pressure bearing block (5) having one or more sliding surfaces (6) for guiding a surface (7-8) of the panel (3) to be milled over the sliding surface or surfaces. The sliding bearing block (4) or the pressure bearing block (5) is provided with at least one cutting blade (9) for processing the panel (3), wherein the cutting blade is kept in a fixed position during the processing. A sliding bearing block (4) or a pressure bearing block (5) is arranged to support the surface of the panel to be milled by means of one or more of its sliding surfaces (6) on a rotary milling cutter (11) which performs the milling operation on the edge of the panel.)

1. Cutting device for a continuous milling machine (1) for profiling one or more edges (2) of a panel (3), wherein the cutting device comprises a sliding bearing block (4) or a pressure bearing block (5), wherein the respective sliding bearing block (4) or pressure bearing block (5) has one or more sliding surfaces (6) for guiding a surface (7-8) of the panel (3) to be milled thereon, wherein the sliding bearing block (4) or the pressure bearing block (5) is provided with at least one cutting blade (9) for machining the panel (3), wherein the cutting blade remains in a fixed position during this machining; and wherein the sliding bearing block (4) or the pressure bearing block (5) is arranged to support the surface of the panel to be milled by means of one or more of its sliding surfaces (6) on a rotary milling cutter (11) performing a milling operation on the edge of the panel.

2. The cutting device according to claim 1, wherein the sliding bearing block (4) or the pressure bearing block (5) comprises a one-piece component; wherein the one-piece component comprises one or more sliding surfaces (6) to support the panel (3) before and after a position where the rotary milling cutter (11) can perform a milling operation on an edge of the panel (3).

3. The cutting device according to claim 1, wherein the sliding bearing block (4) or the pressure bearing block (5) comprises two separate parts; wherein a first component comprises a sliding surface (6) to support the panel (3) in front of a position where the rotary milling cutter (11) can perform a milling operation on an edge of the panel; and wherein the second part comprises a sliding surface (6) to support the panel (3) after a position where the rotary milling cutter (11) can perform a milling operation on the edge of the panel.

4. The cutting device according to any one of the preceding claims, wherein the cutting device comprises a rotary milling cutter (11) for milling the panel at the location of the sliding bearing block (4) or the pressure bearing block (5).

5. The cutting device according to any one of the preceding claims, wherein the position of the cutting blade relative to the sliding surface (6) is configured to be controllable, preferably at least in a direction V perpendicular to the surface (7-8) of the panel (3) or transverse/perpendicular to the sliding surface (6), and/or at least in a direction H in the plane of the panel or in the sliding surface (6).

6. The cutting device according to claim 5, wherein the position is controllable based on one or more positioning screws (25).

7. The cutting device according to any one of the preceding claims, wherein the cutting blade (9) has a cutting surface (10) at an angle (a) to a surface (7-8) of the panel (3) to be milled.

8. Continuous milling machine (1) for forming the profile of one or more edges (2) of a panel (3), wherein it comprises a cutting device according to any one of claims 1 to 7; and wherein the continuous milling machine comprises a position with additional rotary milling cutters for machining the edge of the panel that can be machined by the cutting device.

9. Method for manufacturing panels, wherein a continuous milling machine according to claim 8 is used, wherein the panels (3) have a profiled edge region on one or more edges (2), wherein the formation of the profiled edge region is carried out at least by means of the additional rotary milling cutter(s) (11), and wherein the panel (3) to be milled is guided with its surface (7-8) above one or more sliding surfaces (6) of the sliding bearing block (4) or the pressure bearing block (5), characterized in that the method comprises the following steps: a part of the profiled edge region is formed by a cutting blade (9) arranged on the sliding bearing block (4) or the pressure bearing block (5).

10. Method according to claim 9, wherein a milling operation is performed on the respective edge (2) by the rotary milling cutter (11) at the location of the sliding or pressure bearing block (4-5), wherein one or more sliding surfaces (6) of the sliding or pressure bearing block (4, 5) support the surface of the panel to be milled on the rotary milling cutter (11).

11. The method of claim 10, wherein the rotary milling cutter is engaged in the edge of the panel such that the milling cutter rotates away from the position of the cutting blade as it is engaged in the edge of the panel.

12. Method according to any one of claims 9 to 11, wherein the profiled edge region has a chamfer (13), for example in the form of a chamfered edge, at the location of at least one of the main surfaces (7-8) of the panel (3), wherein the surface of the chamfer (13) is formed at least partially by the cutting blade (9), and preferably only by the cutting blade.

13. Method according to any one of claims 10 to 12, wherein the profiled edge region comprises coupling means (16) by which it can interact with one or more edges (2) of a similar panel (3); wherein the coupling means are at least partly formed by a milling operation with the rotary milling cutter (11).

14. Method according to any one of claims 9 to 13, wherein the panel is provided with a coating on at least one of the main surfaces (7-8), said coating preferably being formed by a transparent thermoplastic layer (14).

15. The method according to any of claims 9-14, wherein the panel (3) has a base material (15) comprising a mineral component, preferably in an amount of at least 40 wt%, better still at least 60 wt%.

16. The method according to any one of claims 9 to 15, wherein the panel (3) has a base material (15) comprising a thermoplastic material, preferably comprising rigid polyvinyl chloride (PVC), i.e. PVC preferably having a plasticizer content of less than 5 phr.

17. Method according to any one of claims 9 to 16, wherein for forming the profiled edge region at least three or four, or only three or four rotary milling cutters (11) and the cutting blades (9) are employed.