Method and installation for joining a cover layer to an object, as well as cover layer suitable for the method

What is claimed is: 1. A method for joining a cover layer to an object in a continuous joining process using mechanical vibration energy and a joining material based on a thermoplastic polymer being liquefied or at least plasticized with the aid of the mechanical vibration energy, the method comprising the steps of: providing the cover layer and the object, the cover layer and the object each comprising a contact surface, the two contact surfaces facing each other in a joint to be established, and the joining material being arranged to constitute at least part of one of the two contact surfaces, arranging the cover layer and the object with the contact surface of the cover layer and the contact surface of the object facing each other, bringing the contact surface of the cover layer in contact with the contact surface of the object, preheating the joining material in a contactless manner for a time sufficient for raising the temperature of the joining material to above its glass transition temperature, pressing the cover layer against the object and applying mechanical vibration energy to an outer surface of the cover layer for a time sufficient for liquefaction or at least plastification and possibly dislocation of the joining material, the step of pressing and applying mechanical vibration energy being carried out after the step of preheating, consolidating the liquefied or plasticized and possibly dislocated joining material by stopping application of the mechanical vibration energy and still pressing the cover layer against the object for a time sufficient for the joining material to re-solidify, and conveying the cover layer and object in a continuous manner in a conveying direction throughout the steps of arranging, of bringing into contact, of subjecting to preheating, of pressing and applying vibration energy, and of consolidating, wherein the method further comprises a step of providing a susceptor or absorber being one of integrated in the joining material, being arranged or arrangeable in the vicinity of the joining material, and being constituted by the thermoplastic polymer base of the joining material, and wherein the step of preheating comprises exciting the susceptor or absorber with electromagnetic energy and heating the joining material by electric or magnetic induction. 2. The method according to claim 1 , wherein the step of pressing and applying mechanical vibration energy is carried out before the temperature of the preheated joining material drops below the glass transition temperature of the joining material. 3. The method according to claim 1 , wherein the step of preheating is carried out after or before the step of bringing into contact. 4. The method according to claim 1 , wherein the susceptor or absorber is integrated in the joining material and consists of particles or fibers dispersed in the joining material or of a two- or three-dimensional structure of fibers, threads or wires. 5. The method according to claim 1 , wherein the susceptor or absorber is arranged adjacent to the joining material and is constituted by a further material of the cover layer or the object. 6. The method according to claim 1 , wherein the susceptor or absorber is a separate susceptor or absorber element, which, in the step of arranging is arranged between the contact surfaces of the cover layer and the object. 7. The method according to claim 1 , wherein the joining material constitutes the whole contact surface of the cover layer or of the object and the susceptor or absorber is arranged evenly over the whole of said contact surface of the cover layer or the object. 8. The method according to claim 1 , wherein the joining material constitutes part of the contact surface of the cover layer or the object and wherein the susceptor or absorber is arranged on said part of the contact surface of the cover layer or the object. 9. The method according to claim 8 , wherein said part of the contact surface of the cover layer or the object is a plurality of stripes extending parallel to the conveying direction. 10. The method according to claim 1 , wherein at least a part of the contact surface of the object or of the cover layer, which part faces the joining material, comprises a penetrable material to be penetrated by the joining material. 11. The method according to claim 1 , wherein at least a part of the contact surface of the object or of the cover layer, which part faces the joining material, comprises protrusions to be embedded in the joining material. 12. The method according to claim 1 , wherein at least a part of the contact surface of the object or of the cover layer, which part faces the joining material, comprises a further thermoplastic polymer being weldable to the joining material, or a thermoplastic or thermoset polymer capable of forming an adhesive connection with the joining material. 13. The method according to claim 1 , wherein the cover layer is flexible enough to be provided from a feed roller. 14. The method according to claim 1 , wherein the object is one of a large number of objects which are conveyed in succession. 15. The method according to claim 1 , wherein the cover layer is an edge strip and the object is a board and wherein the edge strip is joined to one edge of the board. 16. The method according to claim 15 , wherein the board comprises chip board or is a hollow core board. 17. An installation for carrying out the method as defined in claim 1 , the installation comprising: a feeding zone equipped for arranging the cover layer and the object with the contact surface of the cover layer and the contact surface of the object facing each other, and for bringing the contact surface of the cover layer in contact with the contact surface or the object, a preheating zone arranged downstream or partially overlapping the feeding zone and being equipped with a preheating device, a liquefaction zone arranged downstream of the preheating zone and being equipped with a vibrating tool arranged for applying mechanical vibration and a pressing force to an outer surface of the cover layer, a consolidation zone equipped with a consolidation device arranged for further application of a pressing force to the outer surface of the cover layer, and a conveyor for conveying the object in a continuous manner in a conveying direction through the feeding zone, the preheating zone, the liquefaction zone and the consolidation zone to a delivery zone, as well as a further conveying means for feeding the cover layer into and through the feeding zone, wherein the preheating device is an electric conductor or induction heater arranged for generating an alternating electromagnetic field. 18. The installation according to claim 17 , wherein the vibration tool is a stationary sonotrode, a rotating sonotrode or a rotating arrangement of a plurality of sonotrodes. 19. The installation according to claim 17 , and further comprising a shielding device, arranged in at least one of the liquefaction zone and the consolidation zone and being equipped for shielding the vibrating tool from an effect of the preheating device and/or for protecting the outer surface of the cover layer. 20. The installation according to claim 17 , wherein the conveyor is equipped for conveying in succession a large number of the objects which are boards. 21. The installation according to claim 20 , wherein the conveying means is further equipped for feeding an edge strip into the feeding zone and wherein the conveyor is equipped