Method and apparatus for diverting and/or folding articles

The invention claimed is: 1. An apparatus for diverting and/or folding articles comprising an infeed conveyor, an outfeed conveyor, and a diverter, wherein: the infeed conveyor is configured to convey articles along an infeed path towards an infeed exit, where the articles can exit the infeed path to an outfeed entry of an outfeed conveyor; the outfeed conveyor is configured to convey the articles along an outfeed path from the outfeed entry, where articles can enter the outfeed path from the infeed exit of the infeed conveyor; the infeed conveyor and outfeed conveyor are configured such that: an angle between the infeed path and the outfeed path at the infeed exit and the outfeed entry is in the range of 30° up to and including 150°; and the outfeed entry is positioned adjacent to the infeed path, such that articles can continue along the infeed path downstream of the infeed exit without entering the outfeed entry; and the diverter is configured to divert an article from the infeed path to the outfeed entry of the outfeed conveyor by exhibiting a diverting force on an impact zone of the article at the infeed exit of the infeed conveyor, wherein the diverter is a non-contact, fluid emitting diverter configured to emit a fluid jet to exhibit the diverting force on the impact zone of the article at a side of the article facing away from the outfeed entry; and a brake assembly comprising a braking surface arranged: along the infeed path downstream of the infeed exit of the infeed conveyor; and along the infeed path downstream of the outfeed entry of the outfeed conveyor, and wherein the braking surface is configured: when the article is not diverted by the diverter, to allow the article to continue along the infeed path downstream of the infeed exit; and when at least a part of the article is diverted by the fluid jet to contact at least a part of the article along the infeed path downstream of the outfeed entry, such that this part of the article is decelerated in a direction away from the infeed exit and/or accelerated in a direction towards the outfeed entry. 2. The apparatus according to claim 1 , wherein the diverter is configured such that: an angle of the average direction of the diverting force of the fluid jet with the outfeed path at the outfeed entry is in the range of 5°-85°; an angle of the average direction of the diverting force of the fluid jet with the infeed path at the infeed exit is in the range of 5°-85°; and/or the angle of the average direction of the diverting force of the fluid jet with the outfeed path at outfeed entry and/or the angle of the average direction of the diverting force of the fluid jet with the infeed path at infeed exit are in the range of 40% up to and including 60% of the angle between the infeed path at the infeed exit and the outfeed path at the outfeed entry. 3. The apparatus according to claim 2 , wherein the apparatus is configured such that one or more of the following settings of the apparatus: the angle of the average direction of the diverting force with the infeed path; the angle of the average direction of the diverting force with the infeed path; and/or the angle between the infeed path and the outfeed path at the infeed exit and the outfeed entry, are adjustable and/or are determined in function of one or more of the following parameters: type of the articles; thickness of the articles; operating speed; a desired impact zone on which the fluid jet impacts the articles. 4. The apparatus according to claim 1 , wherein the apparatus is configured such that one or more of the following settings of the apparatus: the distance traveled by the fluid jet from the diverter to the article; the fluid pressure of the fluid jet; the flow rate of the fluid jet; and/or the timing and/or duration of the fluid jet, are determined by the function of one or more of the following parameters: type of the articles; thickness of the articles; operating speed; and/or a desired impact zone on which the fluid jet impacts the articles. 5. The apparatus according to claim 1 , wherein the apparatus comprises a guide assembly comprising a guide surface arranged at the infeed exit of the infeed conveyor and/or the outfeed entry of the outfeed conveyor, wherein the guide surface is configured, when at least a part of the article is diverted by the fluid jet, to guide the side of the article facing away from the fluid jet during at least part of the transition from the infeed path to the outfeed path, thereby determining a predetermined maximum distance traveled by the fluid jet along the average direction of the diverting force of the fluid jet. 6. The apparatus according to claim 5 , wherein the infeed conveyor and outfeed conveyor comprise a common pulley arranged at the infeed exit and the outfeed entry, the guide assembly comprising the common pulley which determines the guide surface. 7. The apparatus according to claim 6 , wherein the diverter is configured such that the average direction of the diverting force of the fluid jet intersects with the common pulley. 8. The apparatus according to claim 6 , wherein the diverter is configured such that the average direction of the diverting force of the fluid jet intersects with an angular section of pulley between the tangent with the direction of the infeed path at the infeed exit and the tangent with the direction of the outfeed path at the outfeed entry, the guide surface determined by at least a part of the angular section. 9. The apparatus according to claim 1 , wherein the apparatus further comprises: at least one sensor configured to determine at least one infeed parameter related to the shape and/or state of the article in the infeed conveyor; and/or at least one sensor configured to determine at least one outfeed parameter related to the shape and/or state of the article in the outfeed conveyor; and a controller suitably coupled to said at least one sensor configured to determine at least one infeed parameter and/or coupled to said at least one sensor configured to determine at least one outfeed parameter, and said controller configured to control said apparatus in function of: at least one desired infeed parameter and/or at least one desired outfeed parameter; and/or a desired ratio of at least one desired outfeed parameter with respect to at least one desired infeed parameter. 10. The apparatus according to claim 9 , wherein: said at least one sensor comprises one or more of the following: an optical sensor; an image sensor; a camera; a three-dimensional camera; a distance sensor; a thickness sensor; a length sensor; an edge detection sensor; and/or said at least one infeed parameter and/or outfeed parameter comprises one or more of the following: the thickness of the article in its respective state in the infeed conveyor and/or outfeed conveyor; the length of the article in its respective state in the infeed conveyor and/or outfeed conveyor; the position of and/or distance between the upstream end and downstream end of the article in its respective state in the infeed conveyor and/or outfeed conveyor; the position of the article along and/or with respect to the infeed path and/or the outfeed path in its respective state in the infeed conveyor and/or outfeed conveyor. 11. The apparatus according to claim 9 , in which the controller is configured to control said apparatus in function of said at least one desired infeed parameters, outfeed parameters, and/or desired ratio, in such a way that: the distance between opposing conveyor belts of the infeed conveyor and/or outfeed conveyor is adapted in function of the thickness of the artic