A format compensator for a pressing device, comprising a compensating element (7) of a given thickness (S), structured so as to be interposed between the lower punch and the upper punch (10, 11) of a pressing device so as to be arranged in contact with the punches (10, 11) during pressing.

A format compensator for a pressing device, comprising a compensating element (7) of a given thickness (S), structured so as to be interposed between the lower punch and the upper punch (10, 11) of a pressing device so as to be arranged in contact with the punches (10, 11) during pressing.

Adjustable tables for use in a packaging forming system and related methods are provided. An adjustable table for use in a packaging forming system can include outer side panels and moveable inner side panels moveably connected to the outer side panels with the outer side panels held stationary relative to the moveable inner side panels. The adjustable table can also include a table top secured to the moveable inner side panels. The table top and the inner side panels are configured to move upwardly or downwardly relative to the outer side panels.

A method for producing a decorated wall or floor panel, comprises the steps of: providing a pourable carrier material, in particular a granulate; placing the carrier material between two belt-like conveying means; forming the carrier material under the influence of temperature to form a web-shaped carrier; compressing the carrier; treating the carrier under the influence of pressure with use of a twin belt press at a first temperature T1 while forming a first compression factor K1 of the carrier; treating the carrier under the influence of pressure at a second temperature T2 while forming a second compression factor K2 of the carrier, wherein T2<T1 and wherein K2<K1; optionally cooling the carrier; optionally applying a decorative subsurface onto at least part of the carrier; applying a decorative template onto at least part of the carrier; and applying a protective layer onto at least part of the decoration.

A method for producing a decorated wall or floor panel, comprises the steps of: providing a pourable carrier material, in particular a granulate; placing the carrier material between two belt-like conveying means; forming the carrier material under the influence of temperature to form a web-shaped carrier; compressing the carrier; treating the carrier under the influence of pressure with use of a twin belt press at a first temperature T1 while forming a first compression factor K1 of the carrier; treating the carrier under the influence of pressure at a second temperature T2 while forming a second compression factor K2 of the carrier, wherein T2<T1 and wherein K2<K1; optionally cooling the carrier; optionally applying a decorative subsurface onto at least part of the carrier; applying a decorative template onto at least part of the carrier; and applying a protective layer onto at least part of the decoration.

The disclosure relates to a wood material panel pressing device for pressing a fibrous press cake in order to produce a wood material panel including an inspection device that is designed to emit a signal in the event of a disruption. According to the disclosure, the wood material panel pressing device for pressing a fibrous press cake for producing an HDF panel or an MDF panel includes: an inspection device, which is designed to emit a signal in an event of a disruption, wherein: the inspection device has a camera and an evaluation unit, the camera is arranged in an intake region of the wood material panel pressing device; and the evaluation unit automatically emits a signal in an event of a blow-out of press cake particles.

The disclosure relates to a wood material panel pressing device for pressing a fibrous press cake in order to produce a wood material panel including an inspection device that is designed to emit a signal in the event of a disruption. According to the disclosure, the wood material panel pressing device for pressing a fibrous press cake for producing an HDF panel or an MDF panel includes: an inspection device, which is designed to emit a signal in an event of a disruption, wherein: the inspection device has a camera and an evaluation unit, the camera is arranged in an intake region of the wood material panel pressing device; and the evaluation unit automatically emits a signal in an event of a blow-out of press cake particles.

A machine and method for compacting a powder material comprising ceramic powder; a layer of non-compacted powder material is conveyed to a compacting device, which enables a layer of compacted powder material to be obtained; the machine comprises a conveyor belt for carrying the powder material from an input station, in the area of which a feed assembly feeds the powder material to the conveyor assembly, to the compacting device; a straightening device is envisaged, which is designed for exerting a force to increase the flatness of the conveyor belt at least in the area of the input station.

A plant for manufacturing ceramic articles comprising two feeding devices, each of which is designed to contain a powder material of a respective type and to feed said powder material to a conveyor assembly; the plant further comprises an operating device which is designed to enable the output of the powder material selectively in the area of the feeding devices arranged successively and transversely to the feeding direction, and a control unit which controls the operating device depending on a desired reference distribution and how far the conveyor assembly feeds the power material.

The invention pertains to a sliding surface for a continuously operating double-belt press for manufacturing endless material strips such as laminates, particularly copper laminate, decorative laminate, fiber-reinforced plastic laminates and/or other technical laminates, wherein the double-belt press comprises an upper and a lower endless press belt (04) that are guided over deflection rollers, wherein a reaction zone (13), in which the material strip is guided and pressed together under a surface pressure, is formed between the opposing outer sides of the press belts, wherein the double-belt press furthermore has a pressure chamber (08) that generates at least part of the surface pressure and is formed in the reaction zone (13) between a base element (07), particularly a heating plate, and an inner side (11) of the press belt (04), wherein said pressure chamber can be acted upon with a fluidic pressure medium and is laterally bounded and sealed by the at least one annular, closed sliding surface (01), wherein the sliding surface (01) has a sealing surface (12) for abutting on the inner side (11) of the press belt (04) in a sealing manner, wherein the sliding surface (01) comprises a sealing element (02) that forms the sealing surface (12) and a sealing frame (03) that at least partially accommodates the sealing element (02) and serves for movably supporting the sliding surface (01) in the base element (07), particularly in the heating plate, wherein a compression element (17) is arranged between the sealing frame (03) and the sealing element (02) at least in a pressing direction, and wherein said compression element allows a motion of the sealing element (02) relative to the sealing frame (03) due to an elastic compression, especially in reaction to a pressure application on the sliding surface (01) in the pressing direction.