Abstract: A lateral plate element (106) for a link for a self-stacking endless conveyor belt includes an outer plate section (110); an inner plate section (120); and a bridging plate section (130) bridging the outer and inner plate sections. A resting surface (141) engages a lateral plate element of an underlying tier of the self-stacking endless conveyor belt (1). An upper portion with an associated upper edge (7) engages the resting surface of a lateral plate element of an overlaying tier of the self-stacking endless conveyor belt when it extends helically. An inner abutment surface (126) engages the upper portion of the underlying lateral plate element to limit outward lateral movement of the lateral plate element relative the underlying lateral plate element. An outer abutment surface (142) engages the upper portion of the underlying lateral plate element to limit the inward lateral movement of the lateral plate element relative the underlying lateral plate element.
Abstract: A lateral plate element (6, 6?) for a link means (4, 4?) for a self-stacking, helical endless conveyor belt (1), the lateral plate element, comprises an outer plate section (10), an inner plate section (20) and a bridging plate section (30) bridging the outer and inner plate sections (10, 20). The outer plate section (10) comprises a top subsection (11) extending in a first plane and wherein the inner plate section (20) comprises a top subsection (21) extending in a second plane, the second plane being offset, in an inward direction (A). The outer plate section (10) further comprises a bottom subsection (12) arranged in a bottom part of the outer plate section (10) and extending in a third plane being offset in the inward direction (A) with regard to the first plane. The lateral plate element further comprises a reinforcement (13) extending between the top subsection (11) and the bottom subsection (12) of the outer plate section (10).
Type:
Grant
Filed:
November 24, 2011
Date of Patent:
August 12, 2014
Assignee:
John Bean Technologies AB
Inventors:
Jonny Malmberg, Goran Gramby, Jan Solminger, Urban Wilthorn
Abstract: The present invention relates to a cooking device for cooking of foodstuffs, comprising a cooking chamber, a product conveyor, a shape-controlling belt, and a lifting member, the product conveyor being arranged to convey said foodstuffs through said cooking chamber, the shape-controlling belt being an endless belt extending along an upper return path, and a lower work path, the lifting member being arranged to shift a part of the lower work path between a first position in which the belt extending along said part is slacking and is adopted to contact said foodstuffs on the product conveyor, and a second position in which the belt extending along said part is adopted to be separated from said foodstuffs on the product conveyor. The invention further relates to a method for switching a cooking device between being adapted for shape-controlled cooking and non-shape-controlled cooking of food-stuffs, and use of the cooking device.
Abstract: A conveyor belt comprising a plurality of successive belt elements (2), each belt element (2) comprising at least one transverse rod (4) and two opposing side members (3) connected to each other by the at least one transverse rod (4), and a link (6) forming a joint intermediate the lateral edges (7a, 7b) of the conveyor belt between the adjoining transverse rods (4) of each pair of adjoining belt elements (2). Each link (6) comprises a plate (11) in which two successive rod receiving holes (12) are formed, wherein the rod receiving holes (12) have an offset (O) towards a first side (13) of said plate (11) and wherein a recess (16) is formed in said first side (13) of the plate (11), between said rod receiving holes (12).
Abstract: The present invention relates to a method and a system for determining a set of process parameters of a treatment unit in which unit a product is subjected to a temperature treatment, the method comprising: subjecting a product to an electromagnetic signal before, during and/or after a temperature treatment, wherein said electromagnetic signal is adapted to interact with said product dependent upon the dielectric constant distribution of said product, receiving an electromagnetic signal which has interacted with said product, analysing the received electromagnetic signal in comparison with the transmitted electromagnetic signal and thereby determining a response being dependent upon the dielectric constant distribution of said product and based thereupon determine the temperature (distribution) or water content of the product, and analysing said temperature distribution or temperature of the product or products and based thereupon determining a set of process parameters for a temperature treatment in a treatm
Abstract: An apparatus for gas treatment of products rises a housing having top, bottom and side walls; a conveyor belt for transporting the products along a first path in the housing; a tunnel having perforated walls and enclosing the conveyor belt along the first path; a gas circulation device communicating with the tunnel via the perforated walls for circulating gas into the tunnel in the form of gas jets impinging upon the products carried by the conveyor belt, and out of the tunnel in a return channel back to the gas circulation device; and a gas conditioning device positioned in the return channel. At least one substantially vertical part of the connecting walls of the high-pressure chamber is removable so as to provide access to the inside of the pressure chamber, and at least one of the side walls of the housing along the high-pressure chamber may be movable so as to widen the space between at least one wall and the high-pressure chamber.
Type:
Grant
Filed:
January 20, 2000
Date of Patent:
July 5, 2011
Assignee:
John Bean Technologies AB
Inventors:
Jonny Malmberg, Per Blixt, Jon A. Hocker, Rick Wilson