A baking apparatus (1) for producing baked edible products, including a frame (21), a housing (20), a baking chamber (2), and a baking tong chain (3) with baking tongs (8) and rollers (9). The rollers roll on at least one longitudinal strut (10) that supports and/or guides the baking tong chain. A cooling duct (11) through which cooling air flows cools the longitudinal strut. The cooling duct (11) opens in the region of the rear deflection point (6) through at least one convection opening (12) into the baking chamber. A convection fan (25) generates a convection flow in the baking chamber and conveys the cooling air through the cooling duct (11) so that the cooling air flows through the convection opening from the cooling duct to produce an artificial convection, horizontally through the baking chamber.

A baking apparatus (1) for producing baked edible products, including a frame (21), a housing (20), a baking chamber (2), and a baking tong chain (3) with baking tongs (8) and rollers (9). The rollers roll on at least one longitudinal strut (10) that supports and/or guides the baking tong chain. A cooling duct (11) through which cooling air flows cools the longitudinal strut. The cooling duct (11) opens in the region of the rear deflection point (6) through at least one convection opening (12) into the baking chamber. A convection fan (25) generates a convection flow in the baking chamber and conveys the cooling air through the cooling duct (11) so that the cooling air flows through the convection opening from the cooling duct to produce an artificial convection, horizontally through the baking chamber.

A baking device (1) for producing baked products has a baking device frame (2) with a baking device housing (3) and a baking chamber (4), a baking tong chain (5) with baking tong carriages (6) which have baking tongs (21) that can be opened and closed. Rollers (7) are connected to the carriages (6) and/or to the chain (5) in such a way as to be able to rotate about a roller rotation axis (8), and roll on at least one vertical guide rail (9) in order to support and vertically guide the baking tong carriages (6). At least one lateral guide roller (10) is connected to a carriage (6) and/or to the chain (5) so as to be able to rotate about a lateral guide roller rotation axis (11). The lateral guide roller (10) rolls on at least one lateral guide strip (12) of the baking device (1) to laterally guide the carriage (6), and wherein the direction of the lateral guide roller rotation axis (11) is at an angle to the direction of the roller rotation axis (8).

A baking device (1) for producing baked products has a baking device frame (2) with a baking device housing (3) and a baking chamber (4), a baking tong chain (5) with baking tong carriages (6) which have baking tongs (21) that can be opened and closed. Rollers (7) are connected to the carriages (6) and/or to the chain (5) in such a way as to be able to rotate about a roller rotation axis (8), and roll on at least one vertical guide rail (9) in order to support and vertically guide the baking tong carriages (6). At least one lateral guide roller (10) is connected to a carriage (6) and/or to the chain (5) so as to be able to rotate about a lateral guide roller rotation axis (11). The lateral guide roller (10) rolls on at least one lateral guide strip (12) of the baking device (1) to laterally guide the carriage (6), and wherein the direction of the lateral guide roller rotation axis (11) is at an angle to the direction of the roller rotation axis (8).

The invention relates to a system and method for improvingly controlling the production of food products from granular raw materials such as for instance cereal rice formed into crackers. More in particular, the invention relates to an adjustable mechanical stop mechanism for better controlling the distance between the dies where pressure-baking of food occurs, and to provide the possibility of adjustable distance between the dies in case of multiple compressions of the food material, for which different die spacings can then be installed, leading to very repeatable and unchanging food processing conditions and thus an improved and much more constant quality of end product such as a cracker.

This disclosure relates to the field of cooking ovens for the preparation of foodstuffs in an enclosed environment including a visual flame along with a rotating cooking plate upon which foodstuffs are placed and are transported through various cooking regions before being removed from the cooking oven for consumption.

An unmanned vehicle for cooking and delivering food may include a housing. The housing may include an oven having at least one heating element, a conveyor inside the oven. The conveyor may be configured to support food. A tambour door may be coupled between the oven and a delivery area of the housing. A delivery door may be configured to seal the delivery area from an area outside of the housing. The oven may be configured to cook food during a delivery time of the drone and the drone may be configured to deliver the food to a delivery location. The process from ordering to delivery of the food item may be tracked using blockchains.

An unmanned vehicle for cooking and delivering food may include a housing. The housing may include an oven having at least one heating element, a conveyor inside the oven. The conveyor may be configured to support food. A tambour door may be coupled between the oven and a delivery area of the housing. A delivery door may be configured to seal the delivery area from an area outside of the housing. The oven may be configured to cook food during a delivery time of the drone and the drone may be configured to deliver the food to a delivery location. The process from ordering to delivery of the food item may be tracked using blockchains.

A pastry making machine comprises a conveyor with product molds on the matrices. Stamps are adapted to cover matrices. A dough dispenser with a hopper is installed at the beginning of the conveyor. There are also an oven, a product unloader, a blower with rolls, a manipulator equipped with a lifting mechanism and magnetic or mechanical grippers for the stamps, and a control unit. The surface of the rolls is profiled with separating cells forming longitudinal and transversal rows. The dosing head has at least one row of separating chambers, with channels discharging dosed dough pieces. An induction heating assembly is positioned along the oven. Each matrix is mounted on a wheeled cart, attached to the conveyor. One embodiment has a current-conductive profile connected to the heating assemblies of the stamps. Another embodiment has its heating assembly stretched alongside the whole oven heating the stamps and matrices. The machine improves product quality.

A pastry making machine comprises a conveyor with product molds on the matrices. Stamps are adapted to cover matrices. A dough dispenser with a hopper is installed at the beginning of the conveyor. There are also an oven, a product unloader, a blower with rolls, a manipulator equipped with a lifting mechanism and magnetic or mechanical grippers for the stamps, and a control unit. The surface of the rolls is profiled with separating cells forming longitudinal and transversal rows. The dosing head has at least one row of separating chambers, with channels discharging dosed dough pieces. An induction heating assembly is positioned along the oven. Each matrix is mounted on a wheeled cart, attached to the conveyor. One embodiment has a current-conductive profile connected to the heating assemblies of the stamps. Another embodiment has its heating assembly stretched alongside the whole oven heating the stamps and matrices. The machine improves product quality.