An apparatus for cooling products includes a cooling chamber with a conveyor for conveying the products through the cooling chamber, at least one circulator for circulating a cooling gas within at least a part of the cooling chamber, and guiding elements for guiding a flow of the cooling gas. The guiding elements are arranged such as to form at least one backflow channel from the second side of the conveyor to the at least one circulator, and wherein the cooling gas can be directed into an impingement section via the at least one circulator.

An apparatus for cooling products includes a cooling chamber with a conveyor for conveying the products through the cooling chamber, at least one circulator for circulating a cooling gas within at least a part of the cooling chamber, and guiding elements for guiding a flow of the cooling gas. The guiding elements are arranged such as to form at least one backflow channel from the second side of the conveyor to the at least one circulator, and wherein the cooling gas can be directed into an impingement section via the at least one circulator.

Apparatus for cooling products including a cooling chamber with a conveyor for conveying the products through the chamber, at least one circulator for circulating a cooling gas within at least a part of the chamber, and a first aperture element with a plurality of first aperture openings. The conveyor and the at least one circulator are arranged within the cooling chamber such that the cooling gas can impinge a first side of the conveyor, wherein the first aperture element is arranged within the chamber such that the cooling gas penetrates through the first aperture openings before impinging the first side of the conveyor.

Apparatus for cooling products including a cooling chamber with a conveyor for conveying the products through the chamber, at least one circulator for circulating a cooling gas within at least a part of the chamber, and a first aperture element with a plurality of first aperture openings. The conveyor and the at least one circulator are arranged within the cooling chamber such that the cooling gas can impinge a first side of the conveyor, wherein the first aperture element is arranged within the chamber such that the cooling gas penetrates through the first aperture openings before impinging the first side of the conveyor.

Apparatus for cooling products includes a cooling chamber with a conveyor for conveying the products through the chamber, at least one circulator for circulating a cooling gas within at least a part of the chamber, a first guiding element for guiding the cooling gas on a first conveyor side, and a second guiding element for guiding the cooling gas on a second conveyor side, wherein the first and second guiding elements are arranged within the chamber such that the cooling gas can impinge the first side, and the first and second guiding elements are oriented obliquely compared to the conveyor.

Apparatus for cooling products includes a cooling chamber with a conveyor for conveying the products through the chamber, at least one circulator for circulating a cooling gas within at least a part of the chamber, a first guiding element for guiding the cooling gas on a first conveyor side, and a second guiding element for guiding the cooling gas on a second conveyor side, wherein the first and second guiding elements are arranged within the chamber such that the cooling gas can impinge the first side, and the first and second guiding elements are oriented obliquely compared to the conveyor.

The invention relates to a light barrier system, comprising at least two reflection light barrier devices, each of which is configured to emit a light beam and to detect a reflected light beam, wherein the light barrier system comprises a reflection body, which is configured to reflect back light beams emitted from at least two different directions in parallel, which are spaced apart at an angle of at least 20?, wherein the at least two reflective light barrier devices are arranged in such a way that they emit light beams from different directions onto the same reflection body in order to monitor at least two spatially different areas. In a further aspect, the invention relates to the use of a reflection body.

The invention relates to a light barrier system, comprising at least two reflection light barrier devices, each of which is configured to emit a light beam and to detect a reflected light beam, wherein the light barrier system comprises a reflection body, which is configured to reflect back light beams emitted from at least two different directions in parallel, which are spaced apart at an angle of at least 20?, wherein the at least two reflective light barrier devices are arranged in such a way that they emit light beams from different directions onto the same reflection body in order to monitor at least two spatially different areas. In a further aspect, the invention relates to the use of a reflection body.

Illuminating fans for loading docks are disclosed. An example illuminating fan includes a housing defining an airflow chamber and an electrical chamber divided by an internal wall of the housing. The illuminating fan also includes a fan wheel mounted for rotation within the airflow chamber. The fan wheel is driven by a fan motor to generate a current of air passing through the airflow chamber. The illuminating fan further includes a lamp supported by the housing. The lamp is wired to an electrical circuit at least partially contained within the electrical chamber.

Provided is a dew condensation prevention device for a discharge chute. A tip end portion of the discharge chute has inverted truncated cone-shaped internal and external chutes, a space is provided between an outer surface of the internal chute and an inner surface of the external chute, and a first air discharge port that communicates with the space is provided between respective lower ends of the two chutes. A cylindrical portion having an air reservoir in the interior thereof is provided to surround an outer peripheral surface of the external chute, and by providing an opening between an inner peripheral edge of a lower surface of the cylindrical portion and the outer peripheral surface of the external chute, a second air discharge port that communicates with the air reservoir is provided. Air input pipes for introduction of dry air are connected to the external chute and the cylindrical portion, respectively.