An apparatus for controlling the temperature of workpieces, in particular of vehicle bodies, has a temperature-control tunnel, a traction chamber and an intermediate floor which is arranged between the temperature-control tunnel and the traction chamber and which has a connection passage. The apparatus includes a conveying device for conveying the workpieces in the temperature-control tunnel, wherein the conveying device has at least one conveying carriage with a running gear and has a workpiece carrier for holding the workpieces of which the temperature is to be controlled. The running gear is arranged in the traction chamber and is connected by a connecting device, which projects through the connection passage of the intermediate floor, to the workpiece carrier arranged in the temperature-control tunnel. To control the temperature of the traction chamber and thus adequately protect the running gear against heat or cold, the intermediate floor is equipped at least in regions with an active cooling and/or heating means.

An apparatus for controlling the temperature of workpieces, in particular of vehicle bodies, has a temperature-control tunnel, a traction chamber and an intermediate floor which is arranged between the temperature-control tunnel and the traction chamber and which has a connection passage. The apparatus includes a conveying device for conveying the workpieces in the temperature-control tunnel, wherein the conveying device has at least one conveying carriage with a running gear and has a workpiece carrier for holding the workpieces of which the temperature is to be controlled. The running gear is arranged in the traction chamber and is connected by a connecting device, which projects through the connection passage of the intermediate floor, to the workpiece carrier arranged in the temperature-control tunnel. To control the temperature of the traction chamber and thus adequately protect the running gear against heat or cold, the intermediate floor is equipped at least in regions with an active cooling and/or heating means.

A locker cabinet is positioned over and supported by a plenum which contains a blower for forcing air upwards through apertures in the floor of the locker for rapidly drying wetted apparel stored in the locker. Tubes disposed over the apertures serve to support apparel items such as boots, gloves, and helmets. Louvered vents provided in the locker door near the top enable moistened air to discharge outside the locker. A well is provided in the floor to facilitate storage of items such as skis.

The disclosure relates to a baking apparatus for secondary battery. The baking apparatus for secondary battery comprises: a feeding device, a discharging device spaced from the feeding device in a horizontal direction, a baking device disposed between the feeding device and the discharging device, and a transferring device. The baking device comprises a baking oven including a housing and a cover for connecting hermetically with the housing. The transferring device is configured to put a secondary battery to be baked, which is conveyed by the feeding device, into the baking oven, and take the baked secondary battery out of the baking oven and convey it to the discharging device.

The invention involves an apparatus and a method for drying and/or curing impregnated wood. The apparatus includes a chamber comprising a stack containing space for containing a plurality of elongated wood planks arranged in a stack of a height H.sub.s, width W.sub.s and length L.sub.s, a heating element arranged within or adjacent to the space, a flow generating device arranged outside the space and configured to generate a circulating flow (F) of curing fluid within the chamber and a fluid flow restrictor arranged between the space and the flow generating device. The flow generating device and the fluid flow restrictor are further configured such that the circulating flow (F) of curing fluid is guided through the heating element generating a homogeneously heated and distributed flow (F) of curing fluid in the space. At least one motor is arranged outside the chamber, the at least one motor being configured to operate the flow generating device via a connecting shaft.

The invention involves an apparatus and a method for drying and/or curing impregnated wood. The apparatus includes a chamber comprising a stack containing space for containing a plurality of elongated wood planks arranged in a stack of a height H.sub.s, width W.sub.s and length L.sub.s, a heating element arranged within or adjacent to the space, a flow generating device arranged outside the space and configured to generate a circulating flow (F) of curing fluid within the chamber and a fluid flow restrictor arranged between the space and the flow generating device. The flow generating device and the fluid flow restrictor are further configured such that the circulating flow (F) of curing fluid is guided through the heating element generating a homogeneously heated and distributed flow (F) of curing fluid in the space. At least one motor is arranged outside the chamber, the at least one motor being configured to operate the flow generating device via a connecting shaft.

A drying system having a container, an air system, a sensor, and a control system. The control system is programmed to receive a measurement from the sensor and generate an air system instruction based on the measurement. The air system instruction corresponds with at least one of the temperature, flow rate, and/or pressure of airflow directed to the container by the air system. The air system adjusts the temperature, flow rate, and/or pressure of the airflow based on the air system instruction generated by the control system. A process for drying an agricultural product. A drying system having a floor with apertures that are sized and spaced so that a volumetric flow rate of the airflow through the apertures is between 75% to 100% of a maximum volumetric flow rate of the air system.

A food dehydration device which can dry comestibles as well as other items utilizing electric and/or solar power. Drying trays may be disposed vertically or horizontally. Units may be stacked vertically to expand capacity. For food storage, drying trays may fit into standard zip plastic bags, without need of unloading. Drying trays may be sized similar to standard dinner plates to fit more easily into dishwashers, over countertop cabinets. Variable venting resists rain and other liquids from the drying cavity. A hand-operated pusher device may be used to impale foods onto posts to load the drying trays. Trays may include orthogonal posts to impale and/or open-air suspend on the tips of posts, articles being dried, such as fruit rollup trays, yogurt cups, herbs, seeds, or nuts. Embodiments may be stored on their side to reduce storage shelf height requirements suitably including nonstick coating.

A method for manufacturing a thermal modification kiln for timber includes making plate modules from steel plates (200) by forming edges (210, 220, 230, 240) of the plates with flaps (211, 213, 215, 221, 223, 225, 231, 233, 235, 241, 243, 245), which enable adjacent modules to be interconnected for constructing a kiln frame.

A suction device for drying at least one plastic strand, incorporates a suction housing having a top side, a bottom side and several lateral surfaces, the top side having an inlet opening and one of the other surfaces having an outlet opening for the flow of a drying medium therethrough, and a screening element which has through apertures a base area with a maximum length and a maximum width. Each through aperture has an aperture cross-sectional area, and the sum of the aperture cross-sectional areas of all through apertures together forms a total aperture cross-sectional area. The screening element is on the top side and has its drying area above the inlet opening of the suction housing. The at least one plastic strand is moved in a process direction on the screening element, wherein the process direction is in a longitudinal direction of the screening element. The length of the drying area is at least 150 mm, and a ratio of the total aperture cross-sectional area of the through apertures to the base area of the drying area is between 30% and 45%, in particular 35% and 40%.