An injector configured for arrangement within a reactor of a vertical furnace to inject gas in the reactor is provided. The injector is made substantial elongated and configured with an internal gas conduction channel to transport gas from a first end of the injector to a second end of the injector. An outer sidewall of the injector may be tapered towards the second end over at least 10%, preferably 30% and most preferably 50% of the length of the injector to increase tolerances for fitting the injector in the tube.

The invention relates to a furnace for the treatment of material, in particular for the oxidative treatment of fiber material, in particular for producing carbon fibers, comprising a housing (12) having, a housing inner space (14), which is gas-tight with the exceptions of passage areas (18, 20) for the fibers (22), In the housing hiller space (14) of the housing (12), a process chamber (28) is located. A hot working atmosphere (40) can be generated by means of an atmosphere device (42). The atmosphere device (42) comprises a flow system (46) having flow channels (48), which are arranged in the housing inner space (14) each defining, one flow chamber (50), and are provided with flow passages such that the respective flow chambers (50) are fluidically connected to the process chamber (28) in such a way that hot working atmosphere (40) can he delivered to the process chamber (28) in at least one main flow direction (44) and can be discharged from the process chamber (28). A revision system (72) is provided, through which flow chambers (50) of flow channels (48) are accessible through the housing (12).

A hinged protective collar for a kiln with rigid first and second body portions, each with a shape and size corresponding to the shape and size of a portion of a peripheral edge surface of the kiln sidewall and a hinge structure that pivotally couples the first and second body portions so they can be pivoted from a collapsed configuration to an expanded, use configuration. For a kiln with a faceted shape, each of the first and second body portions has a given number of corresponding facets. The hinged protective collar can span a portion of the periphery of the kiln, or the hinged protective collar could span 360 degrees and could have first and second hinge structures coupling the first and second body portions. The first and second body portions can have upturned proximal and, additionally or alternatively, distal end portions to prevent damage to kiln brick.

A hinged protective collar for a kiln with rigid first and second body portions, each with a shape and size corresponding to the shape and size of a portion of a peripheral edge surface of the kiln sidewall and a hinge structure that pivotally couples the first and second body portions so they can be pivoted from a collapsed configuration to an expanded, use configuration. For a kiln with a faceted shape, each of the first and second body portions has a given number of corresponding facets. The hinged protective collar can span a portion of the periphery of the kiln, or the hinged protective collar could span 360 degrees and could have first and second hinge structures coupling the first and second body portions. The first and second body portions can have upturned proximal and, additionally or alternatively, distal end portions to prevent damage to kiln brick.

An oil-line assembly for an oil-fired boiler including a bracket, an elongated pipe, a first socket, a second socket, and a flexible hose. The bracket has a first plate member and a second plate member both having a common edge. The elongated pipe is coupled to an edge opposite the common edge of the second plate member and extends along its longitudinal axis parallel to the common edge. The elongated pipe has a proximal end and a distal end. The first socket is secured to the proximal end of the elongated pipe. The free end of the first socket receives an oil-line that extends from oil source. The second socket is coupled to the distal end of the elongated pipe. The proximal end of the flexible hose is coupled to the free end of the second socket and the distal end is coupled to an input of the oil-fired boiler.

An oil-line assembly for an oil-fired boiler including a bracket, an elongated pipe, a first socket, a second socket, and a flexible hose. The bracket has a first plate member and a second plate member both having a common edge. The elongated pipe is coupled to an edge opposite the common edge of the second plate member and extends along its longitudinal axis parallel to the common edge. The elongated pipe has a proximal end and a distal end. The first socket is secured to the proximal end of the elongated pipe. The free end of the first socket receives an oil-line that extends from oil source. The second socket is coupled to the distal end of the elongated pipe. The proximal end of the flexible hose is coupled to the free end of the second socket and the distal end is coupled to an input of the oil-fired boiler.

A multi-chamber type heating unit to heat a blank includes: a lower housing unit; an intermediate housing unit installed in an upper portion of the lower housing unit; and an upper housing unit installed in an upper portion of the intermediate housing unit. A plurality of intermediate housings are stacked to form the intermediate housing unit, and a heating unit to heat a blank is installed in each of the intermediate housings. Moreover, the intermediate housings are formed in the shape in which upper and lower portions thereof are opened, and an opening is formed in the front for a door to be inserted thereinto, and door sealing units provided on the intermediate housing portion and provided to seal the door when the door is closed.

A multi-chamber type heating unit to heat a blank includes: a lower housing unit; an intermediate housing unit installed in an upper portion of the lower housing unit; and an upper housing unit installed in an upper portion of the intermediate housing unit. A plurality of intermediate housings are stacked to form the intermediate housing unit, and a heating unit to heat a blank is installed in each of the intermediate housings. Moreover, the intermediate housings are formed in the shape in which upper and lower portions thereof are opened, and an opening is formed in the front for a door to be inserted thereinto, and door sealing units provided on the intermediate housing portion and provided to seal the door when the door is closed.

In a door structure of a heat treatment furnace performing a heat treatment of a workpiece, there are provided: a first opening member and a second opening member in which workpiece passing ports where the transferred workpiece passes are formed; and a sheet shutter, the sheet shutter is provided with a winding portion and a shutter portion, the shutter portion is disposed between the first opening member and the second opening member, the shutter portion is provided with a first sheet portion which covers the workpiece passing port of the first opening member and a second sheet portion which covers the workpiece passing port of the second opening member at a time that the shutter portion is closed, and it is configured that a gas storage portion is formed between the first opening member and the second opening member at the time that the shutter portion is closed.

A hood for a taphole and a tapping spout in a submerged arc furnace in the production of silicon. The hood has at least two suction ducts which are placed asymmetrically on either side of the hood, and is useful in a process for the production of silicon in a submerged arc furnace, wherein liquid silicon and refining gas escape from a taphole of a crucible, wherein the liquid silicon flows on a tapping spout into a ladle, wherein the refining gas is sucked in a hood which has at least two suction ducts which are placed on either side of the hood.