Abstract:
An adjustable air stream introducing device for reinforcement of a blowing power of a primary air stream flowing through a duct, includes a tubular coupler disposed downstream of the duct to confine an annular space. A surrounding seat member is disposed securely in the annular space, and has a plurality of internal ports angularly displaced from one another. A surrounding sash member has a plurality of external ports, and overlies on and is turnable relative to the seat member via a motor-driven actuator member so as to adjust the overlying areas of the external and internal ports, thereby adjusting the amount of the introduced air stream through the annular space.
Abstract:
An incinerator includes a furnace defining a combustion chamber, a feed supply, a feed-delivering conduit connected to the feed supply and the furnace, an air supply connected to the furnace, and an air distributor disposed in the combustion chamber, connected to the air supply, and having an elongated segment which is formed with a plurality of spaced apart holes for uniformly distributing air into the combustion chamber.
Abstract:
An incinerator includes a furnace with a supporting plate that defines a combustion chamber thereabove and an ash receiving chamber therebelow in the furnace. An ash control unit includes a partitioning member that divides the ash receiving chamber into upper and lower ash chambers and that defines a vertically extending ash channel communicated with the upper and lower ash chambers. A rake is disposed over the partitioning member for stirring and permitting uniform distribution of the high temperature ash on the partitioning member and for moving the high temperature ash into the ash channel. A rotary member is disposed rotatably in the ash channel and is formed with a plurality of angularly spaced apart fins which carry the high temperature ash falling from the upper ash chamber to the lower ash chamber.
Abstract:
An incinerator includes a furnace defining a combustion chamber, a feed supply, a feed-delivering conduit connected to the feed supply and the furnace, an air supply connected to the furnace, and an air distributor disposed in the combustion chamber, connected to the air supply, and having an elongated segment which is formed with a plurality of spaced apart holes for uniformly distributing air into the combustion chamber.
Abstract:
An incinerator includes a furnace, a heat-insulating shield, an air conduit, an air blower, and a dryer. The heat-insulating shield has a top wall, a vertically extending peripheral wall that extends downwardly from the top wall and that surrounds and that is spaced apart from the furnace by a gap, and an open bottom end. The peripheral wall of the heat-insulating shield has an air outlet that is disposed adjacent to the top wall and that is in fluid communication with the gap. Atmospheric air is introduced via the open bottom end through the gap and the air conduit and into the dryer. A feed motor is used to deliver solid waste into the furnace. A control unit controls rotating speed of the feed motor based on temperature in the dryer so as to adjust the temperature in the dryer.
Abstract:
An incinerator includes a furnace, a heat-insulating shield, an air conduit, an air blower, and a dryer. The heat-insulating shield has a top wall, a vertically extending peripheral wall that extends downwardly from the top wall and that surrounds and that is spaced apart from the furnace by a gap, and an open bottom end. The peripheral wall of the heat-insulating shield has an air outlet that is disposed adjacent to the top wall and that is in fluid communication with the gap. Atmospheric air is introduced via the open bottom end through the gap and the air conduit and into the dryer.