Patent ID: 7004087
Filing Date: 2006-02-28
Classification: F23G,F23J,F23M,F23N,Y02E

Abstract:
1. A high temperature gas reforming cyclo-incinerator comprising: a cylindrical internal exhaust tub; an external exhaust tub axially receiving the internal exhaust tub therein; an internal upper tub having a cylindrical tub body, with an exhaust pipe axially extending upward from said tub body, a shoulder formed at a lower end of said exhaust pipe and integrated with an upper end of the tub body into a single structure, and a plurality of exhaust ports formed around the upper end of a sidewall of said tub body; an external upper tub connected at an upper end thereof to the external exhaust tub, with an internal support rim formed in said external upper tub to seat a stop rim of the internal upper tub thereon; an external lower tub connected at an upper end thereof to a lower end of said external upper tub, with an external intake opening formed on a sidewall of the external lower tub and closed by an external intake door having a window, an air inlet port formed on the sidewall of the external lower tub at a position opposite to the external intake opening, an external ash outlet opening formed at a lower portion of the external lower tub and closed by an ash outlet door, and a dust collecting port formed on the lower portion of the external lower tub at a position opposite to the ash outlet opening; and an internal lower tub received in said external lower tub and having an internal ash outlet opening at a position aligned with the external ash outlet opening of the external lower tub, with a plurality of inlet ports formed at upper and lower portions of the internal lower tub respectively connected to a reformed water inlet pipe and first and second fuel inlet pipes, and a water collector set in a lower portion of the internal lower tub; an internal dust collecting tub opened at a top thereof and set in an upper portion of said internal upper tub such that a dust chamber is defined between the internal dust collecting tub and the internal upper tub, with a plurality of dust collecting ports formed on a sidewall of said internal dust collecting tub, said internal dust collecting tub being mounted at a lower edge thereof to an upper portion of an inner surface of said internal upper tub; a dust outlet port formed on a sidewall of said internal upper tub at a position corresponding to a lower portion of the dust chamber defined between the internal dust collecting tub and the internal upper tub, thus discharging dust from the dust chamber to the outside of the internal upper tub due to a swirling force of air; a dust outlet pipe connected to the dust outlet port of the internal upper tub, and extending to the outside of the internal upper tub; a locking port formed at a sidewall of the external upper tub to hermetically support said dust outlet pipe; a dust guide pipe hermetically connected to said locking port of the external upper tub to downwardly guide dust discharged from the dust chamber through the dust outlet pipe; and a micro-dust collecting tub connected to the dust guide pipe so as to collect dust guided by the dust guide pipe.