子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | Incineration equipment | JP19290088 | 1988-08-03 | JPH0776609B2 | 1995-08-16 | エイチ.ミュラー ジェイムズ; エル.ペニングトン ロドニー |
| 122 | Incinerator | JP7257992 | 1992-02-21 | JPH0756371B2 | 1995-06-14 | 進 中田 |
| 123 | Textured vacuum insulating panel | JP34699393 | 1993-12-27 | JPH0768681A | 1995-03-14 | JIEFUAATO JIYON NOUOBIRUSUKI |
| PURPOSE: To avoid the warpage of a heat insulating panel brought about by thermal strain by removing the thermal strain possible to generate on the entire surface of a panel when a textured means receives large temp. difference between the surface cover and back cover of the panel. CONSTITUTION: A heat insulating board 3 having load supporting properties is arranged within the vacuum space between a surface cover 1 and a back cover 2. Expansion joints 4 are formed to the surface cover 4 while expansion joints 5 are formed to the back cover 2 and the expansion joint part 6 of both panels are formed to the edges of a surface panel and a back panel and an edge welded part 7 bonds both panels. The expansion joints 4, 4 or 5, 5 of a surrounding panel to the surface and back covers 1, 2 cross at a crossing part 8 and the regions 9 surrounded by the expansion joints are present. Upon heating, the regions 9 between the expansion joints of the covers are expanded to be displaced on the heat insulating board 3 to deform the adjacent expansion joints. By this constitution, thermal stress of the respective regions 9 between the expansion joints is removed. | ||||||
| 124 | Method and apparatus for destroying sodium-containing waste | JP17715893 | 1993-07-19 | JPH06154727A | 1994-06-03 | KURIFUOODO ROORENSU SUPAIRO; HAABAATO KURAAKU PIITAASU; TOOMASU RINKU GUUGENHEIMU; TEIMOSHII MAAKU AREN |
| PURPOSE: To lengthen a service life of the refractory used as the liner of the combustion column where sodium-containing wastes are destroyed by combustion. CONSTITUTION: The wastes 2 containing organic and inorganic by-products and combined sodium of at least about 0.1 wt.% are destroyed by combustion at about 1,000-1,300 deg.C in the combustion column or a combustion vessel 1 which is lined with the refractory 36 comprising at least about 85 wt.% combined aluminum in terms of aluminum oxide. The refractory may have a sintered construction or a fused-cast construction. If it has the former, it comprises an aluminosilicate binder, preferably mullite, and contains at least about 6.5 wt.% combined silicon in terms of silicon dioxide. And it has improved resistance to the corrosive effects of the sodium in the waste stream. | ||||||
| 125 | Fluidized bed type reforming furnace | JP11816688 | 1988-05-17 | JPH0635321B2 | 1994-05-11 | MAEDA SADAHIKO; IDEI YASUMASA |
| 126 | Furnace temperature control method for fluidized bed combustion apparatus | JP31475691 | 1991-11-28 | JPH04273902A | 1992-09-30 | IKUBARU FUAZAAREATSUBAASU ABUD |
| PURPOSE: To provide a fluidized bed combustion apparatus and a combustion method which is capable of adjusting furnace temperature and capability accurately, effectively, and relatively inexpensively. CONSTITUTION: A furnace region 12 is formed with a front wall 12a, a rear wall 12b, and two side walls. Each wall is formed with a plurality of water wall tubes 50 extending vertically in a parallely isolated relationship, and adjacent tubes 50 are connected with each other through a continuous fin extending between the adjacent tubes 50. A refractory insulating material 54 extends directly to the inside of the tubes 50 and the fins for insulating the tubes 50 from heat produced in the furnace region 12. The height of the refractory insulating material 54 is adapted such that the material extends just above an upper portion of a conduit 48 extending to the furnace region 12. An opening 54a is provided at a portion of the refractory insulating material 54 extending adjacent the conduit 48, whereby re-environment solids can be flowed to the interior of the furnace region 12. COPYRIGHT: (C)1992,JPO | ||||||
| 127 | JPS6350609B2 - | JP12216081 | 1981-08-03 | JPS6350609B2 | 1988-10-11 | HOSAKA MASATO; NAKAMOTO MITSUYOSHI |
| 128 | Combustion apparatus | JP15885186 | 1986-07-08 | JPS6317306A | 1988-01-25 | KAWAMURA HIDEO |
| PURPOSE: To make a stable flame and provide a complete combustion of fuel by a method wherein a ceramic disk having small hoes therein is installed at a front surface of a gasification chamber and a heating plug passing through a fiber wick and the ceramic disk and projected into a combustion chamber is installed. CONSTITUTION: A gasification plate 8 of a ceramic disk is constructed such that a heater bar 4 is projected from a hole at a central part and gasification holes 3 are formed around i. A heater coil 18 of a heating plug is energized, the heater bar 4 is heated, a fuel supplying pump 21 is driven and liquid fuel is supplied to a gasification chamber 7 through a fuel supplying port 24 of a fuel supplying pipe 16. The fuel is flowed down a fiber wick 10 to become a gasified fuel and then is blown from the gasification hole 3 to the combustion chamber 6. Combustion air is fed from an air intake pipe 12, circulated around an air introducing passage 25 between an outer housing 14 and a combustion cylinder 11 and the blown into the combustion chamber 6 from air introducing holes 17 and 20. An extremity end of the heater bar 4 is set at a high temperature to cause a positive and fast ignition of mixture gas of gasified fuel and combustion air. The gasified fuel and the combustion air are uniformly mixed and completely ignited. COPYRIGHT: (C)1988,JPO&Japio | ||||||
| 129 | Sulfur combustion furnace and boiler composite device | JP11382486 | 1986-05-20 | JPS62278108A | 1987-12-03 | KAMERON GOODON MAREE; MATSUKUFUAARANDO JIYON |
| 130 | JPS6229798Y2 - | JP9874180 | 1980-07-11 | JPS6229798Y2 | 1987-07-31 | |
| 131 | JPS62501230A - | JP50037286 | 1985-12-19 | JPS62501230A | 1987-05-14 | |
| 132 | Method for manufacturing high combustion pressure combustion chamber | JP19177384 | 1984-09-14 | JPS6172916A | 1986-04-15 | FUJIMURA TAKEAKI; HAYASHI TETSUSHI |
| PURPOSE:To improve the strength and the reliability of a device by a method wherein a high strength material is manufactured and a better thermal conductive material is electrically adhered to the inside part of an outer shell which is integrally made with the former material and an electrical deposited layer is formed and thereby the cooling agent passage is manufactured and formed inside of the electrical deposited layer and a filler material is filled in the cooling material passage, the better thermal conduction material is further electrically deposited to the inside of the filling material and the electrical deposited layer, thereafter the filler material is removed. CONSTITUTION:A better thermal conductive material is electrically deposited inside of an outer shell 14 which is integrally formed by manufacturing a high strength material so as to form an electrical deposited layer 13, then a cooling material passage 12 is manufactured and formed inside the electrical deposited layer 13, a low melting filler material such as wax etc. is filled in the cooling material passage 12, the inner wall 11 of the better electrical conductive material is electrically deposited to the inside of the low melting filler material and the electrical deposited layer 13, then the low melting point filler material is heated, melted and removed. Since the electrical deposited layer 13 and the outer shell 14 are directly connected, the strength and the reliability of the structural body are high. The initial manufactured material is the outer shell 14 of a high strength material and this material can be integrally formed. In comparison with the case in which the material is coupled with a welding, the outer shell itself is strong and so the strength and the reliability of the unit can be improved. | ||||||
| 133 | Burner | JP10487183 | 1983-06-14 | JPS59231313A | 1984-12-26 | FUJII YUUICHI; OKABE SHIYUUICHI; AIZAWA AKIRA |
| PURPOSE:To enable a burner to be heated to a high temperature, to improve rapid heating ability, and to reduce the size of a device, by increasing resistance to heat of a combustion chamber. CONSTITUTION:In a combustion chamber 7, a chamber wall, partitioning an outer configuration thereof, is formed by a double-layer wall body, an outer housing 9, integrally formed in the shape of a cylinder by a silicon carbide fire resisting material or a silicon nitride fire resisting material which is remarkably excellent in resistance to load at a high temperature, is formed at the outside, and partition segments 10, formed by a zirconium oxide fire resisting material which is excellent in especially resistance to heat and resistance to oxidation, are stuck to each other at the inside. The partition segments 10 and 12 are divided into several parts along the longitudinal direction and the peripheral direction of the combustion chamber 7, and the partition segment 12, located at the forward end of the combustion chamber 7, gradually decreases the inner diameter in cross section of the combustion chamber 7 to form a nozzle part 13 which has the forward end being open to the outside. | ||||||
| 134 | Device with burner and heat exchanger | JP21885583 | 1983-11-22 | JPS59112106A | 1984-06-28 | IERUGEN HARUTOBUITSUHI PEETAAS |
| 135 | Solid fuel combustion device | JP12693082 | 1982-07-20 | JPS5918306A | 1984-01-30 | SONEDAKA KAZUNORI; NISHINO ATSUSHI; IKETANI KOREYOSHI; TOMIZAWA TAKESHI; SUZUKI TADAMI |
| PURPOSE:To provide a combustion device which has superior heat and corrosion resistances and can be operated stably over an extended period, by providing a functional inorganic material layer over the surface of combustion chamber member aranged inside a solid fuel combustion device. CONSTITUTION:A body 11 is formed as a steel casing, having a primary air supplying port 12 and a secondary air supplying port 13 separately provided at the lower portion thereof. Provided inside the body 11 is a combustion chamber casing 14 which in turn houses a combustion chamber member 15 therein. The combustion chamber has a primary air inlet 16 and a secondary air inlet 17 respectively provided at the lower and upper portions thereof. The combustion chamber member 15 has its surface coated with a functional inorganic material layer which comprises a ZrO2 powder and is applied by a plasma flame spray. When an inorganic binder method is employed, an alumina cement and a ZrO2 powder are milled with a mill additive added, and then coated using a spray gun. In so doing, a cmbuston device having superior heat and corrosion resistances and characterized with a stable operability over extend periods can be manufactured. | ||||||
| 136 | JPS58500958A - | JP50199082 | 1982-06-16 | JPS58500958A | 1983-06-09 | |
| 137 | High load combustor | JP18460681 | 1981-11-17 | JPS5886317A | 1983-05-23 | INDOU MASAHIRO; KIKUTANI FUMITAKA; KANEHARA NOBUYUKI; WATANABE HIROAKI |
| PURPOSE:To contrive reduction of pressure loss for secondary air supply, by a method wherein a high load combustor part is constituted by casting a heat exchanger pipe in aluminum material whose thermal conductivity is favorable and holding a flame hole, a secondary air jet and fin part for heat exchange between heat exchanger pipes. CONSTITUTION:As mixed gas reacts at a high temperature within a hatched area, a temperature of a flame hole 10 and a secondary air hole 11 becomes high, but if a device is a water boiler, the temperature can be reduced to a low temperature 50-100 deg.C as the temperature of the flame hole 10 and the secondary air hole 11 is close upon that of a material to be heated flowing within a heat exchanger pipe 9 as they are constituted of aluminum material having favorable thermal conductivity and the heat exchanger pipe 9 is built-in the vicinity of the flame hole 10 and the secondry air hole 11 in a body. With this, a fan can be miniaturized as the temperature is lowered and a pressure loss is reduced. | ||||||
| 138 | Mixing type gas burner | JP13910382 | 1982-08-10 | JPS5837414A | 1983-03-04 | RAIRU ESU SUPIIRUMAN |
| 139 | JPS5618555U - | JP9874180 | 1980-07-11 | JPS5618555U | 1981-02-18 | |
| 140 | JPS5545279Y2 - | JP16969677 | 1977-12-19 | JPS5545279Y2 | 1980-10-23 | |
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