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    • 6. 发明授权
    • Process for the production of ferritic stainless steel sheets or strips
and products produced by said process
    • 用于生产铁素体不锈钢板或带材的方法和由所述方法生产的产品
    • US4373971A
    • 1983-02-15
    • US222762
    • 1981-01-06
    • Tadashi SawataniMitsuo IshiiHirofumi Yoshimura
    • Tadashi SawataniMitsuo IshiiHirofumi Yoshimura
    • C21D9/46C21D6/00C21D8/02C22C38/18
    • C22C38/18C21D8/0205
    • In a process for the production of cold rolled ferritic stainless steel sheets or strips, a hot rolled strips has been annealed by a long time batchwise annealing and cold rolling and recrystallization annealing have been repeated usually twice. In the present invention, a hot rolled steel strip of an Al-containing ferritic stainless steel is heated by continuous annealing to a temperature of from 850.degree. to 1100.degree. C., AlN (aluminum nitride) is precipitated in the dispersed state and then cooling the strip to a temperature of 700.degree. to 900.degree. C., performing subsequent cooling to a level not higher than 200.degree. C. at such a cooling rate that a chromium depletion layer, which causes a gold dust defect, is not formed around the chromium carbonitride. Single cold rolling and recrystallization annealing are carried out in combination until the thickness is reduced to the gauge thickness.
    • 在制造冷轧铁素体不锈钢板或带材的方法中,通过长时间间歇退火退火热轧带材,冷轧和重结晶退火通常重复两次。 在本发明中,通过连续退火将含Al铁素体系不锈钢的热轧钢带加热至850〜1100℃的温度,在分散状态下析出AlN(氮化铝),然后冷却 将该条带放置在700℃至900℃的温度下,以这样的冷却速度进行随后的冷却至不高于200℃的水平,使得在其周围不形成导致金粉尘缺陷的铬耗尽层 碳氮化铬。 进行单次冷轧和再结晶退火,直到厚度减小到规格厚度。
    • 7. 发明申请
    • High frequency heating apparatus
    • 高频加热装置
    • US20050178763A1
    • 2005-08-18
    • US11105717
    • 2005-04-14
    • Masato YamauchiToshiyuki IshiguroHirofumi YoshimuraFumihiko Migaki
    • Masato YamauchiToshiyuki IshiguroHirofumi YoshimuraFumihiko Migaki
    • F24C11/00H05B6/80H05B6/64F25D23/12
    • H05B6/642F24C11/00H05B6/6429
    • The present invention provides a high frequency heating apparatus having a structure, which can be mounted/dismounted an air-exhausting grille without any tools. In this apparatus, an air-exhausting grille is arranged by that a fixing claw portion having a bent Z-shape, a fixing hooking portion having a concave notch, and a magneto joint plate are arranged, whereas a main body located opposite to the air-exhausting grille is arranged by that a slit hole, a hooking flange, and a magneto fixing plate are arranged. As a result, since the magneto joint plate is absorbed with the magneto fixing plate to be fixed with each other, the mounting/dismounting work capability of the air-exhausting grille can be improved without using the tool in a simple manner, and furthermore, a clean cooking appliance can be secured, while the cooking appliance can be readily cleaned.
    • 本发明提供一种具有结构的高频加热装置,其可以在没有任何工具的情况下安装/拆卸排气格栅。 在该装置中,排气格栅布置成具有弯曲Z形的固定爪部分,具有凹形凹口的固定钩部分和磁性接头板,而与空气相对的主体 排气格栅布置有狭缝孔,钩形凸缘和磁固定板。 结果,由于磁连接板被磁固定板吸收以彼此固定,所以可以在不以简单的方式使用工具的情况下改善排气格栅的安装/拆卸作业能力,此外, 可以确保清洁的烹饪器具,同时可以容易地清洁烹饪器具。
    • 9. 发明授权
    • Microwave heating apparatus with cooling conduit
    • 带冷却管道的微波加热装置
    • US4314126A
    • 1982-02-02
    • US62241
    • 1979-07-30
    • Hirofumi YoshimuraJunzo TanakaNobuo Ikeda
    • Hirofumi YoshimuraJunzo TanakaNobuo Ikeda
    • H05B6/64H05B3/02H05B6/80H05B11/00
    • H05B6/642H05B6/6482
    • A microwave heating apparatus has a body with a front wall, and a heating chamber within the body for holding an object to be heated. A microwave source is provided for generating microwaves, and a wave guide is connected between the microwave source and a microwave inlet for guiding the microwaves from the microwave source to the heating chamber. A radiant energy heater is disposed within the heating chamber for heating the object to be heated by radiant energy, and a power box is positioned above the chamber and housing the microwave source and the high voltage circuit components therefor. A microwave source cooling fan is provided in the power box, and thermal insulation covers the walls of the heating chamber, the upper surface of the thermal insulation on the top of the chamber and the bottom surface of the power box being spaced to provide a cooling conduit. The front wall of the body has an air suction inlet therein opening into one end of the cooling conduit, and a power box cooling fan is provided at the other end of the cooling conduit. The power box has a suction port therein opening into the cooling conduit upstream of the power box cooling fan for admitting air from the cooling conduit into the power box, the microwave source cooling fan and the power box cooling fan being in parallel flow relation.
    • 微波加热装置具有前壁的主体和用于保持待加热物体的本体内的加热室。 提供用于产生微波的微波源,波导连接在微波源和微波入口之间,用于将微波从微波源引导到加热室。 辐射能加热器设置在加热室内,用于通过辐射能加热待加热的物体,并且电源箱位于室上方并容纳微波源和高压电路部件。 在电源箱内设有微波源冷却风扇,隔热层覆盖加热室的壁面,室顶部隔热层的上表面和电箱的底面间隔开,以提供冷却 导管。 主体的前壁具有一个空气吸入口,通入冷却管道的一端,而冷却导管的另一端则设有动力箱冷却风扇。 动力箱有一个吸入口,通入电源箱冷却风扇上游的冷却导管,用于将空气从冷却导管进入电源箱,微波源冷却风扇和电源箱冷却风扇处于并流状态。