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    • 1. 发明授权
    • Air conditioner and its manufacturing method
    • 空调及其制造方法
    • US06189332B1
    • 2001-02-20
    • US09217045
    • 1998-12-21
    • Masaharu OtaShiho FuruyaKiyoshi Kinoshita
    • Masaharu OtaShiho FuruyaKiyoshi Kinoshita
    • F25D1704
    • F24F7/007B29C71/02B29C2071/022B29L2031/08F04D29/023F05D2230/41F05D2300/43F05D2300/44F05D2300/502F05D2300/603
    • The invention includes a step of supplying at least one heat control means of heating means and cooling means for conditioning the air temperature, and a step of manufacturing a fan for blowing air controlled by the heat control means, in which the step of manufacturing the fan includes a step of preparing a compound material having (i) glass fiber, and (ii) at least one copolymer of a copolymer produced from a monomer containing acrylonitrile and styrene, and a copolymer produced from styrene and a heat resistant monomer, a step of forming a molded part by molding the compound material, a step of assembling a fan by using the molded part, and a step of clearing the molded part of strain by annealing the fan by hot air circulation in a temperature range lower by about 5° C. to about 20° C. than the load deflection temperature, and in a wind velocity range of about 1 m/sec to about 3 m/sec. The fan having a load deflection temperature of about 100° C. or more by a testing method of JIS K 7207 at a load of 18.5 kgf/cm2. The air conditioner is manufactured in this manner. In this constitution, the required annealing time is shortened, and the productivity is enhanced. Moreover, the flowability of the compound material is heightened, so that the molding performance is improved.
    • 本发明包括提供加热装置的至少一个加热控制装置和用于调节空气温度的冷却装置的步骤,以及制造用于吹送由热控制装置控制的空气的风扇的步骤,其中制造风扇的步骤 包括制备具有(i)玻璃纤维的复合材料的步骤,和(ii)至少一种由含有丙烯腈和苯乙烯的单体制备的共聚物和由苯乙烯和耐热单体制备的共聚物的共聚物,步骤 通过模制复合材料来形成模制部件,通过使用模制部件组装风扇的步骤以及通过在低于约5℃的温度范围内的热空气循环对风扇进行退火来清除模制部件的步骤 比载荷挠曲温度高约20℃,风速范围约为1m / sec至约3m / sec。 通过JIS K 7207的测试方法,在18.5kgf / cm 2的负荷下,具有约100℃或更高的载荷挠曲温度的风扇。 以这种方式制造空调。 在该结构中,缩短了所需的退火时间,提高了生产率。 此外,复合材料的流动性提高,从而提高了成型性能。
    • 3. 发明授权
    • Multiprocessor system and control method therefor
    • 多处理器系统及其控制方法
    • US4866597A
    • 1989-09-12
    • US727828
    • 1985-04-26
    • Kiyoshi Kinoshita
    • Kiyoshi Kinoshita
    • G06F12/00G06F13/38G06F15/167
    • G06F15/167
    • A multiprocessor system is configured so as to effect a bidirectional data transfer among a plurality of processors through a data buffer of a plurality of bytes to which transfer data can be written and from which it can be read. The system is provided with mode storage means of which contents are rewritten by at least one of the plurality of processors and for storing mode information indicating that write/read operation of transfer data in the data buffer means by the one processor is controlled based on DMA system or interrupt system, condition storage means for storing information as to whether write and read operations of transfer data in the data buffer means by the one processor are in an allowed condition or not, and selector means operative to output either a DMA request signal or an interrupt request signal on the basis of storage contents of the mode storage means and the condition storage means, and a DMA controller wherein when the DMA request signal is given, the DMA controller is operative to control write/read operation of transfer data in the data buffer means by the one processor based on the DMA system, whereby when the interrupt request signal is given, the one processor is operative to control write/read operation of transfer data in the data buffer means based on the interrupt system.
    • 多处理器系统被配置为通过可以写入传送数据的多个字节的数据缓冲器来实现多个处理器之间的双向数据传送,并且从其读取它们。 该系统设置有模式存储装置,其中内容由多个处理器中的至少一个处理器重写,并且用于存储指示由基于DMA的一个处理器在数据缓冲器装置中的传送数据的写入/读取操作的模式信息 系统或中断系统,条件存储装置,用于存储关于一个处理器在数据缓冲器装置中的传送数据的写入和读取操作是否处于允许状态的信息;以及选择器装置,用于输出DMA请求信号或 基于模式存储装置和条件存储装置的存储内容的中断请求信号,以及DMA控制器,其中当给出DMA请求信号时,DMA控制器可操作以控制传输数据的写入/读取操作 数据缓冲器是由一个处理器基于DMA系统的装置,由此当给出中断请求信号时,一个处理器可操作地继续执行 基于中断系统的数据缓冲器中的传输数据的rol写/读操作。
    • 4. 发明授权
    • Input data synchronizing circuit
    • 输入数据同步电路
    • US4425646A
    • 1984-01-10
    • US281492
    • 1981-07-08
    • Kiyoshi KinoshitaTakatoshi Ishii
    • Kiyoshi KinoshitaTakatoshi Ishii
    • G06F3/06G11B5/016G11B19/28G11B20/14G11B27/10H03L7/00H04L7/033
    • G06F3/0601G11B19/28G11B20/1403G11B20/1419G11B27/10G11B5/016G06F2003/0692G11B2220/2512
    • An input data synchronizing circuit of the invention has a synchronous control counter. Part of count value of the synchronous control counter is supplied to a count register. The count register accesses a parameter ROM utilizing, as part of an address, a count value (phase status) during the input of current data and a count value (phase status) during input of immediately preceding data. The parameter ROM outputs a correction value as an initial value for the synchronous control counter so that the synchronous control counter would output a WINDOW signal synchronous with the input data near the center of the pulse width of the WINDOW signal. The circuit of the invention further includes a rotation correction register which holds stationary time shift information serially input by the rotational errors of the floppy disk drives and which outputs the information to the parameter ROM as part of the address.
    • 本发明的输入数据同步电路具有同步控制计数器。 同步控制计数器的计数值的一部分被提供给计数寄存器。 作为地址的一部分,计数寄存器使用在输入当前数据期间的计数值(相位状态)和在紧接在前的数据的输入期间的计数值(相位状态)来访问参数ROM。 参数ROM输出作为同步控制计数器的初始值的校正值,使得同步控制计数器将输出与WINDOW信号的脉冲宽度中心附近的输入数据同步的WINDOW信号。 本发明的电路还包括旋转校正寄存器,其保持由软盘驱动器的旋转错误串行输入的固定时间偏移信息,并将该信息作为地址的一部分输出到参数ROM。
    • 10. 发明授权
    • Hopper structure for feeding powdery materials
    • 饲料粉料的料斗结构
    • US6045348A
    • 2000-04-04
    • US98303
    • 1998-06-18
    • Kiyoshi KinoshitaToshihiko KariyaManabu Kawahara
    • Kiyoshi KinoshitaToshihiko KariyaManabu Kawahara
    • B29C31/02B29C45/18B29C45/63B29C47/10B29C47/76
    • B29C47/767B29C45/18B29C47/0009B29C47/1009B29C47/1027
    • The present invention is directed to a hopper structure for feeding a powdery material adapted to enable gas, etc., generated in a plasticizing cylinder to escape irrespective of the state of feed of the powdery material within a hopper. To this end, the hopper structure of the present invention is arranged such that the plasticizing cylinder is formed with a material feed port for providing a communication between the interior and the exterior of the plasticizing cylinder, and that a hopper is provided for feeding a powdery material via the material feed port to the outer periphery of a screw within the plasticizing cylinder, and that a material feeding tube is mounted to the bottom of the hopper for allowing a communication between the bottom of the hopper and the vicinity of the outer periphery of the screw, with a gap for the removal of air being formed between the outer peripheral surface of the material feeding tube and the inner peripheral surface of the material feed port, the gap extending from the vicinity of the outer periphery of the screw to the exterior. The present invention is applied for the feed of a powdery molding material into the plasticizing cylinder of an in-line screw injection molding machine or of an in-line screw extrusion molding machine.
    • 本发明涉及一种料斗结构,用于供给粉末材料,该粉末材料适于使得在塑化筒中产生的气体等能够逸出,而不管料斗内的粉末材料的进料状态如何。 为此,本发明的料斗结构被设置成使塑化筒形成有用于在塑化筒的内部和外部之间提供连通的材料供给口,并且设置料斗以将粉末状 材料通过材料供给口连接到塑化筒内的螺杆的外周,并且料斗的底部安装有供料管,用于允许料斗底部与外周附近的连通 所述螺杆具有用于除去在所述材料供给管的外周表面和所述材料供给口的内周表面之间的空气的间隙,所述间隙从所述螺杆的外周附近延伸到所述外部 。 本发明适用于将粉末成型材料进料到直列螺杆注射成型机或直列螺杆挤出成型机的增塑筒中。