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    • 1. 发明专利
    • High humidity air producing method and system
    • 高空气生产方法和系统
    • JPS5934470A
    • 1984-02-24
    • JP14386582
    • 1982-08-19
    • Takashi Ogura
    • OGURA TAKASHI
    • F02M25/022F02M25/02
    • F02M25/0225F02M25/028Y02T10/121
    • PURPOSE:To produce such state where air is easily dissoluble into oxygen and hydrogen, by vacuum sucking water through micro-hole having diameter shorter than 0.3mm. and gasifying then colliding it against the vacuum sucked air with acute angle to flow through a thin tube with high speed thereby finely mixing water as gasified fine particles with air. CONSTITUTION:Upon start of engine 12 to reduce pressure in a suction pipe 13, a thin suction pipe 9 is also depressurized through a suction connecting pipe 11. Consequently a thin gasifying pipe 4 is also depressurized to suck water through a suction hole 18. Since the diameter of the suction hole 18 is as small as 0.1mm., water is gasified immediately through vacuum suction to move in said pipe 4 and enter through a suction hole 7 into a confluence hole 6. Since air is sucked through a suction hole 8 coupled to the suction hole 7 with acute angle, air and water are sucked together and mixed like spray and fed through a regulating valve 10 and suction connecting pipe 11 into the suction pipe 13.
    • 目的:为了产生空气容易溶于氧气和氢气的状态,通过真空吸水通过直径小于0.3mm的微孔。 然后气化然后以锐角与真空吸入的空气碰撞,以高速流过细管,从而将水作为气化的细颗粒与空气精细混合。 构成:在发动机12起动以减少吸入管13的压力的同时,也通过吸入连接管11将薄吸入管9减压。因此,薄气化管4也被减压以通过吸入孔18吸水。由于 吸入孔18的直径小至0.1mm,水通过真空抽吸立即气化,在所述管4内移动,并通过吸入孔7进入汇合孔6.由于通过吸入孔8吸入空气 与吸入孔7以锐角联接,将空气和水吸入一体并像喷雾一样混合并通过调节阀10和吸入连接管11进入吸入管13。
    • 6. 发明申请
    • ULTRASONIC TRANSDUCER AND METHOD OF MANUFACTURING THE SAME
    • 超声波传感器及其制造方法
    • US20120123274A1
    • 2012-05-17
    • US13358652
    • 2012-01-26
    • Masako IKEDATakashi OGURA
    • Masako IKEDATakashi OGURA
    • A61B8/14B05D5/00
    • B06B1/0622G10K11/002
    • An ultrasonic transducer which can attenuate ultrasonic waves emitted toward the rear without increasing a thickness of a backing layer includes: a piezoelectric transducer which emits and receives ultrasonic waves; and the backing layer which is provided in contact with the rear of the piezoelectric transducer and which attenuates the ultrasonic waves emitted in a rear direction from the piezoelectric transducer. The backing layer includes a plurality of acoustic tubes formed in the rear direction from a plane of the backing layer that is in contact with the piezoelectric transducer. Each of the acoustic tubes has a different length based on a principle of superposition of acoustic waves. The acoustic tubes include an acoustic tube which has (i) a portion of the length formed in a direction perpendicular to the rear direction and (ii) the remaining portion of the length formed in a direction parallel to the rear direction.
    • 能够衰减向后发射的超声波而不增加背层的厚度的超声波换能器包括:发射和接收超声波的压电换能器; 以及背衬层,其设置成与压电换能器的后部接触并且衰减从压电换能器沿后方发射的超声波。 背衬层包括从与压电换能器接触的背衬层的平面沿后方形成的多个声管。 基于声波叠加的原理,每个声管具有不同的长度。 声管包括声管,该声管具有(i)沿垂直于后方向的方向形成的长度的一部分,以及(ii)在与后方平行的方向上形成的长度的剩余部分。
    • 7. 发明授权
    • Image recognition device and image recognition method
    • 图像识别装置和图像识别方法
    • US08108408B2
    • 2012-01-31
    • US12521891
    • 2008-06-12
    • Satoshi KondoAki YonedaKo MizunoTakashi Ogura
    • Satoshi KondoAki YonedaKo MizunoTakashi Ogura
    • G06F7/00
    • G06F17/30256G06K9/00684
    • An image recognition device includes: an image input unit obtaining an input image corresponding to a target image to be recognized; a similar image search unit searching out at least one similar image similar to the target image obtained by the image input unit from among images generated independently of the image recognition device, and unintentionally obtained; a keyword extraction unit extracting a plurality of keywords corresponding to candidates for a recognition result of the target image; a keyword analysis unit determining at least one likely keyword likely to be the recognition result of the target image from among the plurality of keywords extracted by the keyword extraction unit by analyzing the plurality of keywords; and a presentation unit outputting at least one likely keyword determined by the keyword analysis unit, as the recognition result of the target image.
    • 图像识别装置包括:图像输入单元,获得与要识别的目标图像相对应的输入图像; 类似的图像搜索单元,从独立于图像识别装置生成的图像中搜索类似于由图像输入单元获得的目标图像的至少一个类似图像,并且无意地获得; 关键词提取单元,提取与所述目标图像的识别结果的候选对应的多个关键字; 关键字分析单元,通过分析所述多个关键字,从所述关键词提取单元提取的所述多个关键字中确定可能是所述目标图像的识别结果的至少一个可能关键字; 以及表示单元,输出由关键词分析单元确定的至少一个可能关键字作为目标图像的识别结果。
    • 8. 发明申请
    • ULTRASONIC TRANSDUCER
    • 超声波传感器
    • US20110152691A1
    • 2011-06-23
    • US13060704
    • 2010-06-04
    • Masako IkedaTakashi Ogura
    • Masako IkedaTakashi Ogura
    • A61B8/14B29C39/12B29C47/00
    • B06B1/0677A61B8/00A61B8/4405A61B8/4455G01N29/0672G10K11/002
    • An ultrasonic transducer includes: a piezoelectric transducer (1) emitting ultrasonic waves; and a backing layer (4) provided in contact with a back side of the piezoelectric transducer (1) and attenuating ultrasonic waves that are emitted toward the back side of the piezoelectric transducer (1) and have an opposite phase to the phase of ultrasonic waves emitted toward a front side of the piezoelectric transducer (1). The acoustic tubes (5) are disposed in the backing layer (4) such that a longitudinal direction of each acoustic tube (5) is in line with a traveling direction of the ultrasonic waves emitted by the piezoelectric transducer (1) toward the front and the back side. The acoustic tubes (5) have mutually different lengths on the basis of a principle of an acoustic wave synthesis, and attenuate in whole or in part the ultrasonic waves emitted by the piezoelectric transducer (1) toward the backing layer (4).
    • 超声换能器包括:发射超声波的压电换能器(1) 以及设置成与所述压电换能器(1)的背面接触并且衰减朝向所述压电换能器(1)的背侧发射并且与超声波的相位相反的超声波的背衬层(4) 朝向压电换能器(1)的前侧发射。 声管(5)设置在背衬层(4)中,使得每个声管(5)的纵向方向与压电换能器(1)朝向前方发射的超声波的行进方向一致,以及 背面。 声管(5)基于声波合成的原理具有相互不同的长度,并且将压电换能器(1)发射的超声波全部或部分衰减到背衬层(4)。