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    • 1. 发明专利
    • Overland culturing apparatus by using vapor-liquid pump
    • 通过使用蒸气泵的OVERLAND CULTURATION装置
    • JP2006061136A
    • 2006-03-09
    • JP2004276128
    • 2004-08-26
    • Takeshi Yoshioka健 吉岡
    • YOSHIOKA TAKESHI
    • A01K63/04
    • PROBLEM TO BE SOLVED: To provide an overland culturing apparatus capable of corresponding to danger-free culturing technique capable of corresponding to red tide, infectious diseases and change in water temperature and further corresponding to water purification and not polluting ocean by using sound-free and vibration-free simple facilities without using conventional pumps containing blowers and compressors and without requiring soundproof, vibration-proofing and cooling facilities. SOLUTION: This overland culturing apparatus feeds fresh water or sea water in which dissolved oxygen concentration is automatically increased to a rearing tank and a septic tank by using a pump for a gas-liquid mixed stream and sets rearing environment which is preferable to fishes and shellfishes by utilizing characteristics of the sound-free and vibration-free pump having low speed rotation and rears fishes and shellfishes and continuously carries out purification of organic materials, discharge of formed sludge of phosphorus and nitrification of ammonia and denitrogenation by effectively realizing aerobic properties and anaerobic properties, and as necessary, carries out the control of water temperature, pH and sterilization and drug administration and maintains rearing environment which is friendly to fishes and shellfishes. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供能够对应于能够对应于红潮,传染病和水温变化的无危险培养技术的陆上培养装置,并且进一步对应于水净化而不是通过使用声音来污染海洋 无需使用无振动的简单设备,无需使用含鼓风机和压缩机的常规泵,无需隔音,防振和冷却设备。 解决方案:这种陆上养殖设备通过使用泵将气体 - 液体混合物流自动增加溶解氧浓度的饲养池和化粪池的淡水或海水,并设置饲养环境,优选 通过利用低速旋转的无声,无振动泵的特点,鱼和贝类的特点,鱼类和贝类,并持续进行有机物质的净化,排出形成的磷污泥和硝化硝化和脱氮,有效地实现有氧 性能和厌氧性能,并根据需要进行水温,pH值,灭菌和药物管理的控制,保持对鱼类和贝类友好的饲养环境。 版权所有(C)2006,JPO&NCIPI
    • 2. 发明专利
    • Apparatus for cleaning soil by gas-liquid stirring and mixing
    • 用气体搅拌和混合清洗土壤的装置
    • JP2003305453A
    • 2003-10-28
    • JP2002148374
    • 2002-04-16
    • Takeshi Yoshioka健 吉岡
    • YOSHIOKA TAKESHI
    • B09B3/00B01F3/00B01F7/24B01F7/32B01F15/02B09C1/00B09C1/02B09C1/04B09C1/08B09C1/10
    • PROBLEM TO BE SOLVED: To provide an apparatus for cleaning soil by gas liquid stirring and mixing which is used for the cleaning of the soil contaminated by a volatile organic compound by simultaneously carrying out three operations of the blowing of air, the supply of water and the stirring of soil basically always in the adjacent places without using a blower or a compressor and which can be used for harmful material or heavy metal contamination with a simple setup at a low maintenance and management cost and power cost with a high cleaning effect.
      SOLUTION: Both of a gas and a liquid are forcibly fed through the hollow inside a rotary shaft of a rotary instrument of a stirring and mixing machine by using a gas liquid pump to pass the gas and liquid through the same pipe and are discharged into the soil from the rotary shaft in which blades for stirring and mixing are rotated and which is placed in the soil to always keep the soil aerobic to accelerate bioremediation effect.
      COPYRIGHT: (C)2004,JPO
    • 要解决的问题:提供一种用于通过气体搅拌和混合清洁土壤的设备,其用于通过同时进行空气吹送的三次操作来清洁被挥发性有机化合物污染的土壤,供应 的水和土壤的搅拌基本上总是在相邻的地方,而不使用鼓风机或压缩机,并且可以用简单的设置在低维护和管理成本和电力成本的高清洁下用于有害物质或重金属污染 影响。 解决方案:气体和液体都通过使用气体液体泵将气体和液体通过相同的管道而强力地通过搅拌和混合机的旋转仪器的旋转轴中的中空内部供给,并且是 从旋转轴排放到土壤中,其中用于搅拌和混合的叶片旋转并且其被放置在土壤中以始终保持土壤有氧以加速生物修复效果。 版权所有(C)2004,JPO
    • 3. 发明专利
    • Device for purifying water by dissolution of ozone gas
    • 通过臭氧分解来净化水的装置
    • JP2012223744A
    • 2012-11-15
    • JP2011103839
    • 2011-04-14
    • Takeshi Yoshioka健 吉岡
    • YOSHIOKA TAKESHI
    • C02F1/78B01F1/00B01F3/04B01F5/12
    • PROBLEM TO BE SOLVED: To provide an inexpensive ozone dissolution technique capable of enhancing severalfold an ozone dissolution amount even in cut-down of an ozone gas supply amount due to a small-scale facilities or minor electric power to solve such a problem that in a conventional water purification method releasing ozone gas into water to be treated, a small amount of ozone gas is dissolved but almost all thereof is radiated away as a non-dissolved gas to waste, and a high-efficiency dissolution method needs many power, facilities and high power cost.SOLUTION: The new technique comprises: pressure-feeding about 60% ozone gas and about 40% polluted water in a gas-liquid two-phase flow by a gas-liquid pump and accelerating the dissolution and liquefaction of ozone by gas-liquid mixing on the way of pressure feeding; then separating a gas and a liquid by a gas-liquid separator; releasing and diffusing an ozone-dissolved water into the polluted water; and returning a non-dissolved ozone gas to a pump chamber repeatedly to dissolve and liquefy without releasing the non-dissolved ozone gas. According to the technique, all operations of a gas-liquid agitation, gas-liquid pressure-feeding, gas-liquid separation, ozone gas dissolution, releasing, air-lifting of the polluted water and returning can be achieved by one motive energy, and the same effect as heretofore is exerted even in the supply amount of a new ozone gas of a fraction of a conventional supply.
    • 要解决的问题:为了提供一种便宜的臭氧溶解技术,即使由于小型设施或小电力而导致的臭氧气体供应量的减少,也能够提高几倍的臭氧溶解量,以解决这样的问题 在将臭氧气体释放到待处理水中的常规水净化方法中,少量的臭氧气体被溶解,但几乎全部都作为不溶解的气体而被排放到废物中,并且高效溶解方法需要许多功率 ,设施和高功率成本。 解决方案:新技术包括:通过气液泵在气液二相流中加压约60%的臭氧气体和约40%的污水,并加速臭氧的溶解和液化, 液压混合方式进料; 然后用气 - 液分离器分离气体和液体; 将臭氧溶解的水释放并扩散到污水中; 并将不溶解的臭氧气体反复返回到泵室以溶解和液化而不释放未溶解的臭氧气体。 根据该技术,可以通过一种动力来实现气液搅拌,气液加压,气液分离,臭氧气体溶解,释放,空气提升和返回的所有操作,并且 即使在常规供应的一部分的新的臭氧气体的供给量中也产生与之前相同的效果。 版权所有(C)2013,JPO&INPIT
    • 4. 发明专利
    • Water processing apparatus using gas-liquid pump
    • 使用气液泵的水处理设备
    • JP2012000606A
    • 2012-01-05
    • JP2010151452
    • 2010-06-15
    • Takeshi Yoshioka健 吉岡
    • YOSHIOKA TAKESHI
    • C02F3/22C02F3/12C02F3/34
    • Y02W10/15
    • PROBLEM TO BE SOLVED: To solve a problem that an aeration step, a sedimentation step, and a circulation step are included in the water quality purification using microorganism, aeration (increase in dissolved oxygen) is necessary for the aeration step, a step requiring the return of sedimentation sludge is necessary for the sedimentation step, similarly to the circulation step; these steps require power apparatuses and the operation cost, and the total cost thereof becomes very high if including noise-proof and vibration-isolating apparatuses, and the apparatus-saving and the functional improvement must be essential.SOLUTION: A "gas-liquid pump" and a "gas-liquid separator" are installed in an aeration step for purifying the water quality. The two-phase gas-liquid flow to be pumped from the gas-liquid pump is separated into pressurized liquid and pressurized gas by the gas-liquid separator. The pressurized liquid is emitted into the aeration step as aerated water, and the pressurized gas is used for an air-lift pump for pumping up sludge in the sedimentation step to return the sludge, to carry out the sludge and to circulate water. An energy-saving and apparatus-saving device is provided, which simultaneously performing multiple functions of noise-less and vibration-less operation, aeration, return and carry-out of sludge, and circulation of nitrified water by one power of the gas-liquid pump.
    • 要解决的问题为了解决在使用微生物的水质净化中包括通气步骤,沉降步骤和循环步骤的问题,曝气步骤需要通气(增加溶解氧),a 类似于循环步骤,沉淀步骤需要沉淀淤泥的返回步骤; 这些步骤需要电力设备和操作成本,并且如果包括防噪声和隔振装置,其总成本变得非常高,并且设备节省和功能改进必须是必要的。 解决方案:在用于净化水质的通气步骤中安装有“气液泵”和“气液分离器”。 从气液泵泵送的两相气 - 液流通过气 - 液分离器分离成加压液体和加压气体。 加压液体作为充气水排放到曝气步骤中,加压气体用于空气提升泵,用于在沉降步骤中泵送污泥以返回污泥,进行污泥和循环水。 提供了一种节能装置节约装置,同时执行无噪声,无振动操作,曝气,返回和执行污泥的多种功能,并通过气液一体式的硝化水循环 泵。 版权所有(C)2012,JPO&INPIT
    • 5. 发明专利
    • Amphibious gas-liquid separating device
    • 大气压液体分离装置
    • JP2008126225A
    • 2008-06-05
    • JP2006341926
    • 2006-11-21
    • Takeshi Yoshioka健 吉岡
    • YOSHIOKA TAKESHI
    • B01D45/02
    • PROBLEM TO BE SOLVED: To solve the problems in the past such that the separation performance has been not enough since there is no automatic regulator for regulating water level in a device although there has been a gas-liquid separator for separating gas from liquid in a gas-liquid mixed stream such as a gas-liquid pump, there are many cases where the formation of water level is one-sided to the upper limit or lower limit causing mixing of gas into liquid frequently, different kinds of devices are necessary depending on being in the water or on the land, it has been inconvenient, unpractical and not enough in spread in use, accordingly the use of the gas-liquid pump has been narrow.
      SOLUTION: The amphibious gas-liquid separating device has no mixing again of gas and liquid since the up-and-down variation of its float is made to be never one-sided to the upper limit or lower limit by adding a device for automatically regulating the flow of gas and liquid by installing an automatic liquid opening/closing device and an automatic gas opening/closing device interlocking with the float in a hermetically closed container; also the amphibious gas-liquid separating device can be used for any use in the water, on the surface of the water or on the land, ensures the performance of gas liquid separation and enlarges the use of the gas-liquid pump.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题为了解决过去的问题,使得分离性能不够,因为没有用于调节装置中的水位的自动调节器,尽管存在用于将气体分离的气液分离器 在液 - 液泵等气液混合流中的液体存在许多情况,其中水位的形成是单向上限或下限,导致气体频繁混入液体中,不同种类的装置 由于在水中或在陆地上是必要的,因此在使用中扩散使用起来不方便,不切实际且不够,因此气液泵的使用已经很窄。 解决方案:水陆两用气液分离装置不再混合气体和液体,因为通过添加装置使其浮子的上下变化不会上升到上限或下限 用于通过安装自动液体打开/关闭装置和与密封的容器中的浮子互锁的自动气体打开/关闭装置来自动调节气体和液体的流量; 水陆两用气液分离装置也可用于水中,水面或陆地上的任何用途,确保气液分离的性能,并扩大气液泵的使用范围。 版权所有(C)2008,JPO&INPIT
    • 6. 发明专利
    • Device for removing clogged substance at suction opening in one step
    • 用于在一个步骤中开启的移除物体的装置
    • JP2006161521A
    • 2006-06-22
    • JP2004382198
    • 2004-12-02
    • Takeshi Yoshioka健 吉岡
    • YOSHIOKA TAKESHI
    • E02F3/90E02F3/88F04D7/04F04D29/70
    • PROBLEM TO BE SOLVED: To provide the technology of completing the greatest defect "elimination work of a clogged substance" for a very short period of time. SOLUTION: The suction force of a suction opening 3 is switched to a temporary suction opening 5 with lever control while monitoring the underwater with a monitoring device without stopping the operation of a pump (suction work). Thus, after extruding and removing the clogged substance forcibly by destroying the suction force of the suction opening 3, restoration from the temporary suction opening 5 to the suction opening 3 is performed automatically, and the device for removing the clogged substance in one step at the suction opening returns to normal underwater suction work. Thus, the device for removing the clogged substance completes all the work of removing the clogged substance almost instantaneously, and improves the efficiency of work. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供在很短的时间内完成最大缺陷“堵塞物质的消除工作”的技术。 解决方案:在不停止泵的操作(抽吸工作)的情况下,利用监控装置将吸入口3的抽吸力切换到具有杆控制的临时吸入口5,同时监视水下。 因此,通过破坏吸入口3的吸引力来强制地挤出除去堵塞的物质后,自动进行从临时吸入口5到吸入口3的恢复,并且在一步中除去堵塞物质的装置 吸入口返回正常的水下吸力。 因此,用于除去堵塞物质的装置几乎瞬间完成了所有的堵塞物质的除去工作,提高了工作效率。 版权所有(C)2006,JPO&NCIPI
    • 7. 发明专利
    • Amphibious gas-liquid separator
    • 大气体液体分离器
    • JP2008194664A
    • 2008-08-28
    • JP2007062559
    • 2007-02-13
    • Takeshi Yoshioka健 吉岡
    • YOSHIOKA TAKESHI
    • B01D45/02B01D19/00F04F1/06
    • PROBLEM TO BE SOLVED: To solve the problem that a conventional apparatus such as a gas-liquid pump for separating a mixed gas-liquid flow into gases and liquids lacking an automatic water level adjuster may cause the water level to be frequently formed closer to the upper end or the lower end within the apparatus and the phenomena to frequently occur that after separation gases are mixed again with liquids or liquids are mixed again with gases and pulsating occurs, and that since models differ depending on the use in water or the use on land, such conventional separators are not useful, lack in practicality, keeps such gas-liquid pumps out of widespread use, and therefore have narrow application range, for example.
      SOLUTION: The amphibious gas-liquid separator is provided with apparatuses automatically controlling the flow rates of gases and liquids specifically by providing a liquid opening and closing apparatus and a gas opening and closing apparatus, which automatically interfacing with a float within a sealed container. Thus, the float moves upward and downwards so that the water level is not formed mainly on the upper or lower end, sucking property, suction, and frictional force remain unaffected, gases and liquids are not mixed again after separation, and no pulsation occurs. Furthermore, the separator can be used in water, on water, and on land. Furthermore, gas-liquid separation functions of the separator are more completely exerted, so that the application ranges of gas-liquid pumps are increased.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题为了解决诸如用于将混合气液流分离成气体的常规装置和缺乏自动水位调节器的液体的问题,可能会频繁地形成水位 更接近装置内的上端或下端,并且经常出现这样的现象:在分离气体再次与液体混合之后,液体再次与气体混合并发生脉动,并且由于模型根据在水中的用途而不同 在陆地上使用这种常规分离器是不实用的,缺乏实用性,使得这种气液泵不被广泛使用,因此例如具有窄的应用范围。 解决方案:水陆两用气液分离器设有自动控制气体和液体流量的设备,具体包括提供液体开启和关闭装置和气体开启和关闭装置,其自动地与密封的 容器。 因此,浮子上下移动,水位不主要形成在上端或下端,吸附性,吸力和摩擦力保持不受影响,气体和液体在分离后不再混合,不会发生脉动。 此外,分离器可用于水,水和陆地上。 此外,隔膜的气液分离功能更完全地发挥,从而气液泵的应用范围增加。 版权所有(C)2008,JPO&INPIT
    • 8. 发明专利
    • Water purifier for supplying, via a gas-liquid pump, and contact-filtering water
    • 水净化器,通过气液泵和接触过滤水
    • JP2014140834A
    • 2014-08-07
    • JP2013024935
    • 2013-01-24
    • Takeshi Yoshioka健 吉岡Tac:Kk株式会社タック
    • YOSHIOKA TAKESHI
    • C02F3/06
    • Y02W10/15
    • PROBLEM TO BE SOLVED: To use a "gas-liquid pump" as means of abating power and facilities, to enable, without requiring air pumps, blowers, or compressors of the prior art, operations of water supply, aeration, agitation/mixing, sludge return, and sludge exportation even if only one power source is available, and to use, as the power source of water purification, human powers (including bicycling power) and powers generated for other purposes (e.g., motorcycles, farm tractors, automobiles,, etc.).SOLUTION: The provided technique for purifying water targets developing nations and has the following characteristics: a "gas-liquid pump" demanding a rotation frequency approximately 1/100 of its counterpart of the prior art is used so as to supply a gas-liquid double-phase flow, to elevate the dissolved oxygen (DO) concentration amidst pumping, and to dispense with an aerator based on an agitation effect utilizing a bubbling ascending stream of the gas; the pressurized gas is separated and utilized, based on the air lifting function thereof, for returning a sludge and for likewise air-lifting and exporting the same to the outside; as a result, the respective operations of water supply, aeration, agitation, sludge return, and sludge exportation are all enabled even if only one power source is available; effects of downsizing facilities and of purifying water can, furthermore, be realized by using human powers (e.g., pedaling, bicycling, etc.) and mechanical power sources for other purposes (e.g., motorcycles, farm tractors, etc.).
    • 要解决的问题:使用“气液泵”作为减轻动力和设施的手段,能够在不需要现有技术的空气泵,鼓风机或压缩机的情况下,供水,通风,搅拌/混合, 即使只有一个电源可用,污泥返回和污泥出口,并且作为水净化的动力来源,使用人力(包括骑行动力)和为其他目的产生的动力(例如摩托车,农用拖拉机,汽车, 等)。解决方案:提供用于净化发展中国家水的技术,具有以下特点:使用要求旋转频率约为现有技术的1/100的“气液泵”,以便供应 气液双相流,以提高泵送中的溶解氧(DO)浓度,并且基于利用气泡的起泡上升流的搅拌效应来排放曝气器; 基于其空气提升功能,分离和利用加压气体用于返回污泥并用于同样升气并将其输出到外部; 因此,即使只有一个电源可用,所有的供水,通风,搅拌,污泥返回和污泥出口的各种操作都可以使用; 此外,通过使用人力(例如踏板,骑自行车等)和用于其他目的的机械动力源(例如,摩托车,农用拖拉机等),可以实现精简设施和净化水的效果。
    • 9. 发明专利
    • Apparatus for aerobic treatment of underwater and sea bottom by air liquid pump
    • 空气液体泵对水下和海底进行空气处理的装置
    • JP2012020275A
    • 2012-02-02
    • JP2010272985
    • 2010-11-18
    • Takeshi Yoshioka健 吉岡
    • YOSHIOKA TAKESHI
    • C02F7/00
    • Y02W10/15Y02W10/37
    • PROBLEM TO BE SOLVED: To develop a technology for a low cost aerobic treatment of sea bottom, since red tide, water bloom and scum are frequently occurring in a closed water area or in a culturing area of seafood in all over the world, and since lower layer water is lack of dissolved oxygen (DO) and a conventional technique has much power waste to surface water and an intermediate water layer, while most of water containing dissolved oxygen generated moves up with air bubbles in water, resulting in inefficiency and high cost.SOLUTION: An apparatus is provided for a direct aerobic treatment of bottom water without generating almost no waste water only by operating air and water and not using conventional pumps, chemicals and industrial products. The technique includes sending air and water in bottom layer water at low temperature from an air and liquid pump for pulling up to an air and liquid separation device to separate highly concentrated water containing dissolved oxygen without air bubbles and discharging again to the bottom layer. Series of works are performed by one power source, and upward waste water is not generated. Almost the total amount of water containing dissolved oxygen with high concentration can be used for the aerobic treatment of the bottom layer. Solar power generation is expected to be used in the technique, and the problem of the lack of oxygen in the bottom layer, which is the cause of red tide, water bloom and scum, is attempted to be solved to contribute to the growth of seafood.
    • 要解决的问题:开发海底低成本有氧处理技术,因为红潮,水华和浮渣经常发生在封闭的水域或世界各地的海鲜养殖区域 ,由于较低层的水不溶解氧(DO),传统技术对地表水和中间水层具有很大的功率浪费,而大部分产生溶解氧的水随着水中的气泡而向上移动,导致低效率 成本高。

      解决方案:提供一种用于直接需氧处理底部水的装置,而不仅仅通过操作空气和水而不产生废水,而不使用常规的泵,化学品和工业产品。 该技术包括将空气和水在低温下从空气和液体泵送入空气和液体分离装置,以分离含有溶解氧的高浓度水而不产生气泡并再次排放到底层。 一系列作品由一个电源进行,不会产生向上的废水。 几乎含有高浓度溶解氧的水的总量可用于底层的好氧处理。 太阳能发电有望用于该技术,试图解决造成红潮,水华和浮渣的原因的底层缺氧问题,以促进海产品的生长 。 版权所有(C)2012,JPO&INPIT

    • 10. 发明专利
    • Out-of-water gas-liquid separator
    • 水外气体分离器
    • JP2004105935A
    • 2004-04-08
    • JP2002310269
    • 2002-09-19
    • T B R KkTakeshi Yoshiokaティビーアール株式会社吉岡 健
    • HASHIMOTO ATSUSHIKINOSHITA TOSHIHISAYOSHIOKA TAKESHI
    • A01K63/04B01D19/00C02F1/20
    • PROBLEM TO BE SOLVED: To provide an out-of-water gas-liquid separator which performs gas-liquid separation of a gas and liquid from a gas-liquid pump out of water, utilizes the gas for suction force for solids etc., in the water, utilizes the liquid for intensification of an oxygen dissolved in the water, and can induce microair bubbles as well by a large suction force even at a shallow water depth.
      SOLUTION: A gas-liquid separation chamber is disposed outside the water in a position lower than a water surface, a discharge pipe is extended into the water from the gas-liquid separation chamber, and a bubble pump is provided. A gas siphon is extended downward from the upper part of the gas-liquid separation chamber and is connected to the middle of the bubble pump. A suction port of the bubble pump is extended into the water and a discharge port is installed at a position near the water surface or higher than the water surface. The gas and liquid are forcibly fed from the gas-liquid pump to the gas-liquid separation chamber where the gas and liquid are separated vertically. The liquid is discharged from the gas-liquid separation chamber through the discharge pipe into the water and the gas separated to the upper part of the gas-liquid separation chamber is admitted through the gas siphon into the bubble pump where the gas generates an ascending air bubble stream. Water or solids etc. in the water or near the bottom are sucked from the suction port in the water by the ascending air bubble stream and pulled up near to the water surface.
      COPYRIGHT: (C)2004,JPO
    • 要解决的问题:为了提供一种从气体 - 液体泵排出水的气液分离气水分离器的水外气体分离器,利用气体用于固体吸附力等 在水中,利用液体来增强溶解在水中的氧气,即使在浅水深处也可以通过大的吸力诱导微气泡。 解决方案:气液分离室设置在水面以外的水面以下,排气管从气液分离室延伸到水中,设置有气泡泵。 气体虹吸从气液分离室的上部向下延伸,并连接到气泡泵的中间。 气泡泵的吸入口延伸到水中,并且排放口安装在靠近水面或高于水面的位置。 气体和液体被强制地从气液泵送到气液分离室,气液分离室垂直分离。 液体通过排出管从气液分离室排出到水中,并且分离到气液分离室的上部的气体通过气体虹吸进入气泡泵,在气泡中产生上升空气 泡沫流。 在水中或靠近底部的水或固体等通过上升的气泡流从水中的吸入口吸入并靠近水面上拉。 版权所有(C)2004,JPO