会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明专利
    • 給液装置
    • 液体供应装置
    • JP2015031176A
    • 2015-02-16
    • JP2013159585
    • 2013-07-31
    • 株式会社川本製作所Kawamoto Pump Mfg Co Ltd
    • SAKATANI TETSUNORIYAMAZAKI SHUHEIOGAWA JUMPEIHAYAKAWA YOSHINORI
    • F04D15/00
    • 【課題】本発明は、ポンプの吐出圧力を発振することなく目標圧力値に設定することができるとともに、コストを抑えることができる給液装置を提供する。【解決手段】給水装置10は、並列に配置される複数のポンプ装置20と、ポンプ装置20の各々に対して設けられ流量検出装置100と、各ポンプ装置20を通過した液の合流部60の下流の流れの圧力を検出する圧力検出装置80と、複数のポンプ装置20の動作を制御する制御装置120と、記憶装置121とを備える。制御装置120は、装置全体の給液量を変数とする目標圧力値算出関数に基づいて、流量検出装置100の検出結果の合計を給液量として用いて目標圧力値を算出し、かつ、圧力検出装置80の検出結果が目標圧力値となるように各ポンプ装置20を制御する。【選択図】図1
    • 要解决的问题:提供一种液体供应装置,其能够将泵的输送压力设定为目标压力值而不产生振荡,并且能够抑制成本。解决方案:供水装置10包括多个泵装置20 并联布置有用于每个泵装置20的流量检测装置100,用于检测通过泵装置20的液体的汇合部分60的下游侧的流量的压力的压力检测装置80, 用于控制泵装置20的操作的装置120和存储装置121.控制装置120基于流量检测装置100的检测结果的总和的使用计算目标压力值,作为基于 将具有整个装置的液体供给量的目标压力值计算功能作为变量,并且控制泵装置20,使得压力检测de的检测结果 副80是目标压力值。
    • 3. 发明专利
    • Microbubble generator
    • 微型发电机
    • JP2010115586A
    • 2010-05-27
    • JP2008290114
    • 2008-11-12
    • Kawamoto Pump Mfg Co Ltd株式会社川本製作所
    • TAKEDA KENJISAKATANI TETSUNORIKASHIRO MASASHI
    • B01F3/04A01K63/04B01F5/00B01F5/04B01F5/10C02F3/22
    • Y02W10/15
    • PROBLEM TO BE SOLVED: To efficiently increase and uniformize concentration of dissolved oxygen, and to reduce a running cost. SOLUTION: The microbubble generator 10 is provided with a filtering device 12 having an inlet part 12a into which a fluid in a water tank 11 flows, a filter 16 filtering the fluid, and an outlet part 12b from which the filtered liquid flows out; a microbubble generating devices 15 having an inflow port 32 into which the liquid flows, a gas sucking port 49a into which the gas flows, and a discharge port 33 feeding the bubbles and fluid; a pump 13 having an inflow part 13a taking in the fluid in the water tank 11 and an outflow part 13b connected to the inflow part 12a, and sending the fluid in the water tank 11 to the filtering device 12; and a connection pipe 14 having an inflow side pipe 24 connected to the outlet part 12b of the filtering device 12, and a plurality of outflow side pipes 25 which are branched from the inflow side pipe 24 and extend in different directions respectively and to the outflow parts of which the inflow ports 32 of the microbubble generating devices 15 are connected. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:有效地增加和均匀化溶解氧的浓度,并降低运行成本。 解决方案:微泡发生器10设置有过滤装置12,过滤装置12具有流入水箱11中的流体的入口部分12a,过滤流体的过滤器16以及过滤液体从其流过的出口部分12b 出; 具有液体流入的流入口32的微泡生成装置15,气体流入的气体吸入口49a,以及供给气泡和流体的排出口33; 具有吸入水箱11中的流体的流入部13a和与流入部12a连接的流出部13b的泵13,将水箱11内的流体送到过滤装置12; 以及连接管14,其具有连接到过滤装置12的出口部12b的流入侧管24和从流入侧管24分支并分别沿不同方向延伸的多个流出侧管25和流出侧管 其一部分微气泡发生装置15的流入口32连接。 版权所有(C)2010,JPO&INPIT
    • 4. 发明专利
    • Control unit of sprinkler system
    • SPRINKLER系统控制单元
    • JP2008127800A
    • 2008-06-05
    • JP2006311958
    • 2006-11-17
    • Kawamoto Pump Mfg Co Ltd株式会社川本製作所
    • SAKATANI TETSUNORITAKENAKA TOSHIO
    • E01C11/24E01C11/26E01H3/04E01H5/10G01W1/10
    • PROBLEM TO BE SOLVED: To provide a control unit of a sprinkler system, which can properly control water sprinkling in accordance with the status of use, while suppressing erroneous operations.
      SOLUTION: This control unit of the sprinkler system comprises: an object temperature sensor 11 for detecting the temperature of an object subject to water sprinkling; an air-temperature sensor 12 for detecting an air-temperature; and a sprinkling control portion which determines a water-sprinkling starting time and a water-sprinkling stopping time, according to a temperature difference between the temperature of the object 1 detected by the object temperature sensor 11, and the air temperature detected by the air-temperature sensor 12. Thus, even if such a relationship between the air temperature and the temperature of the object 1 as to be established during the implementation of measures against a heat-island phenomenon is not univocal, or even if a road surface temperature-changing condition, for example, in the prevention of road surface freezing occurs, the control unit properly controls the water sprinkling, while suppressing the erroneous operations.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供一种喷洒系统的控制单元,其可以根据使用状态适当地控制喷水,同时抑制错误的操作。 解决方案:喷淋系统的该控制单元包括:物体温度传感器11,用于检测遭受喷水的物体的温度; 用于检测空气温度的空气温度传感器12; 以及喷洒控制部,其根据由所述物体温度传感器11检测出的被检测体1的温度与由所述空气调节部11检测到的空气温度之间的温度差,决定喷水开始时间和喷水停止时间。 因此,即使在实施针对热岛现象的措施期间建立的空气温度和物体1的温度之间的这种关系也不是单一的,或者即使路面温度变化 例如,在防止路面冻结的情况下,控制单元适当地控制喷水,同时抑制错误操作。 版权所有(C)2008,JPO&INPIT
    • 5. 发明专利
    • Microbubble generator
    • 微型发电机
    • JP2008086868A
    • 2008-04-17
    • JP2006268580
    • 2006-09-29
    • Kawamoto Pump Mfg Co Ltd株式会社川本製作所
    • SAKATANI TETSUNORIYAMANO TSUTOMUTAKENAKA TOSHIO
    • B01F3/04A01K63/04B01F5/04C02F3/20
    • Y02W10/15
    • PROBLEM TO BE SOLVED: To provide a microbubble generator, which has a simple constitution and enables a generation of microbubbles in which the bubble particle diameter and the distribution are stable. SOLUTION: The microbubble generator adopts an ejector type microbubble generator combining an ejector portion 1 in which a liquid inflow port 2, a nozzle part 6, a leading-in chamber 13 with a gas suction port 16 opened, and a discharge opening 3 are arranged in sequence, and a negative pressure produced by a spout of the liquid in which the flow rate is increased by the passing of the nozzle part 6, from the nozzle part 6 sucks down the gas from the gas suction port 16 through the leading-in chamber 13 to obtain a gas-liquid mixing fluid, and a bubble crushing part 27 provided on a passage portion of the downstream side from the leading-in chamber 13, and crushing bubbles V1 contained in the gas-liquid mixing fluid. The generator generates microbubbles by a fundamental principle that the bubbles V1 of the gas-liquid mixing fluid obtained in the ejector 1 are finely pulverized by the bubble crushing part 27. COPYRIGHT: (C)2008,JPO&INPIT
    • 解决的问题:提供一种微泡发生器,其具有简单的结构并且能够产生气泡粒径和分布稳定的微泡。 解决方案:微泡发生器采用喷射式微泡发生器,其组合喷射器部分1,其中液体流入口2,喷嘴部分6,导入室13与气体吸入口16打开,排出口 3依次排列,并且由喷嘴部6经过喷嘴部6而使流量增加的液体喷口产生的负压从喷嘴部6吸入气体吸入口16的气体 导入室13以获得气液混合流体,以及设置在从导入室13的下游侧的通道部分上的气泡破碎部27和容纳在气液混合流体中的破碎气泡V1。 发生器通过基本原理产生微泡,即通过气泡破碎部分27将在喷射器1中获得的气液混合流体的气泡V1细微地粉化。(C)2008,JPO&INPIT
    • 6. 发明专利
    • Water purifying device
    • 水净化装置
    • JP2007160202A
    • 2007-06-28
    • JP2005359183
    • 2005-12-13
    • Kawamoto Pump Mfg Co Ltd株式会社川本製作所
    • NAGAIKE NAOYUKISAKATANI TETSUNORITAKENAKA TOSHIO
    • C02F1/42B01J39/24B01J49/00
    • PROBLEM TO BE SOLVED: To provide a water purifying device which can easily purify raw water, such as well water, to water of quality suitable as water for miscellaneous use, snow-melted water etc. without using an oxidation device. SOLUTION: A filter tank 1 accommodates animal activated carbon 2 as a filter material. The raw water, such as the well water, flows into the filter tank without being oxidized to pass through the animal activated carbon 2 as a filter material, which removes iron and manganese ions by the ion exchange capacity of the animal activated carbon 2 to purify the raw water. The iron and manganese concentrations in treated water purified by passing through the animal activated carbon 2 are set to be equal to or lower than 50% of the iron and manganese concentrations in the raw water. The filtration flow rate of the raw water passing through the animal activated carbon 2 is set to be equal to or lower than 50 m/H. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种能够容易地将诸如井水的原水纯化成适合作为水的水质的水的净水装置,不使用氧化装置的水净化装置。 解决方案:过滤罐1容纳动物活性炭2作为过滤材料。 诸如井水的原水,不会被氧化而流入过滤罐,作为过滤材料通过动物活性炭2,通过动物活性炭2的离子交换能力去除铁和锰离子,以净化 原水。 通过动物活性炭2纯化的处理水中的铁锰浓度设定为等于或低于原水中铁和锰浓度的50%。 通过动物活性炭2的原水的过滤流量设定为50m / H以下。 版权所有(C)2007,JPO&INPIT
    • 9. 发明专利
    • Flowrate sensor
    • 流量传感器
    • JP2005257551A
    • 2005-09-22
    • JP2004071230
    • 2004-03-12
    • Kawamoto Pump Mfg Co Ltd株式会社川本製作所
    • FURUTA TETSUYASAKATANI TETSUNORI
    • G01F1/42G01L9/14
    • PROBLEM TO BE SOLVED: To provide a flowrate sensor capable of precisely detecting a flow rate, in which product management is facilitated, while reducing restrictions of installation.
      SOLUTION: The constitution is adopted, in which the primary pressure and the secondary pressure in front and behind an orifice 3 of a piping part 1 are introduced into a pair of pressure rooms 12a and 12b formed on both sides of a diaphragm 10, in which the displacement of the diaphragm 10, caused by the differential pressure between both the pressures, is detected, using a magnetic body 27 and a magnetic detection element 28; and in which the displacement is transformed into an electric signal, regarding the flow rate by calculation so as to be output.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种能够在减少安装限制的同时,精确地检测容易进行产品管理的流量的流量传感器。 解决方案:采用这样的结构,其中管道部分1的孔口3的前后的初级压力和次级压力被引入形成在隔膜10两侧的一对压力室12a和12b中 使用磁体27和磁检测元件28检测由两压力之间的压差引起的隔膜10的位移; 并且其中通过计算将流量转换成电信号,以输出。 版权所有(C)2005,JPO&NCIPI