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    • 65. 发明专利
    • Frame member support structure
    • 框架材料支撑结构
    • JP2006283514A
    • 2006-10-19
    • JP2005108457
    • 2005-04-05
    • Matsushita Environment Airconditioning Eng Co LtdTechnos One Kkテクノスワン有限会社松下環境空調エンジニアリング株式会社
    • GOTO EIJIFUJIMOTO MASATO
    • E04G3/00H02G1/06
    • PROBLEM TO BE SOLVED: To solve the problem caused by placing a scaffolding board on a light top bar, by installing and arranging the scaffolding board in this frame material, by fixing the frame material by using a suspension bolt for suspending and supporting the light top bar of a clean booth. SOLUTION: An L-shaped fixing metal fitting 3 having a bolt insertion hole 32 opening toward a side part in a horizontal piece 31 and a sideways turning bolt 34 in a vertical piece 33, is formed, and the suspension bolt 1 is received in the bolt insertion hole 32 of the horizontal piece 31. The horizontal piece 31 is sandwiched by upper-lower intermediate insertion nuts 5, and is also fastened to the sideways turning bolt 34 of the vertical piece 33 by a nut 6 via a through-hole 21 of a vertical surface, and the frame material 2 is installed and arranged on a plurality of suspension bolts 1 by fixing the frame material 2 by a perforated angle material, and the scaffolding board is orthogonally placed in this frame material 2. The scaffolding board 7 can be efficiently arranged by using the suspension bolt 1 by simple work. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:为了解决通过将脚手架放置在轻质顶杆上而引起的问题,通过在该框架材料中安装和布置脚手架板,通过使用悬挂螺栓来固定框架材料来悬挂和支撑 一个干净的摊位的轻便顶杆。 解决方案:一种L形固定金属配件3,其具有向水平件31中的侧部开口的螺栓插入孔32和垂直件33中的侧向转向螺栓34,并且悬挂螺栓1 收纳在水平片31的螺栓插入孔32中。水平片31被上下中间插入螺母5夹住,并且还通过螺母6通过贯穿孔16紧固到垂直片33的侧向转动螺栓34。 孔21,框架材料2通过用穿孔角材料固定框架材料2而安装在多个悬挂螺栓1上,脚手架板正交放置在该框架材料2中。 脚手架板7可以通过简单的工作使用悬挂螺栓1而被有效地布置。 版权所有(C)2007,JPO&INPIT
    • 67. 发明专利
    • Sewage treatment apparatus
    • 水处理设备
    • JP2005324110A
    • 2005-11-24
    • JP2004144039
    • 2004-05-13
    • Hyogoken Tochi Kairyo Jigyo Dantai RengokaiMatsushita Environment Airconditioning Eng Co Ltd兵庫県土地改良事業団体連合会松下環境空調エンジニアリング株式会社
    • SAKAKIBARA TAKASHIOKUDA TOMOAKIBUNBAYASHI SHIZUHITOISHIKAWA MUNETAKAKASAHARA SHINSUKEMITEKURA YUKIOSHUTO MASANOBU
    • C02F1/44C02F3/12C02F11/00
    • Y02W10/15
    • PROBLEM TO BE SOLVED: To provide a sewage treatment apparatus capable of coping with both the reduction of excess sludge and the suppression of the increase in an operation cost. SOLUTION: In the sludge treatment apparatus having a 1st biological treatment tank 1, a 1st solid-liquid separation means 4 for separating the mixed liquid in the 1st biological treatment tank 1 into a solid and a liquid, a 2nd biological treatment tank 3, a 2nd solid-liquid separation means 5 for separating the mixed liquid in the 2nd biological treatment tank into a solid and a liquid, a re-converting-to-substrate apparatus 2, a 1st re-converting-to-substrate line 43 for sending the mixed liquid in the 2nd biological treatment tank to the re-converting-to-substrate apparatus 2, a 2nd re-converting-to-substrate line 44 for sending re-converting-to-substrate sludge to the 2nd biological treatment tank 3, a separated liquid supply line 46, a discharge line 45, a controller 10, a valve 6 for controlling the flow rate of the re-converting-to-substrate sludge and a valve 7 for controlling the flow rate of the excess sludge, the quantity Qs of the re-converting-to-substrate sludge to be supplied and the required quantity Qe of the excess sludge to be discharged are calculated from the concentration Xa5 of activated sludge, the concentration Xd5 of deactivated sludge and the concentration Se of soluble components in the re-converted substrate in the 2nd biological treatment tank by the controller 10 in a state that the discharge of the excess sludge is stopped and the controller 10 directs to the valves 6 and 7 to satisfy the calculated values. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供能够应对过剩污泥的减少和抑制运行成本增加的污水处理装置。 解决方案:在具有第一生物处理槽1的污泥处理装置中,将第一生物处理槽1中的混合液分离成固体和液体的第一固液分离装置4,第二生物处理槽 3是将第2生物处理槽中的混合液分离成固体和液体的第2固液分离装置5,再转化成基板装置2,第1再转换成基板配线43 用于将第二生物处理槽中的混合液体输送到再转化成基板装置2,将第二再转化为基板的管线44用于向第二生物处理槽发送再转化为底物的污泥 3,分离液体供给管线46,排出管线45,控制器10,用于控制再转化成底物污泥的流量的阀6和用于控制多余污泥的流量的阀7, 重新转化成底物污泥的Q值 根据活性污泥的浓度Xa5,灭活污泥的浓度Xd5和第二生物处理槽中再转化的基质中的可溶性成分的浓度Se,由 控制器10处于停止多余的污泥的排出并且控制器10指向阀6和7以满足计算值的状态。 版权所有(C)2006,JPO&NCIPI
    • 69. 发明专利
    • Estimation method and estimation program of amount of heavy metal flowing out of soil
    • 重金属流出土壤的估算方法和估算方案
    • JP2005013786A
    • 2005-01-20
    • JP2003178573
    • 2003-06-23
    • Gifu PrefectureGifu UnivMatsushita Environment Airconditioning Eng Co Ltd国立大学法人岐阜大学岐阜県松下環境空調エンジニアリング株式会社
    • HONDA MUNEHISASATO TAKESHITAKAMIZAWA KAZUHIROITO YOSHITAKA
    • A01G1/00B09B5/00B09C1/10G06F19/00G06Q10/04
    • PROBLEM TO BE SOLVED: To provide an estimation method and estimation program of an amount of heavy metals flowing out of soil easily estimating the amount of heavy metals per unit time from soil contaminated with heavy metals. SOLUTION: This estimation method of the amount of heavy metals is for calculating the amount of heavy metals per unit time from the soil contaminated with heavy metals, based on mass transfer parameters of the soil contaminated with heavy metals, and fixing parameters of heavy metals by vegetable action. The mass transfer parameters include a dry density ρ d of the soil, a volume water content θ of the soil, a solute dispersion coefficient D of the soil, an adsorption amount S of heavy metals to soil particles, and Darcy flow rate Q, and the fixing parameters include a heavy metal absorption rate Y plants by organisms per unit volume of the soil. In this estimation method, as an example, the respective parameters are substituted for equation (1) to find a solute equilibrium concentration C of water in the soil, and the flowing out amount is calculated from the equilibrium concentration C. The estimation program of the flowing out amount of heavy metals is for executing the calculation procedure of the flowing out amount of heavy metals by a computer. COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供从土壤流出的重金属量的估计方法和估计程序,容易估计从重金属污染的土壤中每单位时间的重金属量。

      解决方案:重金属量的估算方法是根据重金属污染土壤的质量传递参数,计算重金属污染土壤的单位时间重金属量,固定参数 重金属通过蔬菜作用。 传质参数包括土壤的干密度ρ d ,土壤体积含水量θ,土壤溶质分散系数D,重金属对土壤颗粒的吸附量S, 和达西流量Q,固定参数包括每单位体积土壤中有机体的重金属吸收率Y 植物。 在该估计方法中,作为示例,将各个参数代入方程(1)以找到土壤中的水的溶质平衡浓度C,并且从平衡浓度C计算流出量。估计程序 流出重金属的数量是用计算机执行重金属流出量的计算程序。 版权所有(C)2005,JPO&NCIPI