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    • 1. 发明专利
    • Power generation element
    • 发电元件
    • JP2012244850A
    • 2012-12-10
    • JP2011114956
    • 2011-05-23
    • Yuji Suzuki雄二 鈴木Thhink Wireless Technologies Japan Kk有限会社Thhink Wireless Technologies Japan
    • SUZUKI YUJI
    • H02N1/00
    • PROBLEM TO BE SOLVED: To provide a power generation element which generates power in response to change in a predetermined physical quantity such as a temperature, humidity or atmospheric pressure in an ambient atmosphere.SOLUTION: An electrode layer 14 is formed from metal coating film on one side of a dielectric layer 13. Furthermore, an electret layer 12 is formed by a dielectric substrate 12a in which an electret film 12b is formed by depositing an electret material on one side thereof and charging it. Moreover, an electrode 11 is formed by evaporation of a metal thin film on another side of the dielectric substrate 12a. A power generation element 10 is formed by stacking the dielectric layer 13 and the electret film 12b. When a difference between a charge amount in the first electrode 11 and a charge amount in the second electrode 14 is generated due to change in a dielectric constant of the dielectric layer 13 in response to change in predetermined physical quantity in an ambient atmosphere, a potential difference is generated between the first electrode 11 and the second electrode 14, thereby generating power.
    • 要解决的问题:提供响应于环境大气中的诸如温度,湿度或大气压力的预定物理量的变化产生电力的发电元件。 解决方案:电介质层12由电介质层13的一侧上的金属涂膜形成。此外,驻极体层12由电介质基板12a形成,其中通过沉积驻极体材料形成驻极体膜12b 在其一侧充电。 此外,通过在电介质基板12a的另一侧上蒸发金属薄膜来形成电极11。 通过层叠电介质层13和驻极体膜12b来形成发电元件10。 当由于环境大气中预定物理量的变化而导致介电层13的介电常数的变化而产生第一电极11中的电荷量与第二电极14中的电荷量之间的差异时, 在第一电极11和第二电极14之间产生差异,从而产生电力。 版权所有(C)2013,JPO&INPIT
    • 2. 发明专利
    • Shrinkage control system for structure pillar of horizontally stacked wall
    • 水平堆积墙结构支撑的收缩控制系统
    • JP2014181530A
    • 2014-09-29
    • JP2013058017
    • 2013-03-21
    • Yuji Suzuki鈴木 雄司
    • SUZUKI YUJI
    • E04B2/02E04B1/10
    • PROBLEM TO BE SOLVED: To provide a shrinkage control system for a structure pillar that receives a load, is a structural member and has a shrinkage function, the shrinkage control system which is necessary for designing a spatial hall and a multiple floor because a period from a green wood of the wall material to an air-dried wood after being built takes several years with respect to the wall of a wooden architecture by a horizontally stacked wall construction method, and meanwhile, the shrinkage is conducted in a wall height direction and accordingly unevenness occurs in the eaves height, and unevenness adjustment is always made and a stable joining method is necessary.SOLUTION: A shrinkage control system for a structure pillar of a horizontally stacked wall is configured as follows: unevenness adjustment with a wall assembly receiving a vertical load of a horizontally stacked wall construction method is provided in the joining part of a structure pillar engaged with beams; a capital part joint of the structure pillar is a long tenon, and a tenon hole is provided in an engaging beam; a long tenon has a length of gap in conformity to a shrinking length of a wooden horizontally stacked wall construction method; the long tenon equal to or more of a height of a wall and a pillar is provided in a final shrinking period; and the control is performed by the rotation of the bolt and nut connecting unevenness adjustment hardware installed at the joining part between the beam and the structure pillar.
    • 要解决的问题:为了提供一种用于承受负载的结构支柱的收缩控制系统,是结构构件并具有收缩功能的收缩控制系统,因为设计空间厅和多层的需要的收缩控制系统是因为 通过水平堆叠的墙壁施工方法,建成后的空气干燥木材的绿色木材相对于木结构的墙壁需要几年的时间,同时在壁高方向上进行收缩 在屋檐高度上发生不均匀性,并且总是进行不均匀性调节,并且需要稳定的接合方法。解决方案:用于水平堆叠壁的结构柱的收缩控制系统被构造如下:具有垂直方式的壁组件的不均匀性调节 在与梁结合的结构柱的接合部分中设置水平堆叠的壁施工方法的载荷; 结构柱的首要部分接头是长榫,在接合梁中设有榫孔; 长榫长度与木制水平堆叠墙施工方法缩短的长度相符; 在最后收缩期间提供等于或大于墙壁和柱子高度的长榫头; 并且通过安装在梁和结构柱之间的接合部分处的螺栓和螺母连接不均匀调节硬件的旋转来执行控制。
    • 3. 发明专利
    • Edge plate for bucket
    • BGEKET边缘板
    • JP2006125180A
    • 2006-05-18
    • JP2005127112
    • 2005-04-25
    • Kazuo KeimaYuji Suzuki一雄 桂馬裕二 鈴木
    • SUZUKI YUJIKEIMA KAZUO
    • E02F9/28
    • PROBLEM TO BE SOLVED: To provide edge plates attached to a bucket of a shovel machine capable of improving strength without improving the strength of the quality of the material and greatly increasing the thickness in each edge plate for the bucket and, at the same time, also improving workability.
      SOLUTION: The edge plates for the bucket are equipped with abutment sections 49 and 50 (51A) engaging the adjoining edge plates 35 with each other and an abutting body 55, a plurality of edge plates 35 are scattered all around the whole to enable them to pile while absorbing external force from the front end of each edge plate 35 for the abutting surface to have a fitting mechanism engaging with a male section and a female section and, at the same time, it has a fixed means consisting of penetrating sections 45 and 53 fixing by integrally connecting a plurality of edge plates 35 engaged in the horizontal direction and fixed members 58 and 59. Furthermore, the position of the back of the abutting body 55 is made as horizontal from the back of the front end of the edge plate 35, a striped locus made in parallel with the back of a bucket body bottom plate 34 and remained in the ground is leveled off and, at the same time, the damage on the back of the bucket body bottom plate 34 is alleviated to improve workability.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:为了提供安装在能够提高强度而不提高材料质量强度的铲式机器的铲斗上的边缘板,并且大大增加了用于铲斗的每个边缘板的厚度,并且在 同时,也提高了可操作性。 解决方案:铲斗的边缘板装有邻接的边缘板35彼此接合的邻接部分49和50(51A)和抵接体55,多个边缘板35全部散布到 使得它们能够从每个边缘板35的前端吸收外力而抵靠表面具有与阳部和阴部接合的配合机构,并且同时具有固定装置,该固定装置包括穿透 部分45和53通过一体地连接在水平方向上接合的多个边缘板35和固定构件58和59而固定。此外,抵接体55的背面的位置从前端的后部 边缘板35是与铲斗本体底板34的背面平行并保留在地面上的条纹轨迹平坦化,并且同时,铲斗本体底板34的后部的损坏全部 避免提高可操作性。 版权所有(C)2006,JPO&NCIPI
    • 4. 发明专利
    • Base-isolation structure
    • 基础隔离结构
    • JP2014169565A
    • 2014-09-18
    • JP2013041539
    • 2013-03-04
    • Yuji Suzuki鈴木 雄司
    • SUZUKI YUJI
    • E04H9/02F16F15/02
    • PROBLEM TO BE SOLVED: To provide a base-isolation structure, capable of easily and inexpensively executing construction in existing construction and new construction by the same business type as a wooden constructor.SOLUTION: In the base-isolation structure, earthquake force is divided into vectors in two directions, and wood in one direction is to damp by sinking-in in the straightly advancing direction for engaging wood opposed to compressive force in the fiber direction being anisotropy of a tree, and reduces and damps swinging by gradually sinking in by providing a gradually increasing clearance, and a straightly advancing and engaging second stage member is placed on the upper side of a first stage member, and the member is through-mutual-chips, and the convex type tip of an upper side fiber directional surface of the first stage member, contacts with a right-angled directional surface concave type of the engaging second stage member, and the gradually increasing clearance (9) exists between the members. The base-isolation structure is a pair, and copes with the repetitive earthquake force. The plane opposite side lower side of the member is also a similar fitting connection. The member can be mutually superposed, and an intermediate stage has a height of two times of a height of the first stage member, and the connection is a through-type in a central part, and has a right-angled directional concave type part, and upper-lower parts are mutual chips having the fiber directional surface convex type tip.
    • 要解决的问题:提供一种基础隔离结构,能够以与木制建筑商相同的业务类型在现有施工和新建筑中轻松,廉价地执行施工。解决方案:在基础隔离结构中,将地震力分为 在两个方向上的向量,并且一个方向上的木材通过在直线前进方向上沉入而被阻尼,用于接合与纤维方向上的压缩力相反的木材作为树的各向异性,并且通过提供逐渐下沉来减少和减少摆动 逐渐增加的间隙,并且直的前进和接合的第二级构件被放置在第一级构件的上侧,并且构件是互相交叉的,并且上侧纤维方向表面的凸型尖端 第一级构件与接合第二级构件的直角定向表面凹型接触,并且逐渐增加的间隙(9)exi 会员之间的sts 基础隔离结构是一对,可以应付重复的地震力。 构件的相对侧下侧的平面也是类似的装配连接。 该构件可以相互叠置,并且中间台的高度是第一台构件的高度的两倍,并且连接件是中心部分中的通孔型,并且具有直角定向凹入型部件, 并且上下部分是具有纤维定向表面凸起型尖端的相互的芯片。