| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | Husking equipment | JP2000170066 | 2000-06-07 | JP4692794B2 | 2011-06-01 | 岳史 三戸; 覺 佐竹; 正秀 寳利; 稔 是田 |
| 122 | Roller uncoating machine | JP2007518433 | 2004-12-20 | JP2008504948A | 2008-02-21 | ゲルリッツ フランク−オットー |
| 本発明は、ローラ式脱殻機、特に穀類の皮殻をとるためのゴムローラ式脱殻機(1)であって、ハウジング(5)内に配置された少なくとも1対のゴムローラ(3,3′)が設けられている形式のものに関する。 生産物の供給は、シュートを介して、有利には圧力モードで作動する空気力式フィーダへと行われ、この空気力式フィーダは有利には、変向湾曲部(9)を備えた搬送管(7)である。 この搬送管(7)への空気供給が、皮殻セパレータ(13)におけるファン(26)のバイパス(12)を用いて行われる。 | ||||||
| 123 | Granule treatment apparatus | JP2003056802 | 2003-03-04 | JP2004261764A | 2004-09-24 | SAIGA KEIJI |
| PROBLEM TO BE SOLVED: To provide a ganule treatment apparatus capable of nearly completely separating adherent materials adhering to surfaces of granules or inclusions included therein without impairing their surfacesin an additive-free system. SOLUTION: The treatment apparatus for separating the adherent materials adhering to a number of the granules or the inclusions included therein is equipped with a conveyor 1 which is provided with many pores 11 smaller than the granules and larger than the adherent materials or the inclusions in a transport way 10, an air intake means 2 for sucking the air on the top surface side of the transport way 10 from the pores 11 to the under surface side in the prescribed position of the transport way 10 and an air blowout means for imparting blow-up force to the granules during the course of transfer. COPYRIGHT: (C)2004,JPO&NCIPI | ||||||
| 124 | Hulling apparatus | JP20938496 | 1996-07-22 | JPH1033997A | 1998-02-10 | SATAKE SATORU; OKUNO KENJIRO; FUKUHARA AKIRA; YORIOKA SEIJI |
| PROBLEM TO BE SOLVED: To provide a hulling apparatus that less produces broken particles and is high in efficiency. SOLUTION: This apparatus is provided with a guide shute 13 for supplying grains between a pair of rubber rolls 7, 8 on a fixed side and on a movable side. The inclination of the guide shute 13 is such that the cast line S of grains cast from the guide shute 12 is approximately perpendicular to the roll axis line R formed by connecting the rotation center axes of the pair of rubber rolls 7, 8 and the grains are accelerated to a speed in the range that satisfies the capacity for processing the grains and do not exceed the roll circumferential speed. In some cases, the cast line S is placed in the range of 10mm from the midpoint M between the pair of rubber rolls or is placed in a middle position between the contact point of a renewed pair of rubber rolls and the contact point of the pair of rubber rolls that are to be replaced. | ||||||
| 125 | 籾摺機の脱ぷロール異常判定装置 | JP2017039584 | 2017-03-02 | JP2018143932A | 2018-09-20 | 福森 武; 田川 澄夫; 是田 稔 |
| 【課題】籾摺運転を開始して所定の時間経過後も振れ回り現象が継続する脱ぷロールのみを異常とされる籾摺機の脱ぷロール異常判定装置を提供する。 【解決手段】主軸37と該主軸に対して遠近に移動可能な副軸32とにそれぞれ脱ぷロールを軸着してなる籾摺機であって、前記一対の脱ぷロールの脱ぷ作用によって生じる振動を検知する振動センサ63,62を前記主軸及び/又は副軸の軸受部に設け、前記脱ぷ作用が開始されてから前記脱ぷロールの表面の歪が消滅するまでの期間に対応する時間が経過するまでの間、前記振動センサが連続して設定強度以上の振動を検知したとき、前記脱ぷロールが異常であると判定される異常判定手段を設けたことを特徴とする。 【選択図】図5 |
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| 126 | 製粉用ロール機の制御方法及びその装置 | JP2016157224 | 2016-08-10 | JP2018023930A | 2018-02-15 | 田川 澄夫; 横山 亮 |
| 【課題】ロールの表面温度を正確に監視することができるとともに、ロール表面に高温異常が発生した場合でも異常を見逃すことのない製粉用ロール機の制御方法及びその装置を提供する。 【解決手段】一対のロール4,5近傍に、一対のロール4,5の表面温度及びロール通過後の粉砕物の温度を監視する温度センサSを設け、温度センサSにより検知したロールの表面温度及びロール通過後の粉砕物の温度によってロール4,5の間隙の開閉制御又は原料ストックの流量制御を行う。 【選択図】図1 |
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| 127 | 研削式竪型精穀機 | JP2013515053 | 2012-04-23 | JPWO2012157402A1 | 2014-07-31 | 康義 瀬戸; 史朗 但馬; 和人 野中; 康範 小池; 山本 幸治; 幸治 山本 |
| 研削程度を調性するための抵抗体の突出量を作業者が手動により調節する必要がない抵抗体調節装置を備えた研削式竪型精穀機を提供する。除糠金網筒は、平面視において円周方向で複数に分割した除糠金網筒部28と、該複数に分割した除糠金網筒部28の各両側縁を固定するために互いに円周方向で間隙を空けて立設した複数の支柱33とからなり、各支柱33には、研削式精白ロール26の回転に伴う穀粒の円周方向への移動を抑制する長尺の抵抗体34を設けるとともに、該抵抗体34は、弾性体37によって精白室30内へ向けて突出した位置に付勢され、さらに、穀粒から受ける抵抗(圧迫力)によって精白室30内から離れる位置へ半径方向に移動自在に設けられていることを特徴とする。 | ||||||
| 128 | Rice huller | JP2008065738 | 2008-03-14 | JP5041540B2 | 2012-10-03 | 明徳 坂本 |
| 129 | Huller | JP2008065738 | 2008-03-14 | JP2009219983A | 2009-10-01 | SAKAMOTO AKINORI |
| PROBLEM TO BE SOLVED: To provide a huller capable of simply and stably constituting a following mechanism causing a supply plate supplying cereals to a contact part between rolls to make movement following the movement of the rolls. SOLUTION: The supply plate 27 is operation-linked by a pivoted shaft 26, a fixed shaft 21 pivoting a first roller 22 through a link mechanism 44, and a fulcrum shaft 41 arranged parallel to both axes above a movable shaft 23 pivoting a second roller 24 through a movable-shaft support member 53. Further, in the fulcrum shaft 41, a link arm 42 is pressed at the lower end side to the side opposing to the fixed shaft 21 in the movable-shaft support member 53 pivoting the second roller 24 by the biasing power of a biasing member 43. When the movable shaft 23 moves by a press-moving mechanism 25 in a direction approaching toward the fixed shaft 21, the link arm 42 swings in the fulcrum shaft 41 turning in the teeth of the biasing power of the biasing member 43 and the inclination angle of the supply plate 27 changes through the link mechanism 44 accompanying the swing. COPYRIGHT: (C)2010,JPO&INPIT | ||||||
| 130 | Granules processing unit | JP2003056802 | 2003-03-04 | JP3999145B2 | 2007-10-31 | 慶二 雑賀 |
| 131 | Pneumatic roller type uncoating machine having a conveying device | JP2004550597 | 2003-10-14 | JP2006506218A | 2006-02-23 | ゲルリッツ フランク−オットー |
| 本発明は、穀粒を脱殻するためのローラ型脱殻機、特にゴムローラ型脱殻機であって、ハウジング(5)内に配置された一対のゴムローラ(3,3′)が設けられている形式のものに関する。 生産物供給が、ニューマチック式の搬送装置に通じる滑降路を介して行われ、この搬送装置は加圧モードで作業し、有利には変向湾曲部(9)を設けられた搬送管(7)の形で実施されている。 このことは、破損傾向がわずかな場合により高い供給能力を可能にする。 | ||||||
| 132 | 横型研削式精米機 | JP2003503358 | 2001-06-11 | JPWO2002100546A1 | 2004-09-24 | 繁雄 大野 |
| 水平状の回転軸(10)上に環設固定した研削ロール(1)を、縦割に二つのスクリーン半部(2・2)に分割可能な同心円筒状の除糠スクリーン(S)で覆って精米室を形成している構造の横型研削式精米機において、該除糠スクリーン(S)を二分割した各スクリーン半部(2)の内周面に、該円筒の軸芯に直交する円状断面の円周に沿って湾曲する円弧状部材により構成されたストッパ(3)とフラップ(4)とを軸芯方向にて交互に並ぶように合計複数個固設している。該フラップ(4)と研削ロール(1)の外周との間には、通過量を制限しつつ米を通過可能な距離を確保し、該ストッパ(3)と研削ロール(1)の外周との間の距離は、米を通過できないものとしている。該除糠スクリーン(S)の両スクリーン半部(2・2)を同一構造とし、それぞれ軸芯方向の両端同士が入れ替わるように反転した場合に、該ストッパ(3)と該フラップ(4)とが入れ替わるような構造としており、該精米機において、少なくとも一方のスクリーン半部(2)を、軸芯方向の両端同士が入れ替わるように反転して設置可能としている。また、両スクリーン半部(2・2)同士の接合面(J)は、回転軸(10)を中心とした円周方向に位置変更可能である。 | ||||||
| 133 | Hulling device | JP2000170066 | 2000-06-07 | JP2001347172A | 2001-12-18 | SATAKE SATORU; HORI MASAHIDE; KOREDA MINORU; MITO TAKESHI |
| PROBLEM TO BE SOLVED: To provide a hulling device which may be exactly set in the position or inclination angle of a guide chute by easily detecting the diameters of rubber rolls. SOLUTION: This device is provided with a roll diameter marker 31 for displaying the degree of wearing in the diameter of either one rubber roll 2 or 3 near the minimum spacing position of a pair of the rubber rolls 2 and 3, and is provided with an inclination angle changing marker 32 for previously displaying the degree of the change in the position or inclination angle of the guide chute 18 in correspondence to the roll diameter marker 31. | ||||||
| 134 | JPS6228703B2 - | JP9334680 | 1980-07-10 | JPS6228703B2 | 1987-06-22 | FUERIIPE SAREETE GARUSESU |
| 135 | Grain-milling machine | US14400402 | 2013-06-04 | US09751086B2 | 2017-09-05 | Kazunobu Kajihara; Yoichiro Ogura; Tsutomu Hako; Yoji Kashiwa; Somchai Keawkaika; Kazuto Nonaka; Shin Saeki |
| An abrasive grain-milling unit and a friction grain-milling unit are located on upper and lower portions of a pedestal, respectively. The friction grain-milling unit includes a grain feed trough to which a milled grain discharge trough of the abrasive grain milling unit is connected. A two-way grain feed trough and change-over valve is located above the abrasive grain-milling unit and is capable of selectively feeding grains either directly to the friction grain-milling unit or to the friction grain-milling unit via the abrasive grain-milling unit. | ||||||
| 136 | FLEXIBLE POLISHING APPARATUS FOR GRANULATED GRAINS | US15510895 | 2015-06-26 | US20170239665A1 | 2017-08-24 | Ying ZHOU; Heping ZHOU |
| A flexible polishing apparatus for granulated grains is provided. The flexible polishing apparatus includes a housing, a feeding device, at least one flexible polishing unit, a bran discharging device, and a rice outlet. The flexible polishing unit includes a radial gravity self-flow flexible polishing chamber. The feeding device, the flexible polishing chamber and the rice outlet are sequentially arranged from top to bottom along the gravity direction. The flexible polishing apparatus for granulated grains avoids the shear effect of granulated grains in the polishing chamber, improves the flexible friction effect, and greatly reduces the damage to rice in the polishing process while ensuring that rice bran is cleaned and the rice is polished, thereby improving the rate of polished rice and reducing energy consumption. | ||||||
| 137 | REFINED RICE MILL WITH AUTOMATIC QUANTITATIVE FEED CONTROL | US15134486 | 2016-04-21 | US20160346784A1 | 2016-12-01 | Chang-Li Huang |
| The present invention provides a refined rice mill with automatic quantitative feed control, which comprises a box and a quantity-control feeder and a rice milling unit provided inside the box, and a control module. The quantity-control feeder can supply grain (such as rice grain) quantitatively to the rice milling unit, so that multiple equal quantities of refined rice can be obtained. | ||||||
| 138 | Grain huller | US12922223 | 2008-07-02 | US08596193B2 | 2013-12-03 | Akinori Sakamoto; Tomohiro Mitsuhata; Koji Yokota; Tadashi Hamaguchi |
| A supply plate has a proximal end supported by a pivot shaft disposed parallel to a position-fixed shaft and a position-movable shaft. A position-movable shaft support member is pressed toward the position-fixed shaft so the first and second rolls are pressed at the contact point under a predetermined pressure. A link arm supported by a fulcrum shaft is pressed to a surface of the position-movable support member that faces the position-fixed shaft. The fulcrum shaft and the pivot shaft are connected. The contact point is shifted as the position-movable shaft support member moves toward the position-fixed shaft, and the pivot shaft is rotated around the axis line by the link arm, the fulcrum shaft, and the link mechanism based on the movement of the position-movable shaft support member, so the slant angle of the supply plate is automatically changed and the supply plate is directed to the contact point. | ||||||
| 139 | REVERSIBLE CONVEYER ASSEMBLY FOR MILLING APPARATUS | US13817392 | 2010-10-27 | US20130200191A1 | 2013-08-08 | Chaithanya B. Subbannavar; Naveen H.C. Kumar |
| A reversible conveyor assembly, which comprises a screw conveyor having one or more projection means formed on both upper and lower portions of the screw conveyor. A conveyor flange has a guiding means and a groove that are engraved on upper portion of the conveyor flange. | ||||||
| 140 | Granular body-processing apparatus | US10547894 | 2004-03-01 | US07484624B2 | 2009-02-03 | Keiji Saika |
| A grain processor comprises a conveyor, air-suction means, and air-blowing means. The conveyor has a surface defining a conveying course on which grains are disposed, and the surface has holes smaller than the grains. The air above the surface is sucked downward through the holes by the air-suction means. The air-blowing means blows air upward through the holes at a predetermined position in the conveying course so as to apply blowing-up force onto the conveyed grains on the surface reaching the predetermined position. | ||||||
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