JP3118766B2 - Rocking mixer - Google Patents
Rocking mixerInfo
- Publication number
- JP3118766B2 JP3118766B2 JP08035734A JP3573496A JP3118766B2 JP 3118766 B2 JP3118766 B2 JP 3118766B2 JP 08035734 A JP08035734 A JP 08035734A JP 3573496 A JP3573496 A JP 3573496A JP 3118766 B2 JP3118766 B2 JP 3118766B2
- Authority
- JP
- Japan
- Prior art keywords
- rubber cylinder
- permanent magnet
- container
- mixer
- pole
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
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- Mixers With Rotating Receptacles And Mixers With Vibration Mechanisms (AREA)
Description
【0001】[0001]
【発明の属する技術分野】本発明は、各種の粉体や粒体
等を均一に混合する揺動ミキサーに関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an oscillating mixer for uniformly mixing various kinds of powders and granules.
【0002】[0002]
【従来の技術】従来、この種の揺動ミキサーとしては、
特開平1−293127号公報に開示されたものが知ら
れている。これは、機体に固定された容器の下部を有底
のゴム筒とし、駆動装置により回転駆動される傾斜クラ
ンクに設けた傾斜回転盤にゴム筒の下端を取付け、傾斜
回転盤の首振揺動によりゴム筒を屈曲変形させ、容器内
の材料を混合する形式のものである。2. Description of the Related Art Conventionally, as a rocking mixer of this kind,
The one disclosed in Japanese Patent Application Laid-Open No. 1-293127 is known. In this method, the lower part of the container fixed to the fuselage is a rubber cylinder with a bottom, and the lower end of the rubber cylinder is attached to an inclined rotating disk provided on an inclined crank that is driven to rotate by a driving device. Is used to bend the rubber cylinder to mix the materials in the container.
【0003】[0003]
【発明が解決しようとする課題】上記のような揺動ミキ
サーは、混練効率が良く、性能が優れているが、特にコ
ンクリート混練に用いる場合に、より高強度のコンクリ
ートを製造し得る高性能の揺動ミキサーが待望されてい
た。The oscillating mixer as described above has good kneading efficiency and excellent performance. However, especially when used for concrete kneading, a high-performance mixer capable of producing higher-strength concrete. The rocking mixer was long-awaited.
【0004】本発明は、上述したような問題点を解決す
るためになされたものであり、本発明の解決しようとす
る課題は、より高強度のコンクリートを製造し得る揺動
ミキサーを提供することにある。The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide an oscillating mixer capable of producing concrete having higher strength. It is in.
【0005】[0005]
【課題を解決するための手段】上述の課題を解決するた
め、本発明に係る揺動ミキサーは、機体に固定された容
器の下部を有底のゴム筒とし、駆動装置により回転駆動
される傾斜クランクに設けた傾斜回転盤に前記ゴム筒の
下端を取付け、前記傾斜回転盤の首振揺動により前記ゴ
ム筒を屈曲変形させ、前記容器内の材料を混合する揺動
ミキサーにおいて、前記ゴム筒面に複数の永久磁石を設
け、前記ゴム筒の内面側に前記永久磁石のN極が位置す
るとともに前記ゴム筒の外面側に前記永久磁石のS極が
位置するように配置したことを特徴とする。In order to solve the above-mentioned problems, an oscillating mixer according to the present invention comprises a container fixed to an airframe, a lower portion of which has a bottomed rubber cylinder, and a tilting device which is rotationally driven by a driving device. A lower end of the rubber cylinder is attached to an inclined rotating disk provided on a crank, and the rubber cylinder is bent and deformed by swinging the neck of the inclined rotating disk to mix the material in the container. A plurality of permanent magnets are provided on the surface, and arranged such that the N pole of the permanent magnet is located on the inner surface side of the rubber cylinder and the S pole of the permanent magnet is located on the outer surface side of the rubber cylinder. I do.
【0006】[0006]
【発明の実施の形態】以下に、本発明に係る揺動ミキサ
ーの実施形態を図面に基づいて詳細に説明する。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of a swing mixer according to the present invention will be described in detail with reference to the drawings.
【0007】図1は、本発明の一実施形態である揺動ミ
キサー100の構成を示す断面図である。また、図2
(A)は、図1における容器部分の詳細構成を示す拡大
図である。図に示すように、この揺動ミキサー100
は、機体1と、機体1に取り付けられる容器2と、容器
2内の材料を攪拌する攪拌機構3を備えて構成されてい
る。FIG. 1 is a sectional view showing the structure of a swing mixer 100 according to an embodiment of the present invention. FIG.
(A) is an enlarged view which shows the detailed structure of the container part in FIG. As shown in FIG.
Is provided with a body 1, a container 2 attached to the body 1, and a stirring mechanism 3 for stirring the material in the container 2.
【0008】機体1は、底部フレーム11と、底部フレ
ーム11の左右端に立設される左右の側部フレーム12
L,12Rと、側部フレーム12L,12Rの上部に設
けられた軸孔12H1 ,12H2 と、各軸孔12H1 ,
12H2 内に挿入され回転可能に構成された回転軸13
L,13Rと、この回転軸13L,13Rにより転回可
能に構成された転回フレーム14を有している。The body 1 includes a bottom frame 11 and left and right side frames 12 erected on the left and right ends of the bottom frame 11.
L, and 12R, the side frames 12L, the shaft hole 12H 1, 12H 2 provided in the upper part of the 12R, Kakujikuana 12H 1,
Rotary shaft 13 inserted into 12H 2 and configured to be rotatable
L, 13R, and a turning frame 14 configured to be turnable by the rotating shafts 13L, 13R.
【0009】底部フレーム14Bと、底部フレーム14
Bの左右端に連結された左右の側部フレーム14L,1
4Rを有しており、各側部フレーム14L,14Rのそ
れぞれに回転軸13L,13Rが連結している。また、
回転軸13Lにはハンドル13Hが設けられている。The bottom frame 14B and the bottom frame 14
Left and right side frames 14L, 1 connected to the left and right ends of B
4R, and the rotating shafts 13L, 13R are connected to the respective side frames 14L, 14R. Also,
A handle 13H is provided on the rotation shaft 13L.
【0010】転回フレーム14の側部フレーム14L,
14Rの上部には取付プレート15P1 ,15P2 がボ
ルト等により取り付けられ、これらの取付プレート15
P1,15P2 により容器2が転回フレーム14に固定
されている。[0010] Side frames 14L of the turning frame 14,
At the top of 14R mounting plate 15P 1, 15P 2 is attached by bolts or the like, these mounting plates 15
The container 2 is fixed to the turning frame 14 by P 1 and 15P 2 .
【0011】容器2は、上下端が開放された略円筒状の
上筒21と、ゴム筒22と、底部キャップ23を有して
いる。ゴム筒22は、天然ゴム等のシートからなり、有
底の筒状に形成され、上端が上筒21の下端に接合して
いる。ゴム筒22の内部には、後述する永久磁石ピース
24が複数埋め込まれている。底部キャップ23は、略
球面状に形成され、ゴム筒22の底部中央付近を被覆す
るように取り付けられている。また、上筒21とゴム筒
22の接合部25は、図2(A)に示すように、パッキ
ング25P等により密接され、液体等が漏れないように
構成されている。The container 2 has a substantially cylindrical upper cylinder 21 whose upper and lower ends are open, a rubber cylinder 22, and a bottom cap 23. The rubber cylinder 22 is made of a sheet of natural rubber or the like, is formed in a cylindrical shape with a bottom, and has an upper end joined to a lower end of the upper cylinder 21. A plurality of permanent magnet pieces 24 described later are embedded in the rubber cylinder 22. The bottom cap 23 is formed in a substantially spherical shape, and is attached so as to cover the vicinity of the center of the bottom of the rubber cylinder 22. As shown in FIG. 2 (A), the joint 25 between the upper cylinder 21 and the rubber cylinder 22 is tightly closed by a packing 25P or the like so as to prevent leakage of liquid or the like.
【0012】攪拌機構3は、転回フレーム14の底部フ
レーム14Bに連結された取付フレーム32L,32R
に取付ボルト32Bで固定された駆動装置31を有して
いる。駆動装置31内には、電動モータ(図示せず)
と、減速歯車機構(図示せず)等が内蔵されている。電
動モータ(図示せず)には電源(図示せず)が接続され
ており、電源スイッチ(図示せず)をONにすることに
より駆動軸31Aを回転駆動することができる。駆動軸
31Aには、傾斜クランク33が取り付けられ、傾斜ク
ランク33には傾斜軸34が連結されている。傾斜軸3
4の先端には、ベアリング37(図2(A)参照)を介
して丸棒状の攪拌部材36が取り付けられ、攪拌部材3
6は、底部キャップ23を貫通し容器2の内部に傾斜状
態で突出している。また、攪拌部材36の根元には、傾
斜回転盤35L,35Uが取り付けられている。これら
の傾斜回転盤35L,35Uは、ゴム筒22の底部下端
付近をその外部と内部から挟み込み、取付ボルト35B
によって固定されている。The stirring mechanism 3 includes mounting frames 32L, 32R connected to the bottom frame 14B of the turning frame 14.
Has a driving device 31 fixed by mounting bolts 32B. An electric motor (not shown) is provided in the driving device 31.
And a reduction gear mechanism (not shown). A power supply (not shown) is connected to the electric motor (not shown), and the drive shaft 31A can be rotationally driven by turning on a power switch (not shown). A tilt crank 33 is attached to the drive shaft 31A, and a tilt shaft 34 is connected to the tilt crank 33. Tilt axis 3
A round bar-shaped stirring member 36 is attached to a tip of the stirring member 3 via a bearing 37 (see FIG. 2A).
6 projects through the bottom cap 23 in an inclined state inside the container 2. At the base of the stirring member 36, inclined rotating plates 35L and 35U are attached. These inclined rotating disks 35L and 35U sandwich the lower end near the bottom of the rubber cylinder 22 from the outside and the inside thereof, and fix the mounting bolt 35B.
Has been fixed by.
【0013】次に、上記したゴム筒22内に埋め込まれ
た永久磁石ピース24のさらに詳細な構成及びその配置
について、図2(A),(B)を参照しつつ説明する。
図2(A),(B)に示すように、永久磁石ピース24
は、円盤状あるいはペレット(錠剤)状に形成されてい
る。容器2のゴム筒22のゴムシートの内部に埋め込ま
れ、またその配置状態は、碁盤目状になっている。そし
て、図2(B)に示すように、各永久磁石ピース24の
N極がゴム筒22の内面22i、すなわち材料が収容さ
れる側に向くように配置され、各永久磁石ピース24の
S極がゴム筒22の外面22e、すなわち容器2の外側
を向くように配置されている。このように構成すること
により、各永久磁石ピース24のN極側から磁力線Mが
出射し、容器2内の材料に向けられたのち、S極側に戻
ることになる。Next, a more detailed configuration and arrangement of the permanent magnet piece 24 embedded in the rubber cylinder 22 will be described with reference to FIGS. 2 (A) and 2 (B).
As shown in FIGS. 2A and 2B, the permanent magnet piece 24
Is formed in a disk shape or a pellet (tablet) shape. It is embedded in the rubber sheet of the rubber cylinder 22 of the container 2 and its arrangement is in a grid pattern. Then, as shown in FIG. 2B, the N pole of each permanent magnet piece 24 is arranged so as to face the inner surface 22i of the rubber cylinder 22, that is, the side where the material is stored, and the S pole of each permanent magnet piece 24 is arranged. Are disposed so as to face the outer surface 22 e of the rubber cylinder 22, that is, the outside of the container 2. With this configuration, the lines of magnetic force M are emitted from the N pole side of each permanent magnet piece 24, are directed to the material in the container 2, and then return to the S pole side.
【0014】上記のような構成により、容器2内に、上
筒21の上部開口から材料、例えば、セメントと水等を
入れ、駆動装置31を作動させて駆動軸31Aを回転さ
せると、傾斜クランク33が回転し、これに伴い傾斜軸
34が首振回転を行う。この運動に連動して、傾斜回転
盤35L,35Uが首振揺動を行うため、傾斜回転盤3
5L,35Uによって下端部が傾斜軸34に固定された
ゴム筒22は屈曲変形され、容器2内のセメントと水と
を混練することができる。According to the above-described configuration, when a material such as cement and water is put into the container 2 from the upper opening of the upper cylinder 21 and the driving device 31 is operated to rotate the driving shaft 31A, the inclined crank is formed. 33 rotates, and the tilt shaft 34 swings accordingly. In conjunction with this movement, the tilting rotary plates 35L and 35U swing their heads, so that the tilting rotary plate 3
The rubber cylinder 22 whose lower end is fixed to the inclined shaft 34 by 5L and 35U is bent and deformed, and the cement and water in the container 2 can be kneaded.
【0015】混合が終了した後は、駆動装置31を停止
させ、ハンドル13Hを傾斜させることにより、転回フ
レーム14全体を回転軸13L,13Rまわりに転回さ
せて容器2を傾け、混合された材料を上筒21の上部開
口から外部に取り出すことができる。After the mixing is completed, the driving device 31 is stopped, and the handle 13H is tilted, whereby the entire turning frame 14 is turned around the rotation shafts 13L and 13R to tilt the container 2 and the mixed material is removed. It can be taken out from the upper opening of the upper cylinder 21.
【0016】このようにして製造されたコンクリート
は、練り上り後は、従来のコンクリートに比べ分散性と
可塑性が向上し、現場での打設作業がより容易になる。
また、従来のものに比べコンクリートの強度が約15〜
20%程度増加した高強度コンクリートを得ることがで
きる。After the concrete thus manufactured has been kneaded, the dispersibility and plasticity thereof are improved as compared with the conventional concrete, and the casting work on site becomes easier.
In addition, the strength of concrete is about 15-
High strength concrete increased by about 20% can be obtained.
【0017】これは、上記揺動ミキサー100での混練
の際、ゴム筒22に碁盤目状に配設された多数の永久磁
石ピース24,24,…,24のN極から、水に向けて
磁力線Mが出射されることにより、通常は水分子(H2
O)が複数個集合して構成されるクラスター構造が緻密
な構造に再整列され、いわゆる「磁気水」に変化するた
めと考えられる。During the kneading in the oscillating mixer 100, the N poles of a large number of permanent magnet pieces 24, 24,... When the magnetic field lines M are emitted, the water molecules (H2
This is probably because a cluster structure composed of a plurality of O) is rearranged into a dense structure, which changes into so-called "magnetic water".
【0018】また、本実施形態の揺動ミキサー100に
おいては、混練が行われる部分がゴム筒22であり、埋
め込まれた永久磁石ピース24の磁力により磁化等を起
こさないため、磁力線Mが有効に材料に作用する、とい
う利点がある。もし、他の形式のミキサーの金属製の胴
体部分に永久磁石を取り付けた場合には、金属の磁化に
より磁力線が有効に材料に作用せず悪影響を及ぼすこと
が考えられる。In the oscillating mixer 100 of the present embodiment, the portion where the kneading is performed is the rubber cylinder 22, which does not cause magnetization or the like due to the magnetic force of the embedded permanent magnet piece 24, so that the magnetic force lines M are effectively generated. It has the advantage of acting on the material. If a permanent magnet is attached to the metal body of another type of mixer, the magnetic field lines may not work effectively on the material due to the magnetization of the metal, and may have an adverse effect.
【0019】また、上記した磁気水を生成するために
は、永久磁石のほかに電磁石も考えられるが、電磁石を
使用する場合には、電源や各電磁石への配線が必要であ
り、構造が複雑になりコストが高くなるほか、故障等が
発生しやすい、という問題が生じる。In order to generate the above-mentioned magnetic water, an electromagnet may be used in addition to a permanent magnet. However, when an electromagnet is used, a power supply and wiring to each electromagnet are required, and the structure is complicated. In addition to the cost, the cost increases and a problem that a failure or the like easily occurs occurs.
【0020】上記揺動ミキサー100を試作し、コンク
リート等の製造実験を行った結果、永久磁石ピース24
の配列パターンとしては、ゴム筒22の側面付近では、
図3(A)に示す碁盤目状や、図3(B)に示す「千鳥
状」の配置が可能であり、ゴム筒22の底部付近では、
図3(C)に示す「放射状」の配置が可能である。A prototype of the above-mentioned rocking mixer 100 was manufactured, and a production experiment of concrete or the like was performed.
In the vicinity of the side surface of the rubber cylinder 22,
The grid pattern shown in FIG. 3A and the “staggered” arrangement shown in FIG. 3B are possible, and near the bottom of the rubber cylinder 22,
The "radial" arrangement shown in FIG. 3C is possible.
【0021】練り上り後のコンクリートの品質は、図3
(A)に示す碁盤目状の場合が最も良い成績を示した。
例えば、ゴム筒22のシート厚さが0.5〜数ミリメー
トル程度で、永久磁石ピース24の直径が3〜10ミリ
メートル程度の場合、碁盤目の離隔距離d1 ,d2 を約
50〜150ミリメートル程度とすると、良好な高強度
コンクリートが得られた。The quality of the concrete after kneading is shown in FIG.
The best performance was obtained in the case of the grid pattern shown in (A).
For example, when the sheet thickness of the rubber cylinder 22 is about 0.5 to several millimeters and the diameter of the permanent magnet piece 24 is about 3 to 10 millimeters, the grid separation distances d 1 and d 2 are about 50 to 150 millimeters. On the other hand, good high-strength concrete was obtained.
【0022】なお、本発明は、上記した実施形態に限定
されるものではない。上記実施形態は、例示であり、本
発明の特許請求の範囲に記載された技術的思想と実質的
に同一な構成を有し、同様な作用効果を奏するものは、
いかなるものであっても本発明の技術的範囲に包含され
る。The present invention is not limited to the above embodiment. The embodiment described above is an exemplification, and has substantially the same configuration as the technical idea described in the claims of the present invention, and has the same function and effect,
Anything is included in the technical scope of the present invention.
【0023】例えば、上記した実施形態においては、攪
拌部材として丸棒状部材を設けた例について説明した
が、本発明はこれには限定されず、丸棒状部材に攪拌羽
根等の補助部材を取り付けた構成としてもよい。For example, in the above-described embodiment, an example has been described in which a round bar-shaped member is provided as a stirring member. However, the present invention is not limited to this, and an auxiliary member such as a stirring blade is attached to the round bar-shaped member. It may be configured.
【0024】また、上記した実施形態においては、永久
磁石をゴム筒の内部に埋め込んだ例について説明した
が、本発明はこれには限定されず、永久磁石の磁力が十
分強力でゴム厚がそれほど厚くない場合には、ゴム筒の
外面側に複数の永久磁石を貼り付けることによっても磁
気水生成の効果を十分発揮させることが可能である。Further, in the above-described embodiment, an example in which the permanent magnet is embedded in the rubber cylinder has been described. However, the present invention is not limited to this. The magnetic force of the permanent magnet is sufficiently strong and the rubber thickness is not so large. If it is not thick, the effect of magnetic water generation can be sufficiently exhibited by attaching a plurality of permanent magnets to the outer surface of the rubber cylinder.
【0025】[0025]
【発明の効果】以上説明したように、本発明によれば、
容器下端のゴム筒面に複数の永久磁石を設け、ゴム筒の
内面側に永久磁石のN極が位置するとともにゴム筒の外
面側に永久磁石のS極が位置するように配置したので、
容器内に水とセメントを入れて混練した場合には、永久
磁石により磁気水を生成することができ、従来に比べ分
散性と可塑性に富み高強度のコンクリートを製造するこ
とができる。As described above, according to the present invention,
Since a plurality of permanent magnets were provided on the rubber cylinder surface at the lower end of the container, and the N pole of the permanent magnet was located on the inner surface side of the rubber cylinder and the S pole of the permanent magnet was located on the outer surface side of the rubber cylinder,
When water and cement are put in a container and kneaded, magnetic water can be generated by a permanent magnet, and high-strength concrete with high dispersibility and plasticity can be produced as compared with the conventional case.
【図1】本発明の一実施形態である揺動ミキサーの構成
を示す断面図である。FIG. 1 is a cross-sectional view illustrating a configuration of an oscillating mixer according to an embodiment of the present invention.
【図2】図1に示す揺動ミキサーにおける容器のさらに
詳細な構成を示す図である。FIG. 2 is a diagram showing a more detailed configuration of a container in the oscillating mixer shown in FIG.
【図3】図1に示す揺動ミキサーにおける永久磁石ピー
スの配列を示す図である。FIG. 3 is a view showing an arrangement of permanent magnet pieces in the swing mixer shown in FIG. 1;
1 機体 2 容器 3 攪拌機構 11 底部フレーム 12H1 ,12H2 軸孔 12L,12R 側部フレーム 13H ハンドル 13L,13R 回転軸 14 転回フレーム 14B 底部フレーム 14L,14R 側部フレーム 15P1 ,15P2 取付プレート 21 上筒 22 ゴム筒 22e 外面 22i 内面 23 底部キャップ 24 永久磁石ピース 25 接合部 25P パッキング 31 駆動装置 31A 駆動軸 32B 取付ボルト 32L,32R 取付フレーム 33 傾斜クランク 34 傾斜軸 35B 取付ボルト 35L,35U 傾斜回転盤 36 攪拌部材 37 ベアリング 100 揺動ミキサー M 磁力線1 body 2 container 3 stirring mechanism 11 bottom frame 12H 1, 12H 2 shaft holes 12L, 12R side frame 13H handle 13L, 13R rotary shaft 14 turning frame 14B bottom frame 14L, 14R side frame 15P 1, 15P 2 Mounting plate 21 Upper cylinder 22 Rubber cylinder 22e Outer surface 22i Inner surface 23 Bottom cap 24 Permanent magnet piece 25 Joint 25P Packing 31 Drive 31A Drive shaft 32B Mounting bolts 32L, 32R Mounting frame 33 Inclined crank 34 Inclined shaft 35B Install bolt 35L, 35U Inclined rotating disc 36 Stirring member 37 Bearing 100 Swing mixer M Magnetic field line
Claims (1)
ム筒とし、駆動装置により回転駆動される傾斜クランク
に設けた傾斜回転盤に前記ゴム筒の下端を取付け、前記
傾斜回転盤の首振揺動により前記ゴム筒を屈曲変形さ
せ、前記容器内の材料を混合する揺動ミキサーにおい
て、 前記ゴム筒面に複数の永久磁石を設け、前記ゴム筒の内
面側に前記永久磁石のN極が位置するとともに前記ゴム
筒の外面側に前記永久磁石のS極が位置するように配置
したことを特徴とする揺動ミキサー。1. A lower part of a container fixed to an airframe is a bottomed rubber cylinder, and a lower end of the rubber cylinder is attached to an inclined rotating disk provided on an inclined crank rotated by a driving device. In a rocking mixer for bending and deforming the rubber cylinder by swinging the neck and mixing the material in the container, a plurality of permanent magnets are provided on the rubber cylinder surface, and N of the permanent magnet is provided on the inner surface side of the rubber cylinder. An oscillating mixer, wherein the pole is located and the S pole of the permanent magnet is located on the outer surface side of the rubber cylinder.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP08035734A JP3118766B2 (en) | 1996-01-31 | 1996-01-31 | Rocking mixer |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP08035734A JP3118766B2 (en) | 1996-01-31 | 1996-01-31 | Rocking mixer |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH09206579A JPH09206579A (en) | 1997-08-12 |
| JP3118766B2 true JP3118766B2 (en) | 2000-12-18 |
Family
ID=12450067
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP08035734A Expired - Lifetime JP3118766B2 (en) | 1996-01-31 | 1996-01-31 | Rocking mixer |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP3118766B2 (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP6059381B1 (en) * | 2016-03-14 | 2017-01-11 | 了輔 堀田 | Eye drop aid |
Families Citing this family (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2007222861A (en) * | 2006-02-21 | 2007-09-06 | Sumitomo Chemical Co Ltd | Manufacturing method of wet powder |
| WO2008151105A1 (en) * | 2007-06-04 | 2008-12-11 | Ge Healthcare Bioscience Bioprocess Corp. | An apparatus for mixing the contents of a container |
-
1996
- 1996-01-31 JP JP08035734A patent/JP3118766B2/en not_active Expired - Lifetime
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP6059381B1 (en) * | 2016-03-14 | 2017-01-11 | 了輔 堀田 | Eye drop aid |
Also Published As
| Publication number | Publication date |
|---|---|
| JPH09206579A (en) | 1997-08-12 |
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