JPH0729006B2 - Solid-liquid separation device - Google Patents
Solid-liquid separation deviceInfo
- Publication number
- JPH0729006B2 JPH0729006B2 JP61147816A JP14781686A JPH0729006B2 JP H0729006 B2 JPH0729006 B2 JP H0729006B2 JP 61147816 A JP61147816 A JP 61147816A JP 14781686 A JP14781686 A JP 14781686A JP H0729006 B2 JPH0729006 B2 JP H0729006B2
- Authority
- JP
- Japan
- Prior art keywords
- spiral body
- plate
- solid
- liquid
- inner diameter
- 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
- 239000007788 liquid Substances 0.000 title claims description 39
- 238000000926 separation method Methods 0.000 title description 4
- 239000007787 solid Substances 0.000 claims description 16
- 230000033001 locomotion Effects 0.000 claims description 6
- 239000002245 particle Substances 0.000 description 4
- 230000016507 interphase Effects 0.000 description 3
- 229910052751 metal Inorganic materials 0.000 description 3
- 239000002184 metal Substances 0.000 description 3
- 125000006850 spacer group Chemical group 0.000 description 3
- 238000004140 cleaning Methods 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 239000012530 fluid Substances 0.000 description 2
- 230000001105 regulatory effect Effects 0.000 description 2
- 229910052782 aluminium Inorganic materials 0.000 description 1
- XAGFODPZIPBFFR-UHFFFAOYSA-N aluminium Chemical compound [Al] XAGFODPZIPBFFR-UHFFFAOYSA-N 0.000 description 1
- 238000011001 backwashing Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 238000007790 scraping Methods 0.000 description 1
- 238000005406 washing Methods 0.000 description 1
Landscapes
- Filtration Of Liquid (AREA)
Description
【発明の詳細な説明】 〔産業上の利用分野〕 本発明は固液分離装置に関し、特にアルミニユームの切
粉を液体中から分離させて回収するのに適したものであ
る。TECHNICAL FIELD The present invention relates to a solid-liquid separator, and is particularly suitable for separating aluminum chips from a liquid and collecting the chips.
従来、工作機械から生じる金属切粉を液体中から分離す
るについては、金網ですという方法が主流であるが、
頻繁に目詰りを生ずるため、逆洗装置を附設して常時こ
れを駆動させておく必要があり、また、スクレーパーに
よつて詰りを掻き取る際に往々にして金網が破れるとい
う欠点がある。Conventionally, wire mesh is the mainstream method for separating metal chips generated from machine tools from liquid,
Since it often causes clogging, it is necessary to attach a backwashing device and to drive it at all times, and there is a drawback that the wire mesh is often broken when scraping the clogging with a scraper.
本発明の目的は、詰りを生じることがなく、逆洗装置や
スクレーパーの附設を必要としない固液分離装置を提供
することにある。An object of the present invention is to provide a solid-liquid separation device that does not cause clogging and does not require a backwash device or a scraper.
本発明に係る固液分離装置では、固液収容函から排出口
へ至る間において、内径面が後記第1螺旋体の外周から
第2螺旋体の外周に沿つて偏心状に嵌合するよう穿孔さ
れた複数枚の可動環状板を軸方向へ積層状に配列させ、
内径面が第1螺旋体の外周とほぼ同心状に嵌合するよう
穿孔された複数枚の環状間板を上記可動環状板の積層間
に介在させて固定体に支承させ、これら可動環状板また
は環状間板の板面要所に間隔保持用摺動凸子を配記する
ことにより、隣接板面間において内径方向から外径方向
へ至る狭隙状の液体流出溝を形成せしめ、外径を前記環
状間板の内径と同径かまたはそれよりも小径に形成した
第1螺旋体の螺条間に、上記第1螺旋体の外径よりも小
径で同螺旋体と螺間ピツチを均しくする第2螺旋体を嵌
合させて同心状の二重螺旋体となし、該螺旋体を固液収
容函内から排出口の開口方向へ伸延させて原動機で駆動
される螺旋繰出機構を構成すると共にその伸延部を可動
環状板および環状間板の中心孔に嵌合させることによ
り、第1螺旋体の外周が可動環状板の内径面を押圧しつ
つ環状間板の内径面に沿つて回転して可動環状板に偏心
回転運動を行わせるよう構成し、螺旋繰出機構の駆動時
に固液収容函内の固液が軸方向に移送せしめられて液体
は液体流出溝から外側へ流出せしめられると共に固形物
は前方の排出口から排出せしめられ、且つ、液体流出溝
に入り込んだ微小固形物は可動環状板の偏心回転運動に
伴なう前記摺動凸子の摺動作用と液体の流出作用によつ
て除却せられるよう構成したのである。In the solid-liquid separation device according to the present invention, the inner diameter surface is perforated so as to eccentrically fit from the outer circumference of the first spiral body to the outer circumference of the second spiral body, which will be described later, from the solid-liquid storage box to the discharge port. Arranging a plurality of movable annular plates in a laminated manner in the axial direction,
A plurality of annular discs, which are perforated so that their inner diameter surfaces fit substantially concentrically with the outer periphery of the first spiral body, are interposed between the stacks of the movable annular plates and supported by the fixed body, and the movable annular plates or the annular body are supported. By arranging the sliding protrusions for maintaining the spacing on the plate surface of the interplate, a narrow gap-shaped liquid outflow groove from the inner diameter direction to the outer diameter direction is formed between the adjacent plate surfaces, and the outer diameter is A second spiral body having a diameter smaller than the outer diameter of the first spiral body and equalizing the pitch between the spiral bodies between the threads of the first spiral body formed to have the same diameter as or smaller than the inner diameter of the annular disc. To form a concentric double spiral body, and the spiral body is extended from the inside of the solid-liquid storage box in the opening direction of the discharge port to form a spiral feeding mechanism driven by a prime mover, and the extended portion is movable annular. By fitting in the central hole of the plate and the annular plate, Is configured to press the inner diameter surface of the movable annular plate and rotate along the inner diameter surface of the annular interstitial plate to cause the movable annular plate to perform an eccentric rotation motion. The liquid is transferred in the axial direction so that the liquid flows out from the liquid outflow groove to the outside, the solid matter is discharged from the front discharge port, and the minute solid matter entering the liquid outflow groove is eccentric to the movable annular plate. The sliding protrusions and the liquid outflow action, which accompany the rotational movement, can be removed.
実施例の図面において、1は上面に固液投入口2を開口
させた固液収容函、3は固液収容函1から所定の間隔を
隔てて前方に開設された排出口、4は固液収容函1の後
方に設置せられたモーター等の原動機、5は原動機4に
より低速に回転される同心状の二重螺旋体であつて、外
径M1を後記環状間板8……8の内径Bと同径かまたはそ
れよりも僅かに小径に形成した第1螺旋体5aの螺条間
に、外径M2を上記第1螺旋体5aの外径M1よりも小径に形
成すると共に同螺旋体5aと螺間ピツチを均しくする第2
螺旋体5bを嵌合させてなり、該螺旋体5を固液収容函1
内から排出口3の開口方向へ伸延させることにより螺旋
繰出機構6が構成される。7……7は金属薄板で作られ
た可動環状板であつて、固液収容函1から排出口3へ至
る間において複数枚を軸方向へ積層状に配列し、内径面
を前記第1螺旋体5aの外周から第2螺旋体5bの外周に沿
つて偏心状に嵌合させるため、内径bが第1螺旋体5aの
外径M1よりも小径で第2螺旋体5bの外径M2よりは大径と
なるよう穿孔せられている。8……8は金属薄板で作ら
れた環状間板であつて、上記可動環状板7……7の積層
間に介在させた状態により固定体9に支承せられ、内径
面を第1螺旋体5aの外周とほぼ同心状に嵌合させるた
め、内径Bが第1螺旋体5aの外径M1と同径かそれよりも
僅かに大径となるよう穿孔せられている。In the drawings of the embodiment, 1 is a solid-liquid container with a solid-liquid inlet 2 opened on the upper surface, 3 is a discharge port opened forward from the solid-liquid container 1 at a predetermined interval, and 4 is solid liquid. A prime mover such as a motor installed at the rear of the housing box 1 is a concentric double spiral body rotated at a low speed by the prime mover 4, and has an outer diameter M 1 of an inner diameter of an annular disc 8 ... 8 described later. An outer diameter M 2 is formed between the threads of the first spiral body 5a formed to have the same diameter as or slightly smaller than B, and the outer diameter M 2 is formed to be smaller than the outer diameter M 1 of the first spiral body 5a. Second to even out the pitch between threads
The spiral body 5b is fitted with the spiral body 5b.
The spiral feeding mechanism 6 is formed by extending the inside in the opening direction of the discharge port 3. 7 ... 7 is a movable annular plate made of a thin metal plate, and a plurality of sheets are arranged in a stack in the axial direction between the solid-liquid storage box 1 and the discharge port 3, and the inner diameter surface is the first spiral body. The inner diameter b is smaller than the outer diameter M 1 of the first spiral body 5a and larger than the outer diameter M 2 of the second spiral body 5b in order to eccentrically fit along the outer circumference of the second spiral body 5b from the outer circumference of 5a. It is perforated to be. 8 ... 8 is an annular interstitial plate made of a thin metal plate, which is supported by the fixed body 9 in a state of being interposed between the movable annular plates 7. In order to fit the outer periphery of the first spiral body 5a substantially concentrically, the inner diameter B is perforated so as to be the same as the outer diameter M 1 of the first spiral body 5a or slightly larger than it.
そしてこれら可動環状板7……7または環状間板8……
8の板面要所に、固体過粒径を規正するための間隔保
持用摺動凸子10……10を配設することにより、隣接板面
間において内径方向から外径方向へ至る狭隙状の液体流
出溝11……11を形成せしめるのである。間隔保持用摺動
凸子10……10の凸設態様としては、第7図〔イ〕に見ら
れるよう可動環状板7……7の両面に凸設させてもよ
く、或いは第7図〔ロ〕に見られるよう可動環状板7…
…7および環状間板8……8の夫々の片面同一方向に凸
設させてもよい。前記二重螺旋体5の伸延部は可動環状
板7……7および環状間板8……8の中心孔に貫挿され
るのであるが、既述のように可動環状板7の内径bと環
状間板8の内径Bとに直径差が附せられているので、第
1螺旋体5aが回転すればその外周が可動環状板7の内径
面を押圧しつつ環状間板8の内径面に沿つて回転し、可
動環状板7は偏心回転運動を行わせられることになる。The movable annular plates 7 ... 7 or the annular interphase plates 8 ...
By disposing the space-holding sliding protrusions 10 ... 10 for regulating the solid particle size in the plate surface of No. 8, the narrow gap from the inner diameter direction to the outer diameter direction between the adjacent plate surfaces. The liquid-shaped outflow grooves 11 ... 11 are formed. As a mode of projecting the spacing-holding sliding projections 10 ... 10, they may be projected on both sides of the movable annular plates 7 ... 7 as shown in FIG. As shown in [b], the movable annular plate 7 ...
.. 7 and the annular interstitial plate 8 ... 8 may be projected on one side in the same direction. The extended portion of the double spiral body 5 is inserted into the center holes of the movable annular plates 7 ... 7 and the annular spacers 8 ... 8 as described above. Since a diameter difference is added to the inner diameter B of the plate 8, when the first spiral body 5a rotates, its outer periphery presses the inner diameter surface of the movable annular plate 7 and rotates along the inner diameter surface of the annular interstitial plate 8. However, the movable annular plate 7 is caused to perform an eccentric rotary motion.
可動環状板7……7の外径aは、環状間板8……8の内
径Bよりも大径で外径Aよりは小径となし、第1螺旋体
5aの螺条間に介在する第2螺旋体5bの外周によつて可動
環状板7……7が環状間板8……8の外周からはみ出さ
ないよう規正される。The outer diameter a of the movable annular plates 7 ... 7 is larger than the inner diameter B of the annular interphase plates 8 ... 8 and smaller than the outer diameter A.
The outer periphery of the second spiral body 5b interposed between the threads of the 5a regulates the movable annular plates 7 ... 7 so as not to protrude from the outer periphery of the annular interphase plates 8.
可動環状板7と環状間板8との最も望ましい寸法比率を
第3図および第4図について説明すると、 a=A−α 〔注〕α:外径差 α<W W=W′ ということになる。αがWより大きくなると、過物の
粒径の規正が行えなくなる。また、WがW′よりも大き
くなれば流体流出溝11……11のクリーニング効果が低下
するし、W′がWよりも大きくなれば可動環状板7を破
損するおそれがある。環状間板9の内径Bは、第1螺旋
体5aの回転が円滑に行われるよう同螺旋体の外径M1より
も僅かに大径とすることが望ましい。第1螺旋体の外径
M1と可動環状板の内径bとの差が、可動環状板7の半径
方向への摺動量となる。そして可動環状板7が過大に偏
心しないように、第1螺旋体の螺条間に介在する第2螺
旋体の外径M2を設定するのである。The most desirable dimensional ratio between the movable annular plate 7 and the annular spacer 8 will be described with reference to FIGS. 3 and 4. a = A-α [Note] α: outer diameter difference α <W W = W ′ Become. If α is larger than W, it becomes impossible to regulate the particle size of the excess material. Further, if W is larger than W ', the cleaning effect of the fluid outflow grooves 11 ... 11 is deteriorated, and if W'is larger than W, the movable annular plate 7 may be damaged. It is desirable that the inner diameter B of the annular spacer 9 is slightly larger than the outer diameter M 1 of the spiral body 5a so that the first spiral body 5a can be smoothly rotated. Outer diameter of the first spiral
The difference between M 1 and the inner diameter b of the movable annular plate 7 is the amount of sliding of the movable annular plate 7 in the radial direction. The outer diameter M 2 of the second spiral body interposed between the threads of the first spiral body is set so that the movable annular plate 7 is not excessively eccentric.
固液収容函1内へ充填された固液は二重螺旋体5に沿つ
て前後方向へ流れ込み、積層された可動環状板7……7
および環状間板8……8の中心孔へ流入する。そして螺
旋繰出機構6を低速駆動させると、固液は二重螺旋体5
に沿つて軸方向へ前進せしめられ、液体は液体流出溝11
……11より外側へ流出せしめられると共に固形物は前方
の排出口3より排出せしめられる。そして液体流出溝11
……11に入り込んだ微小固形物は、摺動凸子10……10の
摺動作用と液体の流出作用によつて除却せられることに
なるが、固液過粒径の規正、つまり、排出口3から排
出させる固形物と液体流出溝11……11から流下させる微
小固形物との選り分けは、液体流出溝11……11の溝の深
さ即ち間隔保持用摺動凸子10……10の高さtによつて設
定される。従つて、凸子10……10の高さを異にした交換
用の可動環状板7……7を予じめ各種用意しておき、こ
れを適宜差し替えることによつて固体過粒径の規正基
準を任意に変更することができるのである。The solid-liquid filled in the solid-liquid storage box 1 flows in the front-rear direction along the double spiral body 5, and the movable annular plates 7 ... 7 are stacked.
And annular disc 8 ... flows into the center hole of 8. Then, when the spiral feeding mechanism 6 is driven at a low speed, the solid-liquid flows into the double spiral body 5.
The liquid is forced to move in the axial direction along the
The solid matter is discharged to the outside from 11 and the solid matter is discharged from the front discharge port 3. And the liquid outflow groove 11
The fine solids that have entered the 11 are removed by the sliding action of the sliding protrusions 10 and the outflow action of the liquid. The solid matter discharged from the outlet 3 and the minute solid matter flowing down from the liquid outflow groove 11 ... 11 are selected according to the depth of the liquid outflow groove 11 ... 11, that is, the sliding protrusions 10 ... It is set according to the height t. Accordingly, various kinds of movable annular plates 7 ... 7 for replacement having different heights of the convex elements 10 ... 10 are prepared in advance, and the solid oversized particles are regulated by appropriately replacing them. The standard can be changed arbitrarily.
本発明装置においては、二重螺旋体5の駆動に伴なう可
動環状板7……7の偏心回転運動により、固液分離作用
と同時にクリーニング作用が行われるので目詰りを生ず
ることがなく、逆洗装置やスクレーパーを必要としない
という利点がある。しかも固体過粒径の規正、つまり
排出口3から排出される固形物と流体流出溝11……11か
ら流下させる微小固形物との選り分けを、液体流出溝11
……11の溝の深さ即ち間隔保持用摺動凸子10……10の高
さtによつて設定するという方式であるから、凸子10…
…10の高さを異にした交換用の可動環状板7……7を予
じめ各種用意しておけば、これを差し替えることによつ
て固体過粒径の規正基準を任意に変更することがで
き、極めて便利である。In the device of the present invention, the cleaning action is performed simultaneously with the solid-liquid separation action by the eccentric rotation movement of the movable annular plates 7 ... 7 accompanying the driving of the double helix 5, so that clogging does not occur and It has the advantage of not requiring washing equipment or scrapers. Moreover, the regulation of the solid particle size, that is, the selection of the solid matter discharged from the discharge port 3 and the minute solid matter flowing down from the fluid discharge groove 11 ...
...... 11 The depth of the groove, that is, the sliding protrusion 10 for maintaining the spacing is set according to the height t of the protrusion 10.
… Moveable movable annular plates 7 with different heights 10… If various kinds of 7 are prepared in advance, by replacing them, the regulation standard of solid overparticle size can be arbitrarily changed. It is possible and extremely convenient.
第1図は本発明装置の外観側面図、第2図は本発明装置
における二重螺旋体の構造例を示した縦断側面図であつ
て、〔イ〕は第2螺旋体を第1螺旋体と同様にリボンス
クリユーとした事例、〔ロ〕は横軸に凸条を螺旋状に巻
付けてなる第2螺旋体を用いた事例である。第3図は本
発明装置における可動環状板の正面図、第4図は本発明
装置における可動環状板の正面図である。第5図は本発
明装置における可動環状板および環状間板と二重螺旋体
との関係を示した要部縦断側面図であつて、〔イ〕は第
2図〔イ〕の螺旋体を用いた事例、〔ロ〕は第2図
〔ロ〕の螺旋体を用いた事例である。第6図〔イ〕は第
5図〔イ〕のY−Y線における縦断正面図、第6図
〔ロ〕は第5図〔ロ〕のY−Y線における縦断正面図で
ある。第7図〔イ〕は間隔保持用摺動凸子を可動環状板
の両面に凸設させた事例を示す要部縦断側面図、第7図
〔ロ〕は間隔保持用摺動凸子を可動環状板および環状間
板の夫々の片面同一方向に凸設させた事例を示す要部縦
断側面図である。第8図は本発明装置における環状間板
の支承態様を例示した要部縦断正面図である。 1……固液収容函、3……排出口、4……原動機、5…
…二重螺旋体、5a……第1螺旋体、5b……第2螺旋体、
6……螺旋繰出機構、7……可動環状板、8……環状間
板、9……固定体、10……間隔保持用摺動凸子、11……
液体流出溝、B……環状間板の内径。FIG. 1 is an external side view of the device of the present invention, and FIG. 2 is a longitudinal side view showing an example of the structure of the double helix in the device of the present invention. [A] shows the second helix as well as the first helix. The case of a ribbon screen, [B], is a case of using a second spiral body in which a convex line is spirally wound around the horizontal axis. FIG. 3 is a front view of the movable annular plate in the device of the present invention, and FIG. 4 is a front view of the movable annular plate in the device of the present invention. FIG. 5 is a vertical sectional side view of a main part showing the relationship between the movable annular plate and the annular interstitial plate and the double spiral body in the device of the present invention. [A] is a case using the spiral body of FIG. 2 [A]. , [B] are examples of using the spiral body of FIG. 2 [b]. FIG. 6B is a vertical sectional front view taken along the line YY of FIG. 5B, and FIG. 6B is a vertical sectional front view taken along the line YY of FIG. 5B. FIG. 7 (a) is a vertical sectional side view of a main part showing an example in which the spacing holding sliding protrusions are provided on both sides of the movable annular plate, and FIG. 7 (b) shows the spacing holding sliding protrusions movable. It is a principal part longitudinal cross-sectional view which shows the example in which the annular plate and the annular interstitial plate were made to project in the same direction on one side. FIG. 8 is a vertical cross-sectional front view of a main part illustrating the bearing mode of the annular disc in the device of the present invention. 1 ... Solid-liquid storage box, 3 ... Discharge port, 4 ... Motor, 5 ...
… Double helix, 5a …… first helix, 5b …… second helix,
6 ... Screw feeding mechanism, 7 ... movable annular plate, 8 ... annular plate, 9 ... fixed body, 10 ... spacing sliding projection, 11 ...
Liquid outflow groove, B ... Inner diameter of annular disc.
フロントページの続き (51)Int.Cl.6 識別記号 庁内整理番号 FI 技術表示箇所 B01D 33/58 Continuation of the front page (51) Int.Cl. 6 Identification code Office reference number FI technical display location B01D 33/58
Claims (1)
間において、内径面が後記第1螺旋体(5a)の外周から
第2螺旋体(5b)の外周に沿つて偏心状に嵌合するよう
穿孔された複数枚の可動環状板(7)……(7)を軸方
向へ積層状に配列させ、内径面が後記第1螺旋体(5a)
の外周とほぼ同心状に嵌合するよう穿孔された複数枚の
環状間板(8)……(8)を上記可動環状板(7)……
(7)の積層間に介在させて固定体(9)に支承させ、
これら可動環状板(7)……(7)または環状間板
(8)……(8)の板面要所に間隔保持用摺動凸子(1
0)……(10)を配記することにより、隣接板面間にお
いて内径方向から外径方向へ至る狭隙状の液体流出溝
(11)……(11)を形成せしめ、外径(M1)を前記環状
間板(8)の内径(B)と同径かまたはそれよりも小径
に形成した第1螺旋体(5a)の螺条間に、上記第1螺旋
体(5a)よりも小径で同螺旋体(5a)と螺間ピツチを均
しくする第2螺旋体(5b)を嵌合させて同心状の二重螺
旋体(5)となし、該螺旋体(5)を固液収容函(1)
内から排出口(3)の開口方向へ伸延させて原動機
(4)で駆動される螺旋繰出機構(6)を構成すると共
にその伸延部を可動環状板(7)……(7)および環状
間板(8)……(8)の中心孔に嵌挿させることによ
り、第1螺旋体(5a)の外周が可動環状板(7)……
(7)の内径面を押圧しつつ環状間板(8)……(8)
の内径面に沿つて回転して可動環状板(7)……(7)
に偏心回転運動を行わせるよう構成し、螺旋繰出機構
(6)の駆動時に固液収容函(1)内の固液が軸方向に
移送せしめられて液体は液体流出溝(11)……(11)か
ら外側へ流出せしめられると共に固形物は前方の排出口
(3)から排出せしめられ、且つ、液体流出溝(11)…
…(11)に入り込んだ微小固形物は可動環状板(7)…
…(7)の偏心回転運動に伴なう前記摺動凸子(10)…
…(10)の摺動作用と液体の流出作用によつて除却せら
れるよう構成したことを特徴とする固液分離装置。1. An inner diameter surface is eccentrically formed from the outer circumference of a first spiral body (5a), which will be described later, to the outer circumference of a second spiral body (5b) between the solid-liquid storage box (1) and the discharge port (3). A plurality of movable annular plates (7) ... (7) perforated to fit are arranged in a stack in the axial direction, and the inner diameter surface is the first spiral body (5a) described later.
The movable annular plates (7) ..
It is interposed between the laminated layers of (7) and supported by the fixed body (9),
Sliding protrusions (1) for maintaining the spacing are provided on the plate surface of the movable annular plate (7) (7) or annular interstitial plate (8) (8).
By allocating 0) ... (10), a narrow gap-like liquid outflow groove (11) ... (11) is formed between the adjacent plate surfaces, and the outer diameter (M 1 ) has a diameter smaller than that of the first spiral body (5a) between the threads of the first spiral body (5a) formed with the same diameter as or smaller than the inner diameter (B) of the annular interstitial plate (8). The spiral body (5a) and the second spiral body (5b) for equalizing the inter-thread pitch are fitted to each other to form a concentric double spiral body (5), and the spiral body (5) is put into a solid-liquid storage box (1).
A spiral feeding mechanism (6) that is extended from the inside in the opening direction of the discharge port (3) and is driven by the prime mover (4) is formed, and the extended portion is formed by the movable annular plates (7). Plate (8) ... The outer periphery of the first spiral body (5a) is movable by inserting it into the center hole of the plate (8).
While pressing the inner diameter surface of (7), the annular disc (8) (8)
Rotating along the inner diameter surface of the movable ring plate (7) …… (7)
The eccentric rotary motion is carried out in the liquid feed-out groove (11) (()) by causing the solid-liquid in the solid-liquid storage box (1) to be axially transferred when the spiral feeding mechanism (6) is driven. 11), the solid matter is discharged from the front discharge port (3), and the liquid discharge groove (11) ...
… (11) The small solid matter that has entered is the movable annular plate (7)…
... The sliding protrusion (10) accompanying the eccentric rotational movement of (7) ...
A solid-liquid separator characterized in that it can be removed by the sliding action of (10) and the outflow action of liquid.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP61147816A JPH0729006B2 (en) | 1986-06-24 | 1986-06-24 | Solid-liquid separation device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP61147816A JPH0729006B2 (en) | 1986-06-24 | 1986-06-24 | Solid-liquid separation device |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS634816A JPS634816A (en) | 1988-01-09 |
| JPH0729006B2 true JPH0729006B2 (en) | 1995-04-05 |
Family
ID=15438871
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP61147816A Expired - Lifetime JPH0729006B2 (en) | 1986-06-24 | 1986-06-24 | Solid-liquid separation device |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH0729006B2 (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2007090237A (en) * | 2005-09-28 | 2007-04-12 | Amukon Kk | Solid-liquid separator |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP5854958B2 (en) * | 2012-09-19 | 2016-02-09 | 株式会社鶴見製作所 | Solid-liquid separator |
-
1986
- 1986-06-24 JP JP61147816A patent/JPH0729006B2/en not_active Expired - Lifetime
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2007090237A (en) * | 2005-09-28 | 2007-04-12 | Amukon Kk | Solid-liquid separator |
| JP4611162B2 (en) * | 2005-09-28 | 2011-01-12 | アムコン株式会社 | Solid-liquid separator |
Also Published As
| Publication number | Publication date |
|---|---|
| JPS634816A (en) | 1988-01-09 |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| EXPY | Cancellation because of completion of term |