JP2698878B2 - Particle sizer - Google Patents
Particle sizerInfo
- Publication number
- JP2698878B2 JP2698878B2 JP30680388A JP30680388A JP2698878B2 JP 2698878 B2 JP2698878 B2 JP 2698878B2 JP 30680388 A JP30680388 A JP 30680388A JP 30680388 A JP30680388 A JP 30680388A JP 2698878 B2 JP2698878 B2 JP 2698878B2
- Authority
- JP
- Japan
- Prior art keywords
- sizing
- particles
- screen
- elements
- gently
- 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 - Fee Related
Links
Landscapes
- Combined Means For Separation Of Solids (AREA)
Description
【発明の詳細な説明】 〔産業上の利用分野〕 本発明は、鉱石,石炭,砕石,骨材或いはその他の粒
状物などを開目のある網、その他のスクリーンを用いて
振動を与えて粒子の大きさで粒度分布調整又は整粒し、
ふるい分け分級する分粒装置に関するものである。DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a method of giving ore, coal, crushed stone, aggregate or other granular material to particles by vibrating using an open mesh or other screen. Adjust the particle size distribution or size with the size of
The present invention relates to a sieving / classifying apparatus for classification.
一般に、ふるい分けによる分級に用いられる分級篩で
は、処理物の投入→拡散→成層→篩分けの過程を経て仕
事が行われるが、従来の篩分け方法では、広範囲の粒度
構成を有する処理物の網上粒子の層厚によって、金網の
上にさらにもう一つの障害物の層が存在することとな
り、前記篩分け過程の大きな弊害となっていた。特に現
在使用されている容量計算には処理物の移動速度,層厚
の問題が無視されており、処理量,効率等の性能に大き
な問題を残すことが知られている。Generally, in a classifying sieve used for classification by sieving, work is performed through a process of charging a treated material → diffusion → stratification → sieving. Depending on the layer thickness of the upper particles, there is still another layer of obstacles on the wire mesh, which has been a great detriment to the sieving process. In particular, in the currently used capacity calculation, the problems of the moving speed and the layer thickness of the processed object are ignored, and it is known that the performance such as the throughput and efficiency remains large.
これら問題点を解決する改良技術として網目を持つ篩
網を3段以上の複数段、上下に重ねる方式の急傾斜の分
粒装置が提案されて篩網の傾斜角は上方を緩傾斜の角度
とし、下方に行くにしたがって、傾斜を増加せしめ、最
も下の篩網を最大傾斜とする分粒装置が、例えば特公昭
55−11903号公報又は実公昭59−28709号公報などで実用
化されて使用されてきた。As an improved technique for solving these problems, a steep sizing apparatus in which three or more screens each having a mesh are vertically stacked is proposed. , The grader that increases the slope as it goes down and the bottom screen is the maximum slope, for example,
It has been put to practical use in, for example, JP-A-55-11903 or JP-B-59-28709.
この方式は、各段の篩網への処理物負荷分布が均等に
なるように篩網を取付け、篩面上の処理物の層厚を一層
とし、ふるい分けを容易にし、さらに急傾斜にしたこと
により移動速度が早めるような構造のものであった。In this method, the sieve net is attached so that the load distribution on the sieve mesh at each stage is even, the thickness of the processed material on the sieve surface is made one layer, sieving is facilitated, and the slope is made steep. The structure was such that the moving speed was increased.
〔発明が解決しようとする課題〕 これら従来の急傾斜の篩網を複数段で使用する分粒装
置では、例えば網目を持つ篩網1,2が第9図のように、
傾斜されて多段(図においては2段)に配設したもの
で、網目は下段の方が細くなっている。そして篩分けの
状況では、第10図に示す如く、傾斜方向に設けられた縦
線条3とこれと直角方向の横線条4A〜4Eなどより成る網
目に粒子が当たる場合、例えば横網条4Bに当たる粒子は
或る方向から来るものはその方向に平行な中心線5より
も4A側のものは当たった後に、4A側に落ち網目より小さ
いものは下に落ちる。網目より小さいものであっても中
心線5より4C側のものは当たった後に4C側にはね、すぐ
4Bと4Cとの間に落ちるものもあり、さらに4Cに当たるも
のもある。またこの横線条4Cに当たるものは同様に、例
えば中心線6の方向に来る粒子は4B側と4D側とに振り分
けられる。このようにして篩網1,2は傾斜しているので
次々に横線条にぶつかり、篩分けられて第9図の如く網
上7と網下8として堆積する。この場合、横線条4A,4B
などとぶつかって落下するので落下には条件があり、こ
の条件が確率となる。したがって、最下段の網目は規定
粒子の大きさより大きな網目を必要とする。この確率篩
は傾斜しているので移動速度が早く、それだけ層を小さ
くすることができる。又、数段で、しかも網目を下段に
いくにしたがい小さくしているので、網の上の層を小さ
くすることがてき、この層が小さいことはそれだけ粒子
を篩い分けすることが容易になる。[Problems to be Solved by the Invention] In the conventional sieving apparatus using a steeply sieved mesh in a plurality of stages, for example, the sieved meshes 1 and 2 having meshes are as shown in FIG.
The meshes are inclined and arranged in multiple stages (two stages in the figure), and the mesh is thinner in the lower stage. Then, in the sieving situation, as shown in FIG. 10, when the particles hit the mesh formed by the vertical streak 3 provided in the inclined direction and the horizontal streak 4A to 4E perpendicular thereto, for example, hit the horizontal streak 4B. Particles coming from a certain direction fall on the 4A side of the center line 5 parallel to the direction, and then fall on the 4A side, and those smaller than the mesh fall down. Even if it is smaller than the mesh, the one on the 4C side from the center line 5 hits it after hitting, immediately on the 4C side
Some fall between 4B and 4C, and some fall into 4C. In the same manner, particles hitting the horizontal streak 4C, for example, particles coming in the direction of the center line 6 are sorted to the 4B side and the 4D side. Since the sieve screens 1 and 2 are inclined in this way, they successively hit horizontal streaks, are sieved, and are deposited as a top 7 and a bottom 8 as shown in FIG. In this case, horizontal lines 4A, 4B
There is a condition for the fall because it falls against the object, and this condition is a probability. Therefore, the network at the bottom requires a network larger than the size of the specified particles. Since the probability sieve is inclined, the moving speed is high, and the layer can be reduced accordingly. In addition, since the size of the mesh is reduced in several stages and the size of the mesh is reduced toward the bottom, the layer on the mesh can be reduced, and the smaller the layer, the easier the particles can be sieved.
このような確率篩を用いて砕石の篩分けを行った結果
を第11図に示す。Fig. 11 shows the results of sieving crushed stones using such a probability sieve.
例えば最大40mmまでの粒度のものを含む砕石を5mmよ
りも大きいものと小さいものとを篩分けするのに従来の
5mm分離用のメッシュの網目を備えた網篩板を用いて篩
分けした。第11図にて実線rは篩分けを行う前の砕石の
粒度分布を示す。点線は篩分け後の分布を示し、点線u
にて囲まれ右下りのハッチングを施した部分は網上、点
線lにて囲まれ右上りのハッチングを施した部分は網下
の分の砕石粒度分布を示す。このように5mmより大きな
ものが網下8に混入し、5mmより小さなものが可成り多
く網上7に混入している。For example, a conventional method for sieving crushed stones including those having a particle size of up to 40 mm and those smaller than 5 mm.
The mixture was sieved using a mesh sieve plate provided with a mesh mesh for separation of 5 mm. In FIG. 11, the solid line r shows the particle size distribution of the crushed stone before sieving. The dotted line shows the distribution after sieving, and the dotted line u
The hatched portion surrounded by and hatched to the right indicates the crushed stone particle size distribution on the net, and the hatched portion surrounded by the dotted line 1 and hatched to the upper right indicates the crushed stone particle size distribution under the mesh. As described above, the thing larger than 5 mm is mixed in the under-net 8, and the thing smaller than 5 mm is mixed in the net 7 considerably.
これは確率のため網目より落下せずに大きな粒子と一
緒に網上7の中に堆積する場合があること、最下段の網
目が傾斜していることと、及び確率で行っているのでこ
の網目を規定粒子より大きくせねばならないので、網下
8に粒子の大きなものも含まれることなどによるもので
ある。This is because the probability that the particles may not fall from the mesh but accumulate in the mesh 7 together with large particles due to the probability, the fact that the lowermost mesh is inclined, and Must be larger than the specified particles, so that the net 8 may include particles having a large particle size.
このように従来の急傾斜の分粒装置は、大量処理には
好都合であるが、網上の産出物に分級点よりも細い粒子
が混入し、また網下の産出物に分級点よりも粗い粒子が
混入することが避けられない点が問題で分級精度が高め
られない欠点があった。Thus, the conventional steep sizing apparatus is convenient for mass processing, but the finer than the classification point is mixed into the output on the net, and the output below the net is coarser than the classification point. There is a problem that the classification accuracy cannot be improved due to the problem that particles cannot be avoided.
本発明は、これら従来の欠点を適確に排除しようとす
るもので、上方側に急傾斜の分粒要素を配備し、これに
連なる下方側には緩傾斜の分粒要素を配備し、上方の急
傾斜部位で処理された粗粒側、または細粒側の粒子群を
緩傾斜分粒要素に導いて分級することで大量処理に適す
ると共に、分級精度を大幅に向上し、分粒装置を小型化
でき、動力の削減と設置面積の低減をも可能とするコン
パクトで安価な形態の分粒装置として提供することを目
的としたものである。The present invention is intended to properly eliminate these conventional drawbacks, in which a steeply sizing element is provided on the upper side, and a gently sizing element is provided on the lower side connected thereto. It is suitable for large-scale processing by introducing the particles on the coarse-grain side or fine-grain side treated at the steeply inclined part to the gentle-grading classification element, and greatly improves the classification accuracy. It is an object of the present invention to provide a compact and inexpensive sizing apparatus which can be reduced in size and can also reduce power and installation area.
本発明は、開目を持つスクリーンを傾斜して垂直方向
に離隔され、上下多段に重ねられた複数個の分粒要素で
処理物を分粒し、これら分粒要素は、どの部分において
も隣接する分粒要素の間の間隔が該部分に達する粒子よ
りも大きいように離隔されている型式の分粒装置におい
て、上方の少なくとも一つの分粒要素または複数の分粒
要素が下方の少なくとも一つの分粒要素または複数の分
粒要素よりも急傾斜であることを特徴とする分粒装置で
ある。According to the present invention, the processed material is sieved by a plurality of sizing elements that are vertically separated from each other by inclining a screen having an opening and that are vertically stacked, and the sizing elements are adjacent to each other in any part. In a type of sizing device in which the spacing between the sizing elements is greater than the particles reaching the part, the at least one upper sizing element or the plurality of sizing elements being at least one lower sizing element. A sizing device characterized in that the sizing element or the plurality of sizing elements is steeper than the sizing element.
本発明の分粒装置では、砕石を投入口10より供給し、
分散板11を経て多段に配備されたスクリーン12,13群の
分粒要素で流下し(スクリーン上を流過する流れとスク
リーンの開目を通過して落下する流れとを含みつつ順次
下方に移して各分粒要素に流落して分級するもので、こ
の場合の処理物の粒度分布は第7図(A)に示すように
rの曲線で与えられる場合を考えると、利用的な分級目
標点をPtとすると、網上産物の粒度分布はu,網下産物の
粒度分布はlであるので実施例では分級が2つの分粒プ
ロセスに分けて行われる。In the sizing device of the present invention, crushed stone is supplied from the input port 10,
It flows down through the sizing elements of the screens 12 and 13 arranged in multiple stages through the dispersion plate 11 (moved down sequentially while including the flow flowing over the screen and the flow falling through the openings of the screen). In this case, the particle size distribution of the processed product is given by the curve of r as shown in FIG. 7 (A). Is Pt, the particle size distribution of the product on the net is u, and the particle size distribution of the product under the net is l. Therefore, in the embodiment, classification is performed by dividing into two particle size processes.
まず、第1分粒プロセスは急傾斜の分粒要素によって
行われ、処理物の粒度分布は第7図(B)に示すrであ
る。急傾斜の分粒要素によって網上産物aと網下産物b
とに分級される。First, the first sizing process is performed by a steep sizing element, and the particle size distribution of the processed product is r shown in FIG. 7 (B). On-net product a and under-net product b by steeply sizing element
Classified as
次に網上産物aは第2プロセスの緩傾斜(または水
平)の分粒要素に達し、第7図(C)に見られるように
網上産物uと網下産物eに分級されるので、この結果第
2分粒プロセスを経た粒子は、当初期待した粒度分布u
と等しいものとなる。この説明では、網上産物aを主体
として記述したが、網下の場合も同様で、第8図(A)
(B)(C)に示すように網下産物の粒分分布lが結果
として得られるのである。Next, the net product a reaches the gentle-graded (or horizontal) sizing element of the second process, and is classified into the net product u and the net product e as shown in FIG. 7 (C). As a result, the particles that have passed through the second sizing process have the initially expected particle size distribution u.
Is equivalent to In this description, the product a on the net is mainly described, but the same applies to the case under the net.
(B) As shown in (C), a grain size distribution 1 of the netted product is obtained as a result.
また、各分粒要素を通過した粒子を上下に隣接する分
粒要素のそれぞれに供給することで、上下に重なる分粒
要素を平面に広がっていると同じ状態で利用することと
なり、隣接分粒要素個々の処理量負担を軽減することが
できて、分級効率が著しく向上できるものであり、しか
も隣接分粒要素に沿って配備する遮閉要素は上方の分粒
要素を通過した粒子が下方の分粒要素上の粒子と混入し
ないように捕集し、個別に排出部に導くことができるも
のである。In addition, by supplying the particles that have passed through each sizing element to each of the vertically adjacent sizing elements, the vertically overlapping sizing elements are used in the same state as if they are spread on a plane, and the adjacent sizing elements are used. The processing load on each element can be reduced, and the classification efficiency can be remarkably improved.In addition, the shielding element provided along the adjacent sizing element is such that the particles passing through the upper sizing element can be moved downward. The particles can be collected so as not to be mixed with the particles on the sizing element, and can be individually guided to the discharge section.
〔実施例〕 本発明の実施例を第1〜4図の例で説明すると、粒条
物質の大きさに応じた網目のあるスクリーン12,121,12
2の上方分粒要素と、スクリーン13,131の下方分粒要素
とを複数上下方向に間隔をあけて重ねフレーム15中に備
えられ、該フレーム15は支承金具14で振動可能に支えら
れ、モータからなる発振機16で振動するようになってい
て、上端部に投入口10と下端部に二つの排出口20,21と
を備え、前記投入口10の直下に分散板11と傾斜装備の分
粒要素のスクリーン12,13群が上方と下方とに配列さ
れ、投入口10からの原料物質をふるい分け分粒ができる
ようになっている。Referring to the example of the fourth diagram of an embodiment of EXAMPLES present invention, the screen 12, 12 1, 12 with a mesh in accordance with the magnitude of Tsubujo substance
2, an upper sizing element and a lower sizing element of the screens 13 and 13 1 are provided in a stacked frame 15 with a plurality of vertically spaced intervals, and the frame 15 is supported by a bearing 14 so as to be able to vibrate, It is configured to vibrate by an oscillator 16 composed of a motor, and has an inlet 10 at an upper end and two outlets 20 and 21 at a lower end, and a dispersing plate 11 and an inclined device immediately below the inlet 10. Screens 12 and 13 of the sizing element are arranged in an upper part and a lower part so that the raw material from the input port 10 can be sieved and sieved.
このスクリーンは、網目の開目のある篩網であって、
支杆17上に張装され、取付片18を介して緊張機構19で若
干そらせた状態でフレーム15の両側板間に介在張装配備
されていて、前記分散板11の下流側でスクリーン上方に
流過阻止板22,23,24,25を必要に応じ備えてあり、上方
の少なくとも一つの分粒要素、または複数の分粒要素の
スクリーン12,121,122が下方の少なくとも一つの分粒
要素、または複数の分粒要素のスクリーン13,131よりも
急傾斜に配備して分粒装置としてある。This screen is a sieve screen with an open mesh,
It is stretched on the support rod 17 and is interposed between the two side plates of the frame 15 in a state where it is slightly deflected by the tension mechanism 19 via the mounting piece 18, and is arranged above the screen on the downstream side of the dispersion plate 11. A flow blocking plate 22, 23, 24, 25 is provided as required, and at least one upper sizing element or a screen of a plurality of sizing elements 12, 12 1 , 12 2 is provided with at least one lower sizing element. grain element or a plurality of deployed steeper than the screen 13, 13 1 of the sizing element, there a sizing device.
即ち、上方のスクリーン12,121,122群の傾斜角度
が、全部又は少なくとも最下段のスクリーン122が水平
面に対し25°以上であり、下方のスクリーン13,131群の
傾斜角度が15°以下の緩傾斜に配備するのがよく、また
これらスクリーン12,13…群に対する振動の形態が直線
振動で、該振動は分粒要素の面に対して130°〜40°の
角度の振動を与えるようにするのがよい。That is, the inclination angle of the upper screen group 12, 12 1 , 12 2 group is all or at least the lowest screen 12 2 is 25 ° or more with respect to the horizontal plane, and the inclination angle of the lower screen 13, 13 1 group is 15 °. The screens 12, 13 ... group should be arranged in a gentle inclination, and the form of vibration for these screens should be a linear vibration, and the vibration should be 130 ° to 40 ° with respect to the surface of the sizing element. It is better to give.
なお、第3図例に示すように、上方にある急傾斜のス
クリーン12,121,122を下側に通過した細粒子は排出口2
0から導出し、スクリーン12,121,122上を流過する粗粒
子は下方に配備した緩傾斜の複数のスクリーン13,131に
供給し、スクリーン13,131を通過する中粒子と分け、か
つスクリーン12,13上に流過阻止板22,23,24を設け、ま
た上方複数の急傾斜スクリーン12,121,122の最下段の
スクリーン122を通過した粗粒子が下方緩傾斜のスクリ
ーン13,131に流入するのを阻止する阻止板25を設けるの
が粗粒子再分級のために有効である。The third as shown in FIG example, a screen 12, 12 1 of steep in the upper, 12 2 fine particles passed through the lower side discharge port 2
The coarse particles derived from 0 and flowing on the screens 12, 12 1 and 12 2 are supplied to a plurality of screens 13 and 13 1 having a gentle slope disposed below, and the coarse particles passing through the screens 13 and 13 1 are mixed with the coarse particles. divided, and the flow-through blocking plates 22, 23 and 24 on the screen 12, 13 is provided, also the coarse particles passing through the screen 12 2 lowermost above plurality of steep screen 12, 12 1, 12 2 is lower loose the provision of the blocking plate 25 to prevent the flow into the screens 13 and 13 1 of inclination is effective for coarse particles re classification.
なお、前記網目スクリーンに代えて必要に応じスリッ
ト目のある篩板若しくはバー篩体を用いることもでき
る。In addition, a sieve plate or a bar sieve having slits can be used as necessary in place of the mesh screen.
第5図(A)例では、上方の急傾斜用のスクリーン1
2,121,122,123を4段設け、下方の緩傾斜用のスクリ
ーン13,131を上下に配備した例で粗粒再分級に有効で
粗,中,細粒径の分級が可能である。In the example of FIG. 5 (A), the screen 1
This is an example in which four stages of 2,12 1 , 12 2 , 12 3 are provided, and screens 13, 13 1 for gentle lower slope are arranged up and down. It is possible.
第5図(B)例では、上方に急傾斜スクリーン12,1
21,122を3段設け、下方の緩傾斜スクリーン13,131,1
32を2段又は3段備え急傾斜スクリーン12,121上を流過
する粗粒子を緩傾斜スクリーン13の最上段上に導き、ス
クリーン12,121を通過する中粒子を緩傾斜スクリーン13
1,132上に分配し、粗,中,細粒径の分級を可能にした
ものである。In the example shown in FIG. 5 (B), the screen 12,1 is steeply inclined upward.
2 1 , 12 2 are provided in three stages, and the lower gentle inclined screen 13, 13 1 , 1
The coarse particles flowing over the steeply inclined screens 12, 12 1 provided with two or three stages of 3 2 are guided to the uppermost stage of the slowly inclined screen 13, and the medium particles passing through the screens 12, 12 1 are sent to the moderately inclined screen 13
1, 13 2 and distributed over the coarse, medium, is obtained by allowing the classification of fine particle size.
なお、この実施例では上方の急傾斜分粒用のスクリー
ン12,121,122群上を流過する粒子(網上粒子)を下方
緩傾斜分粒用のスクリーン13,131群上の上下に分けて誘
導されて流過する構成(第5図(A)(B))とした
り、スクリーン12,121,122群上を流過する粒子を全部
スクリーン13上に誘導した構成、或いは急傾斜スクリー
ン12,121,122と緩傾斜スクリーン13,131とをラップさ
せたゾーンを形成し、スクリーン12,121,122を通過し
た粒子(網上粒子)の全部又は一部を緩傾斜スクリーン
13,131上に流過させて分級することもできる。Incidentally, for the steep sizing the upper In this embodiment the screen 12, 12 1, 12 2 flowing through to the particle (mesh on particles) the ultramarine and the lower gently sloping sizing screen 13, 13 on a group of or a structure in which induced divided vertically flow through (FIG. 5 (a) (B)), the screen 12, 12 1, 12 2 ultramarine structure induced on all the screen 13 the particles flowing past the, Alternatively steep screen 12, 12 1, 12 2 and the gently slant screen 13 1 and to form a zone that was wrapped with a screen 12, 12 1, 12 all or two passing particles (mesh on particles) Partly inclined screen
It can also be classified by flowing over 13,13 1 .
第6図(A)例では、上下に重なる急傾斜分のスクリ
ーン12,121,122の開目を通過した細粒子(網下粒子)
は下方に配備した緩傾斜のスクリーン13,131の上面に分
配する可動分配板26と前記スクリーン12,121,122の上
面を流過する粗粒子(網上粒子)を下方の緩傾斜のスク
リーン13,131上に流入阻止する遮閉要素、即ち遮閉板27
をスクリーン13上に間隔をおいて配備し、またスクリー
ン12,13上に流過阻止板22,23,24を設けて、下方の緩傾
斜スクリーン13,131への負荷を軽減させ、細粒子再分級
のために有効な形態としてあり、細,中,粗粒子の三系
統に分級できるようになっているが、前記急傾斜の最下
段スクリーン122とその上方にあるスクリーン121との間
又はスクリーン12,121間に臨んだ位置に前記遮閉板27の
一端を配置したり、緩傾斜のスクリーン13,131間に平行
に配置したりして再分級流路を仕切って粗,中,細粒子
を複数系統に分級することも選んでできる。この場合、
前記遮閉板27はスクリーン13に平行的に配列し、必要に
応じガイドレール28にスライドして着脱可能に配備する
のが汎用性があってよい。Figure 6 (A) in the example, steep portion of the screen 12, 12 1, 12 2 through the open eyes were fine particles that overlap vertically (under nets particles)
The movable distributor plate 26 and the screen 12, 12 1, 12 grit (mesh on particles) flowing past the second upper surface of the lower gently sloping distributing on the upper surface of the screen 13, 13 1 of the gentle slope deployed downward Saegi閉elements influx blocking on the screen 13, 13 1, i.e. shielding closing plate 27
The deployed at intervals on the screen 13, also provided with a flow-through blocking plates 22, 23 and 24 on the screen 12, and reduce the load on the gentle slope screens 13, 13 1 of the lower, fine particles It is an effective form for re-classification, and it can be classified into three systems of fine, medium, and coarse particles. However, between the steepest lowermost screen 12 2 and the screen 12 1 above it or or to place one end of the screen 12, 12 the shield closing plate 27 to the started located between 1, crude partition the gentle the inclination of the screen 13 between 1 and or arranged parallel re classifying channel, Medium and fine particles can be classified into multiple systems. in this case,
The shielding plate 27 may be arranged in parallel with the screen 13, and may be slidably mounted on the guide rail 28 as necessary to be detachably provided.
この場合、緩傾斜スクリーンの分粒要素の上下又は下
に隣接して配備する遮閉要素の遮閉板については、一般
に緩傾斜のスクリーン13の粒子の移動速度が遅いため、
処理物の量が多い場合は、大面積を要するが、第2分粒
プロセスの所要面積に不足が生じる場合があるので、こ
の場合に上下に重なるスクリーン間に遮閉要素の遮閉板
29を配備し、下側に通過した粒子を個別に捕集し、単独
の分級物として排出しうるようにするのがよい。In this case, with respect to the shielding plate of the shielding element disposed adjacently above, below, or below the sizing element of the gently inclined screen, generally, the moving speed of the particles of the gently inclined screen 13 is low,
When the amount of the processed material is large, a large area is required, but the required area of the second sizing process may be insufficient. In this case, the shielding plate of the shielding element is provided between the vertically overlapping screens.
29 should be provided so that the particles passing below can be individually collected and discharged as a single fraction.
この方式によれば、上下に隣接するスクリーン13,131
のそれぞれに上方スクリーン12…を通過した粒子を分配
する構造とすることが容易となる。According to this method, vertically adjacent screens 13, 13 1
Can easily be configured to distribute the particles that have passed through the upper screens 12.
前記遮閉板19は、スクリーン13と131との間に介在さ
せ、下流端部において流過阻止板30とガイド受板31とで
第6図(A)及び第6図(B)に示すように分岐流路3
2,33を形成し、粗,中,細粒子の分級を適確にしてあ
り、ガイド板34を必要に応じ配備して細粒子及び中粒子
の分配再分級の精度を向上させるようにしてもよい。The shield closing plate 19, is interposed between the screen 13 and 13 1 are shown in Figure 6 in a flow-blocking plate 30 and the guide receiving plate 31 at the downstream end (A) and FIG. 6 (B) So the branch channel 3
2, 33 are formed, and coarse, medium, and fine particles are accurately classified, and a guide plate 34 may be provided as needed to improve the precision of distribution and re-classification of fine particles and medium particles. Good.
この場合、遮閉板27を取り除いた状態で使用すると、
細粒再分級タイプから粗粒再分級タイプに切換えて用い
ることができる。In this case, when used with the shielding plate 27 removed,
It can be used by switching from the fine-grain reclassification type to the coarse-grain reclassification type.
また第5図(A)(B)例、又は第6図(A)例にお
いて急傾斜スクリーン群及び緩傾斜スクリーン群の分粒
要素の傾斜角度や振動角度は第1〜4図例と同様に設定
するのがよい。In addition, in the example shown in FIGS. 5A and 5B or the example shown in FIG. 6A, the inclination angles and vibration angles of the sizing elements of the steeply inclined screen group and the gentlely inclined screen group are the same as in the examples of FIGS. It is good to set.
本発明は、開目を持つスクリーンを傾斜して垂直方向
に離隔され、上下多段に重ねられた複数個の分粒要素で
処理物を分粒し、これら分粒要素は、どの部分において
も隣接する分粒要素の間の間隔が該部分に達する粒子よ
りも大きいように離隔されている型式の分粒装置におい
て、上方の少なくとも一つの分粒要素または複数の分粒
要素が下方の少なくとも一つの分粒要素または複数の分
粒要素よりも急傾斜であることにより、粒状物の分級を
2つの分級プロセスに分けたことによって、第1分粒プ
ロセスでは、急傾斜を利用することによって、粒子の移
動速度を各分粒要素への粒子のサイズ毎の分散を急速に
行い、大量の処理物を網上と網下に分けることができ、
さらに第1分粒プロセスによって量の減った処理物を第
2分粒プロセスの緩傾斜分粒要素によって網上産物中に
細粒子の混入および網下産物中に粗粒子の混入が極めて
少ない生産物とすることができ、分級精度を大幅に向上
することが可能となり、しかも分粒装置として2台分の
機能を1台で済ませることができて、コンパクトな小型
機械とすることで動力削減,設置面積の低減および搬送
装置が不要になるなどの実用上の効果がある。According to the present invention, the processed material is sieved by a plurality of sizing elements that are vertically separated from each other by inclining a screen having an opening and that are vertically stacked, and the sizing elements are adjacent to each other in any part. In a type of sizing device in which the spacing between the sizing elements is greater than the particles reaching the part, the at least one upper sizing element or the plurality of sizing elements being at least one lower sizing element. By dividing the classification of the particulate matter into two classification processes by being steeper than the sizing element or the plurality of sizing elements, the first sizing process utilizes the steep slope to make the particles smaller. The moving speed is rapidly dispersed for each particle size to each sizing element, and a large amount of processed material can be separated on the net and under the net,
Further, the processed material reduced in amount by the first sizing process is converted into a product in which fine particles are mixed in the on-net product and coarse particles are hardly mixed in the under-net product by the gently sizing element of the second sizing process. And the classification accuracy can be greatly improved, and the functions of two units can be completed by one unit as a particle sizer. There are practical effects such as a reduction in area and the need for a transport device.
第1図は本発明の実施例を示す側面図、第2図はその正
面図、第3図は縦断面図、第4図はスクリーン緊張機構
の詳細側面図、第5図(A),(B)及び第6図(A)
は他の例の縦断面図、第6図(B)は第6図(A)の×
矢印の一部切断正面図、第6図(C)はその全体斜視
図、第7図(A),(B),(C)は粗粒子の粒度分布
の特性図、第8図(A),(B),(C)は細粒子の粒
度分布の特性図、第9図乃至第11図は従来例の網目ふる
い板のふるい分け状態を示す説明図である。 10…投入口、11…分散板、12,121,122,13,131…スクリ
ーン、14…緩衝部、15…フレーム、16…発振機、17…支
杆、20,21…排出口、22,23,24,25…流過阻止板、26…分
配板、27,29…遮閉板。1 is a side view showing an embodiment of the present invention, FIG. 2 is a front view thereof, FIG. 3 is a longitudinal sectional view, FIG. 4 is a detailed side view of a screen tensioning mechanism, and FIGS. B) and FIG. 6 (A)
Is a longitudinal sectional view of another example, and FIG. 6 (B) is a cross section of FIG. 6 (A).
6 (C) is an overall perspective view of the arrow, FIG. 7 (A), (B), (C) are characteristic diagrams of the particle size distribution of coarse particles, and FIG. 8 (A). , (B) and (C) are characteristic diagrams of the particle size distribution of fine particles, and FIGS. 9 to 11 are explanatory diagrams showing the sieving state of a conventional mesh sieve plate. 10 ... inlet, 11 ... distribution plate, 12, 12 1, 12 2, 13 1 ... screen, 14 ... buffer portion, 15 ... frame, 16 ... oscillator 17 ...支杆, 20, 21 ... outlet , 22, 23, 24, 25 ... flow prevention plate, 26 ... distribution plate, 27, 29 ... shielding plate.
Claims (9)
に離隔され、上下多段に重ねられた複数個の分粒要素で
処理物を分粒し、これら分粒要素は、どの部分において
も隣接する分粒要素の間の間隔が該部分に達する粒子よ
りも大きいように離隔されている型式の分粒装置におい
て、上方の少なくとも一つの分粒要素または複数の分粒
要素を下方の少なくとも一つの分粒要素または複数の分
粒要素よりも急傾斜であることを特徴とする分粒装置。1. A screen having an opening is inclined and vertically separated from each other, and the processed material is sized by a plurality of sizing elements stacked in upper and lower tiers. In a type of sizing device in which the spacing between adjacent sizing elements is greater than the particles reaching the portion, the upper at least one sizing element or the plurality of sizing elements is at least one lower. A sizing device characterized in that it is steeper than one sizing element or a plurality of sizing elements.
クリーン群のうち少なくとも最下段の傾斜角度が水平面
に対し25°以上であり、下方の分粒要素のスクリーン群
の傾斜角度が15°以下であることを特徴とする請求項1
記載の分粒装置。2. The screen according to claim 1, wherein the angle of inclination of at least the lowermost stage of the screen group of the upper element is not less than 25 ° with respect to the horizontal plane, and the angle of inclination of the screen group of the lower element is lower. The angle is not more than 15 °.
A sizing apparatus as described.
動で、該振動は分粒要素の面に対して130°〜40°の角
度の振動を与えることを特徴とする請求項1又は2記載
の分粒装置。3. The method according to claim 1, wherein the form of the vibration applied to the sizing element is linear vibration, and the vibration oscillates at an angle of 130 ° to 40 ° with respect to the plane of the sizing element. 2. The particle sizer according to 2.
粒子の流過阻止板を懸吊配備した請求項1,2又は3記載
の分粒装置。4. The sizing apparatus according to claim 1, wherein a spill-preventing plate for particles flowing over the screen group of the sizing element is suspended.
流過した粒子が、下方の緩傾斜分粒要素のスクリーン群
上の少なくとも一つに供給されて流過する構成又は緩傾
斜分粒要素の最上段のスクリーン上にすべて誘導する構
成とした請求項2,3又は4記載の分粒装置。5. A configuration in which particles flowing over the screen group of the upper steeply sizing element are supplied to at least one of the screen groups of the lower gentle sizing element and flow therethrough. 5. The sizing apparatus according to claim 2, wherein all of the sizing elements are guided on the uppermost screen.
て多段に配備した分粒装置において、上方複数の急傾斜
の分粒要素上を流過する粒子が下方複数の分粒要素上へ
の流過を遮断する遮閉要素を下方に配備した緩傾斜の複
数の分粒要素上に設け、下方の緩傾斜の分粒要素には、
前記急傾斜の分粒要素を通過した粒子が供給されて細粒
再分級して排出部へ導く構成としたことを特徴とする分
粒装置。6. In a sizing apparatus in which sizing elements of a screen having openings are arranged in multiple stages inclining, particles flowing over a plurality of upper sloping sizing elements are formed on a plurality of lower sizing elements. Provided on a plurality of gently-sloping sizing elements having a blocking element for blocking the flow to the lower part, and a lower gently-sloping sizing element,
A particle sizing apparatus, wherein particles passing through the steep sizing element are supplied, re-classified into fine particles, and guided to a discharge unit.
流過して排出される粒子を下方に緩傾斜分粒要素のスク
リーン群上に導入して粗,中,細粒径の三系統に分級す
る請求項6記載の分粒装置。7. Particles which are discharged on the screen group of the upper steeply sizing element are discharged downwardly onto the screen group of the gently sizing element, and the particles having coarse, medium and fine particle diameters are introduced. 7. The sizing apparatus according to claim 6, wherein the sizing is performed in a system.
配要素で下方の緩傾斜分粒要素のスクリーン群にそれぞ
れ分配流下させると共に、緩傾斜分粒要素で細粒再分級
又は粗粒再分級するための遮閉要素を下方の緩傾斜分粒
要素に沿って介在配備したことを特徴とする分粒装置。8. Distributing the downflowing particles from the upper steeply sizing element to the screen group of the lower gently sizing element by the distribution element, and re-classifying or coarsening the fine particles by the gently sizing element. A sizing apparatus characterized in that a shielding element for re-classification is interposed and provided along a lower gently inclined sizing element.
て多段に配備した分粒装置において、上下に重なる分粒
要素の開目を通過した粒子群と、分粒要素の上面から排
出した粒子群とを両方又はいずれか一方を下方に配備し
た複数の分粒要素の上面に分配供給する分配要素を有
し、さらに下方に配備した複数の緩傾斜分粒要素の上下
又は下に隣接して粒子の通過を遮断する遮閉要素を備
え、粗,中,細粒径の粒子に分級して、排出部に導くよ
うに構成した請求項8記載の分粒装置。9. In a sizing device in which sizing elements of a screen having openings are arranged in a multi-stage by being inclined, particles that have passed through the openings of the vertically overlapping sizing elements and are discharged from the upper surface of the sizing elements. And / or a dispersing element for distributing and / or distributing the particle group to the upper surface of a plurality of sizing elements provided below and / or adjacent to a plurality of gently inclined sizing elements provided further below. 9. The particle sizer according to claim 8, further comprising a blocking element for blocking the passage of the particles, and classifying the particles into coarse, medium, and fine particles and guiding the particles to a discharge portion.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP30680388A JP2698878B2 (en) | 1988-12-06 | 1988-12-06 | Particle sizer |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP30680388A JP2698878B2 (en) | 1988-12-06 | 1988-12-06 | Particle sizer |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH02152579A JPH02152579A (en) | 1990-06-12 |
| JP2698878B2 true JP2698878B2 (en) | 1998-01-19 |
Family
ID=17961447
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP30680388A Expired - Fee Related JP2698878B2 (en) | 1988-12-06 | 1988-12-06 | Particle sizer |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP2698878B2 (en) |
Families Citing this family (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| KR100467422B1 (en) * | 2001-08-31 | 2005-01-24 | 주식회사 신텍 | Double screen for waste matter |
| DE102016105094A1 (en) * | 2016-03-18 | 2017-09-21 | Cl Schutzrechtsverwaltungs Gmbh | Screening device for the generative production of components |
-
1988
- 1988-12-06 JP JP30680388A patent/JP2698878B2/en not_active Expired - Fee Related
Also Published As
| Publication number | Publication date |
|---|---|
| JPH02152579A (en) | 1990-06-12 |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| US4576713A (en) | Feed stream splitter for multiple deck screening machine | |
| US3441131A (en) | Particle separation apparatus and method | |
| EP0024784B1 (en) | A multiple deck screening machine including a feed stream splitter | |
| AU612759B2 (en) | Process and device for separating mixed grain | |
| US20190030570A1 (en) | Vibrating screen deck deflector systems and methods | |
| WO1998018571A1 (en) | A separator plate for the screening of particulate material | |
| US4319992A (en) | Material separating machine | |
| DE102004054275A1 (en) | Device for separating granular material | |
| US2853191A (en) | Method and apparatus for classifying fine grained matter according to size | |
| JP2698878B2 (en) | Particle sizer | |
| EP0332031B1 (en) | Zigzag sifter | |
| US4276158A (en) | Screen for a screening machine | |
| DE3626053C2 (en) | ||
| US4126543A (en) | Method and apparatus for screening particulate materials | |
| US6631808B2 (en) | Air classifier system for the separation of particles | |
| US3240336A (en) | Process and apparatus for hydraulically sorting a mixture containing fine particulate material | |
| EP0427679B1 (en) | Device for fractionating granular goods | |
| RU2388554C1 (en) | Loose materials separator | |
| JPS5928708Y2 (en) | vibrating sieve | |
| RU2073410C1 (en) | Grain-and-seed cleaner | |
| DE2847109A1 (en) | Wood chip graded layering device - having sloping ramps directing chips into opposing horizontal grading airstreams | |
| DE2829593C2 (en) | Process and device for the dry extraction of high quality pure pumice from raw pumice | |
| JPH0743060Y2 (en) | Grain distributor | |
| RU2122473C1 (en) | Classifier of loose materials | |
| BE1012814A3 (en) | Screen. |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| R250 | Receipt of annual fees |
Free format text: JAPANESE INTERMEDIATE CODE: R250 |
|
| S111 | Request for change of ownership or part of ownership |
Free format text: JAPANESE INTERMEDIATE CODE: R313113 |
|
| R350 | Written notification of registration of transfer |
Free format text: JAPANESE INTERMEDIATE CODE: R350 |
|
| R250 | Receipt of annual fees |
Free format text: JAPANESE INTERMEDIATE CODE: R250 |
|
| R250 | Receipt of annual fees |
Free format text: JAPANESE INTERMEDIATE CODE: R250 |
|
| R250 | Receipt of annual fees |
Free format text: JAPANESE INTERMEDIATE CODE: R250 |
|
| LAPS | Cancellation because of no payment of annual fees |