JPS5936279Y2 - multi cyclone - Google Patents
multi cycloneInfo
- Publication number
- JPS5936279Y2 JPS5936279Y2 JP16020681U JP16020681U JPS5936279Y2 JP S5936279 Y2 JPS5936279 Y2 JP S5936279Y2 JP 16020681 U JP16020681 U JP 16020681U JP 16020681 U JP16020681 U JP 16020681U JP S5936279 Y2 JPS5936279 Y2 JP S5936279Y2
- Authority
- JP
- Japan
- Prior art keywords
- cyclone
- pipe
- outlet
- tube
- cyclones
- 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
Links
Landscapes
- Cyclones (AREA)
Description
【考案の詳細な説明】
本考案はマルチサイクロンに関するものであるよく知ら
れているように、「サイクロン」とは遠心力を利用した
気固分離による集塵装置であるが、たとえば高炉などか
ら発生する含塵ガスを除塵処理するさいには、大風量と
なるため単一サイクロンでは処理できず、一般に複数の
サイクロンを直列、並列または直並列に配置してなる「
マルチサイクロン」として使用されるものである。[Detailed explanation of the invention] This invention relates to a multi-cyclone.As is well known, a "cyclone" is a dust collection device that uses centrifugal force to separate gas and solids. When removing dust from dust-containing gases, a single cyclone cannot handle the process due to the large amount of airflow required, so multiple cyclones are generally arranged in series, parallel, or series-parallel.
It is used as a multi-cyclone.
しかしながら、従来のマルチサイクロンには流入風量を
調節する手段がついていなかったため、とくに高炉のよ
うな短期および長期にわたって風量変動の激しい系を対
象にするには、適さなかった。However, conventional multi-cyclones do not have a means to adjust the inflow air volume, so they are not suitable for systems such as blast furnaces, where air volume fluctuates rapidly over short and long periods of time.
すなわち、高炉系においては、数分〜十数分間隔で高炉
に原料を放りこむために挿入口を開閉するたびに、“′
ダンプ′と呼ばれる風量の急激な低下が必ずおこり、ま
た市況の変動により数カ月〜数年間にわたって操業度を
変えるために風量も変化するので、流量調節手段のつい
ていなかった従来のマルチサイクロンでは、適正な風量
で安定した運転をすることができず、除塵性能に欠けて
いた。In other words, in a blast furnace system, "'
A sudden drop in air volume called dump' always occurs, and the air volume also changes as the operating rate changes over several months to several years due to fluctuations in market conditions. It was not possible to operate stably at a sufficient air volume, and the dust removal performance was lacking.
とくに起動直後には、過渡的に高濃度の含塵ガスが除塵
されずに排出されるという欠点があった。Particularly immediately after startup, there is a drawback that transiently high concentration dust-containing gas is discharged without being removed.
本発明の目的は、このような従来のマルチサイクロンの
欠点を克服し、高炉系のような風量変動の激しい系にお
いても、つねに適正風量で安定して運転することを可能
にし、とくに起動直後の高濃度含塵ガスをも除塵するこ
とのできるマルチサイクロンを提供することにある。The purpose of the present invention is to overcome these drawbacks of conventional multi-cyclones, and to enable stable operation at an appropriate air volume even in systems such as blast furnace systems where the air volume fluctuates rapidly, especially immediately after startup. To provide a multi-cyclone capable of removing dust even from highly concentrated dust-containing gas.
この目的を遠戚するため、本考案は、複数のサイクロン
を直列、並列または直並列に配置してなるマルチサイク
ロンにおいて、個々のサイクロンあるいは複数の群にわ
けた個々のサイクロン群の各人口・出口にそれぞれ開閉
弁を設けるとともに、前記出口を内管・外管の二重管で
構成し、且つ前記内管の外周部に蓋状の突起を取付ける
と共に、外管の上端を逆円錐状と戊し、前記内管の上下
方向の移動により前記蓋状の突起が内管と外管との間の
隙間を開閉するようになしたことを特徴とするものであ
る。In order to achieve this objective, the present invention aims to solve the problem of each population/outlet of each individual cyclone or individual cyclone group divided into multiple groups in a multi-cyclone formed by arranging multiple cyclones in series, parallel, or series-parallel. An opening/closing valve is provided for each, and the outlet is constructed of a double pipe consisting of an inner pipe and an outer pipe, and a lid-like protrusion is attached to the outer periphery of the inner pipe, and the upper end of the outer pipe is formed into an inverted conical shape. The present invention is characterized in that the lid-like protrusion opens and closes a gap between the inner tube and the outer tube by vertical movement of the inner tube.
以下、図によって本考案の実施例を説明する。Hereinafter, embodiments of the present invention will be described with reference to the drawings.
第1図は並列配置のマルチサイクロンの一部断面側面図
、第2図は同マルチサイクロンの一部断面平面図、第3
図は直並列配置のマルチサイクロンの側面図、第4図は
同マルチサイクロンの平面図、第5図は起動時の出口管
の縦断面図、および第6図は定常運転時の出口管の縦断
面図である。Fig. 1 is a partially sectional side view of multi-cyclones arranged in parallel, Fig. 2 is a partially sectional plan view of the same multi-cyclones, and Fig. 3 is a partially sectional side view of the multi-cyclones arranged in parallel.
The figure shows a side view of a multi-cyclone arranged in series and parallel, Fig. 4 is a plan view of the same multi-cyclone, Fig. 5 is a vertical cross-sectional view of the outlet pipe during startup, and Fig. 6 is a longitudinal cross-section of the outlet pipe during steady operation. It is a front view.
第1図、第2図は、一つのベッセル1の中に同軸内環状
に並列配置された24箇のサイクロン2からなるマルチ
サイクロンを示している。FIGS. 1 and 2 show a multi-cyclone consisting of 24 cyclones 2 arranged in parallel in a coaxial inner annular shape in one vessel 1.
3は集合人口管、4は各サイクロン2の入口管、5は各
サイクロン2の円筒部、6は各サイクロン2の出口管、
7は集合出口管、8は各サイクロン2の排塵管、8aは
逆止弁、および9は集合排塵円錐部である。3 is a collection pipe, 4 is an inlet pipe of each cyclone 2, 5 is a cylindrical part of each cyclone 2, 6 is an outlet pipe of each cyclone 2,
7 is a collecting outlet pipe, 8 is a dust exhaust pipe of each cyclone 2, 8a is a check valve, and 9 is a collecting dust exhaust cone.
集合人口管3を通って送られてきた含塵ガスは、各サイ
クロン2の人口管4に実質的に均一に分流されて入り、
各円筒部5で旋回されながら遠心力の作用によって気固
分離され、清浄にされたガスは、各サイクロンの中央上
部にある出口管6を経て集合出口管7へ送られる。The dust-containing gas sent through the collecting manifold pipe 3 enters the manifold pipe 4 of each cyclone 2 in a substantially uniform manner,
While being rotated in each cylindrical part 5, the gas is separated into gas and solid by the action of centrifugal force, and the purified gas is sent to a collection outlet pipe 7 through an outlet pipe 6 located at the upper center of each cyclone.
一方、各円筒部5の壁に衝突して落下するダストは、各
排塵管8の逆止弁8aを押しあげて集合排塵内錐部9に
集められ、その下の集塵室(図示せず)に送られる。On the other hand, the dust that collides with the wall of each cylindrical part 5 and falls pushes up the check valve 8a of each dust exhaust pipe 8 and is collected in the inner conical part 9 of collecting dust, and is collected in the dust collection chamber below (see Fig. (not shown).
このさい、排塵作用をよくするために、上記円錐部9を
振動させてもよい。At this time, the conical portion 9 may be vibrated to improve the dust removal effect.
各入口管4および出口管6には、それぞれ開閉弁(図示
せず)が設けられている。Each inlet pipe 4 and outlet pipe 6 is provided with an on-off valve (not shown), respectively.
なお・、出口管6および出口開閉弁については後から詳
細に述べる(第5図、第6図参照)。The outlet pipe 6 and the outlet opening/closing valve will be described in detail later (see FIGS. 5 and 6).
第3図、第4図は、集合人口管3′および集合出口管7
′の長平方向に沿って、n箇のサイクロン21を直並列
(サイクロン2aと2bとは並列、サイクロン2aと2
cとは直列、・・・・・・)に配置してなるマルチサイ
クロンを示している。Figures 3 and 4 show the collecting pipe 3' and the collecting outlet pipe 7.
' Along the long plane direction, n cyclones 21 are connected in series and parallel (cyclones 2a and 2b are parallel, cyclones 2a and
c indicates multi-cyclones arranged in series (...).
すなわち、集合人口管3′の長手方向両側に、各サイク
ロン21の接線方向に入射するように各人口管4が分岐
されている。That is, each artificial pipe 4 is branched on both sides in the longitudinal direction of the collective artificial pipe 3' so that the cyclones 21 are incident in the tangential direction.
同様に各サイクロン2i(7)出口管6が出口連結管6
′ を介して集合出口管7′に接続されている。Similarly, each cyclone 2i (7) outlet pipe 6 is connected to the outlet connecting pipe 6.
' is connected to the collecting outlet pipe 7'.
各人口管4および出口管6には、それぞれ開閉弁(図示
せず)が設けられている。Each artificial tube 4 and outlet tube 6 is provided with an on-off valve (not shown), respectively.
また、各排塵管8はそれぞれ逆止弁8a (図示せず
)を介して、集合集塵室10に接続されている。Further, each dust exhaust pipe 8 is connected to a collection dust collection chamber 10 via a check valve 8a (not shown).
マルチサイクロンの除塵原理については、第1図、第2
図の場合と同じである。For the dust removal principle of multi-cyclone, see Figures 1 and 2.
Same as in the figure.
このような横取からなる本考案のマルチサイクロンにお
いて、最も重要なことは、個々のサイクロンあるいは複
数の群にわけた個々のサイクロン群の各人口・出口にそ
れぞれ開閉弁を設けるとともに、その出口を内管・外管
の二重管で横取し、その出口内管を出口外管に対し上下
方向に移動自在に設けたことである。The most important thing in the multi-cyclone of the present invention, which consists of such interceptions, is that each individual cyclone or each cyclone group divided into multiple groups is provided with an on-off valve at each outlet. This is achieved by using a double tube consisting of an inner tube and an outer tube, and the outlet inner tube is provided so as to be movable in the vertical direction relative to the outlet outer tube.
第5図、第6図を用いで、出口管6および出口開閉弁1
1について説明する。Using Figures 5 and 6, the outlet pipe 6 and the outlet opening/closing valve 1 are
1 will be explained.
出口管6は内管6Aお・よび外管6Bの(同軸)二重管
から横取されている。The outlet pipe 6 is taken from a (coaxial) double pipe of an inner pipe 6A and an outer pipe 6B.
また、内管6Aの外周の適当位置に、外管6Bの上端(
逆円錐状に削設されている)と嵌合するような形状の突
起6Cが設けられている。In addition, the upper end of the outer tube 6B (
A protrusion 6C is provided which has a shape that fits into the inverted conical shape (cut into an inverted conical shape).
さて、起動時には第5図のように、内管6Aの突起6C
と外管6B上端とを嵌合させ、出口管6を実質的に内管
6Aだけの容量に絞ってしまう。Now, when starting up, as shown in Figure 5, the protrusion 6C of the inner tube 6A
and the upper end of the outer tube 6B, and the outlet tube 6 is substantially reduced to the capacity of the inner tube 6A.
すなわち、出口管6の周辺部(外管6Bに相当)を内管
6Aの突起6Cでふさいでしまい、中心部だけ(内管6
Aに相当)ガスを排出可能にする。That is, the peripheral part of the outlet pipe 6 (corresponding to the outer pipe 6B) is blocked by the protrusion 6C of the inner pipe 6A, and only the central part (corresponding to the inner pipe 6B) is blocked.
Corresponding to A) Allow gas to be discharged.
その結果、起動時とくに休止中のサイクロンの再起動時
に過渡的に生ずるガス中の塵の高濃度化に対しても、周
辺部に滞溜している塵は排出させずに、中心部の清浄ガ
スだけを排出させるので、除塵性能を上げることができ
る。As a result, even when there is a transient increase in the concentration of dust in the gas when the cyclone is started, especially when the cyclone is restarted after a pause, the dust accumulated in the periphery is not discharged and the central part is cleaned. Since only gas is exhausted, dust removal performance can be improved.
定常運転時には、通常どお・り出口管6の容量をフルに
っかつため、第6のように内管6Aを上方に移動させて
、突起6Cを外管6Bの上端から十分離すようにする。During normal operation, the inner tube 6A is moved upward as shown in No. 6 so that the protrusion 6C is sufficiently separated from the upper end of the outer tube 6B in order to reach the full capacity of the outlet tube 6 as usual.
内管6Aを上下動させる手段としては、ピニオン・ラッ
ク等公知の手段を用いることができる。As a means for moving the inner tube 6A up and down, known means such as a pinion rack can be used.
上記のように、本考案は、マルチサイクロンにおける個
々のサイクロンあるいは複数の群にわけた個々のサイク
ロン群の各入口・出口にそれぞれ開閉弁を設けるととも
に、前記出口を内管・外管の二重管で横取し、且つ前記
内管の外周部に蓋状の突起を取付けると共に、外管の上
端を逆円錐状と戊し、前記内管の上下方向の移動により
前記蓋状の突起が内管と外管との間の隙間を開閉するよ
うになしたので、次のような作用効果を奏することがで
きる。As described above, the present invention provides an on-off valve at each inlet and outlet of each cyclone in a multi-cyclone or each group of cyclones divided into multiple groups, and also connects the outlet to a dual pipe of an inner pipe and an outer pipe. At the same time, a lid-like protrusion is attached to the outer circumference of the inner pipe, and the upper end of the outer pipe is formed into an inverted conical shape, and as the inner pipe moves in the vertical direction, the lid-like protrusion is inserted into the inner pipe. Since the gap between the tube and the outer tube is opened and closed, the following effects can be achieved.
■ マルチサイクロンを横取する個々のサイクロン(あ
るいはサイクロン群)の各人口にそれぞれ開閉弁を設け
てなるため、風量変動の激しい系、とくに高炉系におい
て、風量低下に応じた数だけのサイクロン(群)の入口
・出口弁を閉じて休止させ、残りのサイクロン(群)を
適正風量で運転することができる。■ Each individual cyclone (or cyclone group) that intercepts the multi-cyclone is equipped with an on-off valve, so in systems with large air volume fluctuations, especially blast furnace systems, the number of cyclones (or cyclone groups) that take over the multi-cyclone is reduced according to the decrease in air volume. ), the inlet and outlet valves of the cyclone can be closed and the remaining cyclones (group) can be operated at the appropriate air volume.
■ とくに起動時の高濃度含塵ガスに対しても、出口二
重管の外管をふさぐことができるため、除塵性能を向上
させ得る。■ The outer pipe of the outlet double pipe can be blocked, especially against highly concentrated dust-containing gas at startup, so dust removal performance can be improved.
第1図は前例配置のマルチサイクロンの一部断面側面図
、第2図は同マルチサイクロンの一部断面平面図、第3
図は直並列配置のマルチサイクロンの側面図、第4図は
同マルチサイクロンの平面図、第5図は起動時の出口管
の縦断面図、および第6図は定常運転時の出口管の#断
面図である。
2・・・・・・サイクロン、3,3′・・・・・・集合
人口管、4・・・・・・入口管、6・・・・・・出口管
、6A・・・・・・(出口)内管、6B・・・・・・(
出口)外管、6C・・・・・・(出口)突起、7.7′
・・・・・・集合出口管。Figure 1 is a partial cross-sectional side view of the multi-cyclone in the previous arrangement, Figure 2 is a partial cross-sectional plan view of the same multi-cyclone, and Figure 3 is a partial cross-sectional side view of the multi-cyclone in the previous arrangement.
The figure shows a side view of a multi-cyclone arranged in series and parallel, Fig. 4 is a plan view of the same multi-cyclone, Fig. 5 is a vertical cross-sectional view of the outlet pipe at startup, and Fig. 6 is the ## of the outlet pipe during steady operation. FIG. 2... Cyclone, 3, 3'... Collection pipe, 4... Inlet pipe, 6... Outlet pipe, 6A... (Outlet) Inner pipe, 6B... (
Outlet) Outer tube, 6C... (Outlet) projection, 7.7'
...Collection outlet pipe.
Claims (1)
なるマルチサイクロンにおいて、個々のサイクロンある
いは複数の群にわけた個々のサイクロン群の各人口・出
口にそれぞれ開閉弁を設けるとともに、前記出口を内管
・外管の二重管で構成し、且つ前記内管の外周部に蓋状
の突起を取付けると共に、外管の上端を逆円錐状と威し
、前記内管の上下方向の移動により前記蓋状の突起が内
管と外管との間の隙間を開閉するようになしたことを特
徴とするマルチサイクロン。In a multi-cyclone formed by arranging a plurality of cyclones in series, parallel, or series-parallel, each cyclone or each cyclone group divided into a plurality of groups is provided with an on-off valve at each outlet. It is composed of a double tube consisting of a tube and an outer tube, and a lid-like protrusion is attached to the outer periphery of the inner tube, and the upper end of the outer tube is shaped like an inverted cone. A multi-cyclone characterized by a lid-like protrusion that opens and closes a gap between an inner tube and an outer tube.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP16020681U JPS5936279Y2 (en) | 1981-10-29 | 1981-10-29 | multi cyclone |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP16020681U JPS5936279Y2 (en) | 1981-10-29 | 1981-10-29 | multi cyclone |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS5867552U JPS5867552U (en) | 1983-05-09 |
| JPS5936279Y2 true JPS5936279Y2 (en) | 1984-10-05 |
Family
ID=29952628
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP16020681U Expired JPS5936279Y2 (en) | 1981-10-29 | 1981-10-29 | multi cyclone |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS5936279Y2 (en) |
Families Citing this family (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS58195658U (en) * | 1982-06-23 | 1983-12-26 | 日清製粉株式会社 | cyclone assembly |
| KR20080013175A (en) * | 2006-08-07 | 2008-02-13 | 삼성전자주식회사 | Air purifier and controlling method therefor |
-
1981
- 1981-10-29 JP JP16020681U patent/JPS5936279Y2/en not_active Expired
Also Published As
| Publication number | Publication date |
|---|---|
| JPS5867552U (en) | 1983-05-09 |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| US2553175A (en) | Apparatus for collecting ash and dust | |
| US7955405B2 (en) | Cyclonic separation apparatus | |
| US4198290A (en) | Dust separating equipment | |
| CN201036540Y (en) | Vacuum cleaner two-section three-time cyclone separating dust cup | |
| JP2005516750A (en) | Cyclone separator | |
| WO2007022664A1 (en) | Exhaust dust device having a cleaner placed outside | |
| CN100486509C (en) | Cyclone type secondary separation dust cup of vacuum cleaner | |
| JPS5936279Y2 (en) | multi cyclone | |
| JPH0571303B2 (en) | ||
| CN107854048B (en) | Cyclone separation device and dust collector with same | |
| GB2367019A (en) | Cyclone separator | |
| CN100367900C (en) | Dust collection unit of two segmentation type dust cleaner | |
| JPS6124448B2 (en) | ||
| CN110116056B (en) | Cyclone dust collector | |
| CN201015574Y (en) | Windspout type secondary separation dust cup of the dust collector | |
| US5009684A (en) | Multiple cyclone separator | |
| CN101934185A (en) | Built-in cyclone bag-type dust collector | |
| JPS61153167A (en) | Dust collector | |
| JP4364321B2 (en) | Two-stage cyclone system | |
| CN1973748B (en) | Cyclonic separator for vacuum cleaner | |
| JPH0380955A (en) | Gas circulation type cyclone separator | |
| JPS6341077Y2 (en) | ||
| CN114405694B (en) | Cyclone separation assembly and separator with same | |
| US4380105A (en) | Method for shaping, forming and assembling a highly efficient cyclone separator | |
| SU1042810A1 (en) | Centrifugal dust trap |