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JP2698464B2 - Pulverized coal burner - Google Patents

Pulverized coal burner

Info

Publication number
JP2698464B2
JP2698464B2 JP3487590A JP3487590A JP2698464B2 JP 2698464 B2 JP2698464 B2 JP 2698464B2 JP 3487590 A JP3487590 A JP 3487590A JP 3487590 A JP3487590 A JP 3487590A JP 2698464 B2 JP2698464 B2 JP 2698464B2
Authority
JP
Japan
Prior art keywords
pulverized coal
nozzle
coal nozzle
adjusting ring
primary air
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
Application number
JP3487590A
Other languages
Japanese (ja)
Other versions
JPH03241208A (en
Inventor
一男 小谷田
裕壮 沖
哲夫 小野
隆 田中
尚志 氣駕
啓二 牧野
融 楜沢
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Central Research Institute of Electric Power Industry
Original Assignee
Central Research Institute of Electric Power Industry
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Central Research Institute of Electric Power Industry filed Critical Central Research Institute of Electric Power Industry
Priority to JP3487590A priority Critical patent/JP2698464B2/en
Publication of JPH03241208A publication Critical patent/JPH03241208A/en
Application granted granted Critical
Publication of JP2698464B2 publication Critical patent/JP2698464B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Description

【発明の詳細な説明】 [産業上の利用分野] 本発明は、微粉炭焚ボイラの火炉に設定されて用いら
れる微粉炭バーナに関するもので、特にミルの負荷低下
時に安定燃焼を行い得るようにした微粉炭バーナに関す
るものである。
Description: TECHNICAL FIELD The present invention relates to a pulverized coal burner used in a furnace of a pulverized coal-fired boiler, and more particularly to a stable pulverized coal burner capable of performing stable combustion when the load of a mill is reduced. It relates to burned pulverized coal burners.

[従来の技術] ミルで粉砕された微粉炭は一次空気により搬送されて
微粉炭バーナで燃焼されるが、ミルが低負荷となり、ミ
ルから搬送される微粉炭量が減少した場合、一次空気は
微粉炭に対する搬送力を確保するために流量を一定値以
下に減少することができないことから、微粉炭バーナに
供給される微粉炭の一次空気中の濃度が低下してしま
い、微粉炭バーナは安定燃焼が得られなくなってしま
う。
[Prior art] Pulverized coal pulverized by a mill is conveyed by primary air and burned by a pulverized coal burner. However, when the load of the mill decreases and the amount of pulverized coal conveyed from the mill decreases, the primary air becomes Since the flow rate cannot be reduced below a certain value to secure the pulverized coal transfer power, the concentration of pulverized coal supplied to the pulverized coal burner in the primary air decreases, and the pulverized coal burner is stable. Combustion cannot be obtained.

そのため、従来はミルの低負荷時には、ミルから一次
空気によって搬送される低濃度の微粉炭を外部のサイク
ロンに導いて、サイクロンで遠心力により微粉炭を高濃
度化してから微粉炭バーナに供給するようにして、微粉
炭バーナの安定燃焼を得ていた。
For this reason, conventionally, when the load of the mill is low, the low-concentration pulverized coal conveyed by the primary air from the mill is guided to an external cyclone, and the pulverized coal is highly concentrated by centrifugal force in the cyclone before being supplied to the pulverized coal burner. Thus, stable combustion of the pulverized coal burner was obtained.

[発明が解決しようとする課題] しかしながら、上記従来の微粉炭バーナでは、ミルの
低負荷時に微粉炭の濃度を上げるためにサイクロンを用
いていたので、装置の構成が複雑になるという問題や、
メンテナンスが大変になるという問題があった。
[Problems to be Solved by the Invention] However, in the above-mentioned conventional pulverized coal burner, a cyclone is used to increase the concentration of pulverized coal when the load of the mill is low, so that the configuration of the apparatus becomes complicated,
There was a problem that maintenance became difficult.

本発明は上述の実情に鑑み、ミルの低負荷時でもサイ
クロンを用いずに微粉炭の濃度を高めて安定燃焼を得る
ことのできる微粉炭バーナを提供することを目的とする
ものである。
The present invention has been made in view of the above circumstances, and has as its object to provide a pulverized coal burner capable of increasing the concentration of pulverized coal without using a cyclone and obtaining stable combustion even when the load of the mill is low.

[課題を解決するための手段] 本発明は略円筒状の三次空気ノズルと、該三次空気ノ
ズルの外周に同心状に配設された微粉炭ノズルと、該微
粉炭ノズルの後端に接線方向に向けて形成された微粉炭
供給口と、前記微粉炭ノズル内面に取付けられた前後方
向に延びる直進ガイドと、前記三次空気ノズルの外周に
沿って微粉炭ノズル内を前後方向摺動自在に設けられた
濃度調整用リングとを備えたことを特徴とする微粉炭バ
ーナ及び略円筒状の三次空気ノズルと、該三次空気ノズ
ルの外周に同心状に配設された微粉炭ノズルと、該微粉
炭ノズルの後端に接線方向に向けて形成された微粉炭供
給口と、前記微粉炭ノズル先端内面に取付けられた前後
方向に延びる直進ガイドと、前記微粉炭ノズル先端に配
設された微粉炭ノズル先端内部を内側通路と外側通路に
分離する分離筒と、前記微粉炭ノズルの分離筒より後端
側に前記三次空気ノズルの外周に沿って微粉炭ノズル内
を前後方向摺動自在に設けられた濃度調整用リングとを
備えたことを特徴とする微粉炭バーナにかかるものであ
る。
Means for Solving the Problems The present invention provides a substantially cylindrical tertiary air nozzle, a pulverized coal nozzle concentrically disposed on the outer periphery of the tertiary air nozzle, and a tangential direction at a rear end of the pulverized coal nozzle. A pulverized coal supply port formed toward the pulverized coal nozzle, a rectilinear guide extending in the front-rear direction attached to the inner surface of the pulverized coal nozzle, and slidably provided in the pulverized coal nozzle in the front-rear direction along the outer periphery of the tertiary air nozzle. A pulverized coal burner and a substantially cylindrical tertiary air nozzle; a pulverized coal nozzle disposed concentrically around the outer periphery of the tertiary air nozzle; A pulverized coal supply port formed in the rear end of the nozzle in a tangential direction, a rectilinear guide extending in the front-rear direction attached to the inner surface of the pulverized coal nozzle tip, and a pulverized coal nozzle disposed at the pulverized coal nozzle tip The inside of the tip is an inner passage A separation cylinder that separates into an outer passage, and a concentration adjusting ring that is provided at the rear end side of the pulverized coal nozzle at a rear end side of the separation cylinder along the outer periphery of the tertiary air nozzle so as to be slidable in the front-rear direction within the pulverized coal nozzle. A pulverized coal burner characterized by comprising:

[作用] 第1の発明では、ミルの高負荷時には、濃度調整用リ
ングを微粉炭ノズルの後端側へ移動する。
[Operation] In the first invention, when the load of the mill is high, the concentration adjusting ring is moved to the rear end side of the pulverized coal nozzle.

すると、微粉炭ノズル先端と濃度調整用リングとの距
離が大きくなるので、微粉炭ノズルに供給された微粉炭
及び一次空気は濃度調整用リングの部分を通過して絞ら
れた後、再び拡がって一次空気中に微粉炭が均一に分散
した状態となって微粉炭ノズル先端から噴出する。
Then, the distance between the tip of the pulverized coal nozzle and the concentration adjusting ring increases, so that the pulverized coal and the primary air supplied to the pulverized coal nozzle are squeezed through the portion of the concentration adjusting ring and then spread again. The pulverized coal is uniformly dispersed in the primary air and is ejected from the tip of the pulverized coal nozzle.

ミルの低負荷時には、濃度調整用リングを微粉炭ノズ
ル先端側へ移動する。
When the load of the mill is low, the concentration adjusting ring is moved toward the tip of the pulverized coal nozzle.

すると、微粉炭ノズル先端と濃度調整用リングとの距
離が小さくなるので、濃度調整用リングの部分で微粉炭
と一次空気は微粉炭ノズル外周側へ寄せられ、その後濃
度調整用リングを通過した一次空気は再び微粉炭ノズル
全体に拡がって、又、一次空気に比べ比重が十分大きい
微粉炭は慣性力により気流から分離しそのまま微粉炭ノ
ズル外周側を流れて微粉炭ノズル先端から噴出される。
Then, the distance between the tip of the pulverized coal nozzle and the concentration adjusting ring becomes smaller, so that the pulverized coal and the primary air are drawn toward the outer periphery of the pulverized coal nozzle at the portion of the concentration adjusting ring, and then the primary air that has passed through the concentration adjusting ring. The air spreads again throughout the pulverized coal nozzle, and the pulverized coal having a specific gravity sufficiently higher than that of the primary air is separated from the airflow by inertia, flows as it is on the outer periphery of the pulverized coal nozzle, and is ejected from the tip of the pulverized coal nozzle.

従って、微粉炭は一次空気に対し部分的に高濃度化し
た状態となって微粉炭ノズル先端から噴出され、そのた
め、ミルの低負荷時に微粉炭バーナの燃焼が安定する。
Therefore, the pulverized coal is partially concentrated in the primary air and is ejected from the pulverized coal nozzle tip, so that the combustion of the pulverized coal burner is stabilized when the load of the mill is low.

第2の発明では、微粉炭ノズルの先端にのみ直進ガイ
ドが設けてあるので、微粉炭ノズル後端から供給された
微粉炭と一次空気は、微粉炭ノズル後端を旋回しながら
先端へ向って流れ旋回により発生する遠心力により一次
空気に比べ比重が十分大きい微粉炭が微粉炭ノズルの外
周側に寄せ集められるため搬送用の一次空気に対して微
粉炭が部分的に高濃度化した状態となる。
In the second invention, since the straight guide is provided only at the tip of the pulverized coal nozzle, the pulverized coal and the primary air supplied from the pulverized coal nozzle rear end are directed toward the tip while turning the pulverized coal nozzle rear end. Due to the centrifugal force generated by the flow swirl, pulverized coal whose specific gravity is sufficiently higher than that of the primary air is collected on the outer peripheral side of the pulverized coal nozzle, so that the pulverized coal is partially concentrated in the primary air for transportation. Become.

そこで、ミルの高負荷時には、濃度調整用リングを後
端側の所定位置へ移動すると、濃度調整用リングの部分
で一次空気の旋回による微粉炭の分離が早期に阻害され
るため微粉炭が十分に分離されず、さらに濃度調整用リ
ングの後流において再び一次空気中に微粉炭が分散した
状態となるので、一次空気と微粉炭は一緒になって外側
通路及び内側通路の両方から噴出する。
Therefore, when the mill is under a high load, if the concentration adjusting ring is moved to a predetermined position on the rear end side, the separation of the pulverized coal due to the swirling of the primary air at the concentration adjusting ring portion is hindered at an early stage, so that pulverized coal is sufficient. And the pulverized coal is again dispersed in the primary air downstream of the concentration adjusting ring, so that the primary air and the pulverized coal are ejected together from both the outer passage and the inner passage.

ミルの低負荷時には、濃度調整用リングを先端側へ移
動すると、微粉炭供給口と濃度調整用リングとの距離が
大きくなるので、微粉炭が遠心力により微粉炭ノズルの
外周側へ十分に寄せ集められて一次空気に対し部分的に
高濃度化された状態となり、微粉炭と一次空気は夫々別
々に外側通路及び内側通路を通って微粉炭ノズルから噴
出される。
When the mill is under a low load, moving the ring for concentration adjustment to the tip side increases the distance between the pulverized coal supply port and the ring for concentration adjustment, so the pulverized coal is sufficiently brought to the outer periphery of the pulverized coal nozzle by centrifugal force. The collected pulverized coal and the primary air are partially concentrated in the primary air, and the pulverized coal and the primary air are separately ejected from the pulverized coal nozzle through the outer passage and the inner passage, respectively.

そのためミルの低負荷時に、微粉炭バーナの燃焼が安
定する。
Therefore, the combustion of the pulverized coal burner is stabilized when the load of the mill is low.

[実 施 例] 以下、本発明の実施例を図面を参照しつつ説明する。[Example] Hereinafter, an example of the present invention will be described with reference to the drawings.

第1図〜第5図は本発明の一実施例である。 1 to 5 show an embodiment of the present invention.

図中1は微粉炭バーナ、2は微粉炭バーナ1中心部に
配設された略円筒状をした三次空気ノズル、3は三次空
気ノズル2の外周に同心状に配設された、先端に行くに
従い径が縮小する略中空円錐状をした微粉炭ノズル、4
は三次空気ノズル2の軸心位置に配設されたオイルバー
ナ、又2′,3′は夫々三次空気ノズル2及び微粉炭ノズ
ル3の先端開口に形成した絞り部である。
In the drawing, 1 is a pulverized coal burner, 2 is a substantially cylindrical tertiary air nozzle disposed at the center of the pulverized coal burner 1, 3 is disposed concentrically on the outer periphery of the tertiary air nozzle 2 and goes to the tip Pulverized coal nozzle having a substantially hollow cone shape whose diameter decreases according to
Reference numeral denotes an oil burner disposed at the axial center of the tertiary air nozzle 2, and reference numerals 2 'and 3' denote throttle portions formed at the tip openings of the tertiary air nozzle 2 and the pulverized coal nozzle 3, respectively.

6は微粉炭ノズル3の後端に接線方向に向けて形成さ
れ且つ図示しないミルからの微粉炭7を一次空気と共に
微粉炭ノズル3へ供給する微粉炭供給口、8は微粉炭ノ
ズル3内面の微粉炭供給口6形成部分より前方の部分に
対して周方向複数箇所に取付けた前後方向に延びる直進
ガイド、9は三次空気ノズル2の外周に沿って微粉炭ノ
ズル3内を前後方向摺動自在に設けられ、後端面に先端
に行くに従い径が拡大するテーパ面9′を有し、先端面
に前記絞り部2′と傾斜の略等しいテーパ面9″を有す
る濃度調整用リング、10は一端に濃度調整用リング9を
接続されシール11を介して微粉炭ノズル3を貫通して外
部に引出され他端にシリンダ12を接続された前後方向に
延びるロッドである。
Reference numeral 6 denotes a pulverized coal supply port formed at the rear end of the pulverized coal nozzle 3 in a tangential direction and supplies pulverized coal 7 from a mill (not shown) to the pulverized coal nozzle 3 together with primary air. A rectilinear guide extending in the front-rear direction attached to a plurality of locations in the circumferential direction with respect to a portion ahead of the pulverized coal supply port 6 forming portion, and 9 is slidable in the front-rear direction inside the pulverized coal nozzle 3 along the outer periphery of the tertiary air nozzle 2. A density adjusting ring having a tapered surface 9 'having a tapered surface 9' whose diameter increases toward the front end at the rear end surface, and a tapered surface 9 "having a slope substantially equal to that of the throttle portion 2 'at the front end surface. Is a rod extending in the front-rear direction, which is connected to a concentration adjusting ring 9, passes through the pulverized coal nozzle 3 via a seal 11, is drawn out to the outside, and has a cylinder 12 connected to the other end.

又13はボイラの火炉14に形成されたスロート、15はス
ロート13を介して火炉14に燃焼用の二次空気16を供給す
るためのウインドボックス、17はスロート13とウインド
ボックス15の間に形成された空間にスロート13の回りを
円形に囲うように配設された二次空気16の空気量を調整
するためのエアレジスタ、18はエアレジスタ17の内側に
円形に配設された二次空気16に旋回力を与えるための複
数のインナベーン、19はウインドボックス15と三次空気
ノズル2の後端をダンパ20を介して接続する流路であっ
て、微粉炭バーナ1はウインドボックス15を貫通してス
ロート13の中心位置に配設されている。
Reference numeral 13 denotes a throat formed in the furnace 14 of the boiler, 15 denotes a wind box for supplying secondary air 16 for combustion to the furnace 14 via the throat 13, and 17 denotes a wind box formed between the throat 13 and the wind box 15. An air register for adjusting the air amount of the secondary air 16 disposed so as to surround the throat 13 in a circle in the space provided, and 18 is a secondary air disposed circularly inside the air register 17. A plurality of inner vanes for giving a turning force to 16, 19 is a flow path connecting the wind box 15 and the rear end of the tertiary air nozzle 2 via a damper 20, and the pulverized coal burner 1 penetrates the wind box 15. It is arranged at the center of the throat 13.

次に作動について説明する。 Next, the operation will be described.

図示しないミルの高負荷時には、シリンダ12を用いロ
ッド10を介して濃度調整用リング9を第4図に示すよう
に後端側に移動する。
At the time of high load of a mill (not shown), the density adjusting ring 9 is moved to the rear end side through the rod 10 using the cylinder 12 as shown in FIG.

この状態で、図示しないミルで粉砕された微粉炭7を
一次空気により搬送し、微粉炭ノズル3の微粉炭供給口
6に供給する。
In this state, the pulverized coal 7 pulverized by a mill (not shown) is conveyed by primary air and supplied to the pulverized coal supply port 6 of the pulverized coal nozzle 3.

すると、先ず、微粉炭供給口6は微粉炭ノズル3の接
線方向に形成されているので、微粉炭ノズル3から供給
された微粉炭7及び一次空気は微粉炭ノズル3後端を周
回して周方向に均等化された後微粉炭ノズル3先端へ向
けて流れて行き、微粉炭ノズル3内周面に設けられた前
後方向に延びる直進ガイド8により周方向への移動を妨
げられつつ半径方向に均等化されて前方へ直進してい
く。
Then, first, the pulverized coal supply port 6 is formed in the tangential direction of the pulverized coal nozzle 3, so that the pulverized coal 7 and the primary air supplied from the pulverized coal nozzle 3 orbit around the rear end of the pulverized coal nozzle 3. After being equalized in the direction, it flows toward the tip of the pulverized coal nozzle 3, and is moved in the radial direction while being prevented from moving in the circumferential direction by the rectilinear guide 8 extending in the front-rear direction provided on the inner peripheral surface of the pulverized coal nozzle 3. It is equalized and goes straight ahead.

途中、微粉炭7及び一次空気は微粉炭ノズル3内部の
濃度調整用リング9の部分を通過して微粉炭ノズル3外
周側へ寄せられるが、濃度調整用リング9は微粉炭ノズ
ル3の後端側に位置しているため、円錐状をした微粉炭
ノズル3内面と濃度調整用リング9との間隔aが比較的
広く保たれ、且つ微粉炭ノズル3先端と濃度調整用リン
グ9との距離lが大きく保たれているので、微粉炭7と
一次空気は濃度調整用リングの部分を通過した後、再び
微粉炭ノズル3全体に拡がって、一次空気中に微粉炭7
が均等に分散した状態で微粉炭ノズル3先端から噴出さ
れる。
On the way, the pulverized coal 7 and the primary air pass through the portion of the concentration adjusting ring 9 inside the pulverized coal nozzle 3 and are brought to the outer peripheral side of the pulverized coal nozzle 3. , The distance a between the inner surface of the conical pulverized coal nozzle 3 and the concentration adjusting ring 9 is kept relatively wide, and the distance l between the tip of the pulverized coal nozzle 3 and the concentration adjusting ring 9 is l. Is kept large, so that the pulverized coal 7 and the primary air pass through the concentration adjusting ring and then spread again over the entire pulverized coal nozzle 3 so that the pulverized coal 7 and the primary air are contained in the primary air.
Are spouted from the tip of the pulverized coal nozzle 3 in a state of being uniformly dispersed.

微粉炭ノズル3から噴出された微粉炭7は、主にウイ
ンドボックス15からの二次空気16が混合されて燃焼され
る。
The pulverized coal 7 ejected from the pulverized coal nozzle 3 is mainly mixed with the secondary air 16 from the wind box 15 and burned.

図示しないミルの低負荷時には、シリンダ12を用いロ
ッド10を介して濃度調整用リング9を第5図に示すよう
に先端側に移動する。
When the load of the mill (not shown) is low, the density adjusting ring 9 is moved to the distal end side through the rod 10 using the cylinder 12 as shown in FIG.

この状態で、図示しないミルで粉砕された微粉炭7を
一次空気により搬送し、微粉炭ノズル3の微粉炭供給口
6に供給する。
In this state, the pulverized coal 7 pulverized by a mill (not shown) is conveyed by primary air and supplied to the pulverized coal supply port 6 of the pulverized coal nozzle 3.

すると、微粉炭供給口6は微粉炭ノズル3の接線方向
に形成されているので、微粉炭ノズル3から供給された
微粉炭7及び一次空気は微粉炭ノズル3後端を周回して
周方向に均等化された後微粉炭ノズル3先端へ向けて流
れて行き、微粉炭ノズル3内周面に設けられた前後方向
に延びる直進ガイド8により周方向への移動を妨げられ
つつ半径方向に均等化されて前方へ直進して行く。
Then, since the pulverized coal supply port 6 is formed in the tangential direction of the pulverized coal nozzle 3, the pulverized coal 7 and the primary air supplied from the pulverized coal nozzle 3 orbit around the rear end of the pulverized coal nozzle 3 and extend in the circumferential direction. After being equalized, it flows toward the tip of the pulverized coal nozzle 3 and is equalized in the radial direction while being prevented from moving in the circumferential direction by the rectilinear guide 8 extending in the front-rear direction provided on the inner peripheral surface of the pulverized coal nozzle 3. Go straight ahead.

途中、微粉炭ノズル3内部の濃度調整用リング9の部
分を通過する。
On the way, it passes through the part of the concentration adjusting ring 9 inside the pulverized coal nozzle 3.

そして、微粉炭7及び一次空気は、濃度調整用リング
9の部分で、濃度調整用リング9の後端面に形成された
先端に行くに従って径が拡大するテーパ面9′に案内さ
れて、微粉炭ノズル3外周側へ片寄せられる。
Then, the pulverized coal 7 and the primary air are guided by the tapered surface 9 ′, whose diameter increases toward the tip formed on the rear end face of the concentration adjusting ring 9, at the concentration adjusting ring 9, The nozzle 3 is offset toward the outer peripheral side.

このとき、濃度調整用リング9は微粉炭ノズル3の先
端側に位置しているため、円錐状をした微粉炭ノズル3
内面と濃度調整用リング9との間隔aが狭くなり、且つ
微粉炭ノズル3先端と濃度調整用リング9との距離lが
小さくなっているので、微粉炭7と一次空気は流速を高
められ、且つ濃度調整用リング9の部分を通過した直後
に一次空気は再び微粉炭ノズル全体に拡がって、又、一
次空気に比べ比重が十分大きい微粉炭7は慣性力により
そのまま微粉炭ノズル3外周側を流れて拡がる前に微粉
炭ノズル3先端から噴出される。
At this time, since the concentration adjusting ring 9 is located at the tip end side of the pulverized coal nozzle 3, the conical pulverized coal nozzle 3
Since the distance a between the inner surface and the concentration adjusting ring 9 is reduced and the distance l between the tip of the pulverized coal nozzle 3 and the concentration adjusting ring 9 is reduced, the flow velocity of the pulverized coal 7 and the primary air is increased, Immediately after passing through the concentration adjusting ring 9, the primary air spreads again to the entire pulverized coal nozzle, and the pulverized coal 7 having a specific gravity sufficiently larger than the primary air is applied to the outer peripheral side of the pulverized coal nozzle 3 by inertia as it is. Before flowing and spreading, it is ejected from the tip of the pulverized coal nozzle 3.

そのため、微粉炭ノズル3から噴出される微粉炭7は
一次空気中で部分的に高濃度化した状態となって噴出さ
れ、微粉炭バーナ1の燃焼が安定する。
Therefore, the pulverized coal 7 ejected from the pulverized coal nozzle 3 is ejected in a partially concentrated state in the primary air, and the combustion of the pulverized coal burner 1 is stabilized.

微粉炭ノズル3から噴出された高濃度化された微粉炭
7は、主にウインドボックス15からの二次空気16が混合
されて燃焼される。
The highly concentrated pulverized coal 7 ejected from the pulverized coal nozzle 3 is mainly mixed with the secondary air 16 from the wind box 15 and burned.

第6図、第7図は本発明の他の実施例であり、微粉炭
供給口6に開度を調整する可動ベーン5を取付けると共
に、直進ガイド21を微粉炭ノズル3の先端側にのみ取付
けて、微粉炭ノズル3の後端側を直進ガイド21のない旋
回分離域22とし、且つ微粉炭ノズル3先端の直進ガイド
21を設けた範囲の部分に、微粉炭ノズル3先端内部を内
側通路23と外側通路24に分離する内部に直進ガイド26を
有する分離筒25を配設した他は前記実施例と略同様の構
成を備えている。
6 and 7 show another embodiment of the present invention, in which a movable vane 5 for adjusting the opening degree is attached to the pulverized coal supply port 6 and a straight guide 21 is attached only to the tip side of the pulverized coal nozzle 3. The rear end side of the pulverized coal nozzle 3 is defined as a revolving separation area 22 without the rectilinear guide 21, and the rectilinear guide at the tip of the pulverized coal nozzle 3.
A configuration substantially the same as that of the above-described embodiment except that a separation cylinder 25 having a straight guide 26 is disposed inside a portion provided with 21 and separates the inside of the tip of the pulverized coal nozzle 3 into an inner passage 23 and an outer passage 24. It has.

本実施例では、微粉炭供給口6へ供給された微粉炭7
及び一次空気は、微粉炭ノズル3後端に形成した旋回分
離域22内部を旋回して、旋回により発生する遠心力で一
次空気に比べ比重の大きい微粉炭7は微粉炭ノズル3の
外周側へ、軽い一次空気は微粉炭ノズル3の内周側へ分
離されて行き、微粉炭ノズル3先端で外周側の微粉炭7
は外周に形成された外側通路24を通り、内周側の一次空
気は内周に形成された内側通路23を通ろうとする。
In this embodiment, the pulverized coal 7 supplied to the pulverized coal supply port 6
And the primary air swirls inside the swirl separation zone 22 formed at the rear end of the pulverized coal nozzle 3, and the pulverized coal 7 having a higher specific gravity than the primary air due to the centrifugal force generated by the swirl moves to the outer peripheral side of the pulverized coal nozzle 3. , Light primary air is separated to the inner peripheral side of the pulverized coal nozzle 3 and the pulverized coal 7 on the outer peripheral side at the tip of the pulverized coal nozzle 3.
Pass through the outer passage 24 formed on the outer periphery, and the primary air on the inner periphery tries to pass through the inner passage 23 formed on the inner periphery.

そこで、ミルの高負荷時には、シリンダ12を用いて濃
度調整用リング9を後端側の所定の位置に移動する。
Therefore, when the mill is under a high load, the density adjusting ring 9 is moved to a predetermined position on the rear end side using the cylinder 12.

すると、濃度調整用リング9の部分で、一次空気の旋
回による微粉炭7の分離が早期に阻害されるため微粉炭
7が十分に分離されず、さらに濃度調整用リング9の後
流において再び一次空気中に微粉炭7が分散された状態
となり、微粉炭7と一次空気は一緒になって内側通路23
及び外側通路24の両方を通って微粉炭ノズル3先端から
噴出される。
Then, in the portion of the concentration adjusting ring 9, the separation of the pulverized coal 7 due to the swirling of the primary air is hindered at an early stage, so that the pulverized coal 7 is not sufficiently separated. The pulverized coal 7 is dispersed in the air, and the pulverized coal 7 and the primary air come together to form the inner passage 23.
The pulverized coal nozzle 3 is ejected from both ends of the pulverized coal nozzle 3 through the outer passage 24 and the outer passage 24.

ミルの低負荷時には、シリンダ12を用いて濃度調整用
リング9を先端側に移動する。
When the load of the mill is low, the density adjusting ring 9 is moved to the tip side using the cylinder 12.

すると、微粉炭供給口6と濃度調整用リング9との距
離が大きくなるので、微粉炭7が、遠心力により微粉炭
ノズル3の外周側へ十分に寄せ集められ一次空気に対し
て部分的に高濃度化した状態となるので、微粉炭7は外
側通路24を通り一次空気は内側通路23を通って微粉炭ノ
ズル3先端から噴出する。
Then, the distance between the pulverized coal supply port 6 and the concentration adjusting ring 9 increases, so that the pulverized coal 7 is sufficiently gathered to the outer peripheral side of the pulverized coal nozzle 3 by centrifugal force and partially separated from the primary air. Since the pulverized coal 7 is in a highly concentrated state, the pulverized coal 7 passes through the outer passage 24 and the primary air passes through the inner passage 23 and is ejected from the tip of the pulverized coal nozzle 3.

そのため、ミルの低負荷時に微粉炭バーナ1の燃焼が
安定する。
Therefore, the combustion of the pulverized coal burner 1 is stabilized when the load of the mill is low.

尚、前記実施例は、微粉炭の濃度調整を濃度調整用リ
ング9を用いて行ったものであるが、第7図に示すよう
な微粉炭供給口6に配設した可動ベーン5によって行う
ことも可能である。
In the above embodiment, the concentration of the pulverized coal is adjusted using the ring 9 for concentration adjustment, but the adjustment is performed by the movable vane 5 disposed in the pulverized coal supply port 6 as shown in FIG. Is also possible.

このように、本発明の微粉炭バーナは、上述の実施例
にのみ限定されるものではなく、本発明の要旨を逸脱し
ない範囲内において種々変更を加え得ることは勿論であ
る。
As described above, the pulverized coal burner of the present invention is not limited to the above-described embodiment, and it is needless to say that various changes can be made without departing from the gist of the present invention.

[発明の効果] 以上説明したように、本発明の微粉炭バーナによれ
ば、下記の如き種々の優れた効果を奏し得る。
[Effects of the Invention] As described above, according to the pulverized coal burner of the present invention, the following various excellent effects can be obtained.

二次空気ノズルに摺動自在に濃度調整用リングを設
けたことにより、微粉炭ノズル内部で微粉炭を搬送用の
一次空気中で片寄らせて部分的に高濃度化した状態とす
ることができるようになり、ミルの低負荷時に微粉炭バ
ーナの燃焼を安定させ得るようになると共に、外部にサ
イクロンを設ける必要をなくし得る。
The secondary air nozzle is slidably provided with the concentration adjusting ring, so that the pulverized coal can be biased in the primary air for conveyance inside the pulverized coal nozzle to partially increase the concentration. As a result, the combustion of the pulverized coal burner can be stabilized when the load of the mill is low, and the need for providing an external cyclone can be eliminated.

外部にサイクロンを設ける必要がなくなるので、構
成を簡略化し得且つ低価格化が得られ、更にメンテナン
スも容易化することができる。
Since there is no need to provide an external cyclone, the configuration can be simplified, the cost can be reduced, and maintenance can be facilitated.

【図面の簡単な説明】[Brief description of the drawings]

第1図は本発明の一実施例の側方断面図、第2図は第1
図のII−II矢視図、第3図は第1図のIII−III矢視図、
第4図は第1図の作動状態を示す部分拡大図、第5図は
第1図の別の作動状態を示す部分拡大図、第6図は本発
明の他の実施例の側方断面図、第7図は第6図のVII−V
II矢視図である。 図中1は微粉炭バーナ、2は三次空気ノズル、3は微粉
炭ノズル、6は微粉炭供給口、8は直進ガイド、9は濃
度調整用リング、21は直進ガイド、23は内側通路、24は
外側通路、25は分離筒を示す。
FIG. 1 is a side sectional view of one embodiment of the present invention, and FIG.
FIG. 3 is a view taken along the line II-II, FIG. 3 is a view taken along the line III-III of FIG.
4 is a partially enlarged view showing an operation state of FIG. 1, FIG. 5 is a partially enlarged view showing another operation state of FIG. 1, and FIG. 6 is a side sectional view of another embodiment of the present invention. , FIG. 7 is VII-V of FIG.
FIG. In the figure, 1 is a pulverized coal burner, 2 is a tertiary air nozzle, 3 is a pulverized coal nozzle, 6 is a pulverized coal supply port, 8 is a straight running guide, 9 is a concentration adjusting ring, 21 is a straight running guide, 23 is an inner passage, 24 Indicates an outer passage, and 25 indicates a separation cylinder.

───────────────────────────────────────────────────── フロントページの続き (72)発明者 田中 隆 東京都町田市成瀬2―29―8 (72)発明者 氣駕 尚志 東京都江東区豊洲3丁目2番16号 石川 島播磨重工業株式会社豊洲総合事務所内 (72)発明者 牧野 啓二 東京都江東区豊洲3丁目2番16号 石川 島播磨重工業株式会社豊洲総合事務所内 (72)発明者 楜沢 融 東京都江東区豊洲3丁目2番16号 石川 島播磨重工業株式会社豊洲総合事務所内 (56)参考文献 実開 昭62−142610(JP,U) ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Takashi Tanaka 2-29-8 Naruse, Machida-shi, Tokyo (72) Inventor Shoshi 3-2-1-16 Toyosu, Koto-ku, Tokyo Ishikawa Shimaharima Heavy Industries, Ltd. Inside the general office (72) Inventor Keiji Makino 3-2-1-16 Toyosu, Koto-ku, Tokyo Ishikawa Shima-Harima Heavy Industries, Ltd.Toyosu general office (72) Inventor Minoru Kirisawa 3-2-1, Toyosu, Koto-ku, Tokyo Ishikawa Shimaharima Heavy Industries, Ltd., Toyosu General Office (56)

Claims (2)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】略円筒状の三次空気ノズルと、該三次空気
ノズルの外周に同心状に配設された微粉炭ノズルと、該
微粉炭ノズルの後端に接線方向に向けて形成された微粉
炭供給口と、前記微粉炭ノズル内面に取付けられた前後
方向に延びる直進ガイドと、前記三次空気ノズルの外周
に沿って微粉炭ノズル内を前後方向摺動自在に設けられ
た濃度調整用リングとを備えたことを特徴とする微粉炭
バーナ。
1. A substantially cylindrical tertiary air nozzle, a pulverized coal nozzle concentrically disposed on the outer periphery of the tertiary air nozzle, and a fine powder formed tangentially at a rear end of the pulverized coal nozzle. A charcoal supply port, a rectilinear guide extending in the front-rear direction attached to the inner surface of the pulverized coal nozzle, and a concentration adjusting ring provided slidably in the front-rear direction in the pulverized coal nozzle along the outer periphery of the tertiary air nozzle. A pulverized coal burner characterized by comprising:
【請求項2】略円筒状の三次空気ノズルと、該三次空気
ノズルの外周に同心状に配設された微粉炭ノズルと、該
微粉炭ノズルの後端に接線方向に向けて形成された微粉
炭供給口と、前記微粉炭ノズル先端内面に取付けられた
前後方向に延びる直進ガイドと、前記微粉炭ノズル先端
に配設された微粉炭ノズル先端内部を内側通路と外側通
路に分離する分離筒と、前記微粉炭ノズルの分離筒より
後端側に前記三次空気ノズルの外周に沿って微粉炭ノズ
ル内を前後方向摺動自在に設けられた濃度調整用リング
とを備えたことを特徴とする微粉炭バーナ。
2. A substantially cylindrical tertiary air nozzle, a pulverized coal nozzle concentrically arranged on the outer periphery of the tertiary air nozzle, and a fine powder formed tangentially at a rear end of the pulverized coal nozzle. A coal supply port, a rectilinear guide extending in the front-rear direction attached to the inner surface of the pulverized coal nozzle tip, and a separation tube separating the inside of the pulverized coal nozzle tip provided at the pulverized coal nozzle tip into an inner passage and an outer passage. And a concentration adjusting ring provided on the rear end side of the separation cylinder of the pulverized coal nozzle along the outer periphery of the tertiary air nozzle so as to be slidable in the front-rear direction inside the pulverized coal nozzle. Charcoal burner.
JP3487590A 1990-02-15 1990-02-15 Pulverized coal burner Expired - Lifetime JP2698464B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP3487590A JP2698464B2 (en) 1990-02-15 1990-02-15 Pulverized coal burner

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP3487590A JP2698464B2 (en) 1990-02-15 1990-02-15 Pulverized coal burner

Publications (2)

Publication Number Publication Date
JPH03241208A JPH03241208A (en) 1991-10-28
JP2698464B2 true JP2698464B2 (en) 1998-01-19

Family

ID=12426323

Family Applications (1)

Application Number Title Priority Date Filing Date
JP3487590A Expired - Lifetime JP2698464B2 (en) 1990-02-15 1990-02-15 Pulverized coal burner

Country Status (1)

Country Link
JP (1) JP2698464B2 (en)

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