JPS6170200A - Method of heightening capability of ejector pump by supplying air - Google Patents
Method of heightening capability of ejector pump by supplying airInfo
- Publication number
- JPS6170200A JPS6170200A JP3572884A JP3572884A JPS6170200A JP S6170200 A JPS6170200 A JP S6170200A JP 3572884 A JP3572884 A JP 3572884A JP 3572884 A JP3572884 A JP 3572884A JP S6170200 A JPS6170200 A JP S6170200A
- Authority
- JP
- Japan
- Prior art keywords
- air
- water
- pressure
- eductor
- pump
- 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.)
- Pending
Links
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F04—POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
- F04F—PUMPING OF FLUID BY DIRECT CONTACT OF ANOTHER FLUID OR BY USING INERTIA OF FLUID TO BE PUMPED; SIPHONS
- F04F5/00—Jet pumps, i.e. devices in which flow is induced by pressure drop caused by velocity of another fluid flow
- F04F5/44—Component parts, details, or accessories not provided for in, or of interest apart from, groups F04F5/02 - F04F5/42
- F04F5/46—Arrangements of nozzles
- F04F5/467—Arrangements of nozzles with a plurality of nozzles arranged in series
Landscapes
- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Fluid Mechanics (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Jet Pumps And Other Pumps (AREA)
Abstract
Description
【発明の詳細な説明】
従来のエダクタ一式ポンプは第1図の2方式に示す機構
にてポンプの効力を発揮使用されてきた。 すなわち水
またはエアーをfatの送水(風)管を通しくJolの
ノズルから噴き出すことによりfc1部に負圧部(真空
)を形成し、(d)から水を汲い上げていた。しかし、
汲い上げ機構を作り出す水もしくはエアーは、前者の水
の場合は水面からせいぜい4〜5mの揚程が限度である
ことと、後者のエアーの場合揚程こそ高くのぞめるが、
エアー送り圧力土水圧を加えた圧力が常時必要でその動
力源が多大である欠点をもっている。DETAILED DESCRIPTION OF THE INVENTION Conventional eductor set pumps have been used to achieve their effectiveness through the mechanisms shown in the two systems shown in FIG. That is, a negative pressure section (vacuum) was formed in the fc1 section by jetting water or air out of the Jol nozzle through the fat water supply (air) pipe, and water was pumped up from (d). but,
In the case of the water or air that creates the pumping mechanism, in the case of the former water, the lifting height is at most 4 to 5 meters from the water surface, and in the case of the latter air, the lifting height is expected to be high.
It has the drawback that air feed pressure and pressure in addition to earth and water pressure are constantly required, and the power source for this is enormous.
本発明は水とエアーの特性(密度差)を最大限に利用し
エダクタ一式ポンプの効率をアップしたものである。The present invention makes maximum use of the characteristics (difference in density) between water and air to improve the efficiency of an eductor pump.
以下図(こて本発明の説明をする。The following figure (trowel) explains the present invention.
第1図は従来のエダクタ一式ポンプの機構図である。第
2図は本発明のエダクタ一式ポンプの断面図である。(
1)はエダクタ一本体、(2)は送水管、(3)はエダ
クタ−内部をこ設られた送水穴、(4)は水の噴射ノズ
ル、(5)はエアー管。FIG. 1 is a mechanical diagram of a conventional eductor pump. FIG. 2 is a sectional view of the eductor complete pump of the present invention. (
1) is the eductor body, (2) is the water pipe, (3) is the water supply hole provided inside the eductor, (4) is the water injection nozzle, and (5) is the air pipe.
(6)はエダクタ−内部を二股られたエアー穴、(7)
エアー噴出口(Al (B)はエダクタ−内部のポンプ
汲込み機構部(Gりは水・エアー汲込み部、(至)はエ
ダクタ−汲込み口(至))はエダクタ−の吐出口である
。(6) is an air hole split into two inside the eductor, (7)
Air outlet (Al) (B) is the pump pumping mechanism inside the eductor (G is the water/air pumping part, (to) is the eductor intake port (to)) is the discharge port of the eductor. .
まず、ポンプから送られた水は(2)の送水管を通りさ
らに(3)エダクタ−内部の送水穴から一足圧力の水が
(4)の噴射ノズルへと送り出される。一定の圧力をも
った水は(4)の各噴射ノズルから(Alに円錐状をこ
噴き出る。それ(こより(Bl部は負圧(真空)となり
、それを補充するようにの)の汲込み目から水及び土砂
は流入する。それと同時に(7)のエアー噴出口も負圧
(真空)状態となるため(5)のエアー管を通して送る
場合のエアー圧は負圧に対応する送り圧力でよい車番こ
なる。エダクタ−が水中(こ設置されている場合は、と
うぜん(7)のエアー噴出[1を通して(5)のエアー
管は水位に相当する位置まで水に満されているが、その
(5)のエアー管の水は(B)の負圧番こ相当する圧力
まで水位は低下し、水は吐き出される。またーから流入
した水等(水・土砂)は(Cり −(B)を通り回部へ
達する。A部へ達した水は(4)のノズルから噴射する
水圧により(E)方向の吐出口へ押し−Lげ、られ、最
後をこは吐出口から排出される。前に述べた通りの)部
が負圧番こなった時点で(7)のエアーの噴出[1及び
(5)のエアー管内部もその負圧に影響され水位が低下
したり、水が吐き出されるが、その時(こ(7)のエア
ー噴出口へ送るエアー圧は(B)の負圧に相当する圧力
で良いため非常(こ少さくてすむ。(5)→(6)を通
って(7)から出たエアーはの)の汲込み目から流入し
てくる水等と(B) (A)で混合したり、エアー単独
で(Bl−(A)=(ト)方向へ上昇するが、その時点
で(A)(E)内の密度は急激に低下する。その(A)
(Bl内の密度が低下する事(こより(A)・(E)内
の水等は、(4)から噴き出す水圧に(密度)相当する
高さまでの上昇する揚程高さと速度を得られる。First, the water sent from the pump passes through the water pipe (2), and then from the water hole inside the eductor (3), water at a pressure of one foot is sent to the injection nozzle (4). Water with a constant pressure is ejected from each injection nozzle in (4) in a conical shape onto the Al. Water and earth and sand flow in from the crevices.At the same time, the air outlet (7) also becomes a negative pressure (vacuum) state, so the air pressure when sending through the air pipe (5) is the feeding pressure corresponding to the negative pressure. This is a good car number.If the eductor is installed underwater, the air pipe (5) is filled with water through the air jet (7) [1] to the level corresponding to the water level. The water level of the water in the air pipe (5) drops to a pressure corresponding to the negative pressure number in (B), and the water is discharged. It passes through B) and reaches the circulation part.The water that has reached part A is pushed to the discharge port in the direction (E) by the water pressure jetted from the nozzle (4), and is finally discharged from the discharge port. As mentioned above, when the negative pressure reaches the negative pressure point in the section (7), the inside of the air pipe (1 and (5) is also affected by the negative pressure, causing the water level to drop or is discharged, but at that time, the air pressure sent to the air outlet in (7) can be at a pressure equivalent to the negative pressure in (B), so it is very small. The air coming out of (7) can mix with water, etc. flowing in from the inlet of (B) (A), or the air can rise by itself in the direction of (Bl - (A) = (G)). However, at that point, the density in (A) and (E) decreases rapidly.The (A)
(As the density in Bl decreases, the water in (A) and (E) can rise to a height and speed corresponding to the (density) of the water pressure ejected from (4).
従って本発明の特徴は、(4)のノズルから噴射される
水(こより(B1部で負圧が作られているが、その負圧
を利用して低圧力のエアーを送りエアーと噴き出される
水圧をこて、さらにエダクタ−ポンプの効率を小さなエ
ネルギー(こて(揚程高さ・速度・汲込み及び排出量等
)増大させる省エイ・タイプのポンプである。Therefore, the feature of the present invention is that the water (4) is injected from the nozzle (a negative pressure is created in part B1, and the negative pressure is used to send low-pressure air and the water is jetted out). This is an energy-saving type pump that increases water pressure and also increases the efficiency of the eductor pump with a small amount of energy (lift height, speed, pumping and discharge volume, etc.).
このエダクタ一式ポンプはエアーをも同時をこ混合排出
することから、水・土砂の汲み上げはもちろんエダクタ
一本体を湖沼等(二装置し作動する事により湖沼等内の
Do(酸素溶存量)も増加させ、さらに水も密度差をこ
て対流させることから水中のDOの均一化も計れ。This eductor set pump simultaneously mixes and discharges air, so it can not only pump up water and sediment, but also increase Do (dissolved oxygen) in lakes, marshes, etc. by operating two eductor units, such as lakes and marshes. In addition, the difference in density of the water is also caused by convection, so the DO in the water can be made uniform.
最近問題となっている湖沼等の富栄養化防止方法として
も利用出来る。It can also be used as a method to prevent eutrophication of lakes and marshes, which has recently become a problem.
第1図
第 214
El
(5(A) 1
+61 +4へ
Td+
(°)(。)
日〒
手 続 補 正 書
昭和 年 月 日
2 発明の名称
エアーの補給によるエダクタ−ポンプ能力アップ方法3
補正をする者
事件との関係 特許出願人
5 補正の対象
明 細 書
6 補正の内容
(1)願書の発明の名称の()書きと()内の文字を削
除する。Figure 1 214 El (5(A) 1 +61 +4 to Td+ (°) (.) Date Procedure Correction Book Showa Year Month Day 2 Title of Invention Method for increasing eductor pump capacity by supplying air 3
Relationship with the case of the person making the amendment Patent applicant 5 Specification subject to amendment Document 6 Contents of amendment (1) The parentheses and characters in parentheses of the title of the invention in the application are deleted.
(2) 明細書第1頁第3行目「発明の名称」 の(
)書きと()内の文字を削除する。(2) "Title of the invention" on page 1, line 3 of the specification (
) and delete the characters in parentheses.
(3)明細書第5頁第3行目以下に「4図面の簡単な説
明の文」を加入する。(3) Add "a brief explanation of the four drawings" from the third line on page 5 of the specification.
上記(1)、 (21,(31を補正した書面を別紙の
通り添付する。A document amended to (1), (21, and (31) above is attached as attached.
1、発明の名称 エアーの補給によるエダクタ−ポンプ能力アップ方法1. Name of the invention How to increase eductor pump capacity by supplying air
第1図は従来のエダクタ一式ポンプの機構部第2図は本
発明のエダクタ一式ポンプの断面図(1)はエダクタ一
本体
+2) #′i送水管
(3)はエダクタ−内部に設けられた送水穴(4)は水
の噴射ノズル
+5) Uエアー管
(6)11エダクタ−内部に設けられたエアー穴(7)
はエアー噴出口
八・β)はエダクタ−内部のポンプ吸込み機構部(qは
水・エアー吸込み部
0はエダクタ−吸込み部Figure 1 shows the mechanism of a conventional eductor set pump. Figure 2 is a sectional view of the eductor set pump of the present invention. Water supply hole (4) is water injection nozzle +5) U air pipe (6) 11 Air hole provided inside the eductor (7)
is the air outlet 8, β) is the pump suction mechanism inside the eductor (q is the water/air suction part 0 is the eductor suction part)
Claims (1)
ところの低圧エアー送り機構によるエダクターポンプの
能力アップ方法How to increase the capacity of an eductor pump using a low-pressure air feed mechanism that uses the negative pressure generated by a water-pressure eductor pump
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP3572884A JPS6170200A (en) | 1984-02-27 | 1984-02-27 | Method of heightening capability of ejector pump by supplying air |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP3572884A JPS6170200A (en) | 1984-02-27 | 1984-02-27 | Method of heightening capability of ejector pump by supplying air |
Publications (1)
Publication Number | Publication Date |
---|---|
JPS6170200A true JPS6170200A (en) | 1986-04-10 |
Family
ID=12449902
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP3572884A Pending JPS6170200A (en) | 1984-02-27 | 1984-02-27 | Method of heightening capability of ejector pump by supplying air |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPS6170200A (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0469700U (en) * | 1990-10-26 | 1992-06-19 | ||
KR20030086716A (en) * | 2002-05-06 | 2003-11-12 | 현대모비스 주식회사 | Air ejector of a apparatus for generating a vaccum |
JP2010507061A (en) * | 2006-10-18 | 2010-03-04 | ボイルデク オーワイ | Method and apparatus for emptying the floor of a soda recovery boiler |
JP2012511136A (en) * | 2008-12-05 | 2012-05-17 | ボイルデク オーワイ | Method and apparatus for emptying the floor of a black liquor recovery boiler |
-
1984
- 1984-02-27 JP JP3572884A patent/JPS6170200A/en active Pending
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0469700U (en) * | 1990-10-26 | 1992-06-19 | ||
KR20030086716A (en) * | 2002-05-06 | 2003-11-12 | 현대모비스 주식회사 | Air ejector of a apparatus for generating a vaccum |
JP2010507061A (en) * | 2006-10-18 | 2010-03-04 | ボイルデク オーワイ | Method and apparatus for emptying the floor of a soda recovery boiler |
JP2012511136A (en) * | 2008-12-05 | 2012-05-17 | ボイルデク オーワイ | Method and apparatus for emptying the floor of a black liquor recovery boiler |
US8808461B2 (en) | 2008-12-05 | 2014-08-19 | Boildec Oy | Method and device for emptying the floor of a black liquor recovery boiler |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US7156377B2 (en) | Water aeration device and method | |
US3672790A (en) | Air lift pump | |
JP3925711B2 (en) | Oxygen supply device for water | |
JP3408377B2 (en) | Pressure fluid energy conversion apparatus and method | |
JPH05317847A (en) | Water purifying device and oily water separating device | |
JPS6170200A (en) | Method of heightening capability of ejector pump by supplying air | |
US4767281A (en) | Centrifugal pump system with inlet reservoir | |
CA1256318A (en) | Liquid driven pump or propulsive apparatus | |
KR101162576B1 (en) | Aeration systems for water treatment | |
JP2780721B2 (en) | Jet pump | |
JPS61218800A (en) | Air bubble type water pump | |
JP3387757B2 (en) | Pumping device for accumulated water in dynamite blasting holes | |
JPS60173400A (en) | Jet pump | |
JPH0747392A (en) | Water stream type water quality improving and purifying device | |
DE19742500B4 (en) | Air-suction centrifugal pump with additional flow | |
JP2003056500A (en) | Ejector | |
JPH0564800A (en) | Apparatus for purifying closed natural water region | |
JPH02196200A (en) | Jet pump | |
JP2979220B2 (en) | Annular body for adjusting the annular injection port of the water flow generator | |
JPH04161296A (en) | Air bubble generator | |
JP6593610B2 (en) | Air-mixing nozzle | |
JPH0287000A (en) | Jet pump | |
JPS5641500A (en) | Pumping device | |
JPS6196200A (en) | Water jet pump | |
EP1311339A1 (en) | A device for supplying oxygen into a volume of water |