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JPH07122433B2 - Vertical pump device - Google Patents
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JPH07122433B2 - Vertical pump device - Google Patents

Vertical pump device

Info

Publication number
JPH07122433B2
JPH07122433B2 JP4079365A JP7936592A JPH07122433B2 JP H07122433 B2 JPH07122433 B2 JP H07122433B2 JP 4079365 A JP4079365 A JP 4079365A JP 7936592 A JP7936592 A JP 7936592A JP H07122433 B2 JPH07122433 B2 JP H07122433B2
Authority
JP
Japan
Prior art keywords
pump
mechanism section
discharge
gear
casing
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
JP4079365A
Other languages
Japanese (ja)
Other versions
JPH06288357A (en
Inventor
洋三 三浦
伸章 柳原
誠一 上田
護 田坂
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.)
Miura Co Ltd
Original Assignee
Miura Co Ltd
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 Miura Co Ltd filed Critical Miura Co Ltd
Priority to JP4079365A priority Critical patent/JPH07122433B2/en
Publication of JPH06288357A publication Critical patent/JPH06288357A/en
Publication of JPH07122433B2 publication Critical patent/JPH07122433B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04CROTARY-PISTON, OR OSCILLATING-PISTON, POSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; ROTARY-PISTON, OR OSCILLATING-PISTON, POSITIVE-DISPLACEMENT PUMPS
    • F04C2/00Rotary-piston machines or pumps
    • F04C2/08Rotary-piston machines or pumps of intermeshing-engagement type, i.e. with engagement of co-operating members similar to that of toothed gearing
    • F04C2/10Rotary-piston machines or pumps of intermeshing-engagement type, i.e. with engagement of co-operating members similar to that of toothed gearing of internal-axis type with the outer member having more teeth or tooth-equivalents, e.g. rollers, than the inner member
    • F04C2/102Rotary-piston machines or pumps of intermeshing-engagement type, i.e. with engagement of co-operating members similar to that of toothed gearing of internal-axis type with the outer member having more teeth or tooth-equivalents, e.g. rollers, than the inner member the two members rotating simultaneously around their respective axes
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04CROTARY-PISTON, OR OSCILLATING-PISTON, POSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; ROTARY-PISTON, OR OSCILLATING-PISTON, POSITIVE-DISPLACEMENT PUMPS
    • F04C5/00Rotary-piston machines or pumps with the working-chamber walls at least partly resiliently deformable

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Loading And Unloading Of Fuel Tanks Or Ships (AREA)

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【産業上の利用分野】この発明は、ドラム缶,ペール缶
等の容器内に収容した内容物を排出(取出し)する際に
用いられる竪型ポンプ装置、所謂ドラム缶ポンプに関す
るものである。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vertical pump device used for discharging (removing) contents stored in a container such as a drum can and a pail can, a so-called drum can pump.

【0002】[0002]

【従来の技術】従来から、液体を輸送するに際してドラ
ム缶,ペール缶等の容器に収容して輸送する場合があ
る。この場合、そのような液体収納容器内の液体を取り
出す方法としては、ロータリーポンプ等のポンプ装置の
吸込み側配管(ホースやパイプなど)を容器の上面一部
に形成した小径の開口部,あるいは上面全体に形成した
開口部に差込んでポンプを起動する方法が一般的であ
る。
2. Description of the Related Art Conventionally, when a liquid is transported, it may be contained in a container such as a drum or a pail and transported. In this case, as a method of taking out the liquid in such a liquid storage container, a small-diameter opening portion in which a suction side pipe (hose, pipe, etc.) of a pump device such as a rotary pump is formed in a part of the upper surface of the container, or an upper surface is formed. It is a general method to insert the pump into an opening formed in the whole to start the pump.

【0003】しかし、この方法では起動時にポンプ内や
吸込み側配管中に液体が無くポンプが空運転となるた
め、液体の吸引力が弱く、液体を吸い上げ難かった。特
に前記液体が高粘度のもの(数10p 以上)である場合、
その吸い上げは一層困難であった。
However, in this method, since there is no liquid in the pump or in the suction side pipe at the time of start-up, the pump is idle, so that the liquid suction force is weak and it is difficult to suck up the liquid. Especially when the liquid is highly viscous (several 10p or more),
The siphoning was more difficult.

【0004】そのため、このような場合、起動時のみポ
ンプの回転数を大幅に増して、吸引力を高める等の手段
を取ることも有るが、操作が繁雑であるのに加えて吸引
性能に限界があるため、根本的な問題の解決にはなって
いない。
For this reason, in such a case, it is possible to increase the suction speed by greatly increasing the rotational speed of the pump only at the time of starting, but the operation is complicated and the suction performance is limited. Therefore, it does not solve the fundamental problem.

【0005】一方、細長く形成したポンプ部を容器の開
口部に差込んで液体を移送する一軸偏心ねじポンプが有
るが、ポンプ部と駆動部との連結部や、ポンプ部そのも
のの構造が複雑で高価となる欠点があった。
On the other hand, there is a uniaxial eccentric screw pump that transfers a liquid by inserting an elongated pump portion into an opening of a container, but the structure of the connecting portion between the pump portion and the driving portion and the pump portion itself is complicated. It had the drawback of being expensive.

【0006】[0006]

【発明が解決しようとする課題】従って、この発明は、
構造が簡単で、呼び水操作の必要の無いポンプ装置を得
ることにあり、そのためにはポンプ部を挿入した時点で
呼水操作が終了するような構造が不可欠であり、しか
も、この種のポンプ装置の用途を考えると、ドラム缶の
口のように小径の孔から液体収納容器内にポンプ部を差
込む必要があるため、ポンプ部をできるだけ小型に形成
することが肝要である。
Therefore, the present invention is
The purpose is to obtain a pump device that has a simple structure and that does not require priming operation. For that purpose, a structure is required in which the priming operation is completed when the pump part is inserted. In consideration of the application, it is necessary to insert the pump portion into the liquid storage container through a hole having a small diameter like a mouth of a drum can. Therefore, it is important to form the pump portion as small as possible.

【0007】[0007]

【課題を解決するための手段】この発明は、前記課題に
鑑みてなされたものであって、駆動機構部,駆動力伝達
機構部,並びにポンプ機構部を備え、このポンプ機構部
を液中に埋没させて使用する竪型ポンプ装置であって、
前記駆動力伝達機構部の内部に軸線方向に沿う吐出流路
を形成して、この吐出流路内に動力伝達軸を配置し、前
記ポンプ機構部を前記駆動力伝達機構部の軸線方向を略
同一となるように配置して、このポンプ機構部のケーシ
ング内部に歯車状ローターを偏心させて収容し、このケ
ーシングの軸方向の一側端面部分に吸込孔を設けると共
に、他方の端面部分に吐出孔を設け、吐出孔を吐出流路
と連通させると共に、この吐出流路の駆動機構部寄り部
分に吐出口を開口させ、前記動力伝達軸の先端を、前記
歯車状ローターの上端に、抜き差し自在な状態で、か
つ、回り止めした状態で接続したことを特徴とする竪型
ポンプ装置である。
The present invention has been made in view of the above problems, and includes a drive mechanism section, a drive force transmission mechanism section, and a pump mechanism section, and the pump mechanism section is placed in a liquid. It is a vertical pump device that is buried and used,
A discharge flow passage is formed inside the driving force transmission mechanism portion along the axial direction, a power transmission shaft is arranged in the discharge flow passage, and the pump mechanism portion is arranged substantially in the axial direction of the driving force transmission mechanism portion. Arranged in the same manner, the gear-shaped rotor is eccentrically housed inside the casing of this pump mechanism part, a suction hole is provided at one axial end face of this casing, and the other end face is discharged. A hole is provided so that the discharge hole communicates with the discharge flow path, and a discharge port is opened in a part of the discharge flow path near the drive mechanism section, and the tip of the power transmission shaft can be freely inserted into and removed from the upper end of the gear-shaped rotor. It is a vertical pump device characterized in that it is connected in a non-rotatable state.

【0008】[0008]

【実施例】この発明に係る竪型ポンプ装置の一実施例を
図1〜5を参照しながら、以下説明する。図面におい
て、竪型ポンプ装置は、駆動機構部(10),駆動力伝達機
構部(20),並びにポンプ機構部(30)を主な構成としてい
る。
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a vertical pump device according to the present invention will be described below with reference to FIGS. In the drawings, the vertical pump device mainly includes a drive mechanism section (10), a drive force transmission mechanism section (20), and a pump mechanism section (30).

【0009】前記駆動機構部(10)は、基台(11)に、電動
式、油圧式等のモータ(M) を固定して構成したものであ
る。そして、この基台(11)には後述するように、使用に
際してポンプ装置を吊下げるための吊金具(12)を設けて
ある。
The drive mechanism section (10) comprises a base (11) and an electric or hydraulic motor (M) fixed thereto. Then, as will be described later, the base (11) is provided with a hanging metal fitting (12) for hanging the pump device during use.

【0010】前記駆動力伝達機構部(20)は、前記駆動機
構部(10)の基台(11)の下端に接続されており、ケーシン
グ(21)とその内部に収納される動力伝達軸(22)とで構成
される。前記のケーシング(21)は、パイプ状のもので、
後述するように吐出流路(29)を兼ねており、前記の基台
(11)に形成した吐出口(13)と連通している。前記動力伝
達軸(22)は、その上端部がジョイント(23)によってモー
タ軸(14)に連結され、その下端部はポンプ機構部(30)の
歯車状ローター(32)に連結してある。従って、前記動力
伝達軸(22)下端のポンプ機構部(30)との接続部(24)は回
り止め可能な断面形状、例えば、角錐形状に成形してあ
る。
The driving force transmission mechanism section (20) is connected to the lower end of the base (11) of the driving mechanism section (10), and has a casing (21) and a power transmission shaft ( 22) and. The casing (21) is pipe-shaped,
As will be described later, it also serves as the discharge channel (29), and the above-mentioned base
It communicates with the discharge port (13) formed in (11). An upper end of the power transmission shaft (22) is connected to the motor shaft (14) by a joint (23), and a lower end of the power transmission shaft (22) is connected to a gear-shaped rotor (32) of the pump mechanism unit (30). Therefore, the connection portion (24) at the lower end of the power transmission shaft (22) with the pump mechanism portion (30) is formed in a cross-sectional shape capable of preventing rotation, for example, a pyramidal shape.

【0011】前記ポンプ機構部(30)は、前記動力伝達機
構部(20)のケーシング(21)とほぼ同等の外径を有するケ
ーシング(31)と、その内部に偏心させて収容される歯車
状ローター(32)とで構成されており、前記の駆動力伝達
機構部(20)を介して駆動力をが伝達される。前記の歯車
状ローター(32)には、可撓性を有するベーン(33)(33)が
複数枚、放射状に一体的に形成されている。
The pump mechanism section (30) includes a casing (31) having an outer diameter substantially equal to that of the casing (21) of the power transmission mechanism section (20), and a gear-shaped casing eccentrically housed therein. The rotor (32) and the drive force are transmitted via the drive force transmission mechanism section (20). A plurality of flexible vanes (33) (33) are radially and integrally formed on the gear-shaped rotor (32).

【0012】前記ケーシング(31)は、図2,図4に示す
ように、下端壁面の内側周壁寄りに設けた吸込孔(37)
と、上端壁面の内側周壁寄りに設けた吐出孔(38)を有
し、これら吸込孔(37)並びに吐出孔(38)は前記歯車状ロ
ーター(32)の回転軸に対し互いに180度位相をずらせ
た状態で形成してある。前記吐出孔(38)は、略三日月状
断面を有する流路でもって前記駆動力伝達機構部(20)の
ケーシング(21)と連通しており、従って、前記吐出孔(3
8)は、駆動力伝達機構部(20)のケーシング(21)内の吐出
流路(29)を介して、前記基台(11)に形成した吐出口(13)
と連通する。
As shown in FIGS. 2 and 4, the casing (31) has a suction hole (37) provided near the inner peripheral wall of the lower end wall surface.
And a discharge hole (38) provided near the inner peripheral wall of the upper end wall surface, and these suction hole (37) and discharge hole (38) are 180 ° in phase with respect to the rotation axis of the gear-shaped rotor (32). It is formed in a shifted state. The discharge hole (38) communicates with the casing (21) of the driving force transmission mechanism section (20) through a flow path having a substantially crescent-shaped cross section.
8) is a discharge port (13) formed in the base (11) via a discharge flow path (29) in the casing (21) of the driving force transmission mechanism (20).
Communicate with.

【0013】前記ケーシング(31)の内壁面は、径方向の
断面形状のうち、前記吸込孔(37)並びに吐出孔(38)の形
成位置近傍においては、カム曲面とし、その間を曲率半
径を異にする円筒とし、全体として滑らかな略円筒面形
状としてある。
The inner wall surface of the casing (31) is a cam curved surface in the vicinity of the formation positions of the suction hole (37) and the discharge hole (38) in the radial cross-sectional shape, and the radius of curvature is different between them. And has a substantially cylindrical surface shape that is smooth as a whole.

【0014】ここで前記ケーシング(31)の内壁面の断面
形状を式で表すと以下のようになる。なお、各式中のθ
は、前記歯車状ローター(32)の回転軸線を中心に、前記
吸込孔(37)及び吐出孔(38)の間に位置する平面から反時
計回りにとった角度である(図4参照)。
Here, the cross-sectional shape of the inner wall surface of the casing (31) is expressed by the following equation. Note that θ in each equation
Is the angle taken counterclockwise from the plane located between the suction hole (37) and the discharge hole (38) around the rotation axis of the gear-shaped rotor (32) (see FIG. 4).

【0015】 式1:X2 +Y2 =R1 2 ( 0°≦θ≦ 45°,315°≦θ≦360°) 式2:X2 +Y2 =(R1 −(θ−A)2 /B22 ( 45゜≦θ≦ 90°,270゜≦θ≦315°) 式3:X2 +Y2 =(R2 −(180−A−θ)2 /B22 ( 90°≦θ≦135°,225°≦θ≦270°) 式4:X2 +Y2 =R2 2 (135°≦θ≦225°)Formula 1: X 2 + Y 2 = R 1 2 (0 ° ≦ θ ≦ 45 °, 315 ° ≦ θ ≦ 360 °) Formula 2: X 2 + Y 2 = (R 1 − (θ−A) 2 / B 2 ) 2 (45 ° ≦ θ ≦ 90 °, 270 ° ≦ θ ≦ 315 °) Formula 3: X 2 + Y 2 = (R 2 − (180−A−θ) 2 / B 2 ) 2 (90 ° ≦ θ ≦ 135 °, 225 ° ≦ θ ≦ 270 °) Formula 4: X 2 + Y 2 = R 2 2 (135 ° ≦ θ ≦ 225 °)

【0016】このように、前記ケーシング(31)の内壁面
の断面形状を前記の数式で決定される曲面とすることに
より、歯車状ローター(32)の回転による隣り合うベーン
(33)(33)間の容積は、等加速度的に変化し、ポンプ効率
を向上することができる。
Thus, by making the cross-sectional shape of the inner wall surface of the casing (31) a curved surface determined by the above mathematical formula, the adjacent vanes caused by the rotation of the gear-shaped rotor (32).
(33) The volume between (33) changes at constant acceleration, and the pump efficiency can be improved.

【0017】前記歯車状ローター(32)の上部には、駆動
力伝達機構部(20)との接続のための接続孔(36)を設けて
ある。この接続孔(36)は、前記動力伝達軸(22)の接続部
(24)の形状に合せて断面四角形状としてあり、この接続
孔(36)に動力伝達軸(22)の接続部(24)が抜き差し自在、
且つ、回り止め状態で挿入される。
A connection hole (36) for connection with the driving force transmission mechanism (20) is provided in the upper portion of the gear-shaped rotor (32). This connecting hole (36) is a connecting portion of the power transmission shaft (22).
It has a square cross section to match the shape of (24), and the connection part (24) of the power transmission shaft (22) can be inserted and removed freely in this connection hole (36).
Moreover, it is inserted in a non-rotating state.

【0018】前記構成のポンプ装置の機能を図5に示す
具体的な使用例を参照しながら説明する。なお、図示す
る実施例においてはポンプ装置の昇降装置(H) を用いて
あり、この昇降装置(H) は、先端にアーム(51)を設けた
マスト(52),マスト(52)に設けたウインチ機構(53)を備
え、前記ウインチ機構(53)から延びアーム(51)先端から
吊下したワイヤーロープ等の索状体(54)により、前記ポ
ンプ装置の吊金具(12)を利用して支持する構成になって
いる。
The function of the pump device having the above construction will be described with reference to a specific example of use shown in FIG. In the illustrated embodiment, the lifting device (H) of the pump device is used, and the lifting device (H) is provided on the mast (52) having the arm (51) at the tip and the mast (52). With a winch mechanism (53), a cord (54) such as a wire rope that extends from the winch mechanism (53) and is hung from the tip of the arm (51) by using the hanging metal fitting (12) of the pump device. It is configured to support.

【0019】先ず、前記昇降装置(H) の所定位置にドラ
ム缶,ペール缶等の液体収納容器(B) を載置する。
First, a liquid storage container (B) such as a drum can or a pail can is placed at a predetermined position of the lifting device (H).

【0020】次に、前記昇降装置(H) のウィンチ機構(5
3)を作動させ、竪型ポンプ装置のポンプ機構部(30)を液
体収納容器(B) の上部開口部から内部に挿入する。
Next, the winch mechanism (5) of the lifting device (H)
3) is operated to insert the pump mechanism section (30) of the vertical pump device into the inside of the liquid storage container (B) through the upper opening.

【0021】この状態で、ポンプ機構部(30)は、収納容
器(B) 内の液体の水位より下に位置するため、呼び水操
作をしなくとも、ポンプ機構部(30)内には、容器(B) 内
の液体の水位と同等になるまで自然に液体が流入する。
In this state, the pump mechanism section (30) is located below the water level of the liquid in the storage container (B), so that the pump mechanism section (30) can be placed in the container without the priming operation. The liquid naturally flows in until it reaches the water level of the liquid in (B).

【0022】この状態で、前記駆動機構部(10)を稼動す
ると、この駆動力は駆動力伝達機構部(20)を介してポン
プ機構部(30)に伝達される。そして、歯車状ローター(3
2)の回転によりベーン(33)(33)が一体に回転し、この回
転に伴う隣り合うベーン(33)(33)間の容積変化によりポ
ンプ作用を行う。
When the drive mechanism section (10) is operated in this state, this drive force is transmitted to the pump mechanism section (30) via the drive force transmission mechanism section (20). Then, the gear-shaped rotor (3
The rotation of 2) causes the vanes (33) and (33) to rotate integrally, and the volume change between the adjacent vanes (33) and (33) accompanying this rotation causes a pump action.

【0023】ここで、前記ポンプ機構部(30)の稼動状態
において、ポンプ機構部(30)の下端部は、実質的に液体
収納容器(B) の内部底面に当接しており、この下端部に
設けた突出部(39)により、ポンプ機構部(30)の先端が液
体収納容器(B) の底面と密接して吸込孔(37)が塞がれる
のを防止しており、この突出部(39)によって形成された
隙間を介してポンプ機構部(30)の吸込孔(37)から本体内
に流入する。また、この時、前記歯車状ローター(32)の
回転中心軸と動力伝達軸(22)の軸線とが同軸上に位置し
ていない場合、例えば、前記動力伝達軸(22)が、曲って
いたり、前記モーター軸(14)と前記歯車状ローター(32)
の軸線方向が一致していないような場合においても、前
記歯車状ローター(32)の接続孔(36)と動力伝達軸(22)の
接続部(24)とが抜き差し自在、且つ、回り止め状態で係
合されているため、前記動力伝達軸(22)の撓みを利用し
て有効に動力が伝達される。
Here, in the operating state of the pump mechanism portion (30), the lower end portion of the pump mechanism portion (30) substantially abuts the inner bottom surface of the liquid storage container (B). The protrusion (39) provided at the bottom prevents the tip of the pump mechanism (30) from coming into close contact with the bottom surface of the liquid storage container (B) and blocking the suction hole (37). It flows into the main body from the suction hole (37) of the pump mechanism section (30) through the gap formed by the (39). Further, at this time, when the rotation center axis of the gear-shaped rotor (32) and the axis of the power transmission shaft (22) are not coaxially located, for example, the power transmission shaft (22) is bent or , The motor shaft (14) and the gear-shaped rotor (32)
Even when the axial directions of the gears do not match, the connection hole (36) of the gear-shaped rotor (32) and the connection portion (24) of the power transmission shaft (22) can be freely inserted and removed, and the rotation prevention state , The power is effectively transmitted by utilizing the bending of the power transmission shaft (22).

【0024】そして前記駆動機構部(10)から駆動力を与
えられたベーン(33)(33)の回転により、ポンプ機構部(3
0)は液体を吐出孔(38)より排出する。この吐出孔(38)か
ら出た液体は、前記駆動力伝達機構部(20)のケーシング
(21)内の吐出流路(29)を通って基台(11)の吐出口(13)か
ら外部に導き出される。
Then, the vane (33) (33), which is given a driving force from the driving mechanism (10), is rotated to rotate the pump mechanism (3).
0) discharges the liquid from the discharge hole (38). The liquid discharged from the discharge hole (38) is the casing of the driving force transmission mechanism (20).
It is guided to the outside from the discharge port (13) of the base (11) through the discharge flow path (29) in the (21).

【0025】前記のポンプ作用において、ポンプ機構部
(30)のケーシング(31)の断面形状の一部を非円筒面形状
をなすカム形状に形成したことにより容積変化率を一定
にすることができるため安定した送液を行うことができ
る。
In the above pump action, the pump mechanism section
By forming a part of the cross-sectional shape of the casing (31) of (30) into a cam shape having a non-cylindrical surface shape, the volume change rate can be made constant, so that stable liquid transfer can be performed.

【0026】この後は、前記昇降装置(H) によって竪型
ポンプ装置を吊り上げ、液体収納容器(B) を搬出すれば
よい。
After that, the vertical pump device may be lifted by the elevating device (H) and the liquid storage container (B) may be carried out.

【0027】なお、前記の実施例においては、昇降装置
(H) を竪型ポンプ装置を吊り下げる形式のものとした
が、この発明においては、このような形式の以外のも
の、例えば、シリンダ機構を用いて、竪型ポンプ装置を
支持したアームを昇降させる形式の昇降装置でもよい。
また、前記の実施例において、ポンプ機構部(30)の歯車
状ローター(32)は可撓性を有するベーン(33)(33)を一体
に設けたものとしたが、図6に示すような歯車形状のも
のであってもよい。なお、この図に示すポンプ機構部(3
0)は、ケーシング(21)も歯車状とした内接式歯車ポンプ
としてある。
In the above embodiment, the lifting device
Although (H) is of a type in which the vertical pump device is suspended, in the present invention, other than this type, for example, a cylinder mechanism is used to raise and lower the arm supporting the vertical pump device. A lifting device of the type that allows it may be used.
Further, in the above embodiment, the gear-shaped rotor (32) of the pump mechanism portion (30) is integrally provided with the flexible vanes (33) and (33), as shown in FIG. It may be gear-shaped. In addition, the pump mechanism section (3
0) is an internal gear pump in which the casing (21) is also gear-shaped.

【0028】[0028]

【発明の効果】以上説明したようにこの発明に係る竪型
ポンプ装置によれば、ポンプ内や吸込み側配管中のエア
抜き操作,呼び水操作無しで低速回転で容器の小孔から
高粘度の液体を移送することが可能となった。特に粘度
の高い液体は従来方法では移送できなかったが、この発
明により可能となり、ポンプ吸込み側配管が不要になっ
た。更に、直接小孔にポンプ機構部を差込んで使用する
従来形式のポンプ、例えば、一軸偏心ねじポンプなどと
比べて構造が簡単で低コストのポンプを提供できる。
As described above, according to the vertical pump device according to the present invention, a high-viscosity liquid is discharged from the small hole of the container at low speed rotation without air bleeding operation in the pump or in the suction side pipe and priming operation. Can be transferred. Although a liquid having a particularly high viscosity could not be transferred by the conventional method, this invention makes it possible and the pump suction side piping is not required. Further, it is possible to provide a low-cost pump having a simple structure as compared with a conventional type pump in which a pump mechanism portion is directly inserted into a small hole for use, for example, a uniaxial eccentric screw pump.

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

【図1】この発明に係る竪型ポンプ装置の一実施例を示
す縦断面図である。
FIG. 1 is a longitudinal sectional view showing an embodiment of a vertical pump device according to the present invention.

【図2】動力伝達機構部とポンプ機構部を示す図1のA
部矢視拡大断面図である。
FIG. 2A in FIG. 1 showing a power transmission mechanism section and a pump mechanism section
FIG.

【図3】ポンプ機構部の要部拡大分解斜視図である。FIG. 3 is an enlarged perspective exploded view of a main part of a pump mechanism section.

【図4】図1のB−B線に沿う横断面図である。4 is a cross-sectional view taken along the line BB in FIG.

【図5】この発明に係る竪型ポンプ装置の使用形態の一
例を説明するための概略側面図である。
FIG. 5 is a schematic side view for explaining an example of usage of the vertical pump device according to the present invention.

【図6】この発明に係る竪型ポンプ装置の他の実施例を
示す概略横断面図である。
FIG. 6 is a schematic cross-sectional view showing another embodiment of the vertical pump device according to the present invention.

【符号の説明】 (10) 駆動機構部 (13) 吐出口 (20) 駆動力伝達機構部 (22) 動力伝達軸 (29) 吐出流路 (30) ポンプ機構部 (31) ケーシング (32) 歯車状ローター (33) ベーン (37) 吸込孔 (38) 吐出孔[Explanation of symbols] (10) Drive mechanism section (13) Discharge port (20) Driving force transmission mechanism section (22) Power transmission shaft (29) Discharge passage (30) Pump mechanism section (31) Casing (32) Gear Rotor (33) vane (37) suction hole (38) discharge hole

───────────────────────────────────────────────────── フロントページの続き (56)参考文献 実開 平1−108384(JP,U) 実開 昭60−118393(JP,U) 実開 昭59−41680(JP,U) 実開 昭49−142603(JP,U) 実開 平4−6795(JP,U) 英国特許1113142(GB,A) ─────────────────────────────────────────────────── ─── Continuation of the front page (56) Bibliography Flat 1-108384 (JP, U) Real development Sho 60-118393 (JP, U) Real development Sho 59-41680 (JP, U) Real development Sho 49- 142603 (JP, U) Actually open 4-6795 (JP, U) British patent 1113142 (GB, A)

Claims (1)

【特許請求の範囲】[Claims] 【請求項1】 駆動機構部(10),駆動力伝達機構部(2
0),並びにポンプ機構部(30)を備え、このポンプ機構部
(30)を液中に埋没させて使用する竪型ポンプ装置であっ
て、前記駆動力伝達機構部(20)の内部に軸線方向に沿う吐出
流路(29)を形成して、この吐出流路(29)内に動力伝達軸
(22)を配置し、 前記ポンプ機構部(30)を前記駆動力伝達機構部(20)の軸
線方向と略同一となるように配置して、このポンプ機構
部(30)のケーシング(31)内部に歯車状ローター(32)を偏
心させて収容し、 このケーシング(31)の軸方向の一側端面部分に吸込孔(3
7)を設けると共に、他方の端面部分に吐出孔(38)を設
け、吐出孔(38)を吐出流路(29)と連通させると共に、こ
の吐出流路(29)の駆動機構部(10)寄り部分に吐出口(13)
を開口させ、 前記動力伝達軸(22)の先端を、前記歯車状ローター(32)
の上端に、抜き差し自在な状態で、かつ、回り止めした
状態で接続したことを特徴とする竪型ポンプ装置。
1. A drive mechanism section (10), a drive force transmission mechanism section (2
0) and the pump mechanism section (30)
A vertical pump device for use by immersing (30) in a liquid, the discharge being along the axial direction inside the driving force transmission mechanism part (20).
A flow path (29) is formed, and a power transmission shaft is formed in this discharge flow path (29).
(22) is arranged, and the pump mechanism section (30) is connected to the shaft of the driving force transmission mechanism section (20).
This pump mechanism is arranged so that it is almost the same as the line direction.
Install the gear-shaped rotor (32) inside the casing (31) of the part (30).
The casing (31) is housed so that the suction hole (3
7) and the discharge hole (38) on the other end.
In addition to connecting the discharge hole (38) with the discharge flow path (29),
Discharge port (13) near the drive mechanism (10) of the discharge flow path (29)
To open the end of the power transmission shaft (22), the gear-shaped rotor (32)
At the top end of the
Vertical pump device characterized by being connected in a state.
JP4079365A 1992-02-28 1992-02-28 Vertical pump device Expired - Lifetime JPH07122433B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP4079365A JPH07122433B2 (en) 1992-02-28 1992-02-28 Vertical pump device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP4079365A JPH07122433B2 (en) 1992-02-28 1992-02-28 Vertical pump device

Publications (2)

Publication Number Publication Date
JPH06288357A JPH06288357A (en) 1994-10-11
JPH07122433B2 true JPH07122433B2 (en) 1995-12-25

Family

ID=13687860

Family Applications (1)

Application Number Title Priority Date Filing Date
JP4079365A Expired - Lifetime JPH07122433B2 (en) 1992-02-28 1992-02-28 Vertical pump device

Country Status (1)

Country Link
JP (1) JPH07122433B2 (en)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP4577725B2 (en) * 2006-08-03 2010-11-10 株式会社オーティ・マットー Oil supply device
GB2570522B (en) * 2018-02-16 2020-05-20 Tcs Micropumps Ltd Pump apparatus

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB1113142A (en) 1965-11-10 1968-05-08 Rau Swf Autozubehoer A powered liquid pump arrangement, for example for windscreen washing installations of automotive vehicles

Family Cites Families (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5941680U (en) * 1982-09-10 1984-03-17 株式会社コロナ fuel pump
JPS60118393U (en) * 1984-01-18 1985-08-10 西田鉄工株式会社 electric oil pump
JPH01108384U (en) * 1988-01-16 1989-07-21

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB1113142A (en) 1965-11-10 1968-05-08 Rau Swf Autozubehoer A powered liquid pump arrangement, for example for windscreen washing installations of automotive vehicles

Also Published As

Publication number Publication date
JPH06288357A (en) 1994-10-11

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