【発明の詳細な説明】
0)産業上の利用分野
流体機器用ポンプ又はモーターの構造用ベーンの分野
(ロ)従来の技術
公知の流体用ポンプ又はモーターのベーンそれ自体は弾
性も伸縮性も有せず
(ハ)発明が解決しようとする問題点
流体用ポンプ又はモーターに伸縮ベーンな用い構造を簡
素小型化し両者を同一形状とするに有り(ニ)問題点を
解決しようとする手段
第1図に示す3回転派体室と40−ターとの間にEの変
心あるためベーンを弾性屈稜製とし両者が回転出来る様
にして動作流体の吸入及び圧縮なポンプの場合に他面圧
力流体を受は入れることによりモーターとして作動する
様にした以下図面を用い之を詳記する
第1図は本発明の全容を示すもので1は本体2は伸縮ベ
ーンであり第4図又は第5図に示すもの2等は何れも3
回転流体室筒孔Aと4のローター取付部Bに装着する而
して第2図5動輪を40−ターに差込み6及7支持蓋板
に装着後体体C取付孔を用い組立てる6蓋板にはDFの
流体通路用パイプ取付孔を有し吸込みと圧送の用をなさ
しむ故に本機は何等構造を変えることなく動作流体を吸
込みポンプとな9圧力流体を受ける場合はモーターとな
る
第2図は平面図で5作動軸にはGHの断面方形部ありG
は1部円形断面に内接Hは之に外接する大きさとするJ
は機の取付ボルト孔であるDFは既述の通9動作流体の
吸入及び吐出孔KLは5動軸支持部である
第3図は6支持蓋板でDは流体パイプ取付孔Mは体体之
の取付孔Nは流体流通部を示す第4J!Iは金属性伸縮
ベーンでO部を3のAと4のB取付部に挿入する
第5111はゴム製ベーンで前述ベーンと同一目的のも
のである尚ゴム質様の弾性材料を用いる場合は2ベーン
3wi転流体室40ーターを1体に製し構造の簡素化が
出来る
(ホ)作用
公知のベーンは遠心力によりカム壁に圧接摺動するので
動力損失あるも本発明ベーンは3回転流体室に取付けら
れ同転するので動力損失少く一方ベーンの伸縮性に伴い
40−ターを公知のものよや小型となし得るのである
(へ)発明の効果
ベーンが伸縮するので公知の流体ポンプ又はモーター・
こ比し前述の様に小型化可能であり且っ容積型であるの
で低速回転にありても相等圧力の発生可能なりDetailed Description of the Invention 0) Industrial application field Field of structural vanes for pumps or motors for fluid equipment (b) The vanes themselves of conventionally known fluid pumps or motors have elasticity and elasticity. (c) The problem to be solved by the invention. Means to solve the problem by simplifying and downsizing the structure of the fluid pump or motor using telescoping vanes and making them both have the same shape. Since there is an eccentricity E between the 3-rotation branch chamber and the 40-meter shown in the figure, the vane is made of elastic ridges so that both can rotate, and in the case of a pump that sucks in and compresses working fluid, the other side pumps pressure fluid. By inserting the receiver, it can be operated as a motor. Figure 1, which will be described in detail using the following drawings, shows the entirety of the present invention. All 2nd prizes shown are 3rd prizes.
Attach it to the rotor attachment part B of the rotary fluid chamber cylinder holes A and 4. Then, as shown in Fig. 2, insert the driving wheel into the 40-tor and attach it to the support cover plates 6 and 7, and then assemble it using the body C attachment hole. It has a pipe installation hole for the DF fluid passage and is used for suction and pressure feeding, so this machine can act as a suction pump for the working fluid without changing the structure. 9. When receiving pressure fluid, it can be used as a motor. The figure is a plan view, and the 5 actuation axis has a rectangular cross section of GH.
is inscribed in one part of the circular cross section.H is the size that is circumscribed in this.
DF is the machine mounting bolt hole DF is the previously mentioned 9 working fluid suction and discharge hole KL is the 5 moving shaft support part Figure 3 is the 6 support cover plate D is the fluid pipe mounting hole M is the body This mounting hole N is the 4th J which indicates the fluid circulation part! No. 5111 is a rubber vane, which has the same purpose as the vane mentioned above. If a rubber-like elastic material is used, 2. The structure can be simplified by making 3 vanes and 40 rotary fluid chambers in one body. Since the vanes are attached to the pump and rotate at the same time, there is little power loss.On the other hand, due to the elasticity of the vanes, the 40-meter can be made smaller than the known ones. (F) Effects of the Invention Since the vanes are elastic, the 40-meter can be made smaller than the known fluid pumps or motors.
In comparison, as mentioned above, it can be made smaller and since it is a positive displacement type, it is possible to generate equivalent pressure even at low speed rotation.
【図面の簡単な説明】[Brief explanation of the drawing]
第1図は本発明機器の全容を第2wiはその平面図を第
3図は支持蓋板を第4図は金属製第5図はゴム製ベーン
を示す
以上
区 1
ソビヘ ス −
11悶 へFigure 1 shows the entire device of the present invention, Figure 2 shows its plan view, Figure 3 shows the support cover plate, Figure 4 shows the metal, and Figure 5 shows the rubber vanes.