RU2008142373A

RU2008142373A - VALVE PUMP WITH VOLUME CONTROL

Info

Publication number: RU2008142373A
Application number: RU2008142373/06A
Authority: RU
Inventors: Манфред АРНОЛД (DE); Манфред АРНОЛД; Роберт Х. МУИ (CA); Роберт Х. МУИ; Пол М. МОРТОН (CA); Пол М. МОРТОН
Original assignee: Дзе Гейтс Корпорейшн (Us); Дзе Гейтс Корпорейшн
Priority date: 2006-03-27
Filing date: 2007-03-12
Publication date: 2010-05-10
Also published as: BRPI0709186A8; BRPI0709186A2; EP1999373A1; WO2007123607A8; KR20080105168A; CN101443557A; WO2007123607A1; RU2396462C2; CA2647376A1; JP2009531598A; MX2008012455A; BRPI0709186B1; US20070224067A1; AU2007241171A1

Abstract

1. Шиберный насос с объемным регулированием, содержащий ! корпус насоса; ! впускное и выпускное отверстия в корпусе насоса; ! приводной вал, установленный с возможностью вращения в корпусе насоса; ! ротор, выполненный с возможностью приведения в действие приводным валом; ! множество проходящих радиально лопастей, расположенных в роторе с возможностью скольжения; ! ось вращения, расположенную в корпусе насоса; ! шибер, установленный с возможностью поворота на оси вращения и имеющий центральную ось, эксцентричную относительно оси ротора; ! множество камер для текучей среды, образованных ротором, лопастями и шибером, которые последовательно соединены с впускным и выпускным отверстиями; ! пружину, выполненную с возможностью воздействия на шибер для поджатия шибера в одном направлении; ! первую камеру и вторую камеру, каждая из которых выполнена с возможностью восприятия давления текучей среды и расположена между корпусом насоса и наружной поверхностью шибера, при этом первая камера сообщается с давлением на выходе насоса; и ! клапан, выполненный с возможностью избирательного повышения давления во второй камере до давления текучей среды, превышающего давление окружающей атмосферы. ! 2. Насос по п.1, дополнительно содержащий вторую пружину, действующую параллельно с указанной пружиной. ! 3. Насос по п.1, в котором клапан является электрическим и выполнен с возможностью управления посредством электронного блока управления двигателем. ! 4. Насос по п.1, в котором расход на выходе насоса уменьшается при снижении давления во второй камере. ! 5. Насос по п.1, в котором давление во второй камере повышают до уровня, превышаю� 1. A vane pump with volume control containing! pump housing; ! inlet and outlet openings in the pump housing; ! a drive shaft mounted rotatably in the pump housing; ! a rotor configured to be driven by a drive shaft; ! a plurality of radially extending vanes located in the rotor with the possibility of sliding; ! axis of rotation located in the pump housing; ! a gate mounted rotatably on the axis of rotation and having a central axis eccentric with respect to the axis of the rotor; ! a plurality of fluid chambers formed by a rotor, vanes and a gate, which are connected in series with the inlet and outlet openings; ! a spring configured to act on the gate to preload the gate in one direction; ! the first chamber and the second chamber, each of which is configured to receive fluid pressure and is located between the pump housing and the outer surface of the gate, the first chamber communicating with the pressure at the pump outlet; and! a valve configured to selectively increase the pressure in the second chamber to a fluid pressure exceeding the pressure of the surrounding atmosphere. ! 2. The pump according to claim 1, additionally containing a second spring acting in parallel with the specified spring. ! 3. The pump according to claim 1, in which the valve is electric and is configured to be controlled by an electronic engine control unit. ! 4. The pump according to claim 1, in which the flow rate at the pump outlet decreases with a decrease in pressure in the second chamber. ! 5. The pump according to claim 1, in which the pressure in the second chamber is increased to a level exceeding

Claims

1. The vane pump with volumetric regulation, containing

pump housing;

inlet and outlet openings in the pump housing;

a drive shaft mounted rotatably in the pump housing;

a rotor configured to be driven by a drive shaft;

a plurality of radially extending vanes located in the rotor with the possibility of sliding;

axis of rotation located in the pump housing;

a gate mounted rotatably on the axis of rotation and having a central axis eccentric with respect to the axis of the rotor;

a plurality of fluid chambers formed by a rotor, vanes and a gate, which are connected in series with the inlet and outlet openings;

a spring configured to act on the gate to preload the gate in one direction;

the first chamber and the second chamber, each of which is configured to receive fluid pressure and is located between the pump housing and the outer surface of the gate, the first chamber communicating with the pressure at the pump outlet; and

a valve configured to selectively increase the pressure in the second chamber to a fluid pressure exceeding the pressure of the surrounding atmosphere.

2. The pump according to claim 1, additionally containing a second spring acting in parallel with the specified spring.

3. The pump according to claim 1, in which the valve is electric and is configured to be controlled by an electronic engine control unit.

4. The pump according to claim 1, in which the flow rate at the pump outlet decreases with a decrease in pressure in the second chamber.

5. The pump according to claim 1, in which the pressure in the second chamber is increased to a level exceeding the pressure of the surrounding atmosphere at an engine speed below a predetermined engine speed, and reduced to a level equal to the pressure of the surrounding atmosphere at an engine speed exceeding a predetermined speed engine.

6. The pump according to claim 1, in which the first chamber and the second chamber are in fluid communication with the pressure at the pump outlet.

7. The vane pump with volume control, containing

pump housing;

inlet and outlet openings in the pump housing;

a drive shaft mounted rotatably in the pump housing;

a rotor configured to be driven by a drive shaft and coaxially aligned with it;

axis of rotation located in the pump housing;

a gate mounted rotatably on the axis of rotation in the pump housing and having a central axis eccentric with respect to the rotor axis;

a spring configured to act on the gate to preload the gate in one direction;

the first chamber and the second chamber, each of which is in fluid communication with the oil pressure at the pump outlet and is located between the pump housing and the outer surface of the gate; and

a valve configured to operate at a given pump speed, the second chamber being selectively switched between ambient pressure and oil pressure at the pump outlet.

8. The vane pump with volume control, containing

pump housing;

inlet and outlet openings in the pump housing;

a drive shaft mounted rotatably in the pump housing;

a rotor configured to be driven by a drive shaft and coaxially aligned with it;

axis of rotation located in the pump housing;

a spring configured to act on the gate to preload the gate in one direction;

the first chamber and the second chamber, each of which is configured to absorb fluid pressure and is located between the pump housing and the outer surface of the specified gate, while the first chamber is in fluid communication with the pressure at the pump outlet; and

a valve configured to selectively increase and decrease pressure in the second chamber.

9. The pump of claim 8, in which the pressure in the second chamber is increased to a level exceeding the pressure of the surrounding atmosphere at an engine speed below a predetermined engine speed, and reduced to a level equal to the pressure of the surrounding atmosphere at an engine speed exceeding a predetermined speed engine.

10. The pump of claim 8, in which the pressure in the second chamber rises to approximately the pressure at the outlet of the pump.