A control valve is provided, in particular for metering in a fluid for a delivery pump which is arranged downstream. The control valve has a flow channel, an axially movable valve needle, and a valve element which can be loaded by the valve needle in an opening direction and is arranged in the flow
A control valve is provided, in particular for metering in a fluid for a delivery pump which is arranged downstream. The control valve has a flow channel, an axially movable valve needle, and a valve element which can be loaded by the valve needle in an opening direction and is arranged in the flow channel. If the valve element is actuated in the opening direction by the valve needle, the fluid can flow back through the flow channel at least temporarily counter to the opening direction of the valve element. Upstream of the valve element as viewed in the backflow direction, the flow channel has a fluidically active shield which keeps the backflow at least partially free of a face of the valve element.
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1. A control valve, in particular for metering a fluid for a delivery pump arranged downstream, having a flow channel, an axially movable valve needle, and a valve element that can be urged in an opening direction by the valve needle and is disposed in the flow channel, and when the valve element is
1. A control valve, in particular for metering a fluid for a delivery pump arranged downstream, having a flow channel, an axially movable valve needle, and a valve element that can be urged in an opening direction by the valve needle and is disposed in the flow channel, and when the valve element is actuated in the opening direction by the valve needle, the flow channel can at least temporarily experience a backflow of the fluid through it counter to the opening direction, wherein the valve element is formed as a valve plate,wherein a fluidically active shield is positioned to keep the backflow at least partly away from a face of the valve element, a fuel-filled fluid chamber being defined radially within the shield,wherein the shield blocks at least a central portion of the face of the valve plate from the backflow and the backflow is directed along a radially outer side the shield, andwherein in an open position of the control valve, the valve plate abuts the central portion of the shield while an annular connector channel is formed connecting the chamber with the flow channel. 2. The control valve according to claim 1, wherein the shield has an encompassing shield portion. 3. The control valve according to claim 2, wherein the shield portion is conical along a region extending up to the valve plate in the backflow direction. 4. The control valve according to claim 3, wherein the shield or at least the shield portion is a molded sheet-metal part. 5. The control valve according to claim 1, wherein the connector channel is formed in at least some regions by an annular gap between the valve element and the shield or the shield portion. 6. The control valve according to claim 2, wherein the shield or at least the shield portion is a molded sheet-metal part. 7. The control valve according to claim 1, wherein the connector channel is formed in at least some regions by at least one opening in the valve element. 8. The control valve according to claim 1, wherein the connector channel extends axially between the flow channel and the fuel-filled fluid chamber. 9. The control valve according to claim 1, wherein at least some elements of the control valve, in particular the valve needle, valve element and/or shield, have a rotationally symmetrical shape. 10. The control valve according to claim 1, wherein the control valve is a quantity control valve for metering fuel in a fuel system of an internal combustion engine. 11. A control valve, in particular for metering a fluid for a delivery pump arranged downstream, having a flow channel, an axially movable valve needle, and a valve element that can be urged in an opening direction by the valve needle and is disposed in the flow channel, and when the valve element is actuated in the opening direction by the valve needle, the flow channel can at least temporarily experience a backflow of the fluid through it counter to the opening direction, wherein a fluidically active shield is positioned to keep the backflow at least partly away from a face of the valve element, a fuel-filled fluid chamber being defined radially within the shield, andwherein a connector channel between the chamber and the flow channel is formed at least in part by a gap between the valve element and the shield, the gap arranged so that fluid flow through the gap is axial, parallel to a center line of the control valve, between the flow channel and the chamber. 12. The control valve according to claim 11, wherein the shield has an encompassing shield portion. 13. The control valve according to claim 12, wherein the shield portion is conical along a region extending up to the valve plate in the backflow direction. 14. The control valve according to claim 13, wherein the shield or at least the shield portion is a molded sheet-metal part. 15. The control valve according to claim 12, wherein the shield or at least the shield portion is a molded sheet-metal part. 16. The control valve according to claim 11, wherein the gap at least partially forming the connector channel is formed is an annular gap. 17. The control valve according to claim 11, wherein at least some elements of the control valve, in particular the valve needle, valve element and/or shield, have a rotationally symmetrical shape. 18. The control valve according to claim 11, wherein the control valve is a quantity control valve for metering fuel in a fuel system of an internal combustion engine. 19. The control valve according to claim 11, wherein the valve element is formed as a valve plate.
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이 특허에 인용된 특허 (11)
Tarr Yul J. ; Stroia Bradlee J. ; Wieland Todd M. ; Sullivan Jeffrey J., Flow balanced spill control valve.
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