Flow regulator
First Claim
1. Flow regulator (1) comprising a regulator housing (2) which has a control peg (4) or control cone in a passage channel (3) encompassed by an annular flow restrictor (5) of elastic material, the flow restrictor (5) defines a control gap (6) between itself and at least one part fixed in the housing, the passage channel having a cross section which is alterable due to deformation of the flow restrictor (5) under a pressure differential formed during through flow, whereby, on the surface area of the at least one part fixed in the housing defining the control gap (6), regulating recesses (7, 8) are provided spaced at a distance from one another and oriented in the through flow direction, wherein the control gap (6) is provided both between the flow restrictor (5) and the inner surface area of the regulator housing defining the passage channel (3) as well as between the flow regulator (5) and the peripheral surface area of the control peg (4) or control cone, and the regulating recesses (7, 8) are provided on the inner surface area of the regulator housing (2) as well as on the peripheral surface area of the control peg (4) or control cone, wherein the regulating recesses have differently shaped cross sections in the region of the flow restrictor (5) and the regulating recesses (8) for responding in lower pressure ranges have a larger aperture width facing the flow restrictor (5) in comparison to the regulating recesses (7) for higher pressure ranges.
2 Assignments
0 Petitions
Accused Products
Abstract
A flow regulator (1) having a regulator housing (2) with a control peg (4) in a passage channel that encompasses an annular flow restrictor (5) made of elastic material. The flow restrictor defines a control gap (6) located between itself and at least one part that is fixed to the housing. The passage cross-section of the gap can be modified by deformation of the flow restrictor resulting from the difference in pressure during cross flow. Spaced recesses (7, 8) oriented in the flow direction are provided in a peripheral direction on the surfaces of the part fixed to the housing defining the control gap (6). The regulation recesses are on the inner surface of the regulator housing (2) and on the peripheral surface of the control peg. The desired flow rate is achieved at comparatively low liquid pressure and remains practically constant in case of increased or fluctuating liquid pressures.
75 Citations
6 Claims
- 1. Flow regulator (1) comprising a regulator housing (2) which has a control peg (4) or control cone in a passage channel (3) encompassed by an annular flow restrictor (5) of elastic material, the flow restrictor (5) defines a control gap (6) between itself and at least one part fixed in the housing, the passage channel having a cross section which is alterable due to deformation of the flow restrictor (5) under a pressure differential formed during through flow, whereby, on the surface area of the at least one part fixed in the housing defining the control gap (6), regulating recesses (7, 8) are provided spaced at a distance from one another and oriented in the through flow direction, wherein the control gap (6) is provided both between the flow restrictor (5) and the inner surface area of the regulator housing defining the passage channel (3) as well as between the flow regulator (5) and the peripheral surface area of the control peg (4) or control cone, and the regulating recesses (7, 8) are provided on the inner surface area of the regulator housing (2) as well as on the peripheral surface area of the control peg (4) or control cone, wherein the regulating recesses have differently shaped cross sections in the region of the flow restrictor (5) and the regulating recesses (8) for responding in lower pressure ranges have a larger aperture width facing the flow restrictor (5) in comparison to the regulating recesses (7) for higher pressure ranges.
Specification