Variable orifice flow sensor
First Claim
1. A variable orifice flow sensor, of the type including a flow conduit member defining a flow orifice and fluidly connecting first and second fluid flow ports, a flapper with a pressure sensing tap on either side thereof, said flapper made of a magnetizable metal and mounted in the conduit member by a hinge portion so that the flapper angularly deflects out of the plane of the orifice in response to fluid flow through the conduit member to vary the effective fluid flow cross-sectional area of the orifice in proportion to the flow rate of fluid through the conduit member, and wherein a zero flow gap is defined between the flapper and the conduit member when there is no fluid flow through the orifice, wherein the improvement comprises:
- a) a deflection-limiting surface in the conduit member adjacent the hinge portion against which the hinge portion abuts when the flapper experiences an angular deflection at least equal to a predefined angle in response to a fluid flow rate that is at least equal to a predetermined value; and
b) a magnetic element in the conduit member adjacent the flapper, the magnetic element being located and configured so as to generate a magnetic field that forces the flapper into a position that tends to minimize the zero flow gap.
2 Assignments
0 Petitions
Accused Products
Abstract
A variable orifice flow sensor includes a flow conduit member defining a flow orifice and fluidly connecting first and second fluid flow ports, a flapper of magnetizable sheet metal that is mounted in the conduit member by a hinge portion so that the flapper angularly deflects out of the plane of the orifice in response to fluid flow through the conduit member to vary the effective fluid flow cross-sectional area of the orifice in proportion to the flow rate of fluid through the conduit member, and a pressure sensing tap on either side of the flapper. A deflection-limiting surface is provided in the conduit member adjacent the hinge portion. The hinge portion abuts against the deflection-limiting surface when the flapper experiences an angular deflection at least equal to a predefined angle in response to a fluid flow rate that is at least equal to a predetermined value, whereby overstressing of the hinge portion is minimized. In addition, at least one magnet is provided in the conduit member adjacent the flapper, whereby the magnet generates a magnetic field that acts on the flapper so as to force it into a position that tends to minimize the zero flow gap that exists between the flapper and the portion of the conduit member that defines the fluid flow orifice when there is no fluid flow through the orifice.
127 Citations
34 Claims
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1. A variable orifice flow sensor, of the type including a flow conduit member defining a flow orifice and fluidly connecting first and second fluid flow ports, a flapper with a pressure sensing tap on either side thereof, said flapper made of a magnetizable metal and mounted in the conduit member by a hinge portion so that the flapper angularly deflects out of the plane of the orifice in response to fluid flow through the conduit member to vary the effective fluid flow cross-sectional area of the orifice in proportion to the flow rate of fluid through the conduit member, and wherein a zero flow gap is defined between the flapper and the conduit member when there is no fluid flow through the orifice, wherein the improvement comprises:
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a) a deflection-limiting surface in the conduit member adjacent the hinge portion against which the hinge portion abuts when the flapper experiences an angular deflection at least equal to a predefined angle in response to a fluid flow rate that is at least equal to a predetermined value; and b) a magnetic element in the conduit member adjacent the flapper, the magnetic element being located and configured so as to generate a magnetic field that forces the flapper into a position that tends to minimize the zero flow gap. - View Dependent Claims (2, 3, 4, 5)
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6. A variable orifice flow sensor, of the type including a flow conduit member defining a flow orifice and fluidly connecting first and second fluid flow ports, a magnetizable metal flapper that is mounted in the conduit member by a hinge portion so that a zero-flow gap is defined between the flapper and the conduit member when there is no fluid flow through the orifice and so that the flapper angularly deflects out of the plane of the orifice in response to fluid flow through the conduit member to vary the effective fluid flow cross-sectional area of the orifice in proportion to the flow rate of fluid through the conduit member, and a pressure sensing tap on either side of the flapper, wherein the improvement comprises:
a magnetic element in the conduit member adjacent the flapper, the magnetic element being located and configured so as to generate a magnetic field that forces the flapper into a position that tends to minimize the zero flow gap. - View Dependent Claims (7, 8, 9, 10, 11, 12, 13, 14)
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15. A variable orifice flow sensor, of the type including a flow conduit member defining a flow orifice and fluidly connecting first and second fluid flow ports, a flapper that is mounted in the conduit member by a hinge portion so that the flapper angularly deflects out of the plane of the orifice in response to fluid flow through the conduit member to vary the effective fluid flow cross-sectional area of the orifice in proportion to the flow rate of fluid through the conduit member, and a pressure sensing tap on either side of the flapper, wherein the improvement comprises:
a deflection-limiting surface in the conduit member adjacent the hinge portion against which the hinge portion abuts when the flapper experiences an angular deflection at least equal to a predefined angle in response to a fluid flow rate that is at least equal to a predetermined value, and further wherein a zero flow gap is defined between the flapper and the conduit member when there is no fluid flow through the orifice, wherein the flapper is made of a magnetizable metal, and wherein a magnetic element in the conduit member is adjacent the flapper, the magnetic element being located and configured so as to generate a magnetic field that forces the flapper into a position that tends to minimize the zero flow gap. - View Dependent Claims (16, 17, 18, 19)
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20. A variable orifice flow sensor, of the type including a flow conduit member defining a flow orifice and fluidly connecting first and second fluid flow ports, a flapper that is mounted in the conduit member by a hinge portion so that the flapper angularly deflects out of the plane of the orifice in response to fluid flow through the conduit member to vary the effective fluid flow cross-sectional area of the orifice in proportion to the flow rate of fluid through the conduit member, and a pressure sensing tap on either side of the flapper, wherein the improvement comprises:
a deflection-limiting surface in the conduit member defined by a support plate depending from the conduit member adjacent the hinge portion against which the hinge portion abuts when the flapper experiences an angular deflection at least equal to a predefined angle in response to a fluid flow rate that is at least equal to a predetermined value, and further wherein a zero flow gap is defined between the flapper and the conduit member when there is no fluid flow through the orifice, wherein the flapper is made of a magnetizable metal, and wherein a magnetic element in the conduit member is adjacent the flapper, the magnetic element being located and configured so as to generate a magnetic field that forces the flapper into a position that tends to minimize the zero flow gap. - View Dependent Claims (21, 22, 23, 24)
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25. A variable orifice flow sensor, of the type including a flow conduit member defining a flow orifice and fluidly connecting first and second fluid flow ports, a flapper that is mounted in the conduit member by a hinge portion so that the flapper angularly deflects out of the plane of the orifice in response to fluid flow through the conduit member to vary the effective fluid flow cross-sectional area of the orifice in proportion to the flow rate of fluid through the conduit member, and a pressure sensing tap on either side of the flapper, wherein the improvement comprises:
a deflection-limiting surface in the conduit member adjacent the hinge portion against which the hinge portion abuts when the flapper experiences an angular deflection at least equal to a predefined angle in response to a fluid flow rate that is at least equal to a predetermined value, with said deflection-limiting surface defined by a support plate depending from the conduit member adjacent the hinge portion and comprising a pair of deflection-limiting surfaces defined by a pair of support plates depending from the conduit member adjacent the hinge portion and being separated by an angled notch, and further wherein a zero flow gap is defined between the flapper and the conduit member when there is no fluid flow through the orifice, wherein the flapper is made of a magnetizable metal, and wherein a magnetic element in the conduit member is adjacent the flapper, the magnetic element being located and configured so as to generate a magnetic field that forces the flapper into a position that tends to minimize the zero flow gap. - View Dependent Claims (26, 27, 28, 29)
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30. A variable orifice flow sensor, of the type including a flow conduit member defining a flow orifice and fluidly connecting first and second fluid flow ports, a flapper that is mounted in the conduit member by a hinge portion so that the flapper angularly deflects out of the plane of the orifice in response to fluid flow through the conduit member to vary the effective fluid flow cross-sectional area of the orifice in proportion to the flow rate of fluid through the conduit member, and a pressure sensing tap on either side of the flapper, wherein the improvement comprises:
a deflection-limiting surface in the conduit member adjacent the hinge portion against which the hinge portion abuts when the flapper experiences an angular deflection at least equal to a predefined angle in response to a fluid flow rate that is at least equal to a predetermined value, with said deflection-limiting surface defined by a support plate depending from the conduit member adjacent the hinge portion and comprising a pair of deflection-limiting surfaces defined by a pair of support plates depending from the conduit member adjacent the hinge portion and being separated by an angled notch, and with the hinge portion connected to the conduit member by a pivot member having an axial dimension and wherein the notch has an apex along a line that is perpendicular to the axial dimension of the pivot member, and further wherein a zero flow gap is defined between the flapper and the conduit member when there is no fluid flow through the orifice, wherein the flapper is made of a magnetizable metal, and wherein a magnetic element in the conduit member is adjacent the flapper, the magnetic element being located and configured so as to generate a magnetic field that forces the flapper into a position that tends to minimize the zero flow gap. - View Dependent Claims (31, 32, 33, 34)
Specification