Modular differential pressure transmitter/manifold for a fluid conveying pipeline
First Claim
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1. A manifold for connecting a differential pressure transmitter to a source of differential pressure, comprising:
- a body having first and second input passageways adapted to be connected to the source of differential pressure, first and second instrument passageways adapted to be connected to an instrument for measuring differential pressure, and an equalizer passageway having first and second ports;
a first valve interposed between the first input passageway, the first instrument passageway and the first port of the equalizer passageway;
the first valve having a first selectable "NORMAL" position wherein the first instrument passageway is connected to the first input passageway and the first port of the equalizer passageway is blocked;
the first valve having a second selectable "ZERO" position wherein the first instrument passageway and the first input passageway is blocked;
a second valve interposed between the second input passageway, the second instrument passageway and the second port of the equalizer passageway;
the second valve having a first selectable "NORMAL" position wherein the second instrument passageway, second input passageway, and second port of the equalizer passageway are open;
the second valve having a second selectable "BLOCKED" position where the second input passageway, the second instrument passageway and the second port of the equalizer passageway are blocked, such that a normal mode is accomplished when both first and second valves are on position "NORMAL", a zero mode is accomplished by moving the first valve to position "ZERO", and then further moving the second valve to the "BLOCKED" position produces an isolation mode; and
the first and second valves being mechanically linked such that said valves co-rotate when the valves are in the "NORMAL" positions and the second valve is rotated to the "BLOCKED" position and when the valves are in the "ZERO" and "BLOCKED" positions and the first valve is rotated to the "NORMAL" position, and the valves are independently rotatable when the valves are in the "NORMAL" position and the first valve is rotated to the "ZERO" position and when the valves are in the "BLOCKED" position and the second valve is rotated to the "NORMAL" position.
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Abstract
A transmitter/manifold with integral transducer for measuring the differential pressure of a fluid conveying pipeline is provided. Valves are arranged to provide automatic sequencing for service functions. Means for heating the transmitter/manifold is provided. Interface modules are provided to provide for adaptability to a variety of user requirements. A sealing arrangement for interface modules is also provided.
49 Citations
5 Claims
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1. A manifold for connecting a differential pressure transmitter to a source of differential pressure, comprising:
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a body having first and second input passageways adapted to be connected to the source of differential pressure, first and second instrument passageways adapted to be connected to an instrument for measuring differential pressure, and an equalizer passageway having first and second ports; a first valve interposed between the first input passageway, the first instrument passageway and the first port of the equalizer passageway; the first valve having a first selectable "NORMAL" position wherein the first instrument passageway is connected to the first input passageway and the first port of the equalizer passageway is blocked; the first valve having a second selectable "ZERO" position wherein the first instrument passageway and the first input passageway is blocked; a second valve interposed between the second input passageway, the second instrument passageway and the second port of the equalizer passageway; the second valve having a first selectable "NORMAL" position wherein the second instrument passageway, second input passageway, and second port of the equalizer passageway are open; the second valve having a second selectable "BLOCKED" position where the second input passageway, the second instrument passageway and the second port of the equalizer passageway are blocked, such that a normal mode is accomplished when both first and second valves are on position "NORMAL", a zero mode is accomplished by moving the first valve to position "ZERO", and then further moving the second valve to the "BLOCKED" position produces an isolation mode; and the first and second valves being mechanically linked such that said valves co-rotate when the valves are in the "NORMAL" positions and the second valve is rotated to the "BLOCKED" position and when the valves are in the "ZERO" and "BLOCKED" positions and the first valve is rotated to the "NORMAL" position, and the valves are independently rotatable when the valves are in the "NORMAL" position and the first valve is rotated to the "ZERO" position and when the valves are in the "BLOCKED" position and the second valve is rotated to the "NORMAL" position. - View Dependent Claims (2, 3, 4, 5)
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Specification
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Current AssigneeAdams, Don L.
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Original AssigneeAdams, Don L.
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InventorsAdams, Don L.
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Primary Examiner(s)Hepperle, Stephen M.
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Application NumberUS07/380,208Time in Patent Office629 DaysField of Search137/597, 137/594, 137/595, 137/637.2, 137/637.3US Class Current137/597CPC Class CodesF16K 11/20 operated by separate actuat...F16L 41/086 fixed with screwsF16L 55/115 Caps F16L55/1286 takes prec...G01L 19/0015 using switching meansY10T 137/87129 RotaryY10T 137/87161 With common valve operatorY10T 137/87249 Multiple inlet with multipl...
