Actuator and zone valve
First Claim
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1. An actuator mechanism for a zone valve for a hydronic system, comprising:
- a support structure;
a torque producing member mounted on said support structure;
a rotatable shaft with a coupling at one end for making a connection to said zone valve;
a torque transfer segment having one end coupled to said shaft;
a hinge member rotatably coupled to said torque transfer segment at a location radially outward from said shaft; and
a tension spring coupled at one end to said support structure and at the other to said hinge member, said tension spring working in conjunction with said hinge member to provide a restoring torque to said shaft, said restoring torque being equal to the product of the spring force and an effective moment arm,wherein the spring, hinge member, and torque transfer segment are configured so that the effective moment arm varies inversely with the force of the spring to reduce variation in said restoring torque over an angular range of movement of said shaft of at least about 90 degrees.
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Accused Products
Abstract
A zone valve for a hydronic system (either heating or cooling) in which a motor-driven actuator rotates a ball valve through approximately 90°, between closed and opened positions. The ball valve provides lower flow resistance than that of conventional heat-motor and motorized zone valves, allowing the use of lower rated pumps, and allowing a single size valve to serve most applications. A restoring torque is provided by a tension spring so configured that it provides sufficient restoring torque to overcome the frictional torque of the ball valve. The restoring torque is kept from building up during rotation by configuring the spring in such a manner that its force varies inversely with the effective moment arm. The restoring torque varies by no more than 20% (preferably no more than 10%) during rotation of the ball valve. This assures that enough torque is always available to restore the valve to its closed (or open, in a normally open case) position, after the motor is de-energized, but that there is not too much torque for the motor to overcome when it moves the valve into the open position.
33 Citations
7 Claims
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1. An actuator mechanism for a zone valve for a hydronic system, comprising:
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a support structure; a torque producing member mounted on said support structure; a rotatable shaft with a coupling at one end for making a connection to said zone valve; a torque transfer segment having one end coupled to said shaft; a hinge member rotatably coupled to said torque transfer segment at a location radially outward from said shaft; and a tension spring coupled at one end to said support structure and at the other to said hinge member, said tension spring working in conjunction with said hinge member to provide a restoring torque to said shaft, said restoring torque being equal to the product of the spring force and an effective moment arm, wherein the spring, hinge member, and torque transfer segment are configured so that the effective moment arm varies inversely with the force of the spring to reduce variation in said restoring torque over an angular range of movement of said shaft of at least about 90 degrees.
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2. An actuator mechanism for a flue damper for the exhaust flue of a furnace, comprising:
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a support structure; a torque producing member mounted on said support structure; a rotatable shaft with a coupling at one end for making a connection to said flue damper; a torque transfer segment having one end coupled to said shaft; a hinge member rotatably coupled to said torque transfer segment at a location radially outward from said shaft; and a tension spring coupled at one end to said support structure and at the other to said hinge member, said tension spring working in conjunction with aid hinge member to provide a restoring torque to said shaft, said restoring torque being equal to the product of the spring force and an effective moment arm, wherein the spring, hinge member, and torque transfer segment are configured so that the effective moment arm varies inversely with the force of the spring to reduce variation in said restoring torque over an angular range of movement of said shaft of at least about 90 degrees.
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3. An actuator mechanism for a heating system valve, for actuating said valve between first and second positions (e.g., opened and closed positions), comprising:
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a support structure; a rotatable shaft with a coupling at one end for making a connection to said valve; a torque transfer segment coupled to said shaft; a motor and gear elements mounted on said support structure, said motor and gear elements providing a driving torque for rotating said torque transfer segment and thereby rotating said shaft in a forward direction from said first to said second position; a spring mounted on said support structure and coupled to said torque transfer segment, so that said spring and torque transfer segment provide a restoring torque tending to rotate said shaft in a reverse direction; wherein said gear elements are so configured and so engage said torque transfer segment that, when said restoring torque is rotating said shaft in a reverse direction, said motor is driven in a reverse direction at least until said valve has returned to said first position, and, thereafter, said gear elements and said torque transfer segment disengage said motor from said shaft for a period of time to avoid an abrupt cessation of rotation of said motor. - View Dependent Claims (4, 5, 6)
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7. An actuator mechanism for a heating system valve, comprising:
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a support structure; a torque producing member mounted on said support structure; a rotatable shaft with a coupling at one end for making a connection to said valve; a torque transfer segment having one end coupled to said shaft; a hinge member rotatably coupled to said torque transfer segment at a location radially outward from said shaft; and a tension spring coupled at one end to said support structure and at the other to said hinge member, said tension spring working in conjunction with said hinge member to provide a restoring torque to said shaft, said restoring torque being equal to the product of the spring force and an effective moment arm, wherein the spring, hinge member, and torque transfer segment are configured so that the effective moment arm varies inversely with the force of the spring to reduce variation in said restoring torque to less than 10% over an angular range of movement of said shaft of at least about 90 degrees.
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Specification
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Current AssigneeTaco, Inc.
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Original AssigneeTaco, Inc.
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InventorsGiordani, Attilio G.
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Primary Examiner(s)Rosenthal, Arnold
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Application NumberUS07/827,725Time in Patent Office335 DaysField of Search251/129.03, 251/129.12, 251/129.11US Class Current251/129.03CPC Class CodesF16K 31/045 with torque limiters
