Water pump low pressure cutoff switch

Electricity: circuit makers and breakers – Fluid pressure – Diaphragm

Reexamination Certificate

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C200S08300L

Reexamination Certificate

active

06552284

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates generally to water pumps. More specifically, the invention is a low pressure cutoff switch for water pumps.
2. Description of the Related Art
The related art of interest describes various cutoff switches, but none discloses the present invention. There is a need for automatically terminating the operation of a water pump undergoing low pressure to prevent a possible fire and electrical damage to the water pump. The device is simple in construction, and thus economically low in cost to produce. The related art is discussed in the order of perceived relevance to the present invention.
U.S. Pat. No. 4,180,374 issued on Dec. 25, 1979, to Elliott R. Bristow describes a well pump protection system including a timing device, a first ball check valve, a second check valve, and a third pressure pop-off or gate valve. The first valve utilizes a ball acting on a spring supporting a piston with its shaft supporting a bridge contact plate contacting two separated contacts from an overhead position in a separate conduit. The second check valve utilizes a flat valve and a light spring to lower the bridge contact plate to break contact with the two separated contacts positioned above the contact plate. The first and second valves are distinguishable for confining their contacts in separate housings.
U.S. Pat. No. 5,672,049 issued on Sep. 30, 1997, to Ugo Ciurlo describes an electromechanical device inserted in a water pipe by a union for the protection of a pump in waterworks in the absence of water comprising a branch from an outlet of a pump to a cavity partially delimited by a membrane, a moving rod element or piston in a casing pushed by a spring toward the membrane and capable of yielding under limited water pressure to act on the membrane and moving electrical contacts, and interacting with fixed contacts of a pump supply circuit to enable the pump to be switched on, and off in the absence of pressure acting on the membrane. The device is distinguishable for requiring a piston.
U.S. Pat. No. 2,554,266 issued on May 22, 1951, to Jacob L. Pauly describes a pressure actuated switch for use with oxygen demand regulators comprising a cylindrical housing containing a coil compression spring around a vertical sleeve containing a piston having an upper contact pin for contacting a U-shaped leaf spring having a first movable contact bead contacting a second fixed contact bead located on a vertical electric coupling leaving the housing, and air ports on its bottom abutment plate. The piston has an upper adjustment nut above an external coil compression spring held by a cross pin traversing an elongated slot. A round mounting flange has a water influent port externally threaded for connection to a pipe. A water chamber is formed between the mounting flange having an upper abutment plate and a lower resilient bottom diaphragm. When pressure is applied to the chamber, the contacts are engaged. A fall in pressure within the chamber will permit the spring on the piston to return the piston to its neutral or normal position permitting the contacts of the leaf spring and the stationary contact of the upper coupling to disengage to break the electrical circuit. The device operates between 6 to 25 psi water pressure for oxygen demand regulators. The device is distinguishable for requiring a piston and a spring clamp.
U.S. Pat. No. 3,139,493 issued on Jun. 30, 1964, to Irving W. Krieger, Sr. et al describes a pressure switch with a low pressure cut-out comprising a square housing attached to a threaded water outlet and containing a contact block, a frame assembly, and a vertical rod within a coil spring resting on an actuating lever extending outside the housing. A flexible diaphragm is located between the housing and the water outlet pipe connected to a base of a flat spring member. The device is distinguishable for requiring a contact block, an adjustable coil spring, a flat spring member, and an actuating lever.
U.S. Pat. No. 3,637,326 issued on Jan. 25, 1972, to Winston C. Dowell describes a manual control for a pressure-responsive switch of a submersible motor and a pump comprising a manual control for a pressure-responsive switch that activates a pump without regard to the level of liquid in the tank or sump may be below a predetermined value. The device is distinguishable for requiring manual control of a submersible motor and pump.
U.S. Pat. No. 1,169,305 issued on Jan. 25, 1916, to Walter V. Turner describes an electric pump governor comprising a piston, a cut-in and a cut-out valve piston with each having a cut-in and cut-out position, communication through which fluid is admitted to the control piston being established when the cut-in valve piston is in its cut-out position and the cut-out valve in its cut-in position. The device is distinguishable for requiring three pistons.
U.S. Pat. No. 2,765,743 issued on Oct. 9, 1956, to William H. Hollinshead describes a manual switch control for controlling the circuit of a pump having a resilient impeller. The device is arranged so that when the suction line of the water pump is broken or draws air rather than water, the circuit to the motor will open and the motor will stop with a manual on/off lever in a square casing containing also a pair of fixed contact points and a movable pair of contact points on a plate moved by the lever to break the electrical contact by separation of the contact points. The device is distinguishable for its manual control.
U.S. Pat. No. 2,990,780 issued on Jul. 4, 1961, to Kenneth G. Kreuter describes a water valve for a well pump inserted in the water pipe line comprising upper and lower chambers separated by a wall having a valve element closing the wall opening via a spring on the valve element's shaft. A cam on a rotatable shaft which traverses the pipe acts a stop. The device is distinguishable for its non-electrical control.
U.S. Pat. No. 3,106,894 issued on Oct. 15, 1963, to Odd F. Johnsen describes a pressure operated reduction valve for water supply systems comprising a double acting valve with a primary valve and a secondary valve arranged in parallel and operated by the pressure in a pressure bell. A diaphragm located between the pressure medium in the pressure bell and a chamber kept at water outlet pressure controls the regulating valve. A part of the diaphragm forms the valve seat of the secondary. The valve body is combined with the valve body of the primary valve. A range switch is controlled by the pressure in the pressure bell, and will work in a range determined by the working pressure setting at any time, which pressure in turn controls the regulating valve. The system is distinguishable for requiring a range switch.
U.S. Pat. No. 3,140,819 issued on Jul. 14, 1964, to Joseph E. Coyle describes a vacuum cut-off switch for detecting large leaks in a vacuum system and responding by cutting off the current flow to the vacuum pump motor. The device is distinguishable for its mechanism being responsive to a large leak in a vacuum system.
U.S. Pat. No. 3,141,475 issued on Jul. 21, 1964, and U.S. Pat. No. 3,150,684 to Paul A. Guinard et al. describes a regulating valve for a motorpump controlled by a pressure responsive switch.
U.S. Pat. No. 3,271,971 issued on Sep. 13, 1966, to Erik H. Jensen et al. describes low pressure cut-outs for refrigerant compressors.
U.S. Pat. No. 3,274,940 issued on Sep. 27, 1966, to Robert A. Cottrell describes a pressure control system for the prevention of gas locks for a well pump and for pumps continuing to pump when the well is dry.
U.S. Pat. No. 3,295,450 issued on Jan. 3, 1967, to Siegfried Schoenwald et al. describes an electrical control device system for individual water pump installations comprising a control device connected to a pressure-responsive switch for electrically controlling the pump, and comprises a control member responsive to the quantity and velocity of the water passing through the control device for controlling the pressure switch in response to the flow rate.
U.S. Pa

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