Meter register having an encoder for measuring material flow and an algorithm to selectively block signal transmission
First Claim
1. A meter register, comprising:
- a register body having a rotatable drive shaft coupled thereto, a drive magnet attached to the drive shaft, at least one wheel co-acting with the drive shaft, the wheel having a first surface and an opposite second surface, and a reflective surface and a non-reflective surface on the second surface of the wheel;
a plurality of optical emitters in facing relation to the second surface of the wheel and spaced about an axis which the wheel rotates, wherein the emitters are adapted to emit radiation on the reflective and non-reflective surfaces; and
a single sensor mounted in facing relationship to the second surface of the wheel, wherein the plurality of emitters are between the second surface of the wheel and the sensor, the sensor adapted to co-act with reflected radiation from the reflective surface, whereby in operation when the drive shaft rotates, the wheel rotates about the axis and one or more emitters emit radiation that is reflected from the wheel to the sensor for a determination of flow through the meter and direction of flow.
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Accused Products
Abstract
A water meter has a meter register having an encoder having electromagnetic wave emitters, e.g., infrared emitters to measure water flow and direction of water flow through the meter. The encoder has two of three spaced emitters directing infrared rays at predetermined time intervals toward a rotating detector wheel having a reflective surface portion and a non-reflective surface portion facing the emitters and an infrared sensor. The reflective surface portion of the detecting wheel reflects the infrared rays incident thereon toward the sensor. A microprocessor connected to the sensor acts on signals from the sensor to determine material flow. The meter register transmits the signal to a distant receiver. The microprocessor of a meter register has an algorithm to prevent the meter register from sending signals until after the meter register or a water meter having a meter register is installed and water moved through the meter.
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Citations
25 Claims
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1. A meter register, comprising:
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a register body having a rotatable drive shaft coupled thereto, a drive magnet attached to the drive shaft, at least one wheel co-acting with the drive shaft, the wheel having a first surface and an opposite second surface, and a reflective surface and a non-reflective surface on the second surface of the wheel; a plurality of optical emitters in facing relation to the second surface of the wheel and spaced about an axis which the wheel rotates, wherein the emitters are adapted to emit radiation on the reflective and non-reflective surfaces; and a single sensor mounted in facing relationship to the second surface of the wheel, wherein the plurality of emitters are between the second surface of the wheel and the sensor, the sensor adapted to co-act with reflected radiation from the reflective surface, whereby in operation when the drive shaft rotates, the wheel rotates about the axis and one or more emitters emit radiation that is reflected from the wheel to the sensor for a determination of flow through the meter and direction of flow. - View Dependent Claims (2, 3)
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4. A meter register comprising:
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an optical encoder responsive to material flow, the optical encoder comprising; a single sensor responsive to one or more wavelengths of the electromagnetic spectrum, the sensor having a perimeter; a plurality of devices mounted in a fixed spaced relationship to one another and to the perimeter of the sensor, each of the devices capable of generating the one or more wavelengths of the electromagnetic spectrum; and a member mounted to rotate about an axis and having a major surface with the major surface spaced from and facing the single sensor and the plurality of devices, the major surface having a first surface portion for directing the one or more of the wavelengths from one or more of the plurality of devices incident thereon toward the sensor, and a second surface portion for preventing the one or more wavelengths from the one or more of the plurality of devices from impinging on the sensor, wherein the plurality of devices is positioned between the member and the sensor such that the one or more wavelengths of the electromagnetic spectrum directed toward the member, and reflected from the member are reflected toward and past the plurality of devices to impinge on the sensor; and a system responsive to material flow acting on the member to rotate the member about its axis when the system responds to flow of material, wherein as the member rotates about its axis, the first and the second surface portions of the member move relative to the sensor and each one of the plurality of the devices. - View Dependent Claims (5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 21, 22, 25)
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16. A meter register comprising:
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an encoder responsive to material flow, the optical encoder comprising; a sensor responsive to one or more wavelengths of the electromagnetic spectrum, the sensor having a perimeter; a plurality of devices mounted in a fixed spaced relationship to one another and to the perimeter of the sensor, each of the devices capable of generating the one or wavelengths of the electromagnetic spectrum; a microprocessor electrically connected to the sensor and to each of the devices; and a member mounted to rotate about an axis and having a major surface with the major surface spaced from and facing the sensor and the plurality of devices, the major surface having a first surface portion for directing the one or more of the wavelengths from one or more of the plurality of devices incident thereon toward the sensor, and a second surface portion for preventing the one or more wavelengths from the one or more of the plurality of devices from impinging on the sensor; and a system responsive to material flow acting on the member to rotate the member about its axis when the system responds to flow of material, wherein as the member rotates about its axis, the first and the second surface portions of the member move relative to the sensor and each one of the plurality of the devices, wherein the system responsive to material flow comprises a drive arrangement having a magnet spaced from a gear drive; an electric power unit to power the devices and the microprocessor; and wherein the meter register includes a sealed container having the encoder, the system responsive to material flow, the microprocessor and the electrical power unit therein, and further comprising a housing having a first end for connection to a material flow inlet and a second end for connection to a material flow outlet, a chamber through which material flows as it moves between the ends of the housing, the meter register mounted in the housing and a low detector having a magnet which is rotated as the material flows through the chamber between the ends, wherein rotation of the magnet of the detector rotates the magnet of the meter register to rotate the member of the encoder; and wherein the microprocessor includes a signal generator that transmits the flow of the material through the chamber as measured by the encoder and includes an algorithm for making the signal generator inoperative until a predetermined amount of material has passed through the chamber. - View Dependent Claims (17, 18, 19, 20)
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23. A meter register comprising:
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an encoder responsive to water flow, the optical encoder comprising; a sensor responsive to one or more wavelengths of the electromagnetic spectrum, the sensor having a perimeter; three devices positioned in a circle and spaced 120° and
the one or more wavelengths of the electromagnetic spectrum are selected from the group of the infrared wavelength range and the visible wavelength range of the electromagnetic spectrum, each of the devices capable of generating the one or more wavelengths of the electromagnetic spectrum;a support having a first surface and a second opposite surface with a hole extending through the body of the support from the first surface to the second surface, wherein the three devices are mounted on the first surface of the support with the circle circumscribing the hole and the sensor adjacent the second surface of the support overlaying the hole, wherein the axis about which the member rotates and an axis through center of the circle are coincident axes, wherein the first surface portion of the major surface of the member is a reflective surface and the second surface portion of the major surface of the member is a non-reflective surface;
further comprising a microprocessor connected to the sensor, an electrical power unit to power the devices and the microprocessor, the microprocessor electrically connected to the sensor and to each of the devices, and wherein the system responsive to water flow comprises a drive arrangement having a magnet at one end and a gear arrangement at the other end;a microprocessor electrically connected to the sensor and to each of the devices; and a member mounted to rotate about an axis and having a major surface with the major surface spaced from and facing the sensor and the plurality of devices, the major surface having a first surface portion for directing the one or more of the wavelengths from one or more of the plurality of devices incident thereon toward the sensor, and a second surface portion for preventing the one or more wavelengths from the one or more of the plurality of devices from impinging on the sensor; and an electrical power unit to power the devices and the microprocessor; a system responsive to water flow comprises a drive arrangement having a magnet at one end and a gear arrangement at the other end to act on the member to rotate the member about its axis when the system responds to flow of water, wherein as the member rotates about its axis, the first and the second surface portions of the member move relative to the sensor and each one of the plurality of the devices; and wherein the microprocessor includes a signal generator that transmits the flow of the material through the chamber as measured by the encoder and includes an algorithm for making the signal generator inoperative until a predetermined amount of material has passed through the chamber and the predetermined amount of water is measured by a measuring system selected from the group of (1) the encoder, (2) an optical measuring system other than the encoder, and (3) a magnet mounted on a wheel and a reed switch mounted in a fixed relationship to the circumference of the wheel, such rotation of the wheel moves the magnet past the reed switch to change the status of the reed switch.
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24. A meter register for coupling with a meter, the meter having components adapted to transmit radio waves as material passes through the meter, the meter register adapted to generate an algorithm to act on components of the meter to prevent the components of the meter from transmitting the radio waves until the components determine that a particular amount of material passes through the meter.
Specification