Patents by Inventor Harold Russell Baird

Harold Russell Baird has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Patent number: 11751290
    Abstract: Disclosed herein is an autonomous solar panel for use in winter conditions. The panel includes at least one energy transfer member associated with the solar panel. A sensor is in communication with the energy transfer member. A power supply is connected to the energy transfer member. A network interconnects the energy transfer member, the sensor, and the power supply, and is configured so that when the sensor senses an accumulation of winter precipitation on the solar panel, a portion of stored power in the power supply activates the energy transfer member and the winter precipitation is removed from the solar panel.
    Type: Grant
    Filed: August 9, 2012
    Date of Patent: September 5, 2023
    Inventors: Jeffrey Scott Adler, Harold Russell Baird
  • Publication number: 20190017933
    Abstract: A reflective materials sensor for detecting remotely located reflective material. The reflective materials sensor includes a transparent window with two window surfaces, an amount of reflective material that is remotely located away from one window surface. An operating parameters sensor located adjacent to the transparent window, a radiation detector located away from the other window surface; and two spaced apart radiation emitters located on either side of the radiation detector, and away from the second window surface. Each radiation emitter is configured to emit radiation along one axis through the transparent window towards the reflective material and towards a common focal point. The radiation detector is located to receive reflected radiation from the reflective material along another axis. The first axis of the radiation emitters is angled towards the other axis of the reflected radiation.
    Type: Application
    Filed: September 6, 2018
    Publication date: January 17, 2019
    Inventors: Jeffrey Scott Adler, Harold Russell Baird
  • Patent number: 9835555
    Abstract: Described herein is a sensor for sensing reflective material. The sensor includes a housing with a transparent window and a sensor mount located in the housing and angled away from a housing wall. A radiation emitter is mounted in the sensor mount and emits radiation along an axis through the transparent window which has an amount of the reflective material located thereon. A radiation detector is mounted in the sensor mount and located adjacent the radiation emitter. The radiation detector is located to receive reflected radiation from the reflective material along another axis. The first axis is angled towards the second axis.
    Type: Grant
    Filed: September 11, 2014
    Date of Patent: December 5, 2017
    Inventors: Jeffrey Scott Adler, Harold Russell Baird
  • Patent number: 9777872
    Abstract: Described herein is an autonomous fluid spill containment device for a pipeline which has a carrier conduit for transporting a fluid and a containment conduit located around the carrier conduit to define an interstitial space for receiving fluid spilled from the carrier conduit. The device includes a spilled fluid barrier for stopping spilled fluid flow. The fluid barrier is located in the interstitial space and extending between the carrier conduit and the containment conduit. A cable sensor is associated with the containment conduit for detecting spilled fluid flowing in the containment conduit.
    Type: Grant
    Filed: July 5, 2013
    Date of Patent: October 3, 2017
    Inventors: Jeffrey Scott Adler, Harold Russell Baird
  • Publication number: 20170115215
    Abstract: A remote reflective materials sensor for detecting remotely located reflective material. The remote reflective materials sensor includes a transparent window with two window surfaces, an amount of reflective material that is remotely located away from one window surface. An operating parameters sensor located adjacent to the transparent window, a radiation detector located away from the other window surface; and two spaced apart radiation emitters located on either side of the radiation detector, and away from the second window surface. Each radiation emitter is configured to emit radiation along one axis through the transparent window towards the reflective material and towards a common focal point. The radiation detector is located to receive reflected radiation from the reflective material along another axis. The first axis of the radiation emitters is angled towards the other axis of the reflected radiation.
    Type: Application
    Filed: October 26, 2015
    Publication date: April 27, 2017
    Inventors: Jeffrey Scott ADLER, Harold Russell BAIRD
  • Patent number: 9481017
    Abstract: Described herein is a cleaning device for a flat solar panel or a trough reflector panel. The device comprises a cleaning member with a sweeper portion and a scraper portion. The cleaning member is mounted for unidirectional and bidirectional movement over the flat panel or the reflector panel. A rocker bar is connected to the sweeper portion and the scraper portion to rockingly move either the sweeper portion or the scraper portion into contact with the flat panel or the reflector panel as the cleaning member moves over the flat panel or the reflector panel.
    Type: Grant
    Filed: August 9, 2012
    Date of Patent: November 1, 2016
    Inventors: Jeffrey Scott Adler, Harold Russell Baird
  • Patent number: 9443992
    Abstract: Described herein is an autonomous cleaning device for a solar panel. The device includes a cleaning member mounted for unidirectional movement or bidirectional movement over the solar panel. The cleaning member has a first cleaning portion for cleaning the solar panel as the cleaning member moves in one direction and a second cleaning portion for cleaning the solar panel as the cleaning member moves in the other direction. The cleaning portions are respectively brought into contact with the solar panel by axial rotation of the cleaning member about a restricted path of travel.
    Type: Grant
    Filed: August 9, 2012
    Date of Patent: September 13, 2016
    Inventors: Jeffrey Scott Adler, Harold Russell Baird
  • Publication number: 20160077002
    Abstract: Described herein is a sensor for sensing reflective material. The sensor includes a housing with a transparent window and a sensor mount located in the housing and angled away from a housing wall. A radiation emitter is mounted in the sensor mount and emits radiation along an axis through the transparent window which has an amount of the reflective material located thereon. A radiation detector is mounted in the sensor mount and located adjacent the radiation emitter. The radiation detector is located to receive reflected radiation from the reflective material along another axis. The first axis is angled towards the second axis.
    Type: Application
    Filed: September 11, 2014
    Publication date: March 17, 2016
    Inventors: Jeffrey Scott Adler, Harold Russell Baird
  • Patent number: 9010356
    Abstract: Described herein is an autonomous fluid spill containment device for a pipeline having a carrier conduit for transporting a fluid and a containment conduit located around the carrier conduit to define an interstitial space for receiving fluid spilled from the carrier conduit. The device includes a spilled fluid barrier for stopping spilled fluid flow, which is located in the interstitial space and extends between the carrier conduit and the containment conduit. An acoustic sensor is located in the interstitial space for detecting spilled fluid flowing in the containment conduit, or in the carrier conduit for detecting fluid flow reduction.
    Type: Grant
    Filed: April 11, 2013
    Date of Patent: April 21, 2015
    Inventors: Jeffrey Scott Adler, Harold Russell Baird
  • Patent number: 8967186
    Abstract: Described herein is an autonomous fluid spill containment device for a pipeline having a carrier conduit for transporting a fluid and a containment conduit located around the carrier conduit to define an interstitial space for receiving fluid spilled from the carrier conduit. The device comprises a spilled fluid barrier for stopping spilled fluid flow. The fluid barrier is located in the interstitial space and extending between the carrier conduit and the containment conduit. A spilled fluid sensor is located in the interstitial space to detect spilled fluid flowing in the containment conduit. A network monitor that interfaces for communicating with an operator's data collection, analysis and reporting systems. A sensor network is connected to the fluid sensor for communicating spilled fluid sensor and location data from the sensor to the network monitor so as to alert the operator to the location of the spilled fluid in real time.
    Type: Grant
    Filed: January 2, 2013
    Date of Patent: March 3, 2015
    Inventors: Jeffrey Scott Adler, Harold Russell Baird
  • Publication number: 20150010356
    Abstract: Described herein is an autonomous fluid spill containment device for a pipeline which has a carrier conduit for transporting a fluid and a containment conduit located around the carrier conduit to define an interstitial space for receiving fluid spilled from the carrier conduit. The device includes a spilled fluid barrier for stopping spilled fluid flow. The fluid barrier is located in the interstitial space and extending between the carrier conduit and the containment conduit. A cable sensor is associated with the containment conduit for detecting spilled fluid flowing in the containment conduit.
    Type: Application
    Filed: July 5, 2013
    Publication date: January 8, 2015
    Inventors: Jeffrey Scott Adler, Harold Russell Baird
  • Publication number: 20150001201
    Abstract: Disclosed herein is an autonomous solar panel for use in winter conditions. The panel includes at least one energy transfer member associated with the solar panel. A sensor is in communication with the energy transfer member. A power supply is connected to the energy transfer member. A network interconnects the energy transfer member, the sensor, and the power supply, and is configured so that when the sensor senses an accumulation of winter precipitation on the solar panel, a portion of stored power in the power supply activates the energy transfer member and the winter precipitation is removed from the solar panel.
    Type: Application
    Filed: June 28, 2013
    Publication date: January 1, 2015
    Inventors: Jeffrey Scott Adler, Harold Russell Baird
  • Patent number: 8873062
    Abstract: Described herein is a sensor for sensing reflective material. The sensor includes a housing with a transparent window and a sensor mount located in the housing and angled away from a housing wall. A radiation emitter is mounted in the sensor mount and emits radiation along an axis through the transparent window which has an amount of the reflective material located thereon. A radiation detector is mounted in the sensor mount and located adjacent the radiation emitter. The radiation detector is located to receive reflected radiation from the reflective material along another axis. The first axis is angled towards the second axis.
    Type: Grant
    Filed: August 9, 2012
    Date of Patent: October 28, 2014
    Inventors: Jeffrey Scott Adler, Harold Russell Baird
  • Publication number: 20140305517
    Abstract: Described herein is an autonomous fluid spill containment device for a pipeline having a carrier conduit for transporting a fluid and a containment conduit located around the carrier conduit to define an interstitial space for receiving fluid spilled from the carrier conduit. The device includes a spilled fluid barrier for stopping spilled fluid flow, which is located in the interstitial space and extends between the carrier conduit and the containment conduit. An acoustic sensor is located in the interstitial space for detecting spilled fluid flowing in the containment conduit, or in the carrier conduit for detecting fluid flow reduction.
    Type: Application
    Filed: April 11, 2013
    Publication date: October 16, 2014
    Inventors: Jeffrey Scott ADLER, Harold Russell BAIRD
  • Publication number: 20140182706
    Abstract: Described herein is an autonomous fluid spill containment device for a pipeline having a carrier conduit for transporting a fluid and a containment conduit located around the carrier conduit to define an interstitial space for receiving fluid spilled from the carrier conduit. The device comprises a spilled fluid barrier for stopping spilled fluid flow. The fluid barrier is located in the interstitial space and extending between the carrier conduit and the containment conduit. A spilled fluid sensor is located in the interstitial space to detect spilled fluid flowing in the containment conduit. A network monitor that interfaces for communicating with an operator's data collection, analysis and reporting systems. A sensor network is connected to the fluid sensor for communicating spilled fluid sensor and location data from the sensor to the network monitor so as to alert the operator to the location of the spilled fluid in real time.
    Type: Application
    Filed: January 2, 2013
    Publication date: July 3, 2014
    Inventors: Jeffrey Scott Adler, Harold Russell Baird
  • Patent number: 8746055
    Abstract: Described herein is a rain intensity sensor. The sensor includes a circuit, which includes a resistor and at least two spaced apart electrically conductive strips electrically connected in series to the resistor. The resistor is located between the conductive strips. The conductive strips are sufficiently spaced apart such that when a raindrop contacts with the conductive strips provides a resistive path therebetween and which is electrically parallel with the resistor.
    Type: Grant
    Filed: August 9, 2012
    Date of Patent: June 10, 2014
    Inventors: Jeffrey Scott Adler, Harold Russell Baird
  • Publication number: 20140041448
    Abstract: Described herein is a rain intensity sensor. The sensor includes a circuit, which includes a resistor and at least two spaced apart electrically conductive strips electrically connected in series to the resistor. The resistor is located between the conductive strips. The conductive strips are sufficiently spaced apart such that when a raindrop contacts with the conductive strips provides a resistive path therebetween and which is electrically parallel with the resistor.
    Type: Application
    Filed: August 9, 2012
    Publication date: February 13, 2014
    Inventors: Jeffrey Scott Adler, Harold Russell Baird
  • Publication number: 20140043613
    Abstract: Described herein is a sensor for sensing reflective material. The sensor includes a housing with a transparent window and a sensor mount located in the housing and angled away from a housing wall. A radiation emitter is mounted in the sensor mount and emits radiation along an axis through the transparent window which has an amount of the reflective material located thereon. A radiation detector is mounted in the sensor mount and located adjacent the radiation emitter. The radiation detector is located to receive reflected radiation from the reflective material along another axis. The first axis is angled towards the second axis.
    Type: Application
    Filed: August 9, 2012
    Publication date: February 13, 2014
    Inventors: Jeffrey Scott Adler, Harold Russell Baird
  • Publication number: 20140041698
    Abstract: Described herein is a cleaning device for a flat solar panel or a trough reflector panel. The device comprises a cleaning member with a sweeper portion and a scraper portion. The cleaning member is mounted for unidirectional and bidirectional movement over the flat panel or the reflector panel. A rocker bar is connected to the sweeper portion and the scraper portion to rockingly move either the sweeper portion or the scraper portion into contact with the flat panel or the reflector panel as the cleaning member moves over the flat panel or the reflector panel.
    Type: Application
    Filed: August 9, 2012
    Publication date: February 13, 2014
    Inventors: Jeffrey Scott Adler, Harold Russell Baird
  • Publication number: 20140041138
    Abstract: Described herein is an autonomous cleaning device for a solar panel. The device includes a cleaning member mounted for unidirectional movement or bidirectional movement over the solar panel. The cleaning member has a first cleaning portion for cleaning the solar panel as the cleaning member moves in one direction and a second cleaning portion for cleaning the solar panel as the cleaning member moves in the other direction. The cleaning portions are respectively brought into contact with the solar panel by axial rotation of the cleaning member about a restricted path of travel.
    Type: Application
    Filed: August 9, 2012
    Publication date: February 13, 2014
    Inventors: Jeffrey Scott Adler, Harold Russell Baird