Abstract: Systems, devices and methods, etc., comprising at least two separate and distinct environmental climate control devices that both serve the mixed use open space, and which environmental climate control devices are centrally controlled to provide at least two different HVAC-controlled zones, for example to differentiate between the zones according to at least one of temperature, humidity, pressure or contaminant level.

Abstract: Systems, devices and methods, etc., comprising at least two separate and distinct environmental climate control devices that both serve the mixed use open space, and which environmental climate control devices are centrally controlled to provide at least two different HVAC-controlled zones, for example to differentiate between the zones according to at least one of temperature, humidity, pressure or contaminant level.

Abstract: Fluid jet systems, components and related methods are provided which are well adapted for processing workpieces under particularly work-friendly conditions. Embodiments include fluid jet systems and related methods that reduce, minimize or eliminate a gap between a workpiece being processed and jet receiving devices that receive and dissipate the energy of a fluid jet passing through the workpiece. Other embodiments include fluid jet systems and related methods involving fluid jet processing of workpieces in a submerged condition. Still further embodiments include fluid jet systems and related methods involving position and orientation adjustment of a fluid jet receptacle to coordinate the path of an incoming fluid jet with a central axis or other feature of the fluid jet receptacle.

Abstract: Systems, devices and methods, etc., comprising at least two separate and distinct environmental climate control devices that both serve the mixed use open space, and which environmental climate control devices are centrally controlled to provide at least two different HVAC-controlled zones, for example to differentiate between the zones according to at least one of temperature, humidity, pressure or contaminant level.

Abstract: Fluid jet systems, components and related methods are provided which are well adapted for processing workpieces under particularly work-friendly conditions. Embodiments include fluid jet systems and related methods that reduce, minimize or eliminate a gap between a workpiece being processed and jet receiving devices that receive and dissipate the energy of a fluid jet passing through the workpiece. Other embodiments include fluid jet systems and related methods involving fluid jet processing of workpieces in a submerged condition. Still further embodiments include fluid jet systems and related methods involving position and orientation adjustment of a fluid jet receptacle to coordinate the path of an incoming fluid jet with a central axis or other feature of the fluid jet receptacle.

Abstract: Fluid jet systems, components and related methods are provided which are well adapted for processing workpieces under particularly work-friendly conditions. Embodiments include fluid jet systems and related methods that reduce, minimize or eliminate a gap between a workpiece being processed and jet receiving devices that receive and dissipate the energy of a fluid jet passing through the workpiece. Other embodiments include fluid jet systems and related methods involving fluid jet processing of workpieces in a submerged condition. Still further embodiments include fluid jet systems and related methods involving position and orientation adjustment of a fluid jet receptacle to coordinate the path of an incoming fluid jet with a central axis or other feature of the fluid jet receptacle.

Abstract: Fluid jet systems, components and related methods are provided which are well adapted for processing workpieces under particularly work-friendly conditions. Embodiments include fluid jet systems and related methods that reduce, minimize or eliminate a gap between a workpiece being processed and jet receiving devices that receive and dissipate the energy of a fluid jet passing through the workpiece. Other embodiments include fluid jet systems and related methods involving fluid jet processing of workpieces in a submerged condition. Still further embodiments include fluid jet systems and related methods involving position and orientation adjustment of a fluid jet receptacle to coordinate the path of an incoming fluid jet with a central axis or other feature of the fluid jet receptacle.

Abstract: A jet receiving receptacle is provided which is coupleable to a high-pressure fluid jet system opposite a nozzle thereof to receive a fluid jet discharged from the nozzle after it acts on a workpiece. The jet receiving receptacle may include an elongated inlet alignable with a direction of travel of the nozzle to receive the fluid jet in a deflected state. The jet receiving receptacle may further include a jet deflection device positioned downstream of the elongated inlet to redirect at least a portion of the fluid jet and a jet rebound device located upstream of the jet deflection device to be impinged on by the redirected portion of the fluid jet. The jet deflection device and jet rebound device may form, in combination with a housing, a device to trap the fluid jet. Fluid jet cutting systems incorporating a jet receiving receptacle and related methods are also provided.

Abstract: Fluid jet systems, components and related methods are provided which are well adapted for processing workpieces under particularly work-friendly conditions. Embodiments include fluid jet systems and related methods that reduce, minimize or eliminate a gap between a workpiece being processed and jet receiving devices that receive and dissipate the energy of a fluid jet passing through the workpiece. Other embodiments include fluid jet systems and related methods involving fluid jet processing of workpieces in a submerged condition. Still further embodiments include fluid jet systems and related methods involving position and orientation adjustment of a fluid jet receptacle to coordinate the path of an incoming fluid jet with a central axis or other feature of the fluid jet receptacle.

Abstract: Fluid jet systems, components and related methods are provided which are well adapted for processing workpieces under particularly work-friendly conditions. Embodiments include fluid jet systems and related methods that reduce, minimize or eliminate a gap between a workpiece being processed and jet receiving devices that receive and dissipate the energy of a fluid jet passing through the workpiece. Other embodiments include fluid jet systems and related methods involving fluid jet processing of workpieces in a submerged condition. Still further embodiments include fluid jet systems and related methods involving position and orientation adjustment of a fluid jet receptacle to coordinate the path of an incoming fluid jet with a central axis or other feature of the fluid jet receptacle.

Abstract: A jet receiving receptacle is provided which is coupleable to a high-pressure fluid jet system opposite a nozzle thereof to receive a fluid jet discharged from the nozzle after it acts on a workpiece. The jet receiving receptacle may include an elongated inlet alignable with a direction of travel of the nozzle to receive the fluid jet in a deflected state. The jet receiving receptacle may further include a jet deflection device positioned downstream of the elongated inlet to redirect at least a portion of the fluid jet and a jet rebound device located upstream of the jet deflection device to be impinged on by the redirected portion of the fluid jet. The jet deflection device and jet rebound device may form, in combination with a housing, a device to trap the fluid jet. Fluid jet cutting systems incorporating a jet receiving receptacle and related methods are also provided.

Abstract: A corn inbred designated 3B703 is disclosed. The invention relates to the seeds of corn inbred 3B703, to the plants of corn inbred 3B703, to plant parts of corn inbred 3B703 and to methods for producing a corn plant produced by crossing corn inbred 3B703 with itself or with another corn variety. The invention also relates to methods for producing a corn plant containing in its genetic material one or more transgenes and to the transgenic corn plants and plant parts produced by those methods. This invention also relates to corn inbreds or breeding inbreds and plant parts derived from corn variety 3B703, to methods for producing other corn inbreds and lines or plant parts derived from corn inbred 3B703 and to the corn plants, varieties, and their parts derived from use of those methods. The invention further relates to hybrid corn seeds, plants and plant parts produced by crossing the inbred 3B703 with another corn inbred.

Abstract: An open mold system provides various unique molds which are released from a plurality of staging queues and loaded onto a mold transportation circuit in relation to a particular customer order and transportation vehicle. A batch of molds are sequenced in an order in which a particular transportation vehicle is to be loaded. After each part is demolded, the molds are returned to their appropriate staging queues or storage areas. The parts are inspected and are sent to either a minor repair area, a major repair area, or directly to a trimming and packaging area. From the packaging area, the parts are moved to a relatively small shipping area where the batch of parts are already ordered to be effectively loaded directly onto the transportation vehicle. As the finished parts come off line in the batch particular to the transportation vehicle, a large shipping area and inventory area is avoided.

Abstract: A corn inbred designated 3B50HO is disclosed. The invention relates to the seeds of corn inbred 3B50HO, to the plants of corn inbred 3B50HO, to plant parts of corn inbred 3B50HO and to methods for producing a corn plant produced by crossing corn inbred 3B50HO with itself or with another corn variety. The invention also relates to methods for producing a corn plant containing in its genetic material one or more transgenes and to the transgenic corn plants and plant parts produced by those methods. This invention also relates to corn inbreds or breeding inbreds and plant parts derived from corn variety 3B50HO, to methods for producing other corn inbreds and lines or plant parts derived from corn inbred 3B50HO and to the corn plants, varieties, and their parts derived from use of those methods. The invention further relates to hybrid corn seeds, plants and plant parts produced by crossing the inbred 3B50HO with another corn inbred.

Abstract: A corn inbred designated 3B603 is disclosed. The invention relates to the seeds of corn inbred 3B603, to the plants of corn inbred 3B603, to plant parts of corn inbred 3B603 and to methods for producing a corn plant produced by crossing corn inbred 3B603 with itself or with another corn variety. The invention also relates to methods for producing a corn plant containing in its genetic material one or more transgenes and to the transgenic corn plants and plant parts produced by those methods. This invention also relates to corn inbreds or breeding inbreds and plant parts derived from corn variety 3B603, to methods for producing other corn inbreds and lines or plant parts derived from corn inbred 3B603 and to the corn plants, varieties, and their parts derived from use of those methods. The invention further relates to hybrid corn seeds, plants and plant parts produced by crossing the inbred 3B603 with another corn inbred.

Abstract: A mold manufacturing system includes confining environmentally controlled applying operations to but a few area or a single area. The process airflow generated therefrom includes a substantially constant low flow with a high concentration of HAPs which maintains an auto-fired oxidizer system to provide more efficient and less expensive operation thereof.

Abstract: A packaging arrangement provides a top packaging panel and a bottom packaging panel which receives a tub portion and a first and a second wall portion of a tub and surround. The packaging arrangement provides a compact transportable unit which readily fits within a rather compact package. The packaging panels are preferably manufacture of Styrofoam or the like to absorb shock and protect the tub portion and wall portions. A tub slot is substantially U-shaped to receive a tub end. That is, tub slot receives the tub portion in a substantially vertical orientation in which the tub portion stands on end and is restrained between the panels. The first wall portion slot and the second wall portion slot are substantially L-shaped and are nested to form a larger U-shape within which the tub slot is arranged. That is, the tub slot forms an inverted U relative the orientation of the larger U-shape formed by the first and second wall portion slot.

Abstract: A multi-lap mold manufacturing system includes an overhead rail circuit upon which a multiple of molds transit a closed loop for a multiple of laps. The system is separated into Zones in which a particular mold operation is performed relative to which lap each of the plurality of molds has completed. At least one of the Zones is a spray Zone in which the mold is sprayed robotically. Robot utilization is extremely high as multiple spray operations occur in but a few spray Zones. Application of exceedingly expensive environmental emission control devices is at least partially mitigated by the reduced number of spray stations and the much smaller factory footprint. Consolidation of multiple spray operations into a few spray Zones also advantageously simplifies the control of chemical and ambient variables which improves production efficiencies and reduces operator dependency.

Abstract: A multi-lap mold manufacturing system includes an overhead rail circuit upon which a multiple of molds transit a closed loop for a multiple of laps. The system is separated into Zones in which a particular mold operation is performed relative to which lap each of the plurality of molds has completed. At least one of the Zones is a spray Zone in which the mold is sprayed robotically. Robot utilization is extremely high as multiple spray operations occur in but a few spray Zones. Application of exceedingly expensive environmental emission control devices is at least partially mitigated by the reduced number of spray stations and the much smaller factory footprint. Consolidation of multiple spray operations into a few spray Zones also advantageously simplifies the control of chemical and ambient variables which improves production efficiencies and reduces operator dependency.

Abstract: A tub and shower surround assembly is initially molded as a single molded component having a waste strip which separates each individual tub and shower surround portion. The waste strip readily protects the mold and simplifies post molding operations and assures that each portion will meet final tolerances. Another waste strip is located between the tub portion and the wall portions to provide for positive draft between a tub flange which extends about the tub portion and the wall portions. Positive draft is required to assure proper removal of the mold component from the mold. The single component provides for finishing operations to be performed prior to separating the individual components. Since the majority of finishing operations are performed simultaneously prior to separating the portions, the likelihood of damage to the portions are reduced and the finish of the individual portions are of greater consistency.