Abstract: A manhole cover includes a security device, preferably located beneath an upper surface thereof. A cover removing apparatus includes a magnetic element to hold the cover, when a pin of the apparatus is engaged with the security device of the cover. A push force, which may be applied through a port in the upper surface of the cover, for example, by the pin member, can deform, and thereby unlock, a spring-loaded locking member of the security device. The security device may further include at least one elongate member, which is caused to move from a first position to a second position, by the push force, in order to disengage the cover from a manhole, so that the cover may be removed from the manhole.

Abstract: This invention relates to an integrally weighted baseball cover and system, method and apparatus for quickly delivering the cover and placing it onto an area of a baseball field, such as one or more of the infield areas, such as home base area, first base area, second base area, third base area, pitcher's mound area and/or bullpen areas.

Abstract: A system, apparatus and method for shielding an area from wind is shown. The system, apparatus and method comprise at least one or a plurality of windscreens that yield to a wind to facilitate or reducing or eliminating stresses or forces on a fence to which the at least one or a plurality of windscreens are attached.

Abstract: A batter training and protection system is shown. A protector for protecting an infield area is provided with a plurality of indicia situated thereon or integrally formed therein to define a plurality of target areas, respectively. The indicia may comprise a plurality of material segments, a plurality of colors, patterns, graphics or the like in order to define the plurality of target areas at which a player may practice bunting a baseball.

Abstract: This invention relates to an integrally weighted baseball cover and system, method and apparatus for quickly delivering the cover and placing it onto an area of a baseball field, such as one or more of the infield areas, such as home base area, first base area, second base area, third base area, pitcher's mound area and/or bullpen areas.

Abstract: This invention relates to an integrally weighted baseball cover and system, method and apparatus for quickly delivering the cover and placing it onto an area of a baseball field, such as one or more of the infield areas, such as home base area, first base area, second base area, third base area, pitcher's mound area and/or bullpen areas.

Abstract: This invention relates to an integrally weighted baseball cover and system, method and apparatus for quickly delivering the cover and placing it onto an area of a baseball field, such as one or more of the infield areas, such as home base area, first base area, second base area, third base area, pitcher's mound area and/or bullpen areas.

Abstract: A batter training and protection system is shown. A protector for protecting an infield area is provided with a plurality of indicia situated thereon or integrally formed therein to define a plurality of target areas, respectively. The indicia may comprise a plurality of material segments, a plurality of colors, patterns, graphics or the like in order to define the plurality of target areas at which a player may practice bunting a baseball.

Abstract: A batter training and protection system and method are shown. A protector for protecting an infield area is provided with a plurality of indicia situated thereon or integrally formed therein to define a plurality of target areas, respectively. The indicia may comprise a plurality of material segments, a plurality of colors, patterns, graphics or the like in order to define the plurality of target areas at which a player may practice bunting a baseball.

Abstract: A battery powered device providing in combination (1) a cell pack that includes one or more isolation passageways (diffusion tubes) positioned to protect metal-air cells of the battery pack from the ambient air when no air mover is active to force air to the cells and the passageway or passageways remain unsealed, and (2) an electrical device configured to removably receive the cell pack in a manner which allows an air mover associated with the electrical device to communicate with at least one of the isolation passageways of the cell pack to provide air to air electrodes of the cells.

Abstract: Air managers for metal-air batteries are described, utilizing a diaphragm or bellows to move air in and out of one or more air openings or to move air from an inlet to an outlet. The diaphragm or bellows may be reciprocated by a linear actuator, such as an electromagnetic oscillator, or a shape memory alloy wire. Micromachines such as microrelays may be used as actuators. The battery may include one or more air passageways preferably including an isolating passageway such as a thin elongate tube shaped to impede air flow to the air electrode when the air moving device is not operative, even while the tube remains unsealed. The result is an improved air moving device for metal-air cells that occupies a minimal amount of the volume available for battery chemistry, is usable with advanced systems for isolating the air electrodes when power is not being drawn from the metal air cell, and is capable of developing high pressure for high velocity air movement at a relatively low rate of power consumption.

Abstract: A device for damping vibration in mounting vibration-prone devices, such as fans or other devices with moving parts. A fan may be mounted at the center of a spiral spring to prevent transmission of vibrations including sounds from the fan to a surrounding structure, such as a cell phone powered by a metal-air battery.

Abstract: A metal-air cell housing structure provides a generally L-shaped peripheral grid comprising an upper leg ultrasonically welded to the top edge of a peripheral wall of a lower housing section, and a downwardly extending leg positioned to hold an air electrode against the central panel of the lower housing section. An upper housing section encloses the lower housing section with a top panel and an outer peripheral wall that extends downwardly adjacent to and is adhered to the peripheral grid and the lower housing peripheral wall.

Abstract: A manganese based catalyst for use in a metal-air electrochemical cell wherein the catalyst is made by a sol-gel process. The sol-gel process creates catalyst particles that are submicron and easily distributed throughout the active layer of the electrode.

Abstract: The metal-air battery includes an air mover mechanism located in the cathode plenum space of one or more metal-air cells. The air mover is an enclosure isolating the air cathode, with a mechanism for expanding and contracting the volume of the enclosure to move air in and out of the enclosure. Prismatic and cylindrical batteries incorporating the invention are described.

Abstract: A manganese based catalyst for use in a metal-air electrochemical cell wherein the catalyst is made by a micelle process and a method of producing the catalyst. An electrode comprising said catalyst and method of producing the electrode. The micelle encapsulation process creates catalyst particles that are submicron and easily distributed throughout the active layer of the electrode.

Abstract: An orientation independent metal-air power source utilizing convective airflow for enhancing power output for powering a load. A battery housing for enclosing at least one metal-air cell has an air cavity at each end. Between the two cavities is an elongated central passageway. The cavities are preferably disk-shaped and include a circular resistance element in their outer periphery. A central gravity switch with a conductive ball and a plurality of contact pairs is coupled to the resistance elements. Each of the contact pairs is associated with a particular angular orientation of the metal-air battery. At least a portion of one of the resistance elements is heated when the ball comes into contact with one of the contact pairs. A plurality of isolating passageways pass sufficient airflow to the oxygen electrode, while the resistance element portion is heated, and restricts airflow to the oxygen electrode when the resistance element portion is not heated.

Abstract: A metal-air cell having a cell casing, an air electrode positioned within the cell casing, and means for providing air to the air electrode when a predetermined load is placed on the cell and for substantially isolating the air electrode when the load is not placed on the cell.