A battery includes a first conductive substrate portion having a first face, and a second conductive substrate portion having a second face opposed to the first face. Each of the first and second faces has a perimeter portion and an interior portion inside the perimeter portion. A first electrode material of the battery is disposed in contact with the interior portion of at least one of the first and second faces, and a jettable electrolyte material disposed in contact with the first electrode material. A second electrode material is disposed in contact with the electrolyte material, and a conductive tab is disposed in contact with the second electrode material. The conductive tab extends outwardly from the interior region beyond the perimeter portion of at least one of the first and second faces.

The invention relates to a sprayer, comprising an air guiding element and means for fastening the air guiding element on a fixed member of the sprayer. The fastening means comprise at least one magnetic attraction means mounted on a first component from among the air guiding element and the fixed member and at least one part made from a ferromagnetic material, which is intended to cooperate with the magnetic attraction means and which is mounted on or formed by the other component from among the air guiding element and the fixed element.

A shower assembly includes an inlet, a reservoir, a plurality of first outlets, and a plurality of second outlets. The inlet is for receiving water from a water source, and is configured to restrict water flow from the water source to a maximum inlet flow rate. The reservoir receives from the inlet. The plurality of first outlets are configured to pass water from the reservoir. The plurality of second outlets are configured to selectively pass water from the reservoir. The shower assembly is configured for a user to selectively control whether water passes through the plurality of second outlets. A sum of a first collective flow rate of the plurality of first outlets and a second collective flow rate of the plurality of second outlets is greater than the maximum inlet flow rate.

Described are riser assemblies suitable for use with fluid dispensers. The assemblies include a container partially circumscribing a reservoir configured to contain a pressurized fluid, the container having a fluid inlet and a fluid outlet disposed therethrough. The assemblies may further include a signal processor situateable outside the container that is configured to receive a signal. The signal processor may be operatively connectable to a control valve that is operatively connectable to the fluid dispenser. The control valve may be configured to selectively control expulsion of the fluid through the fluid dispenser in response to the signal received by the signal processor. Embodiments of the riser assemblies include a utility conduit disposed at least partially within the reservoir and configured to enable secondary use of a resource from within the riser assembly and/or to accommodate transport and securing of the riser assemblies for use.

Described are riser assemblies suitable for use with fluid dispensers. The assemblies include a container partially circumscribing a reservoir configured to contain a pressurized fluid, the container having a fluid inlet and a fluid outlet disposed therethrough. The assemblies may further include a signal processor situateable outside the container that is configured to receive a signal. The signal processor may be operatively connectable to a control valve that is operatively connectable to the fluid dispenser. The control valve may be configured to selectively control expulsion of the fluid through the fluid dispenser in response to the signal received by the signal processor. Embodiments of the riser assemblies include a utility conduit disposed at least partially within the reservoir and configured to enable secondary use of a resource from within the riser assembly and/or to accommodate transport and securing of the riser assemblies for use.

The present disclosure involves apparatuses and methods for coating a lapping plate with an aqueous composition. The apparatus can be configured and the aqueous composition can be formulated so that the aqueous composition can flow to a spray nozzle device solely due to gravity in a batchwise manner.

A shower assembly includes an inlet port, a reservoir, and a plurality of drop outlets. The inlet is for receiving water from a water source. The reservoir receives water from the inlet port and is not pressurized by a line pressure of the water source. Each of the drop outlet ports is configured, such that water passes from the reservoir, through the plurality of drop outlet ports, forms a drop at each drop outlet port, and falls from each drop outlet port only as discrete drops of water.

A shower assembly includes an inlet port, a reservoir, and a plurality of drop outlets. The inlet is for receiving water from a water source. The reservoir receives water from the inlet port and is not pressurized by a line pressure of the water source. Each of the drop outlet ports is configured, such that water passes from the reservoir, through the plurality of drop outlet ports, forms a drop at each drop outlet port, and falls from each drop outlet port only as discrete drops of water.

A sprinkler head removal and installation device includes a tube that has a first end, which is closed, and a second end that is open. The tube has an inner diameter that is complementary to a diameter of a set of groves that is positioned in a top of a sprinkler head. Each of a plurality of teeth is coupled to and extends from the second end of the tube is configured to be inserted into a respective groove of the set of grooves as the top of a sprinkler head is partially inserted into the tube through the second end. An aperture that is centrally positioned in the first end of the tube is configured for insertion of a drive of a socket wrench, positioning a user to selectively turn the socket wrench to remove and install the sprinkler head.

A sprinkler head removal and installation device includes a tube that has a first end, which is closed, and a second end that is open. The tube has an inner diameter that is complementary to a diameter of a set of groves that is positioned in a top of a sprinkler head. Each of a plurality of teeth is coupled to and extends from the second end of the tube is configured to be inserted into a respective groove of the set of grooves as the top of a sprinkler head is partially inserted into the tube through the second end. An aperture that is centrally positioned in the first end of the tube is configured for insertion of a drive of a socket wrench, positioning a user to selectively turn the socket wrench to remove and install the sprinkler head.