A water deflection tool has a deflection plate with an inner surface and an outer surface that extend to a perimeter, the deflection plate having a height and a width that are adapted to catch and deflect the stream of water. A distal end of an elongate extension arm is fixedly attached to the outer surface of the deflection plate, the elongate extension arm further having a proximal end. The proximal end has a hitch mounting component that is adapted to attach to the vehicle.

A water deflection tool has a deflection plate with an inner surface and an outer surface that extend to a perimeter, the deflection plate having a height and a width that are adapted to catch and deflect the stream of water. A distal end of an elongate extension arm is fixedly attached to the outer surface of the deflection plate, the elongate extension arm further having a proximal end. The proximal end has a hitch mounting component that is adapted to attach to the vehicle.

A threadless bayonet thrust nut assembly for a hydrant, a bayonet thrust nut, and a hydrant having the same, the assembly including the bayonet thrust nut with locking features extending radially therefrom, a hydrant bonnet having retainer lugs disposed around a top opening and corresponding to the locking features, and a lock plate having downwardly extending bayonet extensions, where the locking features are configured to pass through spaces delimited by the retainer lugs when the thrust nut is maneuvered through the opening into the bonnet, where the thrust nut is rotatable between an open position in which the locking features are aligned with the spaces and a closed position in which the locking features are aligned with the retainer lugs, where the bayonet extends of the lock plate are insertable into the spaces when the thrust nut is in the closed position, and where the thrust nut in the closed position is driven against an underlying operating nut disposed with in the bonnet so as to threadlessly secure the operating nut within the hydrant.

A threadless bayonet thrust nut assembly for a hydrant, a bayonet thrust nut, and a hydrant having the same, the assembly including the bayonet thrust nut with locking features extending radially therefrom, a hydrant bonnet having retainer lugs disposed around a top opening and corresponding to the locking features, and a lock plate having downwardly extending bayonet extensions, where the locking features are configured to pass through spaces delimited by the retainer lugs when the thrust nut is maneuvered through the opening into the bonnet, where the thrust nut is rotatable between an open position in which the locking features are aligned with the spaces and a closed position in which the locking features are aligned with the retainer lugs, where the bayonet extends of the lock plate are insertable into the spaces when the thrust nut is in the closed position, and where the thrust nut in the closed position is driven against an underlying operating nut disposed with in the bonnet so as to threadlessly secure the operating nut within the hydrant.

Example aspects of a nozzle cap adapter, a nozzle cap assembly, and a method for method for mounting a nozzle cap to a fire hydrant nozzle are disclosed. The nozzle cap adapter can comprise an adapter ring defining a first adapter ring end, a second adapter ring end opposite the first adapter ring end, and an interior void extending from the first adapter ring end to the second adapter ring end; a nozzle connector extending from the second end of the adapter ring, the nozzle connector configured to rotatably engage a fire hydrant nozzle; and a latch coupled to the adapter ring and configured to removably lock the nozzle cap adapter onto the fire hydrant nozzle.

The hydrant monitoring system determines whether water is present in a dry-barrel fire hydrant. The hydrant monitoring system couples to a port of the hydrant using a hydrant port adapter. The hydrant monitoring system supports an operator interface unit mounted within a protective frame next to the hydrant on a fixed arm. A movable arm carries a distance sensor aimed downward that slides into and out of the hydrant on the fixed arm. The hydrant monitoring system is used by making a first distance measurement outside of the hydrant, making a second distance measurement inside of the hydrant, and subtracting the two to determine how far below ground level the bottom of the barrel is. If the bottom is not at a predetermined depth, a request to drain or service the hydrant may be initiated.

The hydrant monitoring system determines whether water is present in a dry-barrel fire hydrant. The hydrant monitoring system couples to a port of the hydrant using a hydrant port adapter. The hydrant monitoring system supports an operator interface unit mounted within a protective frame next to the hydrant on a fixed arm. A movable arm carries a distance sensor aimed downward that slides into and out of the hydrant on the fixed arm. The hydrant monitoring system is used by making a first distance measurement outside of the hydrant, making a second distance measurement inside of the hydrant, and subtracting the two to determine how far below ground level the bottom of the barrel is. If the bottom is not at a predetermined depth, a request to drain or service the hydrant may be initiated.

A method for activating a service associated with an object includes acquiring a position by a geolocation system of a device rigidly attached to the object; calculating an activation code from the acquired position; displaying the activation code; transmitting the activation code by an electronic mobile terminal including a wireless interface to a remote entity; receiving a response code by the electronic mobile terminal, the response code being generated by the remote entity; acquiring the response code by an input interface of the device; decoding the response code by the device; generating a command for unlocking a service associated with the object rigidly attached to said device.

A method for activating a service associated with an object includes acquiring a position by a geolocation system of a device rigidly attached to the object; calculating an activation code from the acquired position; displaying the activation code; transmitting the activation code by an electronic mobile terminal including a wireless interface to a remote entity; receiving a response code by the electronic mobile terminal, the response code being generated by the remote entity; acquiring the response code by an input interface of the device; decoding the response code by the device; generating a command for unlocking a service associated with the object rigidly attached to said device.

An embodiment of a valve, such as a water valve, includes a body, a sleeve, and a rod. The body includes a body cavity, and the sleeve is removably disposable within the body cavity and includes a sleeve cavity. And the rod is movably disposable within the sleeve cavity and is configured to form a fluid-tight seal between the body cavity and the sleeve cavity while the rod is in a closed position and is configured to allow a fluid to flow from the body cavity to the sleeve cavity while the rod is in an open position. Furthermore, one or more components of the valve each can be made partially or fully from one or more polymers.