A turbine wheel used in a turbine flow meter includes a hub configured to be freely rotatably fixed in position inside a fluid pipe section. A first cylindrical rim is centered about the hub and the longitudinal axis and spaced a distance apart from the hub. A first vane set extends outwardly from the hub to the first cylindrical rim, wherein a root of each vane of the first vane set is attached to the hub and a tip of each vane of the first vane set is attached to the first cylindrical rim. The first vane set may consist of one or two individual vanes. An external vane set may extend outwardly from the first cylindrical rim, wherein a root of each vane is attached to the first cylindrical rim and a tip of each vane is not attached to any cylindrical rim.

A system for water-flow monitoring comprising at least one micrometer, a gateway and a server, wherein the micrometer comprising: a housing, an inner tubular member, a rotating member, a sensing module, a transmission module, a power unit, a memory, and a processor, and wherein the tubular member is located inside the housing, and have an in and out connecting means and wherein the connecting means is connected to a distributing conduit on one side and associated with a water-flow outlet on the other side, and wherein the rotating member is designed to rotate upon the flow of water through said tubular member, and the sensing module is sensing the amount of water flow through the micrometer to said water-flow outlet, with accordance to the rotation of said rotating member, and wherein the micrometer is designed to have a hibernation mode, said hibernation mode starts according to a predefined condition and is terminated upon the sensing of water flow.

A flow rate sensor system for an agricultural sprayer includes a drum housing and a central passage housing defining a flow path, a Hall-effect sensor, a Hall-effect sensor window in a display housing, a magnetic carrier within the drum housing, and a magnet positioned in the magnetic carrier. The flow path has a first portion generally parallel to an axis, and a second vortex portion around the axis. The Hall-effect sensor faces the axis. The Hall-effect sensor window is between the Hall-effect sensor and the axis. The magnetic carrier is configured to rotate about the axis. Related methods are also disclosed.

A flow rate sensor system for an agricultural sprayer includes a drum housing and a central passage housing defining a flow path, a Hall-effect sensor, a Hall-effect sensor window in a display housing, a magnetic carrier within the drum housing, and a magnet positioned in the magnetic carrier. The flow path has a first portion generally parallel to an axis, and a second vortex portion around the axis. The Hall-effect sensor faces the axis. The Hall-effect sensor window is between the Hall-effect sensor and the axis. The magnetic carrier is configured to rotate about the axis. Related methods are also disclosed.

A cartridge-style flow sensor for sensing fluid flow. The includes an exterior, interior, head, base, a circuit board, and first and second ports. The first and second ports permit fluid to flow into and out of the interior. A Hall Effect Sensor in the interior detects the number of revolutions of an impeller. An electric coupler interfaces with the sensor and a transmitter for communication of the revolutions of the impeller to a controller. The controller determines the rate of fluid flow in a conduit. The controller automatically issues a command signal to a component of a hydraulic system to alter the rate of fluid flow in the conduit. The cartridge hydraulic flow sensor is easily and releasably engaged to a cavity of a hydraulic circuit manifold.

A fan, in particular axial fan and preferably backward-curved radial fan, having an impeller equipped with blades, an electric motor for rotating the impeller and a device for determining the airflow when the impeller is rotating. The device for determining the airflow includes a volume flow measuring wheel arranged in the air flow, which is arranged upstream of the impeller on the inflow side. The air volume flow is calculated or derived from the rotational speed of the volume flow measuring wheel.

An example valve includes: a plurality of ports comprising: a first port, a second port, and a third port; a spool configured to block fluid flow from the first port to the third port while allowing fluid flow from the third port to the second port when the valve is in an unactuated state; a spring applying a biasing force on the spool in a proximal direction, wherein when the valve is actuated, the spool moves in a distal direction against the spring, thereby allowing fluid flow from the first port to the third port while blocking fluid flow from the third port to the second port; and a turbine configured to rotate as fluid flows from the first port to the third port when the valve is in an actuated state.

An example valve includes: a plurality of ports comprising: a first port, a second port, and a third port; a spool configured to block fluid flow from the first port to the third port while allowing fluid flow from the third port to the second port when the valve is in an unactuated state; a spring applying a biasing force on the spool in a proximal direction, wherein when the valve is actuated, the spool moves in a distal direction against the spring, thereby allowing fluid flow from the first port to the third port while blocking fluid flow from the third port to the second port; and a turbine configured to rotate as fluid flows from the first port to the third port when the valve is in an actuated state.

A cartridge-style flow sensor for sensing fluid flow. The flow sensor includes an exterior, interior, head, base, a circuit board, and first and second ports. The first and second ports permit fluid to flow into and out of the interior. A Hall Effect Sensor in the interior detects the number of revolutions of an impeller. An electric coupler interfaces with the sensor and a transmitter for communication of the revolutions of the impeller to a controller. The controller determines the rate of fluid flow in a conduit. The controller automatically issues a command signal to a component of a hydraulic system to alter the rate of fluid flow in the conduit. The cartridge-style hydraulic flow sensor is releasably engaged to a cavity of a hydraulic circuit manifold eliminating the need to cut and re-plumb a fluid conduit.

A cartridge-style flow sensor for sensing fluid flow. The flow sensor includes an exterior, interior, head, base, a circuit board, and first and second ports. The first and second ports permit fluid to flow into and out of the interior. A Hall Effect Sensor in the interior detects the number of revolutions of an impeller. An electric coupler interfaces with the sensor and a transmitter for communication of the revolutions of the impeller to a controller. The controller determines the rate of fluid flow in a conduit. The controller automatically issues a command signal to a component of a hydraulic system to alter the rate of fluid flow in the conduit. The cartridge-style hydraulic flow sensor is releasably engaged to a cavity of a hydraulic circuit manifold eliminating the need to cut and re-plumb a fluid conduit.