Abstract: A flowmeter and a manifold for the same are provided according to an embodiment. The manifold comprises a body defining a first face and an opposing second face. A first orifice that projects into the body from the first face is defined by the body, and a second orifice that is also defined by the body projects into the body from the second face. The first and second orifices meet to define a fluid passage traversing through the body, and the second orifice is configured to fluidly connect to at least one flow tube of the flowmeter. At least one boss projects from the second face.

Abstract: A turbine inspection stopper is provided, including a main body and a pressure gauge. The main body has a base portion, an annular flange which is laterally disposed around the base portion and an air passage, the annular flange is for being connected to one of two ends of a turbine, the base portion and the annular flange define an interior space, the interior space is for communicating with an interior of the turbine, and the air passage is for communicating with outside and the interior of the turbine; and at least one part of the pressure gauge is buried in the main body and communicates with the interior space.

Abstract: A core for a turbine airfoil casting according to an embodiment includes: a center plenum section; and a plurality of outer passage sections; wherein the center plenum section includes at least one boss extending outwardly from the center plenum to an outer profile of the core.

Abstract: A method and device for the ultrasonic testing of test objects by means of a test head. A computer device directly acquires, during a SAFT analysis for determining points in time of the amplitudes to be summed up from among the image time signals, a propagation time, which depends on the test head, from the test head positioned at a measuring point to the location of each of a plurality of voxels and uses the propagation time for calculating an amplitude total for the plurality of voxels.

Abstract: A mechanical meter for measuring the quantity of liquid flowing through a pipe (2), comprising an impeller (1) rotatably supported by a saddle (3) positionable on the outer surface of the pipe (2), in which the inner surface of the saddle (3) is arranged to abut, at least by a part thereof, directly against the outer surface of the pipe (2) such as to ensure the same penetration of the impeller (1) into the pipe (2) for each installation.

Abstract: According to the invention, a system for determining at least one property of a fluid flow through a conduit is disclosed. The system may include a bearing, at least one blade member, and a monitoring device. The bearing may be coupled with an interior of the conduit, and may include an inner race, where the inner race may rotate. The blade members may be coupled with the inner race, and may extend from the inner race toward the interior of the conduit. The blade members may rotate when a fluid flows through the interior of the conduit, and the inner race of the bearing may rotate when the blade members rotate. The monitoring device may be configured to determine a rate of rotation of the blade members. At least one property of the fluid flow may be determined based at least in part on the rate of rotation.

Abstract: The invention relates to a turbine flowmeter for measuring the consumption of fluids, particularly water. The turbine flowmeter comprises a housing (1) with an inflow (2), and outflow (3) and a flow channel (4). The turbine flowmeter also comprises a measuring unit (5) for measuring and indicating the consumption. A turbine (10) with a hub (11) and a number of radial vanes (12.1, 12.2) is located inside the channel (4). A holding insert (20) is also located inside the channel (4) and is comprised of a water guide cross (20.1) and of an insert base body (20.2). The water guide cross (20.1) comprises a hub (21), radial struts (22) extending from the hub (21) to the wall of the channel (4), a nozzle body (23), which surrounds the front (14) of the turbine (10), however, a gap (17) remains through which the fluid flows, and comprises a central opening (24) in the nozzle body (23). The vanes (12.1. 12.2) of the turbine (10) are positioned near the nozzle body (23). A nozzle ring (16) connects the vanes (12.1, 12.

Abstract: According to the invention, a system for determining at least one property of a fluid flow through a conduit is disclosed. The system may include a bearing, at least one blade member, and a monitoring device. The bearing may be coupled with an interior of the conduit, and may include an inner race, where the inner race may rotate. The blade members may be coupled with the inner race, and may extend from the inner race toward the interior of the conduit. The blade members may rotate when a fluid flows through the interior of the conduit, and the inner race of the bearing may rotate when the blade members rotate. The monitoring device may be configured to determine a rate of rotation of the blade members. At least one property of the fluid flow may be determined based at least in part on the rate of rotation.

Abstract: A fluid flow resistor 10 for use in ophthalmic surgery includes a housing 12 having an inlet 14 and an outlet 16. An elongated turbine 22 is caused to spin within the housing 12 by a flow of fluid which extracts energy from the fluid flow and effectively increases a resistance to fluid flow from the inlet 14 to the outlet 16.

Abstract: The invention provides a liquid meter comprising a measurement chamber in which a spinner is caused to rotate about an axis and pivots, at least at low liquid flow rates, on a support in alignment with the axis. The pivoting motion takes place via a ball that is free to rotate between two concave surfaces each having a radius of curvature that is greater than the radius of curvature of the ball. One of the concave surfaces is tied to the spinner, whereas the other surface is secured to the support.

Abstract: A water softener valve for controlling water flow to and from a water softener is disclosed that includes a cylindrical shaft extending from said inner surface of a piston chamber that fits into a pressure relief port when the piston is in the service position. The shaft clears the pressure relief port of any debris and closes the pressure relief port during the service cycle. The water softener valve also has a flow meter with at least two helically expanding vanes. A magnet on of the vanes trips a sensor as the turbine rotates, thereby providing means for calculating the flow of water through the valve. The valve also has a flow control button located at an inlet of the valve rather than at the drain, preventing the obstruction of the water flow by regeneration sediment of the tank at the drain. The valve also contains an internal piston port for permitting the free flow of water through the valve during a change in softener cycles.

Abstract: The present invention relates to a cyclone turbine flowmeter for extracting information about a flow rate or measuring the quantity of flow flowing in production facilities. The cyclone turbine flowmeter includes a cyclone turbine formed with flow channels for allowing liquids flowing in from the outside to receive rotary power, a rotor rotated by the liquids passed through the flow channels of the cyclone turbine, a turbine bearing manufactured so as to minimize frictional forces and at the same time, to have durability and resistance to chemicals, and a vibration isolation bearing constructed in such a manner of enclosing the turbine bearing and its turbine axle to prevent vibration.