A wastegate actuator includes a direct-current motor, a shaft for opening and closing a wastegate valve of a turbocharger, and a screw mechanism for converting a rotary motion of the direct-current motor into a linear motion of the shaft, and the screw mechanism has a lead angle in accordance with a current of the direct-current motor that is required to hold the shaft at a position.

A wastegate actuator includes a direct-current motor, a shaft for opening and closing a wastegate valve of a turbocharger, and a screw mechanism for converting a rotary motion of the direct-current motor into a linear motion of the shaft, and the screw mechanism has a lead angle in accordance with a current of the direct-current motor that is required to hold the shaft at a position.

A pipe branching manifold including a multitude of pipe branches, wherein each pipe branch of the multitude of pipe branches includes an entry block valve, an exit block valve, and a bleed outlet including a bleed valve arranged between the entry block valve and the exit block valve, wherein in a standard operation of each pipe branch a respective entry block valve and a respective exit block valve is open and a respective bleed valve is closed, wherein in a test operation or maintenance operation of each pipe branch the respective entry block valve and the respective exit block valve is closed, and the respective bleed valve is open, wherein the pipe branching manifold includes a selector device for selecting either none or one out of the multitude of pipe branches for switching from the standard operation to the test operation or the maintenance operation.

A pipe branching manifold including a multitude of pipe branches, wherein each pipe branch of the multitude of pipe branches includes an entry block valve, an exit block valve, and a bleed outlet including a bleed valve arranged between the entry block valve and the exit block valve, wherein in a standard operation of each pipe branch a respective entry block valve and a respective exit block valve is open and a respective bleed valve is closed, wherein in a test operation or maintenance operation of each pipe branch the respective entry block valve and the respective exit block valve is closed, and the respective bleed valve is open, wherein the pipe branching manifold includes a selector device for selecting either none or one out of the multitude of pipe branches for switching from the standard operation to the test operation or the maintenance operation.

A riser for a surface irrigation system has a housing and an outlet valve. The housing has an open upper portion and an outlet defining an orifice. The valve includes an upper closure, a valve member, and an actuating lever. The upper closure is securable to the riser. The valve member is coupled to the closure and mountable within a flow path of the fluid, the valve member operable for opening and closing the valve, and configured to seat against a valve seat of the housing, and on an upstream side of the orifice, whereby the pressure of fluid within the valve urges the valve member against the seat when the valve is closed. The pivotable actuating lever having one end extending through the orifice and coupled to the valve member, and an operable end for operating the valve member to open and close the valve.

A riser for a surface irrigation system has a housing and an outlet valve. The housing has an open upper portion and an outlet defining an orifice. The valve includes an upper closure, a valve member, and an actuating lever. The upper closure is securable to the riser. The valve member is coupled to the closure and mountable within a flow path of the fluid, the valve member operable for opening and closing the valve, and configured to seat against a valve seat of the housing, and on an upstream side of the orifice, whereby the pressure of fluid within the valve urges the valve member against the seat when the valve is closed. The pivotable actuating lever having one end extending through the orifice and coupled to the valve member, and an operable end for operating the valve member to open and close the valve.

A control device for a WG actuator includes a feedback control unit for performing feedback control on the WG actuator in such a way that the position of a shaft detected by a position sensor gets close to a target position, and an abnormality detecting unit for providing an instruction to move the shaft in an axial direction for the feedback control unit, and for detecting an abnormality in the WG actuator on the basis of a result of a movement of the shaft, the movement being detected by the position sensor while the feedback control unit performs the instruction.

A control device for a WG actuator includes a feedback control unit for performing feedback control on the WG actuator in such a way that the position of a shaft detected by a position sensor gets close to a target position, and an abnormality detecting unit for providing an instruction to move the shaft in an axial direction for the feedback control unit, and for detecting an abnormality in the WG actuator on the basis of a result of a movement of the shaft, the movement being detected by the position sensor while the feedback control unit performs the instruction.

A fluid check valve for use in an aircraft fluid handling system having a confined surrounding structure where a first distance is defined between a fluid duct and the surrounding structure where the design of the fluid check valve is configured to facilitate removal of a first flange and the flow duct by moving the first flange and flow duct a second distance that is less than the first distance. The check valve is offset into the upstream side of a second flange to provide the reduction in the distance that the first flange has to be displaced to remove the first flange and flow duct from the check valve. A first alternate configuration of the fluid check valve utilizes rotational stops attached to the downstream surface of the flow flaps and in a second alternate embodiment configuration, rotational stops extend upstream from the flow flaps.

An overfill valve associated with a drop tube segment fluidly connected to a fluid reservoir is described. The overfill valve includes a valve body positioned within the drop tube segment and a non-contact valve actuator positioned exterior to the drop tube segment and operable to actuate the valve body from an open position to a closed position without requiring any physical penetration through the wall of the drop tube segment. The non-contact valve actuator has a first position in which the non-contact valve actuator does not actuate the valve body from the open position to the closed position in a second position, achieved when the liquid reservoir reaches a predetermined level approaching the capacity of the liquid reservoir, the non-contact valve actuator actuating the valve body from the open position to the closed position when the non-contact valve actuator obtains the second position.