A valve arrangement includes a valve body having a stem rotatably attached at least partially within the body, a handle in operable communication with the stem and configured to rotate the stem by turning the handle, and an actuation portion in contact with the stem and configured to move when the handle is turned and the stem rotated. The actuation portion includes a carrier having an inner bore. The inner bore receives at least a portion of the stem. The stem includes first and second thread portions. The first thread portion has a first thread pitch at least partially received within the inner bore. The second thread portion is in communication with a bonnet attached to the body with a second thread pitch and moves the stem with respect to the body. The second pitch is smaller than the first pitch.

The valve component comprises a valve member movable between an open position and a closed position. The valve component comprises a valve control mechanism including a drive member that moves the valve member. The drive member rotates the valve member between the open position and an intermediate position and linearly moves the valve member between the intermediate position and the closed position. The valve control mechanism includes a cam to drive the drive member. The cam includes a cam slot to engage the drive member. The cam slot includes a recess to receive the drive member in the closed position of the valve member so that the recess locates the drive member to resist or prevent linear movement of the valve member away from the valve closed position towards the valve intermediate position.

The valve component comprises a valve member movable between an open position and a closed position. The valve component comprises a valve control mechanism including a drive member that moves the valve member. The drive member rotates the valve member between the open position and an intermediate position and linearly moves the valve member between the intermediate position and the closed position. The valve control mechanism includes a cam to drive the drive member. The cam includes a cam slot to engage the drive member. The cam slot includes a recess to receive the drive member in the closed position of the valve member so that the recess locates the drive member to resist or prevent linear movement of the valve member away from the valve closed position towards the valve intermediate position.

A frictionless rotary valve comprising: a valve body to be connected within a gas meter, the valve body comprising: a seal, fixedly attached near an outlet of the valve body; and a valve disc, having a ball bearing attached to the valve body; and a gear mechanism comprising: a worm wheel engaged with a worm, wherein the worm wheel is attached to a second end of the valve disc; a drive gear connected to the worm, wherein a rotation of the drive gear in a clockwise direction rotates the worm wheel in an anti-clockwise and moves the valve disc in a closed position; a worm wheel stop, for restricting a movement of the worm wheel in the anti-clockwise direction and driving the worm wheel in a vertically upward direction; and a linear guide attached to the worm wheel.

A diverter valve for an appliance such as a washing machine or the like provides a valve plate that can be moved by a DC motor both rotationally about an axis and axially along the axis to allow the valve plate to be retracted from engagement with a valve seat before rotation and reengaged after rotation permitting operation with a low-power DC motor.

A diverter valve for an appliance such as a washing machine or the like provides a valve plate that can be moved by a DC motor both rotationally about an axis and axially along the axis to allow the valve plate to be retracted from engagement with a valve seat before rotation and reengaged after rotation permitting operation with a low-power DC motor.

A closure assembly for a fluid port having a fluid flow channel defined along an axis, the channel ending in a port opening. The assembly includes: a closure cap extending in a first plane arranged to seat across, and close the port opening, in use, in a closed state, a guide arm extending from the cap in a second plane substantially perpendicular to the first plane; a lifting guide to accommodate and retain the guide arm for movement of the guide arm in the second plane as the cap moves axially away from the opening; and a pivot mechanism between the guide arm and the lifting guide about which the cap is able to pivot relative to the lifting guide to an open position.

Technologies are described for dual motion shutoff valve assemblies. In various examples, valve assemblies include a sequencing drive mechanism and an eccentric shaft mechanism operable to linearly retract the valve disk from a gasket surface to effectively reduce scratching and friction of the gasket surface during valve opening and closing operations. In some examples, the sequencing drive may include two interlocking concentric driver rings, a retaining housing, and roller lock pins. Three guided pins of the sequencing drive may be configured to prevent the valve from rotating, while also causing the valve to retract linearly from the gasket surface via the eccentric shaft. Following retraction, an inner driver of the sequencing drive may allow the roller lock pins to move and lock the outer driver, which in turn may lock the valve disk to the shaft and rotate along with the shaft, which may be a single or dual shaft.

Technologies are described for dual motion shutoff valve assemblies. In various examples, valve assemblies include a sequencing drive mechanism and an eccentric shaft mechanism operable to linearly retract the valve disk from a gasket surface to effectively reduce scratching and friction of the gasket surface during valve opening and closing operations. In some examples, the sequencing drive may include two interlocking concentric driver rings, a retaining housing, and roller lock pins. Three guided pins of the sequencing drive may be configured to prevent the valve from rotating, while also causing the valve to retract linearly from the gasket surface via the eccentric shaft. Following retraction, an inner driver of the sequencing drive may allow the roller lock pins to move and lock the outer driver, which in turn may lock the valve disk to the shaft and rotate along with the shaft, which may be a single or dual shaft.

The valve component comprises a valve member movable between an open position and a closed position. The valve component comprises a valve control mechanism including a drive member that moves the valve member. The drive member rotates the valve member between the open position and an intermediate position and linearly moves the valve member between the intermediate position and the closed position. The valve control mechanism includes a cam to drive the drive member. The cam includes a cam slot to engage the drive member. The cam slot includes a recess to receive the drive member in the closed position of the valve member so that the recess locates the drive member to resist or prevent linear movement of the valve member away from the valve closed position towards the valve intermediate position.