A home appliance with maintop gas control includes a gas control apparatus including a pressure regulator for receiving gas from a gas facility and distributing gas within the home appliance, the pressure regulator defining a gas conduit having a gas inlet, at least one gas outlet, and a valve disposed intermediate the gas inlet and at least one gas outlet, the valve including a valve stem configured for movement along an axis to open and close the valve; and a valve actuator including a drive element disposed remotely from the valve, the drive element being a rotary drive element operatively engaged with the valve stem for moving the valve between an open position and a closed position; and a mechanical link assembly disposed intermediate the valve stem and the drive element for converting rotary movement of the drive element into linear movement of the valve stem.

Valve arrangement for a system which is loaded with fluid, for connecting a first pressure region to a second pressure region by means of a first valve and a second valve connected in series. A third valve connects a region between the first valve and the second valves to a third pressure region. The first valve closes when a pressure which prevails on the side of the second pressure region is at least as high as a pressure which prevails on the side of the first pressure region. The first valve is coupled to the second valve so that the second valve closes when the first valve closes. The second valve is coupled to the third valve so that the third valve opens when the second valve closes.

A hydraulic circuit includes: a priority valve including a first position and a second position where: the first position includes a first fluid passage and a fixed bypass orifice connected to the first fluid passage; the second position includes a second fluid passage and a variable bypass orifice connected to the second fluid passage. The hydraulic circuit further includes: a first fluid line fluidly connecting the priority valve and a first machine component; a second fluid line fluidly connecting the priority valve and a second machine component; a check valve placed between the priority valve and the second machine component and fluidly connecting the priority valve and the second machine component; an oil passage on the priority valve fluidly connected to one or more machine components other than the first and second machine components; one or more actuators connected to the priority valve; and a control valve communicatively connected to the one or more actuators connected to the priority valve.

An adjustment apparatus is used for ultrasound examination of a subject by transmitting ultrasound to the subject and receiving the ultrasound reflected from the subject. The apparatus includes: a change unit configured such that one end is connected to a suction pump and the other end is provided at a portion of a channel leading to a contact portion with the subject, to change suction force of the suction pump on the other end; and a damper for suppressing change in the suction force. The change unit includes: a cylinder having first and second portions for communicating with one end side and the other end side of the channel, respectively; a piston slidable in the cylinder to change a communication state between the first and second portions; and a spring for biasing the piston toward a direction of causing the first and second portions not to communicate with each other.

Systems and methods for controlled equalization of fluid pressure are described. The system can include a flow restricting nozzle in line with an accumulator which together provide a gradual, controlled equalization of pressure between two locations. For example, in the subsea environment, the pressures can vary between a subsea processing station and a subsea flow line. The systems can be configured as ROV retrievable, or they can be integrated into the subsea processing station. In some cases, more than one accumulator and/or more than one flow restricting nozzles can be used in the system to provide for versatility and robustness.