A valve block includes a fluid-transfer plate with multiple inlet bores connecting to a common inlet channel, and multiple outlet bores connecting to a common outlet channel. The inlet bores and the outlet bores are arranged in a curved shape. The valve block also includes a pressure plate and diaphragm aligned and connected to the fluid-transfer plate in a way that allows pressurized material in the pressure plate to control the state of the channels formed by the inlet and outlet bores.

A buffer valve is installed on a pneumatic diaphragm valve. An inner flow channel of the buffer valve includes an inner micro gas hole, an inner chamber, an outer gas hole, and a floating ball. The buffer valve has functions with a high-filling action, a shielding action, a releasing action, a shielding time Δt, and an adjusting mechanism. When inflatable, the floating ball will not block the inner micro hole to be quickly filled with high-pressure gas. when gas discharge, the floating ball will move to the outer gas hole with the gas flow and produce the shielding action to reduce the discharge rate to reduce the vibration and slow down the approach speed of the diaphragm to reduce the impact against the valve seat. When the pressure of the gas decreases, the floating ball is separated from the outer gas hole by the releasing action to accelerate the discharge.

A valve assembly and an ink cartridge with the valve assembly are provided. The valve assembly includes a valve cover, a valve base, a diaphragm and a transfer column. The valve cover is disposed on the valve base to define a valve cavity, and the diaphragm is disposed between the valve cover and the valve base and configured for separating the valve cavity into a first deformable cavity and a second deformable cavity independent with each other. The transfer column is fixed in the valve cavity and penetrates through the diaphragm, and at least one of the transfer column and the diaphragm is provided with a passage. The diaphragm moves relative to the transfer column due to a pressure difference between the first deformable cavity and the second deformable cavity, resulting in opening or cutting off communication between the first deformable cavity and the second deformable cavity by the passage.

Apparatus and method for capturing and combusting all vented natural gas and controlling natural gases from pneumatic controllers for oil field equipment are described. After an oil or gas well is drilled and completed, separators or treaters, as an example of oil field equipment, are installed on the surface to separate the liquids (oil/condensate and water) and gases (natural gas/methane). Pressure control valves, liquid control valves, temperature control valves, and the like, are pneumatically operated by the natural gas/methane that the separator is processing for sale, when electricity is not available to provide power for these operations. Presently, the pneumatic controllers discharge the pneumatic gas/methane to the atmosphere.

A bi-directional valve has an inlet with an outlet that may interchangeably applied to a pressure source and still operate properly. A spring applies a bias to a concave diaphragm against a cover plate in a non-relieving configuration to seal an inlet relative to an outlet. The cover plate may have ports with a shallower attack angle than prior art designs. Those ports may also have different shapes to facilitate significantly more flow permitting at least some better performance characteristics than prior art designs.

It is an object of the present invention to provide a constant-pressure valve having excellent flexibility of a diaphragm and capable or reducing generation of particles. A valve body-side abutment surface 21x which is vertical to moving directions of the valve body 21 and the shaft 31 is formed on the valve body 21, a shaft-side abutment surface 31x which is vertical to the moving directions of the valve body 21 and the shaft 31 is formed on the shaft 31, a valve seat-side abutment surface 41x which is vertical to the moving directions of the valve body 21 and the shaft 31 is formed on the flow rate control passage 13, a valve-closing abutment portion 41y which projects in a ring-shape is formed on the valve body-side abutment surface 21x or the valve seat-side abutment surface 41x, a valve body-pressing abutment portion 31y which projects in a ring-shape is formed on the valve body-side abutment surface 21x or the shaft-side abutment surface 31x, the shaft 31 and the shaft-side diaphragm 32 are formed of composite material which is made by bonding PTFE and cross-linked FIFE to each other, the shaft-side diaphragm 32 is formed of the PTFE, and the shaft-side abutment surface 31x is formed of the cross-linked PTFE.

A diaphragm valve includes: a valve body having formed therein a first valve chamber, a second valve chamber and a communication passage communicating between the two valve chambers; a valve seat formed in the communication passage; a valve mechanism including a diaphragm supporting a valve element that comes in contact with and separates from the valve seat and a second diaphragm; a pressurizing unit being configured to pressurize the first diaphragm so as to press the valve element against the valve seat; and a bonnet for holding an outer peripheral part of the second diaphragm between the bonnet and the valve body. The pressurizing unit is configured as a single integrated unit holding therein a movable body that moves in conjunction with the valve element via a stem.

A fill valve system with a float nested in a container connected to the fill valve and a siphon device passing water out of the container into the toilet tank, with the siphon device having an air vent dimensioned such that: (i) tank refilling is delayed until after the flush valve closes; (ii) the fill valve is not turned on by small leaks in the tank; and (iii) the fill valve turns off when it encounters large leaks in the tank.

The disclosure relates to a diaphragm poppet valve. The intention is to provide a diaphragm valve which is constructed as simply as possible with few components and with valve parts through which a working fluid flows that are easy to clean. The problem is solved by a diaphragm poppet valve with a control diaphragm which is resilient in shape and separates a control chamber from a working chamber, wherein the control diaphragm is designed as a single piece on the side thereof facing the control chamber or the working chamber of the diaphragm poppet valve with a hollow portion and on the side thereof facing the working chamber with a diaphragm valve seat, wherein the interior of the hollow portion issues into the diaphragm valve seat and the hollow portion is connected to a fluid channel in the diaphragm poppet valve. The diaphragm poppet valve according to the disclosure is easy to clean because the interior of the hollow projection and the diaphragm valve seat formed by the control diaphragm can easily be flushed. In addition, the number of components is reduced by integrating a valve seat immediately into the control diaphragm itself. At the same time, dead spaces are avoided by integrating a hollow projection which can be connected to a fluid channel.

The invention relates to a valve. A valve seat (2) encloses a fluid passage (20) for passage of a fluid from a fluid chamber (3). A holding element (4) exerts a holding force on a valve body (1), the holding force acting in a direction towards a valve seat (2). In the event that the fluid acts on an effective surface (10) of the valve body (1) with a force or a pressure above a limit value, the valve body (1) moves away from the valve seat (2). In the event that the fluid acts on an effective surface (40) of the holding element (4) with a force or a pressure above a limit value, the holding force acting on the valve body (1) decreases. In doing so, the fluid acts on the holding element (4) more strongly and/or earlier than on the valve body (1).