A displacement control valve improved in the function of discharging a liquid refrigerant in a control chamber at startup achieves a reduction in startup time and an improvement in operating efficiency during control of a variable displacement compressor simultaneously. An opening area between a third valve section and a third valve seat surface in a control area to control the flow rate or pressure in a working control chamber is set smaller than an area of an auxiliary communicating passage, thereby reducing the minimum area of a Pc-Ps flow path in the control area.

Sealing system of a device for allowing the passage of a medium, in particular in the high pressure range, is provided with a housing that has a bore hole, a component mounted within the housing such as to oscillate and/or rotate and with a pressure chamber formed within the bore hole. A sealing element surrounding the component adjoins this pressure chamber which can be charged with the medium. An additional metal seal is formed here by the housing and a pressure disc surrounding the component. The outer region is thus tightly closed after the sealing element. In this way, the sealing element is completely tightly encapsulated on the outside.

A multiport valve may use a magnetic sphere in a fluid flow path to block flow. A magnet external to the fluid flow path may cause the sphere to pull away from the blocked position and may permit flow. The magnet may be moved away from the sphere, causing the sphere to again block the flow. By arranging multiple ports along the path of a magnet, each port may be individually actuated with a single magnet. The magnet's position may be controlled by a motor, allowing for computer controlled selection of a valve to be actuated with a minimum of moving parts and leakage. Each sphere may seal against an o-ring or against a cone, and the magnet may be selected to overcome the pressure forces holding the sphere in the sealed position.

A rotary type valve device includes a rotor having an internal passage and an opening portion which opens to an outer contour surface, a housing which supports the rotor to be rotatable and defines an axial passage communicating with the internal passage and a radial passage facing the outer contour surface and capable of communicate with the opening portion, a passage member disposed in the housing to define a part of the radial passage, and an annular seal member which seals a predetermined second clearance defined between the passage member and the housing, wherein the passage member includes an annular contact portion which is pressed so as to be in close contact with the outer contour surface by a pressure of a fluid flowing from the axial passage, and a pressed portion pressed by the pressure of the fluid flowing from the radial passage through the annular seal member.

A ball valve sealing arrangement includes a ball element, and a ball seal assembly to support the ball element. The ball seal assembly includes an O-ring and a ball seat, with the ball seat having an O-ring gland in one side and a recess in an opposite side, the O-ring gland to receive the O-ring and the recess to receive the ball element, and an outer dimension of the O-ring gland being within an outer dimension of the recess.

A valve system for use with a cylinder having an extensible rod, includes first and second valve assemblies, each including an inlet/outlet port configured to selectively be coupled with a source of pressurized gas, a check valve biased toward a closed state and having a check valve body at least partially receivable within a first port of the cylinder, a flow control valve positioned in series between the inlet/outlet port and the check valve, and an inlet pilot port connected with the check valve for opening the check valve when supplied with pressurized gas. First and second pilot lines extend to the respective inlet pilot ports from respective outlet pilot ports of the opposite ones of the first and second valve assemblies. When pressurized gas is supplied to the inlet/outlet port of a valve assembly, pressurized gas is also supplied to the opposite inlet pilot port.

A fluid valve system including a housing defining a plurality of flow paths and a flow control assembly disposed in the housing. The flow control assembly includes a stationary member having a plurality of openings formed therein, and a rotatable member provided with a flow member. When the rotatable member is in a first position, the flow control assembly permits a flow of a first fluid through a first flow path and a flow of a second fluid through a second flow path, and when the rotatable member in a second position, the flow control assembly permits a flow of the first fluid through a third flow path and a flow of the second fluid through a fourth flow path.

A valve system for use with a cylinder having an extensible rod, includes a first valve assembly including a first inlet/outlet port, a check valve biased toward a closed state, the check valve having a check valve body at least partially receivable within a first port of the cylinder, a flow control valve positioned in series between the first inlet/outlet port and the check valve, and a first pilot port selectively communicable with a pressurized gas for opening the check valve. The valve system further includes a second valve assembly including a second inlet/outlet port, a second pilot port through which the pressurized gas must flow before being introduced to the first pilot port, and a valve body at least partially receivable within a second port of the cylinder, wherein the second inlet/outlet port and the second pilot port are integrally formed as a portion of the valve body.

The invention relates to a sanitary change-over valve (1) having a valve housing (2) which has one valve inlet (3) and two selectively actuatable valve outlets (4, 5), having a valve piston (6) which is movable from a first switch-over position in which the fluid is guided by way of a flow path that is routed through a first valve outlet (4) to a second switch-over position in which the fluid is guided by way of a flow path that is routed by way of a second valve outlet (5) as soon as that portion of the second flow path that is routed beyond the change-over valve (1) has been released, wherein the valve piston (6) is configured as a hollow body through which the fluid in the course of at least one of the flow paths is routed by way of at least one piston inlet (9) that is disposed on the piston circumference. The change-over valve according to the invention is characterized in that the fluid that is routed by way of the at least one piston inlet (9) in the course of the second flow path is routed by way of a first piston outlet that is provided on that piston end side that faces away from the piston base (10), and in that a flow throttle (12), a flow regulator (11), or a return flow preventer is provided in the first piston outlet.

A water control valve may include a three-way pipe, an inner tube, an outer threaded tube, and a control valve. The three-way pipe integrally formed in T-shape has a water inlet end and a first connecting end which are longitudinally communicated, and a water outlet end communicated with the water inlet end and first connecting end is extended toward the lateral direction, to form the T-shape pipe. A small section's diameter is smaller than the water inlet end, and the bottom portion of the small section comprises an abutting portion, and a first water inlet hole axially penetrates through the abutting portion. One end of the inner tube is top-down inserted through the first connecting end into the small section of the three-way pipe, and a water stop periphery having a diameter larger than the inner tube is formed at the other end of the inner tube.