A pneumatic system for a medical fluid machine operating a medical fluid cassette, the pneumatic system including an interface for supplying positive pneumatic pressure and negative pneumatic pressure to the medical fluid cassette; a source of positive pneumatic pressure; a source of negative pneumatic pressure; and a pneumatic pump including a first head and a second head, wherein the first head is dedicated to supplying positive pneumatic pressure to the positive pneumatic pressure source and the second head is dedicated to supplying negative pneumatic pressure to the negative pneumatic pressure source.

The present invention aims at providing a new electro-hydraulic control terminal adopting modularized and configured cartridge valve RHCV. It has obvious advantages of hybrid combination and flexible customization when RHCV is applied in the independent control terminals based on “single loop resistance” to control hydraulic actuators including distributed cylinders and motors. It can follow the rules that functional diversities as many as possible can be achieved through technical diversities as few as possible, thus producing a new generation of electro-hydraulic product family and platform to meet the needs of customers.

A pneumatic multi-valve device includes a housing (21) having a plurality of electromagnetic valve actuators (1), each having coil elements (2) arranged stationary in the housing (21), a core (4) arranged in the housing (21), and armature elements (24). The cores (4) each have a venting bore (5) connected to a venting collection channel (14) on the side of the cores (4) facing away from the connection housing side (23). The venting collection channel is connected to a venting opening (28) of the housing (21), which venting opening is arranged on a housing side different from the housing back side (25). The venting collection channel (14) is formed by a plurality of venting channel elements (13), which are connected to each other.

An expandable solenoid system having a sequence controller assembly and at least two zone expander solenoid valve assemblies fastened in a staggered configuration. Each zone expander solenoid valve assembly has a zone expander solenoid and a flanged valve body assembly. The valve block has threaded bolt holes, unthreaded bolt holes, an output port, and a threaded pressure source port having an O-ring groove. The threaded bolt holes and the unthreaded bolt holes have different depths and are alternately positioned around a perimeter of the valve block. The first flanged valve body assembly is fastened to the second flanged valve body assembly and so on, in a staggered configuration, whereby respective zone expander solenoids are in a zigzag geometry and creating an expandable manifold.

A solenoid high pressure indexing valve system, having at least one solenoid manifold assembly with a manifold assembly and a plurality of solenoid valve assemblies; and a power supply assembly. The manifold assembly has a top face, first and second lateral faces, an inlet tube face, and a sensor face. The top face has a plurality of bores having respective valve bases and inlet-outlet passages. The first and second lateral faces each has a plurality of lateral holes. The inlet tube face is opposite to the sensor face and has an inlet hole, and the sensor face has a sensor hole. The manifold assembly further has an inlet passage and a plurality of outlet passages. The manifold assembly further has an inlet tube and a plurality of outlet tubes. The manifold assembly further has a pressure sensor.

A hydraulic valve body, comprising two main lines for bringing pressurized hydraulic fluid into the body's channel system and further out of the channel system. The body further comprises at least two outlet fittings for conducting hydraulic fluid from the body's channel system to actuators and two respective inlet fittings for conducting hydraulic fluid from the actuators back into the channel system.

A unitary valve trim assembly that can be easily installed in and removed from a valve body of a process control valve. The valve trim assembly includes a valve cage and a valve seat. The valve cage has a first projection that extends in a first direction that is perpendicular to a longitudinal axis of the valve cage. The valve seat has a second projection that extends in a second direction, opposite the first direction, that is perpendicular to the longitudinal axis. The second projection is arranged to engage the first projection to removably couple the valve seat to the valve cage.

A pneumatic system for a medical fluid machine operating a medical fluid cassette, the pneumatic system including an interface for supplying positive pneumatic pressure and negative pneumatic pressure to the medical fluid cassette; a source of positive pneumatic pressure; a source of negative pneumatic pressure; and a pneumatic pump including a first head and a second head, wherein the first head is dedicated to supplying positive pneumatic pressure to the positive pneumatic pressure source and the second head is dedicated to supplying negative pneumatic pressure to the negative pneumatic pressure source.

A device for fixing a directly controlled valve (1) acting as an actuator in a valve housing (2), in a duct plate, or in a transmission housing, the device being fixed to the valve housing (2), the duct plate, or the transmission housing by fixing elements (7), the device including a fixing plate (3) having a spring-loaded length (L). The spring-loaded length (L) is adjustable independently of a distance of the fixing elements (7) from a central axis (4) of the actuator.

An example valve section includes: a housing having: (i) a longitudinal bore, (ii) a first and second workport passages configured to be fluidly coupled to an actuator, (iii) a first and second return passages, (iv) an open-center passage configured to be fluidly coupled to a source of fluid, and (v) a supply passage disposed between the first and second workport passages. The valve section also includes a spool movable in the longitudinal bore to shift between: (i) a neutral position that allows the open-center passage to permit fluid flow therethrough, and (ii) a shifted position that allows fluid to be diverted from the open-center passage to the supply passage, and connects the supply passage to either the first or second workport passage while connecting the other workport passage to a corresponding return passage of the first and second return passages.