A pump adapted for use in desalination systems that has four cylinders, with a double acting piston in each cylinder. Each cylinder and piston thereby defines a feed chamber and a recovery chamber. The pistons are connected to a common drive. The connection to the common drive is such that the pistons reciprocate in a sequence equally spaced in time. Reciprocating valving for each piston is driven by the common drive to be 90 degrees out of phase with the respective piston. The valving connects the recovery chamber alternately to an inlet manifold for an intake stroke of the piston relative to the recovery chamber, and to an outlet manifold for a discharge stroke of the piston relative to the recovery chamber. There is a brief period of closure coinciding with top dead centre and bottom dead centre of the piston, during which the recovery chamber is blocked off from both the inlet and outlet manifolds. The reciprocating valving is midway between its top dead centre and bottom dead centre during the period of closure.

A pump adapted for use in desalination systems that has four cylinders, with a double acting piston in each cylinder. Each cylinder and piston thereby defines a feed chamber and a recovery chamber. The pistons are connected to a common drive. The connection to the common drive is such that the pistons reciprocate in a sequence equally spaced in time. Reciprocating valving for each piston is driven by the common drive to be 90 degrees out of phase with the respective piston. The valving connects the recovery chamber alternately to an inlet manifold for an intake stroke of the piston relative to the recovery chamber, and to an outlet manifold for a discharge stroke of the piston relative to the recovery chamber. There is a brief period of closure coinciding with top dead centre and bottom dead centre of the piston, during which the recovery chamber is blocked off from both the inlet and outlet manifolds. The reciprocating valving is midway between its top dead centre and bottom dead centre during the period of closure.

A dual acting pressure boosting liquid partition device (2) and system, including a hollow cylinder housing (20) having a longitudinal extension, the cylinder housing (20) having at least a first part and a second part having a first transverse cross sectional area (a1) and a third part having a second transverse cross sectional area (a2) of different size than the first transverse cross sectional area (a1), a rod having a cross sectional area corresponding to the first transverse cross sectional area (a1), the rod further having a protruding portion (30) having a cross sectional area corresponding to the second transverse cross sectional area (a2), and the protruding portion and the third part of the cylinder housing (20) defining a first outer chamber (44′) and a second outer chamber (44″).

A dual acting pressure boosting liquid partition device (2) and system, including a hollow cylinder housing (20) having a longitudinal extension, the cylinder housing (20) having at least a first part and a second part having a first transverse cross sectional area (a1) and a third part having a second transverse cross sectional area (a2) of different size than the first transverse cross sectional area (a1), a rod having a cross sectional area corresponding to the first transverse cross sectional area (a1), the rod further having a protruding portion (30) having a cross sectional area corresponding to the second transverse cross sectional area (a2), and the protruding portion and the third part of the cylinder housing (20) defining a first outer chamber (44′) and a second outer chamber (44″).

A piston type pump includes a pump housing having at least one pump inlet, at least one pump outlet, and a piston arrangement connected to a drive shaft configured to, when driven, set the piston arrangement into movement. The piston arrangement includes a first primary stage piston, the first primary stage piston being slidably seated in a first primary stage cylinder formed in the pump housing, and a first secondary stage piston. The first secondary stage piston is slidably seated in a first secondary stage cylinder formed in the first primary stage piston.

A hydraulic fan drive includes an adjustable variable-displacement pump by which a pressurized fluid can be sucked in and can be delivered via a pump pressure port and which has, for adjustment of the delivery volume, an adjustment device with an actuation chamber, which is delimited by an actuation surface of an adjustment piston and to which a pressurized fluid can be supplied for increasing the delivery volume and from which pressurized fluid can be displaced for reducing the delivery volume. The adjustment device further includes a counter chamber, which is delimited by a counter surface, smaller in cross section in comparison with the actuation surface, of an adjustment piston and can be acted on by pump pressure. The adjustment device also includes an actuation spring, which acts so as to adjust the delivery volume toward an extreme value.

A reciprocating piston pump assembly comprises a cylinder housing with two internal chambers separated by a piston. The piston is coupled with a pushrod that reciprocates back and forth between two positions. The piston's position is tracked to measure the volume of fluid passing through the pump assembly. The pump assembly has two inlets, two outlets, two inlet passages, and two outlet passages. A first valve is positioned on the pushrod at a junction between the first inlet passage and first outlet passage. A second valve is positioned on the pushrod at a junction between the second inlet passage and second outlet passage. The pushrod can be positioned in a neutral position to simultaneously close both valves.

A reciprocating piston pump assembly comprises a cylinder housing with two internal chambers separated by a piston. The piston is coupled with a pushrod that reciprocates back and forth between two positions. The piston's position is tracked to measure the volume of fluid passing through the pump assembly. The pump assembly has two inlets, two outlets, two inlet passages, and two outlet passages. A first valve is positioned on the pushrod at a junction between the first inlet passage and first outlet passage. A second valve is positioned on the pushrod at a junction between the second inlet passage and second outlet passage. The pushrod can be positioned in a neutral position to simultaneously close both valves.

An axial piston machine has a swash plate and an adjusting device having an adjusting cylinder and a double-acting adjusting piston which is longitudinally movable in the adjusting cylinder and includes a piston and a piston rod, which is fixedly connected to the piston and is articulated to the swash plate. The joint between the adjusting piston and the swash plate is a movable swivel joint having a joint body receptacle on one part and a joint body on the other part of the adjusting piston and the swash plate. The joint body is closely guided in the joint body receptacle in the direction of movement of the adjusting piston, is to rotatable about an axis of rotation running parallel to the pivot axis of the swashplate, and is movable with a directional component perpendicular to the direction of movement of the adjusting piston and perpendicular to the axis of rotation.

An axial piston machine has a swash plate and an adjusting device having an adjusting cylinder and a double-acting adjusting piston which is longitudinally movable in the adjusting cylinder and includes a piston and a piston rod, which is fixedly connected to the piston and is articulated to the swash plate. The joint between the adjusting piston and the swash plate is a movable swivel joint having a joint body receptacle on one part and a joint body on the other part of the adjusting piston and the swash plate. The joint body is closely guided in the joint body receptacle in the direction of movement of the adjusting piston, is to rotatable about an axis of rotation running parallel to the pivot axis of the swashplate, and is movable with a directional component perpendicular to the direction of movement of the adjusting piston and perpendicular to the axis of rotation.