A volumetric pump, comprising: at least one deformable enclosure, which defines at least one variable-volume chamber, each of the at least one chamber being provided with an intake passage and with an outflow passage, magnetically-actuated elements, which act on portions of the deformable closure in order to deform the deformable enclosure between an extended configuration, having a larger volume, and a compressed configuration, having a smaller volume, drive elements for the actuation of the magnetically-actuated elements, a load-bearing frame on which the at least one deformable enclosure and the drive elements are mounted.

A volumetric pump, comprising: at least one deformable enclosure, which defines at least one variable-volume chamber, each of the at least one chamber being provided with an intake passage and with an outflow passage, magnetically-actuated elements, which act on portions of the deformable closure in order to deform the deformable enclosure between an extended configuration, having a larger volume, and a compressed configuration, having a smaller volume, drive elements for the actuation of the magnetically-actuated elements, a load-bearing frame on which the at least one deformable enclosure and the drive elements are mounted.

A reciprocating pump assembly includes a fluid end section having a pressure chamber and a plunger bore that fluidly communicates with the pressure chamber. The reciprocating pump assembly includes a plunger configured to be held within the plunger bore of the fluid end section, and a linear actuator operatively connected to the plunger such that the linear actuator is configured to reciprocate the plunger within the plunger bore during operation of the reciprocating pump to thereby pump fluid through the fluid end section.

A reciprocating pump assembly includes a fluid end section having a pressure chamber and a plunger bore that fluidly communicates with the pressure chamber. The reciprocating pump assembly includes a plunger configured to be held within the plunger bore of the fluid end section, and a linear actuator operatively connected to the plunger such that the linear actuator is configured to reciprocate the plunger within the plunger bore during operation of the reciprocating pump to thereby pump fluid through the fluid end section.

A drive apparatus of an electric motor which does not include a position detection sensor, the drive apparatus includes drive portion configured to drive the electric motor on the basis of a command value inputted from outside, a number-of-rotations detection portion configured to detect a number of rotations of the electric motor driven by the drive portion, an out-of-phase judgement portion judging that the electric motor is out of phase in a case where the number of rotations detected by the number-of-rotations detection portion is less than a predetermined threshold value, and the predetermined threshold value being configured to be changed on the basis of the command value inputted from outside.

A drive apparatus of an electric motor which does not include a position detection sensor, the drive apparatus includes drive portion configured to drive the electric motor on the basis of a command value inputted from outside, a number-of-rotations detection portion configured to detect a number of rotations of the electric motor driven by the drive portion, an out-of-phase judgement portion judging that the electric motor is out of phase in a case where the number of rotations detected by the number-of-rotations detection portion is less than a predetermined threshold value, and the predetermined threshold value being configured to be changed on the basis of the command value inputted from outside.

End element for the stator of an electric motor of a hermetically sealed refrigerant compressor. The end element includes at least one isolating element, having a ring-like core, to cover an axial end portion of the stator and to isolate a stator core and stator windings. The end element includes several spring holders that extend radially outside the isolating element, each spring holder being adapted to hold a spring for supporting the electric motor in a housing of the hermetically sealed refrigerant compressor. The spring holders are oriented parallel to the axis of the isolating element and an insertion part of each spring holder extends in a first axial direction beyond the neighboring area of the isolating element. The spring holders and the isolating element are integral parts of the end element. The spring holders are tiltable so that an extended part of a spring holder tilts radially inwards.

A device includes a source for at least one liquid plastic component, and a metering device. The source is configured to intermittently supply the at least one liquid plastic component for the metering device. A buffer device with a variable buffer volume is between the source and the metering device, and the buffer device is connected to the source via an inlet opening and to the metering device via an outlet opening.

A device includes a source for at least one liquid plastic component, and a metering device. The source is configured to intermittently supply the at least one liquid plastic component for the metering device. A buffer device with a variable buffer volume is between the source and the metering device, and the buffer device is connected to the source via an inlet opening and to the metering device via an outlet opening.

This Magnetic-hydraulic pump is an appliance that uses magnetic force to pump hydraulic liquid, so as to drive a hydraulic motor as rotating output. In such way, The magnetic force is turned to rotating movement.

In order to continuously gain the turning output, this appliance makes these pumping containers circularly arranged, and could be restored without the liquid backwards.