An electromechanical device, having an actuator drive, which may be electrically actuated with the aid of a controller, and an actuator, which may be driven with the aid of the actuator drive and includes a housing, the actuator drive including an electric motor and a transmission, and the actuator drive having at least one electric line for electrical connection to the controller, and the electric motor being connected in a torque-transmitting manner to the actuator with the aid of the transmission. To improve an electromechanical device, it is proposed that the actuator drive is arranged entirely in the housing of the actuator up to the electric line.

Disclosed is a stator structure for a galvanometer motor. The stator structure includes a frame and a single electromagnetic coil, wherein a first through hole configured to allow a rotor assembly to run through is molded on the frame, a support portion disposed on a side of the first through hole and extending along an axial direction perpendicular to the first through hole; wherein the electromagnetic coil is wound on the support portion, a protrusive restraining block is molded on both sides of an outer wall of the support portion on the frame, wherein a distance between the support portion and either of the two restraining blocks is a maximum width for winding the electromagnetic coil.

This patent describes a three-phased reluctance motor (10) of stepper type with six coils placed in six slots (15.sup.1-15.sup.6) in a stator (5), n*6 teeth (7) in rotor (5) where n is an integer equal to or larger than 3, typically 8-16 and were the teeth (18) in stator (4) are shifted unsymmetrical so the motor (10) can produce torque at every angle between rotor (5) and stator (4).

This patent describes a three-phased reluctance motor (10) of stepper type with six coils placed in six slots (15.sup.1-15.sup.6) in a stator (5), n*6 teeth (7) in rotor (5) where n is an integer equal to or larger than 3, typically 8-16 and were the teeth (18) in stator (4) are shifted unsymmetrical so the motor (10) can produce torque at every angle between rotor (5) and stator (4).

A device for adjusting an object, for example a roll in a roll stand including a rotatably mounted pressure spindle and a torque motor having a stator and a rotor for rotationally driving the pressure spindle. In addition, the device includes a fixedly arranged pressure nut, which is engaged with the pressure spindle in a rotationally coupled manner via a thread to generate an axial movement of the pressure spindle in case of its rotation. Due to the axial movement generated in this way, the device can generate an axial adjustment force and transmit it to the object to be adjusted.

A rotary machine for the treatment of containers is described. This rotary machine comprises a stationary underframe, a rotatable container table for receiving the containers, a motor designed as an internal rotor for direct drive of the container table, a bearing for supporting the container table and/or a non-rotatably connected supporting structure on the underframe radially outside the motor, and a rotary encoder for determining the rotational position of the container table. By positioning the rotary encoder radially outside the motor, the accuracy of the rotary position determination can be improved, especially for rotary machines with comparatively large pitch diameters and the accessibility of the rotary encoder for maintenance measures.

A rotary machine for the treatment of containers is described. This rotary machine comprises a stationary underframe, a rotatable container table for receiving the containers, a motor designed as an internal rotor for direct drive of the container table, a bearing for supporting the container table and/or a non-rotatably connected supporting structure on the underframe radially outside the motor, and a rotary encoder for determining the rotational position of the container table. By positioning the rotary encoder radially outside the motor, the accuracy of the rotary position determination can be improved, especially for rotary machines with comparatively large pitch diameters and the accessibility of the rotary encoder for maintenance measures.

There is provided a method of assembling a torque motor. The method comprises fastening the torque motor to a support such that any magnetic elements of the torque motor are substantially fixed in position with respect to the support, but without securing an armature to the torque motor, locating the armature of the torque motor around a fixed element of the torque motor such that the armature is able to move with respect to the fixed element, moving the armature with respect to the fixed element whilst the magnetic elements of the torque motor are substantially fixed in position with respect to the support, so as to position the armature in an in use orientation or position, and then attaching the armature to the fixed element in the in use orientation or position.

There is provided a method of assembling a torque motor. The method comprises fastening the torque motor to a support such that any magnetic elements of the torque motor are substantially fixed in position with respect to the support, but without securing an armature to the torque motor, locating the armature of the torque motor around a fixed element of the torque motor such that the armature is able to move with respect to the fixed element, moving the armature with respect to the fixed element whilst the magnetic elements of the torque motor are substantially fixed in position with respect to the support, so as to position the armature in an in use orientation or position, and then attaching the armature to the fixed element in the in use orientation or position.

A pole piece for a torque motor includes two separate arcuate members and first and second diametrically opposed attachment portions formed as a single piece of material. Each arcuate member extends in opposite directions from the first attachment portion and following a generally circular path defining a perimeter of the pole piece and meeting each other at the second attachment portion. The arcuate members are devoid of any holes or apertures.