The present disclosure provides a speaker having a lower magnetic conductive plate for carrying a magnet thereon and an upper magnetic conductive plate engaging with the lower magnetic conductive plate. The lower magnetic conductive plate includes a first oblique portion and a first horizontal portion for increasing an outer diameter of the lower magnetic conductive plate. The upper magnetic conductive plate includes a second oblique portion and a second horizontal portion both for increasing an outer diameter of the upper magnetic conductive plate. The lower and upper magnetic conductive plates cooperatively form a receiving space for accommodating a suspension to support a coil assembly. The lower magnetic conductive plate further includes a protruding portion extending perpendicularly from a middle portion of the bottom for carrying the magnet. The suspension is used for supporting the coil assembly for providing balanced vibration to the diaphragm.

An electromagnetic actuator 1 includes divisional cores (5a1 and 5a2), divisional cores (5b1 and 5b2) , a first coil unit (3A), a second coil unit (3B), a first movable unit (11a), a second movable unit (11b), and a casing (2). The casing (2) includes a magnetic material and surrounds the first coil unit (3A) and the second coil unit (3B) integrally.

An electromagnetic actuator 1 includes divisional cores (5a1 and 5a2), divisional cores (5b1 and 5b2) , a first coil unit (3A), a second coil unit (3B), a first movable unit (11a), a second movable unit (11b), and a casing (2). The casing (2) includes a magnetic material and surrounds the first coil unit (3A) and the second coil unit (3B) integrally.

A pilot device for a hydraulic directional valve includes a displacement sensor, a pilot valve, an actuating device, a coil assembly, and a circuit board. The displacement sensor has a sensor axis and the pilot valve has a valve axis. The valve axis and the sensor axis are arranged substantially parallel to one another so as to lie in a reference plane. The actuating device and the coil assembly are arranged adjacent to one another. The circuit board is arranged parallel to the reference plane. In each case, to establish an electrical contact, the coil assembly, the actuating device, and an electrical plug connection are either soldered directly to the circuit board or are in breakable electrical contact with a respectively associated, rigid contact assembly. The contact assembly is soldered directly to the circuit board.

An example actuator assembly includes a valve body having a body locating shoulder as a protrusion from an interior peripheral surface of the valve body, and an actuator having an end that is inserted into the valve body. The end has a first portion with a first diameter and a second portion with a second diameter that is larger than the first diameter, and the second portion includes a threaded region. A locating shoulder is between the first portion and the second portion of the end of the actuator arranged at a position where the first diameter changes to the second diameter. The locating shoulder mates with the body locating shoulder of the valve body when the actuator is inserted and screwed into the valve body to enable alignment of the valve body and the actuator.

An example actuator assembly includes a valve body having a body locating shoulder as a protrusion from an interior peripheral surface of the valve body, and an actuator having an end that is inserted into the valve body. The end has a first portion with a first diameter and a second portion with a second diameter that is larger than the first diameter, and the second portion includes a threaded region. A locating shoulder is between the first portion and the second portion of the end of the actuator arranged at a position where the first diameter changes to the second diameter. The locating shoulder mates with the body locating shoulder of the valve body when the actuator is inserted and screwed into the valve body to enable alignment of the valve body and the actuator.

An optical member supporting device is described that includes, in an XYZ rectangular coordinate system, spherical bodies, a first holding portion and a second holding portion, an optical member held by the first holding portion or the second holding portion, first yokes protruding from the first holding portion facing the second holding portion, and second yokes protruding from the second holding portion facing the first holding portion and opposed to the first yokes in a predetermined direction in the X-Y direction. The first holding portion and second holding portion extend in an X-Y direction and are opposed in a Z direction with the spherical body interposed therebetween. The second holding portion includes a second magnet and the first yokes and the second yokes are opposed to the second magnet in the Z direction.

An optical member supporting device is described that includes, in an XYZ rectangular coordinate system, spherical bodies, a first holding portion and a second holding portion, an optical member held by the first holding portion or the second holding portion, first yokes protruding from the first holding portion facing the second holding portion, and second yokes protruding from the second holding portion facing the first holding portion and opposed to the first yokes in a predetermined direction in the X-Y direction. The first holding portion and second holding portion extend in an X-Y direction and are opposed in a Z direction with the spherical body interposed therebetween. The second holding portion includes a second magnet and the first yokes and the second yokes are opposed to the second magnet in the Z direction.

The present disclosure provides an improved speaker including a suspension accommodated in a magnetic gap formed by a main magnet and an auxiliary magnet. The suspension is used for supporting a coil assembly of the speaker. The auxiliary magnet further includes a capacity-increased space for accommodating the suspension and providing the suspension with more space to vibrate and providing the suspension with better flexibility. In order to more firmly fix the suspension, the auxiliary magnet further includes a fastening slot for engaging with an edge of the suspension. Optionally, the auxiliary magnet is configured to be a two-piece structure.

The present disclosure provides an improved speaker including a suspension accommodated in a magnetic gap formed by a main magnet and an auxiliary magnet. The suspension is used for supporting a coil assembly of the speaker. The auxiliary magnet further includes a capacity-increased space for accommodating the suspension and providing the suspension with more space to vibrate and providing the suspension with better flexibility. In order to more firmly fix the suspension, the auxiliary magnet further includes a fastening slot for engaging with an edge of the suspension. Optionally, the auxiliary magnet is configured to be a two-piece structure.