Electromagnetic actuator
Abstract
An electromagnetic actuator includes a fixed core supported by a bottom wall of a housing, a movable core arranged opposite to the fixed core via an air gap to drive the movable member, and coil assembly supported by the housing to surround both the cores, wherein the movable member and the movable core are connected by connecting means for adjusting the air gap between the fixed core and the movable core, and wherein an adjustment operating hole through which the connecting means is adjusted is provided on the fixed core so as to be opened outside the bottom wall of the housing. Thus, it is possible to freely adjust the air gap between the fixed core and the movable core without preparing several types of connecting members.
Claims
exact text as granted — not AI-modified1. An electromagnetic actuator comprising:
a fixed core supported by a bottom wall of a housing made of magnetic material;
a movable core arranged opposite to the fixed core via an air gap to drive a movable member; and
a coil assembly comprising a bobbin supported by the housing to surround the fixed and movable cores, and a coil wound around the bobbin,
wherein the movable member and the movable core are coupled by coupling means for adjusting the air gap between the fixed core and the movable core,
wherein an adjustment operating hole through which the coupling means is adjusted is provided on the fixed core to be opened from outside the bottom wall of the housing, and
wherein the coupling means comprises a connecting bolt integral with the movable member, and an adjustment nut mounted at a lower end portion of the connecting bolt for advancing and retreating movements relative to the connecting bolt through threaded engagement therebetween,
wherein adjustment of a threaded position of the adjustment nut on the connecting bolt adjusts a position of the movable core relative to the fixed core.
2. The electromagnetic actuator according to claim 1 , wherein the fixed core is integrally formed with a positioning shaft in which the adjustment operating hole is opened on an outer end surface and with a flange-shaped first yoke which protrudes from the outer periphery of the fixed core to be arranged opposite to one end surface of the coil assembly; the positioning shaft is fitted and fixed into a positioning hole provided at the bottom wall of the housing; the first yoke is brought into close contact with an inner surface of the bottom wall to surround the movable core; and a second yoke arranged opposite to the other end surface of the coil assembly is continuously provided to the housing.
3. The electromagnetic actuator according to claim 2 , wherein the bobbin is continuously provided with a coil cover which covers the outer periphery of the coil to seal the coil to the bobbin; the housing is arranged so that its bottom wall faces downward; and between the first yoke and the other end surfaces of the bobbin and the coil cover, there is interposed an elastic plate which watertightly comes into contact with their opposite surfaces.
4. The electromagnetic actuator according to claim 1 , wherein the fixed core is integrally formed with a flange-shaped first yoke which protrudes from an outer periphery of the fixed core to be arranged opposite to one end surface of the coil assembly and which is supported on the bottom wall of the housing; a second yoke which surrounds the movable core and is arranged opposite to the other end surface of the coil assembly is fixed to the housing; a tube-shaped bearing member which slidably supports the movable core is slidably fitted in the second yoke; and a set spring is provided in a compressed state between the second yoke and an outward flange which is formed at a lower end of the bearing member and which is supported on the first yoke, thereby biasing the outward flange toward the first yoke.
5. An electromagnetic actuator comprising:
a fixed core supported by a bottom wall of a housing made of magnetic material;
a movable core arranged opposite to the fixed core via an air gap to drive the movable member;
a coil assembly, comprising a bobbin supported by the housing to surround the fixed and movable cores, and a coil wound around the bobbin; and
a tube-shaped bearing member disposed inside the coil assembly to slidably support the movable core,
wherein a first yoke for holding the coil assembly in corporation with the bottom wall is continuously provided to the housing;
wherein the bearing member is slidably fitted in the first yoke;
wherein a supporting portion for supporting an outward flange formed at one end of the bearing member is provided on the bottom wall; and
wherein a set spring for biasing the outward flange toward the supporting portion is provided in a compressed state between the outward flange and the first yoke.
6. The electromagnetic actuator according to claim 5 , wherein the fixed core is integrally formed with a positioning shaft fitted and fixed in a positioning hole provided on the bottom wall and with a second yoke which comes into close contact with an inner surface of the bottom wall and opposes to the first yoke with the coil assembly sandwiched therebetween, and the second yoke constitutes the supporting portion.
7. The electromagnetic actuator according to claim 1 , wherein a lock screw is threaded into the adjustment nut and abuts against a lower end of the connecting bolt.
8. An electromagnetic actuator for an active vibration isolating support system, comprising:
a movable core connected via a connecting device to a movable member of the active vibration isolating support system; and a coil which is excited to form a magnetic circuit for operating the movable core in a direction to drive the movable member, wherein the connecting device includes a connecting bolt which is secured to the movable member, and an adjustment nut which is threadedly engaged with the connecting bolt while supporting an end surface of the movable core, and wherein adjustment of a threadedly engaged position of the adjustment nut with the connecting bolt enables adjustment of an initial position of the movable core, and wherein a lock screw is threadedly engaged with the adjustment nut to fix it at an adjusted position thereof.
9. The electromagnetic actuator for an active vibration isolating support system according to claim 8 , wherein a thread direction of the connecting bolt and a thread direction of the lock screw are opposite from each other with respect to the adjustment nut.
10. The electromagnetic actuator for an active vibration isolating support system according to claim 8 , wherein the connecting bolt is integrally formed with the movable member and formed of a same material as of the latter.
11. An electromagnetic actuator for an active vibration isolating support system, comprising:
a movable core connected via a connecting device to a movable member of the active vibration isolating support system; and a coil which is excited to form a magnetic circuit for operating the movable core in a direction to drive the movable member, wherein the connecting device includes a connecting bolt which is secured to the movable member, and an adjustment nut which is threadedly engaged with the connecting bolt while supporting an end surface of the movable core, and wherein a closed - end tube - shaped housing is provided for supporting the coil and an adjustment operating hole is provided in the housing for an adjusting operation of the connecting device.
12. The electromagnetic actuator for an active vibration isolating support system according to claim 11 , wherein the connecting bolt is integrally formed with the movable member and formed of a same material as of the latter.Cited by (0)
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