A vehicle head-up display apparatus having an improved structure for installing an aspherical mirror so that a state in which an aspherical mirror reflecting light is stably installed is maintained includes mount parts formed at both sides of a lower case, rotatable protrusions seated in the mount parts and vertically rotated are formed at both sides of an aspherical mirror, and pressing members configured to fixedly press the rotatable protrusions against the mount parts are installed on a screen part.

An actuator device for aligning an element includes at least one first actuator unit, which is secured to a support structure, for a first setting range and a second actuator unit, which is able to be secured to the element, for a second setting range. The second actuator unit is connected to an output element of the first actuator unit so that the positioning of the second actuator unit is adjustable by an adjustment of the output element. The first actuator unit has an adjusting element and a fixing element, which is able to be secured to the support structure. The fixing element secures the output element in a force-locking manner in an operating state of the element. The fixing element is furthermore configured to release the force-locking connection in a setting state of the element to enable an adjustment of the output element via the adjusting element.

A method includes rotating a mirror assembly in a first direction using an actuator. The mirror assembly is rotationally coupled to a base and includes a mirror. A first end of the mirror is rotationally coupled to the base, and a second end of the mirror is not supported by or attached to another structure. The method also includes rotating a reaction inertia assembly in a second direction opposite the first direction using the actuator. The reaction inertia assembly is rotationally coupled to the base. The method further include restricting movement of the mirror assembly and the reaction inertia assembly in multiple degrees of freedom using multiple flexures.

An optical device can deal with a relative difference in thermal expansion coefficient between a reflecting mirror and a mirror supporting member, and can also support the reflecting mirror with a simpler structure than the conventional one. The optical device includes: a reflecting mirror including a reflecting surface to reflect light, and a supported portion disposed on a rear surface and having three supported surfaces arranged with rotational symmetry of 120 degrees around an optical axis, the rear surface being a surface of the reflecting mirror existing on the contrary side to the reflecting surface; a structural member provided on a rear side of reflecting mirror; and three supporting members, each of the three supporting members including a mirror supporting portion connected to and supporting each of the three supported surfaces, and having two ends connected to the structural member.

An adjustable mirror assembly includes a mirror having a reflective surface. The adjustable mirror assembly may include a first locking mechanism configured to lock a support in a finite number of discrete positions. The support may be movable between a lowered position and a raised position. The mirror may be pivotally mounted to the support and may be configured to pivot about a second pivot axis to orient the reflective surface of the mirror in an aft-facing direction in both the lowered position and the raised position.

An adjustable mirror assembly includes a mirror having a reflective surface. The adjustable mirror assembly may include a first locking mechanism configured to lock a support in a finite number of discrete positions. The support may be movable between a lowered position and a raised position. The mirror may be pivotally mounted to the support and may be configured to pivot about a second pivot axis to orient the reflective surface of the mirror in an aft-facing direction in both the lowered position and the raised position.

An optical module includes a mirror unit having a movable mirror portion, a magnet portion configured to generate a magnetic field acting on the movable mirror portion, and a package accommodating the magnet portion. The magnet portion has a Halbach structure including a first magnet applied with a force in a first direction, and a second magnet applied with a force in a second direction. The package has a bottom walls portion, a side wall portion, and a restriction portion configured to restrict movement of the second magnet in the second direction. The movable mirror portion is disposed in a space formed by the restriction portion.

An optical module includes a mirror unit having a movable mirror portion, a magnet portion configured to generate a magnetic field acting on the movable mirror portion, and a package accommodating the magnet portion. The magnet portion has a Halbach structure including a first magnet applied with a force in a first direction, and a second magnet applied with a force in a second direction. The package has a bottom walls portion, a side wall portion, and a restriction portion configured to restrict movement of the second magnet in the second direction. The movable mirror portion is disposed in a space formed by the restriction portion.

An optical module includes a mirror unit having a movable mirror portion, a magnet portion configured to generate a magnetic field acting on the movable mirror portion, and a package accommodating the magnet portion. The magnet portion has a Halbach structure including a first magnet applied with a force in a first direction, and a second magnet applied with a force in a second direction. The package has a bottom walls portion, a side wall portion, and a restriction portion configured to restrict movement of the second magnet in the second direction. The movable mirror portion is disposed in a space formed by the restriction portion.

An optical module includes a mirror unit having a movable mirror portion, a magnet portion configured to generate a magnetic field acting on the movable mirror portion, and a package accommodating the magnet portion. The magnet portion has a Halbach structure including a first magnet applied with a force in a first direction, and a second magnet applied with a force in a second direction. The package has a bottom walls portion, a side wall portion, and a restriction portion configured to restrict movement of the second magnet in the second direction. The movable mirror portion is disposed in a space formed by the restriction portion.