摘要:
An angular velocity detector using a vibrator made of an annular thin film. The detector also has electrodes arranged ingeniously to have high detection sensitivity for angular velocities. The detector can detect angular velocities in two axial directions simultaneously. The detector has support portions (1105), (1106) which are formed over a first substrate (1123) and poised above the surface of the first substrate (1100) at a certain spacing therefrom. Resilient support bodies are supported to the support portions and include outer springs (1102) and inner springs (1103). A vibrator (1101) is mounted via the resilient support. An exciting means consisting of a magnet (1124) and an exciting electrode (1108) excites the vibrator to vibrate in a certain direction of vibrations. When the vibrator (1101) is excited to vibrate in the direction of vibrations by the exciting means and an angular velocity acts from the outside, a displacement detection means consisting of a detection electrode (1109) and electrodes (1120) detects the displacement of the vibrator (1101) in a direction perpendicular to the direction of vibrations in response to the angular velocity. The vibrator (1101) or an angular velocity detection portion including the vibrator (1101) is electromagnetically driven to vibrate.
摘要:
An angular velocity detector using a vibrator made of an annular thin film. The detector also has electrodes arranged ingeniously to have high detection sensitivity for angular velocities. The detector can detect angular velocities in two axial directions simultaneously. The detector has support portions (1105), (1106) which are formed over a first substrate (1123) and poised above the surface of the first substrate (1100) at a certain spacing therefrom. Resilient support bodies are supported to the support portions and include outer springs (1102) and inner springs (1103). A vibrator (1101) is mounted via the resilient support. An exciting means consisting of a magnet (1124) and an exciting electrode (1108) excites the vibrator to vibrate in a certain direction of vibrations. When the vibrator (1101) is excited to vibrate in the direction of vibrations by the exciting means and an angular velocity acts from the outside, a displacement detection means consisting of a detection electrode (1109) and electrodes (1120) detects the displacement of the vibrator (1101) in a direction perpendicular to the direction of vibrations in response to the angular velocity. The vibrator (1101) or an angular velocity detection portion including the vibrator (1101) is electromagnetically driven to vibrate.
摘要:
A MEMS sensor driving device drives a MEMS sensor including a supporter provided on a surface of a substrate, an elastic member having one end connected to the supporter, and an oscillator which is supported by another end of the elastic member in a suspended state over the surface of the substrate and which is displaceable for the substrate. The MEMS sensor driving device includes a detecting unit for detecting an oscillation of the oscillator, and a feedback unit for amplifying a signal representing the oscillation detected by the detecting unit and inputting the amplified signal as a driving signal to the MEMS sensor.
摘要:
A MEMS sensor driving device drives a MEMS sensor including a supporter provided on a surface of a substrate, an elastic member having one end connected to the supporter, and an oscillator which is supported by another end of the elastic member in a suspended state over the surface of the substrate and which is displaceable for the substrate. The MEMS sensor driving device includes a detecting unit for detecting an oscillation of the oscillator, and a feedback unit for amplifying a signal representing the oscillation detected by the detecting unit and inputting the amplified signal as a driving signal to the MEMS sensor.
摘要:
The invention provides a structural member of different materials having no different-material-bonded part between aluminum alloy material and steel material to be assembled. The structural member of different materials comprised of steel and aluminum alloy includes a first structural member including steel, and a second structural member having a part including steel and a part including aluminum alloy, the part including steel and the part including aluminum alloy being bonded by different-material bonding. The first structural member and the second structural member are bonded together only by bonding of steels between the part including steel of the second structural member and the first structural member.
摘要:
The invention provides a structural member of different materials having no different-material-bonded part between aluminum alloy material and steel material to be assembled. The structural member of different materials comprised of steel and aluminum alloy includes a first structural member including steel, and a second structural member having a part including steel and a part including aluminum alloy, the part including steel and the part including aluminum alloy being bonded by different-material bonding. The first structural member and the second structural member are bonded together only by bonding of steels between the part including steel of the second structural member and the first structural member.
摘要:
Disclosed are: a dissimilar material weld joint being formed by joining an iron type material and an aluminum type material and having not only a high strength but also an excellent ductility; and a weld joining method allowing such a joint to be stably produced. A dissimilar material weld joint 1 formed by joining an iron type material 2 and an aluminum type material 3, wherein: voids 4a are formed beforehand on the side of said iron type material 2 at a predetermined interval along a weld line 6; both said iron type and aluminum type materials are weld joined so that said voids 4a are filled with molten aluminum 7; and the minimum value of the ratio (L-Al)/(L-Fe) of the length (L-Al) of an aluminum type welding material 10 with which said voids 4a are filled to the length (L-Fe) of said iron type material 2 adjacent to said voids 4a filled with said aluminum type welding material 10 along said weld line 6 on the section containing said weld line 6 is in the range from 0.5 to 7, both the lengths (L-Al) and (L-Fe) being the lengths per 100 mm in length of the weld line 6 formed after welding.
摘要:
An inertial sensor includes a drive structure 11 which performs one reference oscillation in an XY plane, and force detecting structures 12 (12-1 to 12-4) which each have a plurality of detection axes and which are arranged on an X axis and a Y axis in the drive structure 11 in pairs at positions symmetrical about an origin, wherein angular velocities in three axes and accelerations in three axes are detected by providing the force detecting structure 12 with the plurality of detection axes including at least one detection axis orthogonal to the one reference oscillation.
摘要:
The invention provides a roof reinforcement member including an extruded aluminum alloy part which is upwardly convex and extends in a vehicle lateral direction. The extruded aluminum alloy part includes a pair of upper and lower flanges approximately parallel-facing each other as seen in a cross-section thereof and a pair of webs formed to stand along the vehicle height direction. The pair of flanges and the pair of webs form a closed sectional part. The pair of flanges each have a projecting flange portion. In the cross-section, the lower flange is thicker than the upper flange and/or the lower flange is wider than the upper flange, and the neutral axis of upward/downward bending is positioned lower than the middle of the height of the cross-section. This arrangement can reduce the stress generated on the lower side of the cross-section when the extruded aluminum alloy part is bent, so that the extruded aluminum alloy part can be effectively made stronger against deformation.
摘要:
An inertial sensor includes an oscillator that is supported by an elastic supporting member such that the oscillator is floating relative to a base and the oscillator is displaceable along a single axis, and a displacement detection unit detecting a displacement of the oscillator. The oscillation of the oscillator is a simple harmonic motion along a Z axis. An X axis, a Y axis, and the Z axis, serving as reference axes of an oscillation coordinate system for the oscillator, are shifted to provide x, y, and z axes, serving as new reference axes. Position coordinates of the oscillator of the x, y, and z axes are determined in at least two points during one period of the oscillator. A difference vector (Δx, Δy, Δz) is calculated on the basis of the determined position coordinates. An angular velocity or an acceleration is obtained using the difference vector.