A machining apparatus for a curved plate includes a holder that holds a main surface of a curved plate having curved surfaces on both main surfaces; a machining device that machines an outer circumference of the curved plate held by the holder; a movable frame that retains the machining device; a driver that moves the movable frame to move a machining point of the curved plate held by the holder; a controller that controls the driver; and a guide that guides the movable frame along the outer circumference of the curved plate held by the holder.

A grinding apparatus includes a chuck table for holding a workpiece thereon, a table base supporting the chuck table, a grinding unit for grinding the workpiece held on the chuck table with a grinding wheel mounted on an end of a spindle, a load detecting unit for detecting a load applied from the grinding unit to the table base, a tilt adjustment unit supporting the table base thereon, for adjusting a tilt of the table base, a storage for storing a correlative relation between loads applied to the table base and changes in the tilt of the table base, and a controller for controlling the tilt adjustment unit based on the load detected by the load detecting unit and the correlative relation, to adjust the tilt of the table base so that a change in the tilt of the table base that corresponds to the detected load is cancelled out.

There is provided an inclination adjusting mechanism including an annular upper plate that has an upper surface for connecting a table and a lower surface inclined relative to the upper surface, an annular lower plate that has an upper surface parallel to the lower surface of the upper plate and a lower surface parallel to the upper surface of the upper plate and facing an upper surface of a base, an upper rotating mechanism that rotates the upper plate, a lower rotating mechanism that rotates the lower plate, a first bearing provided between the lower surface of the upper plate and the upper surface of the lower plate, a second bearing provided between the lower surface of the lower plate and the upper surface of the base, and a connecting mechanism that connects the upper plate, the lower plate, and the base.

An apparatus for finishing a cut edge of a glass laminate includes a support including a surface and an edge, a rail disposed adjacent the support and extending substantially parallel to the edge, a carrier coupled to the rail, and a finishing tool coupled to the carrier and including an abrasive surface positioned adjacent the edge. The carrier is translatable along the rail to translate the abrasive surface relative to the edge. A method includes securing a glass laminate to a support and contacting a cut edge of the glass laminate with an abrasive surface of a finishing tool coupled to a carrier. The carrier is translated along a rail to move the abrasive surface along the cut edge of the glass laminate and transform the cut edge into a finished edge. The glass laminate can have an edge strength of at least about 100 MPa.

A cutting apparatus includes: a processing feeding unit that performs processing feeding of a chuck table adapted to hold a workpiece; and two cutting units in which rotational axes of two spindles coincide with each other and cutting blades mounted to the spindles face each other. Each cutting unit includes a flange mechanism in which the cutting blade having a cutting edge fixed to an outer peripheral edge of a one-side outer surface of a circular disk-shaped base is fixed to the spindle. The flange mechanism is fixed to a tip of the spindle, sucks an other-side outer surface of the base of the cutting blade, and fixes the cutting blade to the spindle with the one-side outer surface of the base exposed to the side of the tip of the spindle, and the one-side outer surfaces of the cutting blades fixed to the two cutting units.

A method of grinding a surface of a workpiece that has surface irregularities includes a first grinding step of grinding the surface of the workpiece by a predetermined amount of stock removal while keeping a measuring element of a height gauge out of contact with the surface of the workpiece, thereafter, a height difference measuring step of bringing the measuring element of the height gauge into contact with the surface of the workpiece and measuring a height difference of surface irregularities on the surface of the workpiece with the height gauge, and a second grinding step of, if the measured height difference is larger than a preset range, grinding the surface of the workpiece while keeping the measuring element of the height gauge in contact with the surface of the workpiece until the measured height difference falls within the preset range.

A fine adjustment thread assembly couples a first part and a second part to each other while keeping the first part and the second part spaced apart, adjusts the distance between the first part and the second part, and detects a load applied to the second part. The assembly includes first external threads that can be brought into threaded engagement with first internal threads formed in the first part, second external threads that are axially spaced from the first external threads, that have a thread pitch different from that of the first internal thread, and that can be brought into threaded engagement with second internal threads formed in the second part. A joint portion between the first external threads and the second external threads houses a load sensor under a compressive load.

A wheel grinder contains: a body, a work table, a vertical limitation frame, a movable adjustment portion configured to move vertically, a grinding wheel portion extending outward from the movable adjustment portion, and a motor fixed on the movable adjustment portion. The vertical limitation frame has two fixing holders, two mountings, and two first screw rods and two second screw rods which are inserted through the two mountings respectively and abut against a bottom of the movable adjustment portion. In addition, a stop cover is covered on the grinding wheel portion and includes a defining plate configured to define a connection shaft and an opening inside the defining plate.

A method of grinding a substrate includes grinding the substrate to a larger depth at an outer circumferential portion of the substrate than at a central portion of the substrate by keeping an annular grindstone assembly of a grinding unit and the substrate in abrasive contact with each other while a portion of a holding surface of a chuck table underlying an area of contact between the annular grindstone assembly and the substrate is lying not parallel to a grinding surface defined by a lower surface of the annular grindstone assembly, lifting the grinding unit to separate the annular grindstone assembly from the substrate, and, grinding the substrate by keeping again the annular grindstone assembly and the substrate in abrasive contact with each other by lowering the grinding unit while the portion of the holding surface is lying parallel to the grinding surface.

The aim of the present invention is to provide a processing device and a processing method, with which it is possible to improve processing accuracy. A processing device processes a work piece which integrally includes a plate-shaped first curved-surface section and a plate-shaped planar-surface section that extends from the edge of the first curved-surface section in a bending manner. Furthermore, the processing device includes a first clamp device which includes a contact part that makes contact with the first curved-surface section, and a pressing part that presses the first curved-surface section in the direction of the contact part, and which restricts movement of the first curved-surface section in the plate thickness direction; a second clamp device which is movable in the plate thickness direction of the planar-surface section and supports the planar-surface section; and a machining device which machines the first curved-surface section.