The multi-position, articulating clamp includes a plate disposed on a first plane, a first brick-holding jig adjustably coupled to the plate, and a second brick-holding jig adjustably coupled to the plate. Advantageously, each of the first brick-holding jig and the second brick-holding jig is selectively reciprocated along the plate and along a bidirectional linear path registered parallel to the first plane. Advantageously, each of the first brick-holding jig and the second brick-holding jig is selectively rotated along the plate and along an arcuate path registered planar to the first plane. Advantageously, each of the first brick-holding jig and the second brick-holding jig is selectively tilted along a second plane registered non-parallel to the first plane.

Machine (1) for machining slabs (L) made of stone, stone-like, agglomerate or ceramic material, comprising a pair of fixed support structures (12) intended to delimit a working area (A), a horizontal surface (8) for supporting the slabs (L) being machined, which is positioned within the working area (A), a fixed horizontal beam (14) supported by the fixed support structures (12) and a horizontal beam (18) movable with respect to the fixed horizontal beam (14) and comprising at least one spindle (20) slidably mounted on the movable horizontal beam (18) and designed for the mounting of at least one machining tool (22). Also provided are means (32) for moving the movable horizontal beam (18) with respect to the fixed horizontal beam (14) along a predetermined direction of advancing movement (Z) lying in a plane parallel to the support surface (8) and means (34) for rotation of the movable beam (18) with respect to the fixed beam (14) about a fixed rotation axis (R) arranged vertically. The invention also relates to a plant (100) for machining the slabs.

A dual angle guide (3) for ceramic cutting machines (1) includes a base (16); first and second positioning elements (4, 5) disposed on the base; a sector (9) calibrated with fixed angles for each positioning element; a first fixed stop (11) and a second fixed stop (12) for locating the positioning elements at a chosen angle on the respective calibrated sector (9); and rotation elements (13) for rotating the positioning elements in such a way that the positioning elements make it possible to make cuts in the ceramic piece (10) at different angles. The cuts are made by a cutting tool mounted to a sliding carriage (6). Each of the first and second positioning elements is rotatable in both a clockwise direction and an anti-clockwise direction in order to facilitate the scoring and cutting of the ceramic piece at various angles.

A material cutting apparatus that includes a frame, a vertical support member, a cantilevered arm, and a cutting head. The frame has a first end and a second end and a track running between the first end and the second end. The vertical support member is mounted to the track and extends outwardly from the track. The vertical support member terminates at a vertical support member free end, where the vertical support member is configured to travel about the track from the first end to the second end. The vertical support member is rotatable about a vertical axis. The cantilevered arm extends outwardly from and normal to the vertical support member. The cantilevered arm terminates at a cantilever free end. The cutting head is configured to move along the cantilevered arm between the vertical support member and the free end.

After a glass sheet (G) having a scribe line (S) formed thereon is placed on a placement table (10) and positioned so that the scribe line (S) is positioned in a bending stress applying portion (15) of the placement table (10), when the glass sheet (G) is split along the scribe line (S) by applying a bending stress to a formation region of the scribe line (S) by the bending stress applying portion (15), the glass sheet (G) is positioned by laying a resin sheet (9) under the glass sheet (G) on the placement table (10) and aligning one side (G1) of the glass sheet (G) extending in a direction along the scribe line (S) with marks (Ma to Nd) projected onto a protruding portion (9a) of the resin sheet (9) by laser markers (16a to 16d).

The present disclosure discloses a display panel turnover device. The display panel turnover device includes: a holder comprising two inverted-V shaped supports arranged oppositely and a rotating shaft pivotally assembled on top ends of the two inverted-V shaped supports, wherein each inverted-V shaped support comprises a front leg and a rear leg; an adjustment lever having a first operating position and a second operating position, located between two front legs and two rear legs and substantially parallel to the rotating shaft; a frame configured to retain a periphery of a display panel therein, wherein a top of the frame is secured to the rotating shaft, and a bottom of the frame is secured to the adjustment lever; and a front door and a rear door respectively arranged at a front side and a rear side of the frame and capable of being opened and closed.

A removable ruler for manual ceramic cutters which can be rotatably mounted on the base of a manual ceramic cutter and which includes a rotary platform permanently secured to the base of the cutter by a rotary shaft; and two removable lateral extensions. The platform includes securing means for the rapid coupling and subsequent uncoupling of the lateral extensions.

The invention relates to a seal for a sawing machine (1) for separating electronic components (12), comprising: an elongate form-retaining holder (20,22), a flexible, elongate expandable body (8,9)and a pressure source (24) for a medium, wherein the elongate expandable body (8,9) is provided with a strengthened elongate edge (21) which lies clear of the form-retaining holder (20,22) The invention also relates to a sawing machine (1) for separating electronic components (12) provided with such a seal.

A lateral support device includes a fixed seat mounted to a worktable, a lateral support plate having a sliding groove, and a pivot seat pivoted to the fixed seat and having a pressing portion arranged adjacent to the lateral support plate. A lock assembly has a pressing plate disposed to the pivot seat and arranged adjacent to the lateral support plate, a threaded rod threaded with the pressing plate through the pressing portion and the sliding groove, and a handle fixed to one end of the threaded rod. When the handle is locked, the lateral support plate is forced tightly and cannot be moved, and when the handle is unlocked, the lateral support plate is released and can be moved relative to the worktable for adjusting its position. Thus, the present invention provides lateral support to workpieces of different sizes for improving issues with incomplete cross-sections.

Workbench (1) for supporting and moving articles comprising a frame (22), a support surface (24) able to tilt relative to the frame (22) and pass from an initial horizontal position into a final inclined position, at least one rigid element (30) hinged with the frame (22) at a pivoting point (P) and having an end portion (36) hinged with the surface (24) and at least one first actuator (44) configured to raise and rotate the surface (24) into an intermediate inclined position. The element (30) is shaped as a rocker arm with the pivoting point (P) arranged between a first wing (32) and a second wing (34) and movement means (54) are provided for rotation of the rocker arm (30) about an axis (X2) so as to move the surface (24) from the intermediate position into the final inclined position. The first actuator (44) comprises a first end (46) hinged with the rocker arm (30) and a second end (48) hinged with the support surface (24).