APPARATUSES FOR FIXING BLANKS OF EYEGLASS FRAMES TO MULTI-AXIS MACHINE TOOLS FOR FINISHING OPERATIONS

Abstract

Apparatus for positioning and fixing molded blanks of eyeglass frames to a multi-axis machine tool, for finishing operations such as, for example, milling and boring. The apparatus comprises a base plate to be fixed to the worktable of the machine tool and a pair of adjacent cylinders vertically extending from the base plate to which they are fixed at their lower ends, with the interposition of a hydraulic or pneumatic seal. The vertical axes of the pair of adjacent cylinders are horizontally spaced apart from each other by a length that substantially corresponds to the center-to-center distance between the lens receptacles formed in the eyeglass frame blank to be finished. Each cylinder is provided with a respective piston element therein, whose upper end is connected to a cylindrical core whose upper end portion, distal to the base plate, has a frustoconical shape. Said piston element is vertically movable in their respective cylinder, under pneumatic control, thus causing the raising and lowering of the cylindrical core connected thereto. At the upper end, distal to the base plate, of the wall of each cylinder of the pair of cylinders, a radial slide group is housed, each having a respective block of plastic material whose profile can be machined into such a shape as to be able to fit into and engage with the inner profile of the respective lens receptacle, to hold it in position during the processing operations. The radial slides and therefore the respective blocks are imparted a rectilinear radial motion to and from the central axis of the cylinder, obtained by a sliding coupling between the end of each slide, facing the axis of the cylinder, and opposed axial guides radially projecting from the frustoconical section of the cylindrical core connected to said piston element.

Claims

1) An apparatus for fixing molded blanks of eyeglass frames to a multi-axis machine tool for finishing operations such as, for example, milling and boring, comprising a base plate, to be fixed to the worktable of the machine tool, a pair of adjacent cylinders, vertically extending from respective closing plates and fixed thereto, at their lower ends, with the interposition of a hydraulic or pneumatic seal, the vertical axes of the pair of adjacent cylinders being horizontally spaced apart from each other by a length that substantially corresponds to the center-to-center distance between the lens receptacles formed in eyeglass frame blank to be finished, each cylinder having a respective piston element therein, connected to a respective cylindrical core whose upper end portion, distal to said base plate, has a frustoconical shape, said piston elements being movable in their respective cylinders, under pneumatic control and to raise and lower their respective cylindrical core connected thereto at the upper end, distal to said base plate, of each cylinder of the pair of cylinders, respective radial slide groups being provided, each slide of each group having a respective block of plastic material whose profile is adapted to be machined into such a shape as to be able to fit into and engage with the inner profile of the respective lens receptacle, to hold it in position during the processing operations, wherein the end of each slide of the plurality of slides facing toward the axes of their respective cylinders, has a guide slidingly engaged in an opposed axial guide which radially projects from the frustoconical sections of their respective cylindrical cores connected to said piston elements.

2) An apparatus as claimed in claim 1, wherein the upper end, distal to said base plate, of each cylinder of the pair of cylinders comprises respective cylindrical walls, coaxial with the underlying cylinders, and fixed thereto by means of respective groups of axial screws.

3) An apparatus as claimed in claim 1, wherein respective closing plates of their respective cylinders are slidingly placed on said base plate, a micrometric displacement device being provided for horizontally adjusting the distance between the axes of the cylinders.

4) An apparatus as claimed in claim 1, wherein said guide for the end of each slide of the plurality of slides facing toward the axes of the respective cylinder has a C shape.

5) An apparatus as claimed in claim 1, wherein said axial guide which radially projects from the frustoconical sections of the respective cylindrical cores connected to said piston elements, has a T shape.

Description

[0012] The invention will now be better described with reference to a preferred embodiment thereof given by way of a non-limiting example and, shown in the accompanying drawings, in which:

[0013] FIG. 1 shows a vertical sectional view of a pair of mushroom heads, constituting the apparatus, fixed on the support base;

[0014] FIG. 2 shows a plan view of the apparatus in FIG. 1;

[0015] FIG. 3 shows a partially exploded perspective view of the pair of mushroom heads constituting the apparatus according to the invention;

[0016] FIG. 4 shows a perspective view, on an enlarged scale, of the upper frustoconical part of the piston element of one of the mushroom heads in which, in a schematic perspective view, the sliding coupling between the end of a radial slide of the mushroom head, facing the axis of the cylinder and the opposite guides, protruding radially from the truncated cone of the cylindrical core connected to the piston, is shown.

[0017] With reference to the aforementioned drawings and in particular to FIGS. 1 and 2, the apparatus according to the invention, for fixing an eyeglass frame blank, not shown on the drawings, on a machine tool to perform finishing operations on the blank itself, for example milling and boring, comprises a base plate 1 on which a pair of cylinders 2 and 3 is positioned, with the interposition of respective bottom plates, 4 and 5 and annular sealing gaskets 6 and 7.

[0018] Each cylinder 2, and 3 therein houses a respective piston 8 and 9 with radial sealing rings 10 and 11. A cylindrical core 12 is connected to the piston 8 whose upper end portion 13, distal to the base plate 1, is frustoconical in shape. Similarly, the piston 9 is connected to a cylindrical core 14 whose upper end portion 15, distal to the base plate 1, is frustoconical in shape.

[0019] Respective cylindrical walls 16 and 17 are positioned around the cylindrical cores 12 and 14, coaxial with the underlying cylinders 2 and 3, to which they are fixed by means of respective groups, 18 and 19, of axial screws.

[0020] With particular reference to FIGS. 3 and 4, it can be seen that the cylindrical walls 16 and 17, in their upper end, house a respective plurality 20 and 21 of radial slides engaged, with the respective wall, by means of conventional wing-type sliding guides 22 and 23.

[0021] Each slide, of the groups of slides 20 and 21, carries a respective block 24 and 25 fixed to the respective underlying slide, by means of precision screws 26, 27 which engage in threaded holes, such as those indicated by 28 and 29 in FIGS. 3 and 4, passing through the openings 30 and 31 of the blocks. The groups of blocks 24 and 25 of the respective groups 20 21 of radial slides are shown on the drawings in a generic three-dimensional configuration before being customized in the shape and configuration proper to the internal contour of the lens seat of the frame blank with which they must engage to hold it on the mushroom heads when the groups of radial slides 20 and 21 are made to expand, as will be described in greater detail below.

[0022] Each slide, of the radial groups of slides 20 and 21, is connected, at its end facing the interior of the cylindrical walls 16 and 17, as can be seen for the end 32 of the slide 21a in FIG. 4, with a respective T-shaped guide 33, protruding from the conical surface of the upper frustoconical sections 13 and 15 of the cylindrical cores 12 and 14.

[0023] For the pneumatic operation of the apparatus with compressed air, the bottom plates 4 and 5 of the cylinders 2 and 3 are provided with respective fittings 34 and 35 connected to the ducts 36 and 37 which lead into the cylinders, below the respective pistons 8 and 9.

[0024] As can be seen in FIG. 1, the piston 9 is shown in the axially displaced position, with respect to the bottom plate 5, with the relative cylindrical core 14 shown in the axial position in which its frustoconical section 15 has determined the radial thrust of the slides 21, with consequent expansion of the mushroom head represented by the plurality of blocks 25.

[0025] In this position, the locking of a frame blank which was placed over the mushroom heads of the apparatus is obtained, as a consequence of the engagement of the group of blocks 24 and 25 within the seats for the lens of the frame.

[0026] Further fittings for compressed air, indicated with 38 and 39 in FIG. 1, with respective ducts 40 and 41, are provided in the apparatus according to the invention, to bring compressed air into the cavities 42 and 43 of the cylinders 2 and 3, when it is necessary to move the pistons 8 and 9 axially downwards, as shown in FIG. 1 for the piston 8 only, return the plurality 20 and 21 of radial slides and release the frame blank from the mushroom heads.

[0027] The lowering of the aforementioned pistons also causes the axial displacement towards the base plate 1 of the cores 12 and 13 and the consequent withdrawal towards the axis of the cylinders 2 and 3, of the plurality of radial slides 20 and 21, with consequent release of the frame blank engaged with the expansion heads of the apparatus.

[0028] With reference to FIGS. 1, 2 and 3, it can be seen that the bottom closing plates 4 and 5 of the respective cylinders 2 and 3 can be displaced on the horizontal plane defined by the base plate 1 by means of a conventional mechanical screw and nut screw device 44 which allows positioning the cylinders 2 and 3 so that the horizontal distance D between their vertical axes X-X and Y-Y corresponds exactly to the distance necessary to engage the seats for the lens of the mounting blank on the blocks 24 and 25 of the plurality of slides 20 and 21.

[0029] It should be noted that the radial movement of the groups of slides 20 and 21 is always positively controlled, in both directions of movement, by virtue of the mechanical connection sliding between the ends of each radial slide and the relative T-shaped guide 33 of the frustoconical parts 13, 15 of the cylindrical cores 12 and 14.

[0030] This allows the positioning of the mushroom heads to be maintained during the processing of a large number of blanks of frames of the same type without having to resort to the frequent adjustments of the machine tool's operating program, as happens in the case of conventional apparatus.