DE432182C - Glass cutting machine for elliptical or circular cuts - Google Patents

Description

Glass cutting machine for elliptical or circular cuts. the The present invention relates to an adjustable glass cutting machine, in particular to for cutting elliptical or circular eyeglasses, whereby the cutting tool or the workpiece support on an ellipse or on a circle guided «through a cross-loop gear, in which the axis ratio of the Ellipses by changing the distance between the axes of the two rotatable and in the cross direction straight-guided parts is set.

In machines of this type, the center distance was originally determined by this set that parts of the machine that are inside it between the two cross guides were stored, shifted in a straight line against each other and were determined. Through this The machine became bulky, however, and it jerked sharply because of the levels of the two Cross guides had to be set apart so that one could get to the between adjustable parts lying on them. Would you even want this bulky one Protect the machine against the glass dust by encapsulating it, so it became even more bulky, and also the protective housing had to have a large flap through which the adjustable Internal parts become accessible; through this large opening, however, during the Setting a lot of dust in.

The shortcomings of this older machine are largely remedied in one later design in which the mutually adjustable parts not only radially shifted, but rotated and at the same time radial due to the fixed eccentric be moved. The eccentrics can easily be reached from points outside by means of sleeves and the like the cross guides can be adjusted so that the machine fits nicely into one complete can encapsulate closed housing. The machine is also pushed and cornered no longer because the eccentric setting was placed in the plane of one of the cross guides and the levels of the two guides are therefore brought very close to one another can. However, the eccentric setting has the disadvantage that when adjusting the length of the ellipse axis the position of the two ellipse axes is rotated. These Rotation of the axes is particularly troublesome when cutting the so-called pantoscopic Glasses, because every time the transition point from the elliptical to the semicircular shape must be searched for and set again.

A design that avoids the shortcomings of the two known machines, arises from the fact that, according to the invention, the change in the distance of the adjustable Parts is generated by a cam, which is concentric and easily detachable and lockable again on one of the rotatable parts sits and during rotation with an eccentric thrust cam the other rotatable part radially to the first shifts.

The drawing shows an embodiment of the subject matter of the invention shown. Fig. I shows a longitudinal section through the machine along the line G-H in Fig. d., with the machine already on a certain elliptical shape, i.e. not on a circle is set.

In Fig. Z is a cross-section along the line A-B in Fig. I, in the direction of arrows C-C, shown.

Fig.3 also shows a cross section along the line A-B, however seen in the direction of arrows D-D.

Fig. 4 is a plan view, and Fig. 5 again shows a cross-section along the line -EF in Fig. I built-in guide piece e is attached. In the guide piece e, a second slide track / 'is provided perpendicular to the slide path for the slide piece c, in which the upper slide piece g can be moved back and forth. An eccentric h is inserted into a central bore of this slider g, which eccentric h is rotatable with the shaft b, but is displaceable at right angles to the shaft axis, namely connected by a guide pin i. This eccentric has a pin k on its upper face which engages in a spiral groove in a setting wheel n. This setting wheel can be firmly connected to the shaft b by a screw o, the conical tip of which acts on a pin Q arranged radially in the shaft and cut off at an angle. If the adjusting wheel 'n is firmly connected to the shaft, then the eccentric h is also fixed so that it can be displaced relative to the shaft. A diamond holder q is attached in a known manner to the lower part of the shaft b, which, when the drive shaft rotates, scores the set ellipse shape on an underlying glass pane r.

The mode of operation of the facility is now as follows: First, on Diamond holder q set the desired length of the short axis of the ellipse, then To adjust the long axis, loosen the screw o so that (read the adjusting wheel n can rotate against the shaft b, whereby by the action of the spiral groove n on the one in the eccentric h. attached pin k the eccentricity of the same is adjusted. Once the desired displacement of the eccentric h has been achieved, what is the result of one on the upper one The scale s attached to the face of the adjusting wheel can be read off (Fig.q.), then the adjusting wheel is fixed again by the screw o.

When the shaft b is turned by the hand crank a now pushes (read on eccentric h (read upper slide g in its slideway back and forth. At the same time, it is also perpendicular to the direction of movement of the slider g (read the lower sliding piece c together with the shaft b inserted through this piece and the parts attached to this, such as hand crank, diamond holder, etc., pushed back and forth. The long axis of the ellipse is then longer by the amount of this reciprocation than the short one.

If circular glasses are to be cut, the eccentricity becomes of the eccentric h opposite the 'shaft b is set to zero, (l. h. canceled. In this position of the eccentric, the sliding pieces become when the shaft b rotates g and c not shifted so that the diamond tip describes a circle.

When cutting pantoscopic glasses, the device is used first set to the desired axis lengths for the ellipse and half that Ellipse scratched on the glass, then the eccentricity of the eccentric is zero reduced, the diamond holder set to half the length of the large axis of the ellipse and a semicircle adjoining the already scored half of the ellipse on the Scratched glass.

From the embodiment it can be seen that the new design also results in a very compact, easily encapsulated and permanently closed machine, in which, however, the two elliptical axes change their position each time the machine is set maintained. Because an Archimedean spiral is used as the thrust curve, the angle of rotation of the thrust curve and the eccentric position of it change adjusted part always in the same proportion, and as a result the scale be evenly divided over the entire circumference for this setting.

Without deviating from the subject matter of the invention, one could use the also let the cutting tool stand still and for this the workpiece support can be moved in the desired paths.

Claims (2)

PATENT CLAIMS '' i. Glass cutting machine for elliptical or circular cuts with elliptical guidance by a cross-loop gear, in which the axial ratio of the ellipses is set by changing the axial distance between the two rotatable parts that are straight in the cross direction, characterized in that the change in the distance is generated by a cam disk (s) which sits concentrically and easily detachable and lockable again on one of the rotatable parts (b) and moves the other rotatable part (h) radially to the first when it rotates with an eccentric thrust curve (m). 2. Glass cutting machine after Claim i, characterized in that the for changing the axial distance serving thrust curve is an Archimedean spiral, so that equal rotations of the Cam correspond to the same changes in distance.