DE897060C - Grinding and polishing machine for optical lenses - Google Patents

Description

Optical lens grinding and polishing machine The invention relates to Grinding and polishing machines for optical lenses, in particular lever polishing machines for spherical lenses with grinding spindles in a row. She is .but also for use on all: other machines of this type suitable and intended. at such machines generally turn friction wheels directly or indirectly Used to drive the grinding spindles. From a horizontal main drive shaft from this friction gear drive either directly or the grinding spindles : the crank mechanisms for operating the lever mechanisms. The latter have become familiar with one or two crank disks for generating approximately rectilinear or oscillating circular, elliptical or similar movements of the bowl drive pin. All moving parts of such machines are with their bearings and the like .in housed a machine frame, which is either made up of rolled iron or also has upright feet made of gray cast iron, which are connected with profile iron, so that Table-like machine frames are created, with the Grinding spindles and lever mechanisms protrude. The grinding spindles run in Basins embedded in the table top, which can be removed :.

In the case of the known machines: the bearings are of this type the grinding spindles and lever mechanisms including the lever joints for the switch-off lever the grinding spindles and levers housed in the machine frame, and inaccessible attached to the outer longitudinal rails and stiffeners of the frame, then with: the Gear parts forms an indivisible whole. 'This makes it difficult to assemble such machines and to carry out repairs or overhauls, which become indispensable over the years. But also the main drive shaft with the friction wheels for the: friction wheel drive is this in the known machines Kind of difficult to access and inconvenient to assemble. These disadvantages also have to Consequence, .that the overall structure of such machines is not obvious and solid and their production becomes more expensive.

The invention overcomes these disadvantages. According to the same there is the Machine essentially consists of: three main parts, first of all the machine frame with @ .the main drive shaft, secondly the carrier, on .the all spindle drives, The same is true of the eccentric drives with the lever mechanisms and the gear lever mechanisms the associated bearings are attached, and thirdly the table top with the grinding basin.

These three main parts form parts to be manufactured independently of one another and elements to be assembled. They are individually convenient, clear and clear put together and thus offer both production-wise and cost-wise considerable Advantages over the known. In addition, the innovation makes it possible It is imperative to design each part to be stable and solid. This is particularly true on the machine frame and the attachment of all bearings for the spindles, shafts and. Gear lever closed. The latter are all attached to one carrier attached, the .as a closed component independent of the machine frame manufactured for itself and after the attachment of all these parts, namely the bearings for the grinding spindles, crankshafts, cardan shafts for the lever mechanisms and Shift lever, is inserted into the machine frame. To that end is this carrier, which can be arranged lengthways in the machine frame, either directly or indirectly attachable with cross struts attached to it in the machine frame. In the same way are also the main drive shaft with the friction wheels and the bearings as well as the Table top with the grinding basin independent of the machine frame and the Carrier with the gear and shift parts put together and then on the simplest Way in the same way as the finished machine. The connection of the main drive shaft, the gear carrier and the table top is carried out with the machine frame a few screws that, if necessary, e.g. B. for repairs, overhauls and installation of spare parts, can be easily solved.

This overall arrangement of the machine makes its structure simple, provides easy access to all parts and guarantees the best possible stability of the machine frame. Compared to the known, the advantage is more desirable Completion of the machine given.

The drawing shows an embodiment of the invention, and a multi-spindle, automatic grinding and polishing machine "with a small basin diameter.

Fig. I shows the machine in a front view, half with removed Gear and shift parts; Fig. 2 shows the top view from before (Fig. I) with a Half in section through the machine frame, along the line C-D and removed Gear parts; Fig. 3 shows .the machine in section, along the line A-B of Fig. 2 ,.

The machine frame consists of the foot frames a, b, which are built from a welded steel construction and some cross struts. c, d own. The foot frames a, b are rigidly connected to one another with longitudinal connections e, f, g, expediently by welding. This machine frame forms a closed whole. The other machine parts are attached to and in it, firstly the main drive shaft h, which carries the friction disk i. The main drive shaft h is screwed in the simplest way with its bearings on the cross struts c of the foot frames a, b. Their complete, ready-to-use assembly takes place before installation, outside of the machine frame; secondly, a carrier j, - on which all gear parts are arranged. The beam j can be formed from one or more normal profiles. In the present exemplary embodiment of the machine, it consists of two strong U-beams k welded together at right angles in the longitudinal direction, l which are also provided with transverse stiffeners m. But it is also possible to manufacture this carrier j from gray cast iron. The spindle bearings n, the crankshaft bearings o, .the lever system shaft bearings p and the shift lever joints q are seated on this carrier. The attachment of all these parts to the carrier j (k, l) is carried out outside the machine frame a, b, c, d; e, f, g and independently of this. After all gear etc. parts have been installed, this gear carrier j is inserted into the machine frame, running lengthwise through the entire machine. For installation, the carrier j has some rigid or detachable cross pieces r connected to it, which are screwed to the foot frames a, b. In the exemplary embodiment, the cross pieces r are connected to the carrier j with screws s. The screw connection to the foot frames a, b is carried out using the screws t. Once it has been installed in the machine frame, the sturdy carrier also increases its stability; third, the table top u, which can be made of wood. The removable grinding basins are located in it: the table top is also placed on the machine frame in a simple and obvious manner and screwed to the base frame with it.

The invention is not only for use on machines according to .dem Embodiment is limited, but should be applied in the same way to all the same and similar single, multiple or multi-spindle machines for grinding more optical Lenses are used without being limited to such machines per se.

Claims (1)

PATENT CLAIMS: i. Grinding and polishing machine for optical lenses, characterized in that the machine can be composed of the following three main groups: a) the machine frame (a, b, c, d, e, f, g) with the main drive shaft (h, i), b ) the carrier (j- [k, 1, m]), to which all spindle drives, the same, the eccentric drives with the lever mechanisms and the shift lever mechanisms (q) with the associated bearings (n, o, p) are attached, and c) the table top (u) with the grinding basin (v). z. Grinding and polishing machine according to claim i; . characterized in that the longitudinally arranged carrier (j- [k, 1, m]) either directly or indirectly with cross struts (r) attached to it in the machine frame (a, b, c, d, e, f, g ) is releasably attached.