DE695580C - Planing machine for processing pyramid-like bodies, especially square blocks - Google Patents

Description

lur. Ind. Ligendcm
10 OCT. 1940

The invention relates to a planing machine for processing pyramid-like bodies, especially square blocks

There are already planing machines for shaping

S planing is known, in which the tool moving back and forth parallel - .. to the surface line of the workpiece is moved and in the dead centers of the tool movement the workpiece is a feed rotation and a Performs transverse shift.

However, these machines are designed for machining pyramid-like square blocks unsuitable due to their cumbersome and time-consuming handling.

It has also been proposed for pyramidal machining Blocks with rounded corners to use planing machines that work with three supports, namely with two sides. ao supports that process the straight surfaces, and with a round planer support that is on Crossbar sits. This way of working is also cumbersome and time-consuming, since the block must be completely reclamped each time before using the rotary planer support.

These disadvantages do not apply to the new planing machine, since here according to the invention the workpiece is machined by a tool that planes the advance and • retraction becomes and in the reversal points a rotation around the geometric pyramid axis and executes a pivoting movement around the tip of the pyramid for provision.

The drawing shows an example of the new machine in Fig. Ι in elevation and in

Fig. 2 shown in side view.

Fig. 3 is a schematic representation of the transfer elements for workpiece movement when planing.

Fig. 4 shows a cross section through the structural part of the machine.

On the bed 1, the planing table 2 is guided in a longitudinally movable manner. The drive of the planing table can be done in the usual way and is shown in Figs. 1 and 2 by rack 3 and wheel 4 indicated. Bock 5, which holds the steel holder slide, is screwed to the bed 6 with planing steels 7 and 8. In Fig. 3 'is for clarity half of this block is omitted and therefore only the screw surface of the block at 9 closed see. On the table 2 in the guides ι Ό and 11, the platen 12 is transverse movable. On this plate sits a headstock 13 with a chuck 14 for the Workpiece 15. At the other end, the workpiece is in a tailstock 16 by means of

Center point held. The chuck 14 can be rotated by a worm 17 and worm wheel 18. With the table 2 a gear case 19 is screwed. In this The gear box is home to the parts that are used for circular and cross switching of the workpiece. These parts have the task of To guide the block during processing in such a way that the desired surface line is brought into the cutting line of the planing steels. The feed is generated by indexing the block using the worm gear 17, 18. At the same time, the clamping plate 12 is a corresponding one at both ends ig transverse movement granted in order to achieve the correct position of the block.

In the exemplary embodiment, the advance is initiated by a special additional motor 20 which drives a magnetic coupling 23 via the pair of wheels 21, 22. Instead of this arrangement, the additional movement can of course also be transmitted in various other ways, e.g. B. from the main drive or from the reversing movement of the table. The motor 20 runs continuously, while the magnetic coupling 23 is only energized for a short time at the ends of the stroke, that is, when the steel is overflowing. This is done electrically from the control lugs 24 (Fig. 2). The amount of feed can be determined by the length of time during which the magnetic coupling is switched on. If this period of time is not constant for a block, so it is designed to be variable with the help of a template, it is possible to achieve constant feed with larger and smaller block radii, ie the round indexing can be kept larger on the flat sides while it is in the direction towards the block corners is reduced according to the enlargement of the block radius. The switching movement is transmitted from the magnetic coupling via worm 25 and worm wheel 26, a pair of change gears 27 and 28 to the template shaft 29. On this shaft sit two templates 30 and 31, one of which is intended for the forward and the other for the backward movement of the work) O piece. The roller 32 runs on the template 30 and the roller 33 runs on the template 31. The rollers 32 and 33 sit on the double lever 34 which is keyed onto the shaft 35. On the shaft 35 sit the two rocker arms 36 and S7 · In these levers, adjustable by the spindles 38 and 39, sits a stone each with a pin 40 and 41. The push and pull rods 42 and ο engage on these two pins 43 at. The length of the push and pull rods can be adjusted using nuts 44 and 45. These nuts can, for example, be provided with right-hand and left-hand threads. The rods 42, 43 engage the mounting plate 12 at the pivot points 46 and 47, so that it executes a corresponding transverse movement corresponding to the oscillating movement imparted to the lever 34 and thus to the shaft 35 and the levers 36 and 37 by the templates. By adjusting the pins 40 and 41, the lever arm lengths of the levers 38 and 39 can be selected as desired, and a certain size is achieved for the transverse movement in the points 46 and 47. This size is set to match the tapered shape of the block.

In addition to the worm 25, there is also a bevel gear 48 on the shaft of the magnetic coupling, which drives the vertical shaft 50 via a bevel gear 49. The screw 17 (Fig. 1 and 2) can be coupled to this shaft through the coupling 51. Each time the block is switched by the magnetic coupling 23, the latter makes a small rotary movement via the worm 17 and the worm wheel 18 and, simultaneously with the clamping plate, a transverse movement. The size of the transverse movement at the two ends of the block ^{s is} different according to the setting of the pins 40 and 41. After the clutch 51 has been switched off, the block can be adjusted by hand using the crank 52. As a result, the position of the clamped block can be adapted to the wheel system generating the transverse movement. -

Around the diameter and tapering of the workpiece at the same time in just two steps To be able to adjust, the movements can be adjusted for additional adjustability and couple the size adjustment of each lever arm. In Fig. 4 is the facility shown on a larger scale for this purpose. ' The push and pull rods 42 and 43 are no longer designed with right-hand and left-hand threads, but on the one half of the rod, the nut 44 or 45 is fixedly arranged so that the other Can screw half in or out of the nut. When turning one Rod or spindle halves 42, 43, thereby shortening or lengthening these Rod is reached, the nut is simultaneously on the bevel gears S3, 54, 55 and 56 57 rotated. The spindle 38 is fixed in this case. The nut 57 sits in the housing 58, which carries the pin 40. So it will be at the same time as the spindle is turning 42 and 43, respectively, the clamping plate is adjusted transversely and the lever arm of the lever or 37 shortened by a certain amount

or extended. In this way it is possible to adjust the block diameter and tapering to be made simultaneously by turning the spindles 42 and 43. the Square edges 38 and 39 are only used in this case if the lever arm is the lever 36 and 37 should be adjusted independently of the block size. Through this individual adjustment is it possible with the same

to make stencil blocks with hollow, straight or spherical 'sides.

Of course, the invention is not limited to the illustrated embodiment. So z. B. not necessarily the workpiece on the fixed side support To be moved past, but also the planing table with the workpiece can be fixed in the working direction and the side support with the tools can be moved past the workpiece. Finally can in the embodiment shown, the swivel table 12 with the workpiece clamping device 14, 16 removable and the side support with a device for the Feed of the tools in a vertical direction and possibly also in another direction Direction so that the machine can be used not only for processing blocks but also for Planing of any other work piece can be used.

Claims (3)

Patent claims: 1. Planing machine for processing pyramid-like bodies, in particular Square blocks, characterized in that it is machined by a tool which planes forwards and backwards Workpiece in the reversal points a rotation around the geometric pyramid axis and a pivoting movement around the tip of the pyramid for provision. 2. Planing machine according to claim 1, characterized in that the main cutting movement executing table (2) carries a transversely displaceable slide (12) on which the workpiece is placed between Workpiece clamping devices (chuck 14 and tailstock 16) is attached, wherein the size of the transverse displacement at the two ends of the carriage (12)! accordingly the different distance from the pyramid tip is different. 3. Planing machine according to claim 1 and 2, characterized in that the transverse movement of the workpiece at the two ends of the slide is carried out by two length-adjustable levers (36, 37) which are rotated ^{by a common template (3 °> 3 l} ). . ' 1 sheet of drawings