DE257700C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 257700 CLASS 49 #. GROUP

Patented in the German Empire on August 13, 1910.

The subject of the invention is a device to automatically and inevitably move the working steels of the planing machines, which combines the following advantages:
i. The time available for the tool holder advance, which can only take place before the working steel has started the cut or after the cut has ended, and thus the size of this advance, is proportional

ίο the dead path of the planing table in front of and after the end of the steel holder feed. Most common controls on the other hand, a specific and equal feed rate is used for small and large toolholder feed rates large travel of the table is required, which is often the case when designing the work pieces Disadvantage of the construction must be taken into account.

2. The size of the feed can be adjusted comfortably by turning while walking a stationary screw can be changed.

3. The complicated and sensitive latch mechanisms are replaced by simple ones Claw clutches in which all teeth engage at the same time, thus reducing wear as much as possible are little exposed.

4. The clutches are engaged almost at a standstill, that is, almost jerk-free, whereby To avoid fractures of the teeth.

5. The dimension of the largest steel holder feed, which depends on the length of those mentioned under 2 Screw depends, is not limited by the type of device per se, because this screw can be made structurally as long as you like.

Fig. Ι gives the side view of a planer in a schematic representation, from which it can be seen in what way the the invention underlying steel holder control is attached and how their Drive receives.

Fig. 2 is the same machine seen from the front.

Fig. 3 x 4 »5 and 6 are sections through the Control box, which shows the individual parts of the control, namely is

3 shows a vertical section parallel to the longitudinal axis of the planing machine,

Fig. 4 is a partial section,

Fig. 5 is a cross section through the control box and

Fig. 6 is a horizontal section through the control box with a schematic drawing of the Gearbox between control box and steel holder spindle. The latter schematic representation is rotated by 90 ° in the figure, i. H. from the vertical to the horizontal plane laid down.

A high-speed drive shaft a (Fig. I, 2, 5 and 6), which changes its direction of rotation when the planing machine is reversed, rotates a bevel gear c (Fig. 3 and 6) which runs loosely on the control shaft b and is mounted in the housing and is maintained by an adjusting ring ft (Fig. 3 and 5) in its position of engagement with the associated bevel gear on the shaft a . This wheel c is provided with coupling claws at both ends. On the shaft b and firmly connected to it sit on both sides of the wheel c, the corresponding coupling claws d and e (Fig. 3 and 6). The shaft b can be displaced in its bearings, the power transmission to the steel holders being ensured by an accompanying bushing f (FIGS. 3 and 6) in which the shaft b is slidably wedged and the shaft g is wedged tight. Be from wave g

the steel holder moved in a known manner by any intermediate links corresponding to the structural requirements; in the exemplary embodiment by a pair of bevel gears h, a shaft i. Worm k and worm wheel I and finally the well-known ratchet gear m, which sits on the steel holder spindle. By shifting shaft b to one side or the other

ίο come alternately the coupling claws d and β with those of the wheel c into engagement. B may be the shift of the shaft, for example by an on shaft α-fitting slip ring η (Fig. 3, 5 and 6), happen weleher at each reversal of the engine by the arm 0 (Fig. 3, 5 and 6), the shaft b in a known Way shifts and engages the clutch claws d or e in the wheel.
On the elongated shaft b (Fig. 3) thread q is cut on which a nut r runs. A stop t , which limits the path of the nut r to one side, can be moved by a screw s. From the shaft b , the steel holders are displaced by rotating the sleeve f and the shaft g, which is connected to the same in a known manner. The process when switching the steel holders is as follows:

At the end of the return travel of the planing table, the machine is reversed, the shaft a changes its direction of rotation, the slip ring η rotates with the shaft α and engages the coupling claws d , then it grinds on the shaft a again. The shaft b now rotates until the nut r hits the stop t. Then the shaft b unscrews from the nut r until the coupling half d is disengaged again and the shaft b comes to a standstill. By rotating the shaft b, the sleeve f, the shaft g and the other drive parts up to the steel holders, the latter are moved in a known manner. The amount of displacement is related to the number of revolutions which shaft b makes from the moment the clutch d is engaged to the moment it is disengaged again. The number of revolutions depends on the way ^wel: the mother chen r must undergo until it meets the stop t, and this way can finally by displacement of the stop t using the screw s be lengthened. At the end of the operation the machine is reversed again, the shaft a changes its direction of rotation and the slip ring engages the coupling half e , whereby the shaft b rotates in the opposite direction as before. The nut r strikes against the housing at u , the shaft b screws into the nut r and the clutch e is disengaged, whereby the shaft b comes to a standstill.

When the shaft b rotates, which is caused by the engagement of the coupling half e , the steel holder does not shift because the known ratchet mechanism m (Fig. 6) is arranged between the latter and the shaft b , which acts only in one direction. When the planing table is reversed, the switching process starts again.

By turning the screw s, the stop t is adjusted and thus the size of the advance of the steel holder can be changed as required. The length of the thread q is decisive for the greatest achievable feed rate; This means that large feed rates can be achieved by installing spindles of any length. . , ·.

Claims (3)

Patent Claims: 1. Automatic switching device for the steel holder of planing machines, characterized in that the movement for the execution of the circuit is derived from a shaft (a) which changes its direction of rotation with each reversal of the planing table in such a way that this one shaft driving the steel holder spindle (b ) by means of claw clutches (d or e) , which are alternately coupled by the shaft (a) with every change of direction of rotation, thus with every reversal of the planing table, and remain in engagement with the shaft (b) until they are engaged by the Movement of a nut (r) , which runs on a screw (q) that rotates with the shaft (b) . 2. Automatic switching device according to claim 1, characterized in that the displacement of the shaft (b) for the purpose of alternating engagement of the claw clutches (d or e) with the claws of the on the shaft (b) loosely running and laterally guided in the housing wheel (c ) by a known slip ring (f) (Fig. 3, 5 and 6), which sits on the shaft (a). 3. Device for adjusting the size of the steel holder feed, characterized by two (a fixed (u) and a screw (s) - adjustable) stops (t), the distance of which the path of the ■ Stop nut (r) and thus the dimension - of the tool post feed. For this purpose 2 sheets of drawings.