DE377865C - Thread cutting device for automatic revolver swivel arms - Google Patents

Description

The inventive idea of the main patent is, the well-known thread cutting device, in which the die for cutting the thread is rotated in the same way, but faster than the workpiece and runs by stopping its drive spindle, with automatic turret lathes to use or to accommodate in the turret head of such a bank. This idea of the invention is in the main patent performed on a turret lathe with a standing turret head that can be rotated around a vertical axis. the The present invention relates to the utilization of the inventive concept of the main patent For lathes with a horizontal turret head that can be rotated around a horizontal axis. While in the embodiment of the main patent, the drive shaft for the tools

ao is at right angles to the scline iron spindle, these two shafts are now parallel together. According to the main patent, the "drive shaft here also carries the coupling elements for driving the die spindle, and between them there is a machine part which, when the set Thread length releases the coupling and thereby separates the thread cutting device from the drive.

The drawing illustrated in

Fig. Ι a cross section through the turret head,

Fig. 2 is a side view,

Fig. 3 the connecting member on a larger scale.

The workpiece 1 is driven by the main headstock driven and processed by the various tools, some of which are located in the turret head. 2 is the turret head with the holes 3, which are used to accommodate the tools. 4 is the bearing housing of the turret head, in which it is when changing tools turns. The turret head is attached to a continuous axis 5 and with a nut 6 secured. Inside the axle 5, the drive shaft 7 is mounted, which is attached to the rear, Not shown end is provided with a drive pulley, which the shaft 7 permanently drives. The coupling 8 is on the shaft 7

attached, which cooperates with the sliding coupling 9. The latter points a transverse groove io in which the pins 11 engage the sleeve 12, whereby the sleeve is connected to the coupling so that the Shifting the clutch 9 is possible. Inside the sleeve 12, the spring 13 is provided, which causes the two clutches to be switched on when the clutch is released. On the surface of the coupling 9 are Inclined surfaces 14 provided for switching off. The transmission wheel 15 is on the sleeve 12 wedged and secured by nut 16. The sleeve 12 is housed in the bearing sleeve 17, which is arranged in the turret means.

The thread cutting device is inserted into a tool hole in the turret head. The bearing bush 18 is held in the tool hole by clamping. The drive sleeve 19, onto which the drive wheel 20 is wedged and secured by nut 21 , is mounted in the bearing bush. 22 is the die spindle, which is designed as a head for receiving a die 23 at the front end. The entrainment of the axle 22 is mediated by the wedge 24. The cam 25, which is used to switch off the drive, sits on the die spindle. At the rear end of the spindle, the spring 26 is pushed over, which, secured by the adjusting ring 27, is used to retract the die spindle. At one end, the spring rests against the intermediate ring 28, which is held in the tool hole by the screw 29. The element required to switch the drive on and off, a simple bolt, is denoted by 30. Teeth are provided in the bolt, in which the teeth of the pinion 31, which is mounted with its shaft 32 in the sleeve 33, engage. The lever 34, which is used to switch on the drive, is attached to the shaft. The disk 35 is coupled to the pinion and has two continuous V-shaped grooves 36 on the end face, in which a bolt 37 engages with its roof-shaped elevation 38. The bolt is hollow for receiving the compression spring 39, whereby the limit positions of the pinion are reached. The spring bolt is secured against rotation by a wedge 40. The fixed pin 41 is provided on the turret bearing, which pivots the lever 34 when the drive is switched on.

The operation of the device is as follows:

During the last partial rotation of the turret head, around the threading tool in working position To bring the lever 34 brushes past the stationary pin 41. Originally If the lever was in the position shown in dotted lines, it is activated by the Pen twisted as drawn. The pinion 31 moves the bolt 30 so far that the Clutch 9 free and by spring 13 in engagement with the continuously rotating clutch 8 is brought. Through the sleeve 12 and the transmission wheels 15 and 20 is the die spindle is driven. The threading tool is cut through axial displacement of the turret head. After cutting, the Displacement of the die spindle by the cutting tool, as follows long until the cam 25 has reached the bolt 30 and moves it. The bolt 30 is shifted against the coupling 9, which turns with its inclined surface during rotation 14 unwinds on the bolt and thereby out of the teeth of the continuously rotating clutch 8 is torn out, whereby the die spindle is stopped and the Threading tool runs off the cut thread. The V-shaped grooves of the an The disc located on the pinion secure the limit positions of the coupling bolt.

It should also be noted that the continuously rotating shaft can also be used to drive drilling devices can be used as required for small holes. Such a device is shown in the drawing indicated with.

Claims (2)

Patent-to sayings: ι. Thread cutting device for automatic Turret lathes according to patent 376586, characterized in that the coupling elements for the die spindle (22) supporting drive shaft (7) is parallel to this spindle (22) in a manner known per se and the cutting iron spindle (22) is mounted in the known axial bore of the turret head. 2. Thread cutting device according to claim i, characterized in that between the drive shaft (7) and the die spindle (22) a bolt (30J is displaceably arranged, which when reached the previously determined or set thread length on the coupling the drive shaft (7) disengages. 1 sheet of drawings.