DE627497C - Thread chasing device for single and multi-spindle machines - Google Patents

Description

In general, threads are produced on automatic machines by means of a cutting head. In order to achieve greater accuracy, the ones known from turret benches are still used Transfer thread chasing devices to machines, d. H. Facilities where the cutting steel is at the end of a pivotable against the workpiece, laterally displaceable through the threaded cartridge Lever arm is arranged. This arrangement, too, does not allow the manufacture to be flawless and -precise thread, as the steel cannot be held firmly enough can and, apart from the vibrations affecting the accuracy, easily tilted when cutting due to the one-sided cutting pressure caused by the lateral feed movement, so that uneven thread flanks arise.

It is also proposed to use a thread chasing device on single-spindle, automatic lathes to be designed in such a way that the steel is arranged on a compound slide provided on the side of the work site on the one hand in the sense of a lateral feed movement of the cutting steel, on the other hand, both in terms of delivery and withdrawal as well as employment of the steel to the increasing thread depth

is driven. '

In contrast, the invention is based on an automatic lead screw lathes for the thread chasing known arrangement in which on a longitudinal slide two superposed cross slides are arranged, the top of which carries the steel and the infeed to thread depth receives, while the lower cross slide is pulled forward and causes the steel to move back when the direction of the longitudinal slide changes. This known arrangement results when applied to automatic single or multi-spindle lathes in conjunction with the subject of the invention forming drive and control device for Slide has the advantage of a simple structure with extensive control options while retaining the one used on the work spindle in the last-mentioned lathes Threaded cartridges.

The invention consists in that the rotatable, axially displaced by the threaded cartridge Shaft carries a double-armed lever at its free end, which with its one arm the longitudinal displacement of the longitudinal slide, the other arm is used to adjust the control cam arranged between the two cross slides ο. Like. Causes.

The control cam arranged between the two cross slides is expediently through Pivoting the lever arm brought into one position and in this by a Lock held by that lever arm when reaching one through the thread length certain degree of longitudinal displacement of the same is triggered.

In the drawing, the subject matter of the invention is, for example, partly diagrammatically, illustrated on a four-spindle automatic machine, namely Fig. ι diagrammatically show the drive of the compound slide,

FIG. 2 shows a side view of this slide, FIG. 3 shows an end view of the slide according to FIG

Fig. 2 and

ίο Fig. 4 is a plan view of the carriage according to FIGS. 2 and 3.

In the drawing, 1 is the spindle cylinder of the four-spindle automatic machine carrying the four spindles 2. In one working position, thread is cut on the workpiece to be machined, the speed of the relevant one Spindle 2 is for this purpose in that working position by itself switching gear transmission reduced. Threaded cartridges 3 are attached to the rear ends of the spindles 2, in the working position for thread cutting with a nut jaw 4 together. works. A shaft S is rotatable and axially displaceable to the side of the machine frame stored, which carries the nut jaw at one end by means of a lever arm 6 and on the other end of which a double-armed lever is attached, one lever arm 7 in the Longitudinal slide 8 of a compound slide arranged at the side of the work site engages, while his other lever arm 9 the underlying cross slide 10 of that compound slide controls.

The workpiece 11 is machined by the cutting tool or chaser 12 in the graver house 13 of the longitudinal slide 8 is attached.

The lateral feed movement of the cutting steel 12 is made by the lateral screwing the nut jaw 4 on the threaded cartridge 3 caused. Because of this The shaft 5 is screwed in Fig. 1 from right to left against the effect of the Spring 14 pulled and accordingly by means of lever arm 7 also * the longitudinal slide 8 moves in the same direction. Once the desired thread length is made is, the stop 15 attached to the lever arm 6 falls off the guide piece 16, the nut jaw 4 comes out of engagement with the threaded cartridge 3, and the parts including of the longitudinal slide 8 are returned to the starting position by the spring 14, after the steel is withdrawn by a device described below became.

The movement of the cutting tool perpendicular to the axis of rotation of the workpiece _ can be broken down into two sub-movements, namely - first, the infeed movement and Withdrawal movement and, secondly, the chip setting movement for the successive ones Cuts to the final thread depth.

Corresponding to these two moving parts are two cross slides superimposed on one another intended for the tool carrier. The cross slide 10 forming the upper slide leads the movement to infeed and Withdrawal of the steel, while the lower slide 17 starts the pitch movement Thread depth performs.

These two slides 10 and 17 are controlled as follows:

The carriage 17 is provided on the underside with a roller 18 with a through a suitable translation from the main drive of the machine from driven cam roller 19 cooperates. The slowly rotating roller 19 pushes the lower carriage 17 steadily and slowly until the point where your inclined control edge 20 merges into the straight part 21 (FIG. 2), reaches the roller 18. In this In a moment the steel has reached the greatest thread depth.

The upper slide 10 is controlled by the lever arm 9 of the shaft 5. This acts by means of a constantly held up by a spring, in that Slide mounted pin 22 on the drive lever 23 (Fig. 3) one in the slide 10 rotatably mounted control cylinder 24 and pivoted this when going down of the lever 9 in Fig. 3 in the clockwise direction. An inclined groove 25 des Cylinder 24 engages in a pin 26 attached to the lower slide 17 so that by said rotation of the cylinder 24 of the upper slide 10 on the lower slide

17 regardless of the position of the latter is advanced and, accordingly, the adjustment of the beam to the Workpiece 11 takes place against the spring 30. The amount of feed depends on the respective Position of the lower slide and, accordingly, of the position of the role

18 on the cam roller 19. Has the lower slide has reached its end position, so the steel has not reached the greatest thread depth, the feed of the upper slide is limited by a stop 27 attached to it, which is controlled by means of an adjusting screw is adjustable and cooperates with stops which are attached to the spindle cylinder and of which one each a spindle 2 is assigned. That way it is. possible, inevitable inevitable ■ to compensate for inaccuracies in the spindle pitch of the spindle cylinder and also in this Respect a greater accuracy of the

set thread to achieve compared to the known facilities.

The pin 22 is in its depressed position by a spring-loaded pawl 29 (Fig. 3) has been recorded, which at the end of the working stroke of the steel 12 by the lever arm 9 moved laterally by means of the shaft 5 (from right to left in FIG. 1) will. As a result, the pin 22, which is no longer covered by this lever arm, can move upwards under the action of its spring rise and now pivoted via the lever 23, the cylinder 24 in reverse Direction, d. H. counterclockwise. This causes the top slide 10 withdrawn under the action of the spring 30, the spring 14 moves the longitudinal slide 8 back to its original position, and the lever 9 causes again described in def Way, a feed of the top slide 10 against the workpiece and thus a delivery of the steel 12.

In the meantime, the cam roller 19 has continuously advanced the lower slide 17, so that the steel is now employed to a greater thread depth until the one to be produced largest thread depth is reached. Since the cam roller 19 the steel too advances against the workpiece axis during cutting, arises in the first Cut a tapered thread, which is only in the last cut, when the roller 18 is straight extending part 21 of the control cam of the cam roller 19 has reached to full thread depth is cut out to the cylindrical thread.

After completion of the thread, the spindle cylinder 1 is advanced by one step, and the next workpiece arrives in the working position for thread cutting, which results in the work processes described repeat.

Naturally, the invention can also be applied analogously to single-spindle automatic machines. ■

Claims (2)

Patent claims: 1.Thread chasing device for single and multi-spindle machines, in which the cutting steel is arranged on a compound slide provided on the side of the work site, which, in addition to the longitudinal slide, contains two cross slides arranged one above the other, one of which performs the adjusting movement of the cutting steel to the thread depth, while the other at the beginning and at the end of a cut to feed or retract the steel is moved forward or backward by constant amounts, characterized in that the rotatable shaft (S) axially displaced by the threaded cartridge (3) has a double-armed lever (7 , g) carries with one arm the longitudinal displacement of the longitudinal slide (8) and with the other arm the adjustment of the ¹ control cam (25) or the like arranged between the two transverse slides (10, 17). 2. Apparatus according to claim 1, characterized in that the between the two cross slides (10, 17) arranged control cam (25) or the like. Through Pivoting the lever arm (9) brought into one position and in this through a lock (29) is held by that lever arm (9) when reaching a the length of the longitudinal displacement determined by the thread length is triggered. · 1 sheet of drawings