DE1030134B - Lead screw lathe - Google Patents

Description

Lead screw lathe The invention relates to a lead screw lathe with thread cutting device and one extending parallel to the lead screw Shaft closed in switching of the lead screw drive, the lead screw of which starts the Tool slide is axially displaceable against a fixed stop and thereby the slide drive by running against one attached in its axial direction, longitudinally displaceable switch body switches.

In the previously known switching devices of the aforementioned type the axial movement of the lead screw was used alone to create a hydraulic To operate the slide valve, in turn, by the supply of a fluid pressure operated another switching device for switching the lead screw drive. This indirect Transmission of the switching movement can, apart from the switching delay that occurs, easily give rise to malfunctions if, for example, the hydraulic auxiliary power device fails or accidentally the pump for the hydraulic auxiliary power device was not turned on. Another disadvantage of the known hydraulic auxiliary power control there is also the fact that it is very difficult to retrofit it to a lead screw lathe can be grown, as it requires a considerable effort of switching means that often cannot be accommodated.

In order to eliminate the above disadvantages and above all to deal with simplest means without the use of additional auxiliary power devices an actuation to achieve the switching shaft, according to the invention instead of a switching body, which moves a hydraulic valve, uses a non-rotatable switch body, which engages with a coarse thread in an axially non-displaceable rotating body, the with the switching shaft for the feed drive in Drive connection is. This inventive measure results in a Switching device of very compact structure, which can be retrofitted in a simple manner can be attached to any lathe. The rotating body acted upon by the switching body can preferably be designed as a nut that is rotatable and axially immovable the outer circumference of a sleeve is mounted, which in its bore the switch body records.

According to a further feature of the invention, the coupling is between the lead screw and its drive with one effective in both axial directions Spring device and provided with two axially spaced stops, the corresponding stops on the switch body work together, wherein in the drive connection between the switching body and the switching shaft one Disengageable device provided for the effect of a change in the direction of rotation is. Preferably there are two between the switch body and the switch shaft Drive connections connected in parallel are provided, one of which is the selector shaft drives in one direction and the other in the opposite direction, wherein an actuator selectively interrupts one drive connection and the other manufactures. Thus it is with the stop and switching device according to the invention not only possible to turn off the lead screw, but also in an extremely easy way Way to change the direction of rotation.

Further details of the invention emerge from the following Description and the accompanying drawings, in which two exemplary embodiments of the invention are shown. 1 shows a section through a device according to the invention trained arrangement omitting all to explain the invention not essential parts of the lathe, Fig. 2 is a top view of the Arrangement of Fig. 1, the lathe bed shown in dash-dotted lines Fig. 3 is a section through another embodiment of the invention, Fig. 4 a view of the arrangement of FIG. 3 seen in the direction of arrow A of FIG.

The parts of FIG. 1 are shown as they would appear to a beholder who looks at the lathe bed from the front.

With 1 the lead screw is referred to, which in a known manner about a disengageable clutch in one or the other direction of rotation from the drive the work spindle of the lathe can be moved. With 2 is the tension spindle denotes, which - as insignificant for the invention - not shown in detail and is described. 3 with a switching shaft is referred to, either by a Engagement lever, which is arranged on the headstock, or by a arranged on the lock plate engagement lever can be switched. Of this Shift shaft is made in a manner known per se via interposed clutches the work spindle of the lathe for rotation in one direction or the other switched on. There are three positions for the engagement levers, also known in the art provided, on the one hand the middle position in which the work spindle is switched off is, and on the other hand, the one position corresponding to the advance and another, position corresponding to the return.

The lead screw 1 is not carried out, but as a stub shaft formed, the rotationally fixed, but axially displaceable with a lead screw thread part4 connected is. For this purpose, the lead screw stump 1 is on its outward protruding end designed as a grooved shaft 5, on which rotatably and axially displaceable a hollow shaft 6 is arranged. With this hollow shaft 6 is fixed, for example connected to the lead screw thread part 4 by means of a pin 7.

On the lead screw stub 1 is, for example, by screwing a sleeve 8 attached, which constantly rotates with the lead screw and over a thrust bearing 9 is supported against the lathe bed. The right side of this sleeve 8 serves as an abutment for a spring plate 10, on which one end of a Helical spring 11 is supported. The spring plate is by means of a snap ring 12 with the sleeve 6 connected.

The coil spring 11 is housed in a cylinder housing 13, which at the same time establishes the connection of the sleeve 8 with a spring plate 14, which is axially displaceably mounted on the sleeve 6 and against which the other The end of the coil spring 11 is supported. The lead screw thread part 4, the pull screw 2 and the shift shaft 3 are rotatably mounted in a bearing block 15, which is attached to the Lathe bed 16 is attached. For this purpose, the lead screw thread part is 4 rotatable and axially displaceable with its cylindrical pin end 17 in a socket 18 arranged, which in turn is mounted in a sleeve 19, which rotatably and axially is not slidably connected to the bearing block 15. The sleeve 19 protrudes with her Part 20 to the outside beyond the bearing block 15. On the outer circumference of this outstanding At the end 20 a rotating body 22 is loosely rotatably mounted with the help of roller bearings 21, which is at the same time secured in some way against axial movement. This Rotary body 22 carries a chain wheel 23 which drives a chain wheel 25 via a chain 24, which is attached to the outwardly protruding end of the shift shaft 3, the rotating body 22 has a bore 26 with a nut thread 27 into which the bolt thread the spindle 28 of a switching element 29 engages. This switching element 29 also has a groove body 30, the grooves of which engage in the grooves 31 of a bore, which are provided on the protruding end 20 of the sleeve 18. The with each other cooperating grooves 30, 31 accordingly ensure that the switching body 29 to carry out only an axial movement and no rotation with respect to the sleeve 18 able. This axial movement is achieved with the help of the threaded spindle 28, which is inserted into the nut thread 27 engages, converted into a rotation of the rotating body 22, which now in turn the shift shaft 3 rotates via the chain 24.

In the exemplary embodiment, right-hand threads are produced Ride with the help of the lead screw provided, with an automatic switch-off the production of left-hand threads is not intended. The longitudinal transport of the with the steel longitudinal slide to the left is in some way, for example by means of a stop. The lead screw stub continues to rotate, so that the lead screw is screwed out of the lock nut 59 to the right. As a result, the sleeve 6 moves with the snap ring 12 and the spring plate 10 if to the right by holding the spring plate 14. This gets the right end face of the bolt end 17 against that caused by the switch-on movement of the Shift shaft 3 via the chain 24, the sprocket 23, the rotating body 22 and the spindle 28 protruding end 32 of the switching body 29 moved to the left. The further movement of the bolt end 17 to the right causes a reverse rotation of the rotating body 22 and thus the control shaft 3. The drive of the work spindle and the lead screw is thereby switched off. Even if, for example, due to inertia, the selector shaft this moves beyond its zero position and thereby the lathe in reverse Direction of travel is switched on, no damage occurs as the steel is only inside of the thread that has already been cut to a greater or lesser extent runs back. Such a one The possibility is even to be seen as an advantage, since the steel will run back anyway got to.

In addition, the operator has more time than usual to handle the thread steel to pull out of the thread with the help of the lower support crank, since after the Switching of the main and lead screw drive the first revolutions are required, screw the lead screw 4 to the left into the nut lock 59 again until the coil spring 11 relaxes and with its snap ring 12 again against the Has placed the face of the sleeve 8. Only after this relaxation process of the coil spring 11, the support is transported back to the right into the starting position for thread cutting.

The embodiment according to FIGS. 3 and 4 agree in all essentials Share with that of FIGS. 1 and 2, so that for the same or each other corresponding parts have been given the same reference numerals. The embodiment 3 and 4 looks in both directions of movement of the lead screw thread part 4 provides an automatic switch-off. There are two coil springs for this purpose 33 and 34 are provided, which are supported on the one hand on spring plates 35, 36, the again lie against a ring 37 connected to the sleeve 6. The others Ends of the two oppositely directed helical springs 33, 34 are supported over one another Rolling pressure bearings 38, 39 on the spring plate 14 or the sleeve 8.

When the lead screw thread part 4 moves to the right, the spring 34 is accordingly compressed, and when the lead screw thread part 4 moves towards the left, the spring 33 is compressed. The rotating body 22 also has a chain wheel 23 which drives a chain wheel 40 via a chain 24. In addition, however, the rotating body 22 has a gear 41 which drives a gear 43 via an intermediate gear 42. This intermediate wheel 42 is mounted in a cover 44 that, together with the bearing body 15, forms a housing space 45 in which both the aforementioned gear train and the chain transmission are arranged.

The sprocket 40 is loosely rotatably mounted on the shift shaft 3, while the gear 43 is loosely rotatably mounted on an actuator 46, which is arranged on the shift shaft 3 in a rotationally fixed and axially displaceable manner by means of a tongue and groove 47, for example. Two positions are provided for this actuator 46, which are defined by the two bores 48, 49 into which a ball 50 is able to enter under spring loading. In addition, the actuator is provided with a spring-like wedge 51 which, in the position of the actuator 46 where the locking ball 50 engages in the bore 48, engages in a corresponding groove 52 of the chain wheel 40. In the other position of the actuator 46, where the locking ball 50 enters the bore 49, the spring-like wedge 51 engages in a groove 53 of the gear 43. Accordingly, in one position of the actuator, the shift shaft 3 is disconnected from the sprocket and in the other position of the switching element driven by the gear 43.

The switch body 29 is provided with a long spindle 54 whose Has a stop 55 acting on both sides at the end. The spindle 54 with the stop 55 dips into a bore 56 of the end 17 of the lead screw thread part 4. at The stop 55 rotates the selector shaft 3 clockwise or counterclockwise in the bore 56 sufficient freedom of movement to the left or right. The attack 55 can either with the stop surface 57 or with the stop surface 58 of the Shaft end 17 work together. Depending on the direction of rotation of the lead screw will it, as soon as the bed slide moves against a stop, against the action of the Spring 34 moved to the right or the spring 33 moved to the left. This means that the just described stop device of the switching body 29 axially in the one or moved other direction, whereby a rotation of the rotary body 22 in one or the other other direction is reached. The engagement of the two gear trains, namely on the one hand the chain gear train that only works with two wheels and on the other hand of the three-wheel gear train, is required to have a To achieve a reversal of movement and thus ensure that despite rotation of the rotating body 22 in one direction or the other, the switching shaft 3 is switched off will.

Claims (5)

PATENT CLAIMS, 1st lead screw lathe with thread cutting device and a shaft extending parallel to the lead screw for switching the lead screw drive, their lead screw against a fixed stop when the tool slide starts up is axially displaceable and thereby the slide drive by running against a longitudinally displaceable switch body that is attached in its axial direction switches over, characterized in that the switch body (29) is rotatably mounted and with Steep thread engages in an axially un arschieblichen rotating body (22), which with the switching shaft (3), which also controls the spindle drive, for the feed drive in Drive connection (24) is. 2. Lead screw lathe according to claim 1, characterized in that that the rotating body (22) is designed as a nut (27) which is rotatable and axially immovable is mounted on the outer circumference of a sleeve (19) which in its bore the switch body records. 3. Lead screw lathe according to claim 1 and 2, characterized in that that between the lead screw (4) and the switching body (29) a stop device is switched to idle. 4. lead screw lathe according to claim 1 to 3, characterized characterized in that the coupling (5-6) between the lead screw and its drive with one spring device (33-34) effective in both axial directions and with two axially spaced stops (57, 58) is provided with the corresponding stops (55) provided on the switch body (29) work together, and that in the drive connection between the switching body (29) and the switching shaft (3) a device which can be switched off is provided for effecting a change in the direction of rotation is. 5. Lead screw lathe according to claim 4, characterized in that between the switching body (29) and the switching shaft (3) two parallel drive connections (23-24, 40, 41-42, 43) are provided, of which one drive connection is the switching shaft (3) in one direction and the other drive connection drives the selector shaft in the other direction, and an actuator (46) is provided which selectively interrupts one drive connection and establishes the other. Documents considered: German Patent No. 828 785; U.S. Patent Nos. 1936 447, 2,368,408; "Workshop technology and mechanical engineering", 1951, p.387.