DE470879C - Gridley machine - Google Patents

Description

The invention relates to metal working machines and in particular to a gridley machine.

It has already been proposed that the tool slide provided on the machine loading by means of a control drum; wegter tie rods toothed at one end to move, with a special drive rod and special control elements are used for each tool slide had to. The path of the individual tool slides was the same here.

^{According to the invention, a common drive element serving to move all tool slides 1} seated on a rotatable turret head is connected to the tool slides in such a way that one or more of these tool slides can be moved at a different speed than the aforementioned drive element.

In the embodiment which is preferably used, it is displaceable Drive link with the top slide, by two rack and pinion gears that can be rotated against each other connected by different gear ratio. This achieves that, for example, the one on the switchable Turret head seated tool slide, which is used, for example, for thread cutting is used at a higher speed than the sliding drive member can be demonstrated so that the threading is faster than the other work takes place and the thread is already cut before the displaceable drive member has covered its path determined by the control drum. In the time saved as a result, another can then Tool, such as a parting tool, come into effect before the turret is indexed.

In the drawings is one embodiment of the invention shown for example, namely shows

Fig. Ι a part of a gridley machine according to the invention.

Fig. 2 is a plan view of the apparatus of the invention for twisting off a Workpiece.

Fig. 3 is a plan view of a device intended for turning out his workpiece, and

Fig. 4 is a section through the turret head.

The invention can be used for different types of machines. The illustrated embodiment shows the device in its application in a Gridley single-spindle screw machines.

A support plate 9 protrudes into a cutout 11 of the head 10 and is at 12 attached to the head. The lower surface of the plate 9 takes a sliding rack 13, 13 "with one protruding downwards Pin 14 on.

In a hole of the support plate 9 sits a sleeve 15, which by a pin 16 against Rotation is fixed. In the can 15

sits a shoot 17, the middle ring-shaped Part on the inner surface of the sleeve 15 finds a bearing.

The drive is on both sides of its middle bearing part with two ring gears equipped. The lower ring gear 18 is in engagement with the teeth 13 ° of the lower Rack 13. An adjustment plate 20 is mounted on the base plate 9 and such pierced so that it receives the sleeve 15 with the drive 17. The upper ring gear 19 of the drive 17 is in engagement with the teeth 22 of an upper rack 21; the Bushing 15 is cut out in such a way that the toothed rack 21 engages in the upper toothed ring 19 can. The diameter of the lower ring gear 18 is smaller than the diameter of the upper ring gear, and the lower "ring gear 18 has smaller teeth · number as the upper ring gear.

In the present example, the difference in the diameters of the lower and upper toothed ring is represented ^{by the depth of the shoulder Ίζ α} in the sleeve 15 (Fig. 4). By using different drives 17, the number of teeth of the lower ring gear 18 can be changed in relation to the number of teeth of the upper ring gear, so that when working as described below, the speed and the range of motion of the upper rack 21 and the Tool holder in relation to those of the lower rack 13 can be changed. The adjustment plate 20 is machined so that it can receive the rack 21 freely slidable.

A plurality of slots 23 are provided in the adjustment plate 20 at suitable locations through Each of these shooters goes a screw 24 that goes into holes 25 of the Base plate 9 protrudes so that when adjusting the top plate 20 on the base plate 9 each screw 24 can be fastened in one of the various holes 25. When the various screws are tightened securely, panels will be 20 and 9 in the set position firmly held together.

A dovetail-shaped slideway 26 on the head side of the adjustment plate 20 takes a dovetail-shaped slide 27; a fitting insert 28 is inserted between the carriage and the carriage track and means a bolt 29 fixed in place. The upper rack 21 is at 30 on the lower surface of the tool carriage 27 attached.

A tool holder 31 is attached to the slide 27. In this example the tool holder is cast together with the slide to make one for special Work to create usable strong and durable construction. Of course you can the tool holder is separated from the carriage and fastened to it in a suitable manner be. The tool holder 31 takes the shaft 32 of the tool, which by means of bolts 33 is clamped in it. In the type shown in Figs. 1, 3 and 4 is a boring tool 34 is shown with a cutting 7 "portion 35; in Fig. 2 is a turning tool 47 with a cutting part 48 in place in the actual tool holder 31 shown.

The turret 10 has axially protruding extensions that are opposite one another

36 and 37 (Fig. 1); the extension 36 is mounted in an arm 38 of the machine frame; the extension 37 has suitable bearings at 39 and 39 ^s in the machine frame. A tie rod 40 extends through the head 10 and through its rearward continuation

37 and via the control drum 43 of the machine. This drum sits on the (not shown) control shaft of the machine and is provided with (not shown) control members which interact at certain times with a roller 42 which is attached to a pin 42 'at the rear end of the pull rod 40. A drive gear 41 is mounted near the front end of the drawbar 40 and within the housing of the head and is connected to the drawbar by pins. This drive gear is machined on its outer periphery in such a way that it can receive the pin 14 of the lower rack 13. In the present example, the head ro is designed on its four surfaces so that it can accommodate suitable tool slides. The turret head can be switched in its bearings in the machine frame.

The present design shows a single seam, which is mounted on the turret 10. The head has four elongated ones Surfaces with the help of which tool slides of any desired nature. attached to the head can. Each of these tool slides is equipped with pins 14 so that after each adjustment of the head of the pin of one of the tool slides or the relevant Rack-13 is brought into such a position that it is driven by the drive unit 41 can be taken, whereupon the control drum 43- at the right time Drawbar 40 drives so that it drives the tool holder moves towards or away from the workpiece.

Usually the tool slide moves at the same speed; nut of the tie rod 40 towards ^1, and pass over, and

Claims (2)

has the same range of motion. With the help of the rack and pinion The type described above can accelerate the movement of the tool slide 27 in this way that its range of motion with respect to that of the pull rod 14 and the other tools carried by the head is multiplied. The rotation of the control drum 43 by the control shaft of the machine causes the Control parts sitting on the drum, the pull rod 40 after each switching of the turret head 10 to slide back and forth. When the pin 14 and the lower rack 13 to be pushed towards the workpiece 44, which is in the circumferential part 45 (Fig. 1) sits so through the teeth 13 "of the lower rack that connects to the lower • The ring gear 18 of the drive 17 is in engagement, the drive 17 rotated. The upper ring gear 19 engages in the teeth 22 of the rack 21 and moves the latter towards the workpiece spindle and thus also the carriage 27, the tool holder and the tool, thereby causing the tool to work on the workpiece. Since the upper part of the Drive 17 has more teeth than the lower part, so it accelerates the movement of the ^: Rack 21 and gives her a greater amount of movement than the pull rod 40 and the other tool slides that sit on the turret head perform. The direction of movement or trajectory of the upper rack 21 is determined by determines the angular setting of the adjustment plate 20; here are the teeth of the upper one The rack is always in engagement with the drive 17, regardless of the angle setting the rack and the slide. The adjustment plate 20 and the drive 17 can around any angle up to go ° can be panned or rotated by merely the screws 24 loosen and the adjustment plate 20 together with the sleeve 15 to their Bearing on the drive 17 is pivoted. The elongated holes or slots 23 in the Plate 20 have the purpose of allowing short or precise angle adjustments, while the spaced holes 25 in the lower plate 9 initially for a approximate setting can be used. If a cone is to be cut on the outside of the workpiece (Fig. 2), then the tools 47 and 48 fixed in the tool holder. When a hollow cone is drilled out is to be, the tools 34 and 35 are attached to the tool carrier 31 (Fig. I, 3 and 4). The tool can be in either of these forms can be used for straight or conical turning work, depending on the setting of the Slide parts 20 and 27 with respect to the plate 9. I ¹ ATIiNI Λ \ SI ¹ U [ ¹ C Il IC: ι. Gridley machine, characterized in that that a common drive member (pull rod 40) serving to move all tool slides with the tool slide is connected to that one or more of the on the turret head seated tool slide can be moved at a different speed than the aforementioned drive element 2. Gridley machine according to claim 1, characterized in that the displaceable Drive member (40) with the top slide (27) by two against each other rotatable rack and pinion gears (13, 18 and 21, 19) of various Gear ratio is connected. 1 sheet of drawings