DE1552365C - Turning and drilling head for machining conical, cylindrical or flat surfaces - Google Patents

Description

j 2

The invention relates to a pivot and a nut screwed on the pin, which the

Drill head for machining conical, cylindric tool holders against the tool carrier slide

see or plan surfaces that press on a spindle.

a machine tool can be attached, its around the pin well at its free end running main body to support a to the axis of rotation 5 and so elastic deformations by ' Vertical axis swiveling guide body to reduce the cutting forces can be done at Hauptköreinen transversely to this axis via an automatic via a concentric to the guide body of the work drive displaceable tool carrier slide auf- zeugträgerschlittens rotatable part be mounted, the shows. has a groove facing the pin, into which

Such turning and drilling heads allow turning io the pin end is slidably fitted. As a result of the work, e.g. B. unscrewing a valve seat on the axis of rotation of the guide body concentric pinning Workpieces that are on a drilling order of the rotatable part can be the groove in machine, a boring mill or a milling machine that engages the tenon end, always clamped into a guide are. Since the feed movements of the approximate path of the tool carrier slide are parallel Set the tool from the rotary movement of the spindle to the 15 position.

Machine tool derived is its own. An embodiment of the invention is in the

Feed drive not required. Drawing shown. It shows

In a known turning and drilling head of A b b. 1 shows a longitudinal section through a rotary and

type mentioned at the beginning (German patent specification drill head according to the invention,

1010 351) is the tool carrier slide on a 20 Fig. 2> a side view of the device according to

Carriage held, which is on one of the main body A b b. 1, with the left half in the direction of the arrow

sensitive guideway is displaceable. If with device Y, the right one is seen in the direction of the arrow X.

such a turning and drilling head are a conical surface,

is to be made, the opposite of Fig. 3 is a section along line CD of Fig. 1,

Main body sliding carriage with the help of a 25 A b b. 4 is another view of the lower part of FIG

manually rotatable adjusting knob, which is non-rotatable with device,

an adjusting spindle is connected to the desired A b b. 5 to 8 are schematic representations of the ver-able. This means that the slide can be used in a number of different ways,
or less far with respect to the axis of rotation of the rotatable and drill head. In the case of a large understanding, there is a disk 1 and a ring 2; At a relatively large distance from the axis of rotation, the disk or in the cover 1 is a threaded element. This can hold considerable inertia forces and pivot 4 rotatably. Conical or cylindrical shafts can result on the thread of the pin 4 with a restless run of the turning and drilling head. 35 are screwed on, which are used to attach the front

The invention is based on the object of providing a direction in the chuck of the respective work turning and drill head of the type mentioned above are used as a machine tool. On the collar 5 of the pin 4 train that adjustments for the purpose of is secured by wedges 6 a gear 7 so that it Setting to a desired cone diameter with the pin 4 revolves. This gear drives in only slight displacements of the total heavy 40 pinion 8. It sits rotatably on a pin 9 which is in the bring point with it. Lid 1 is attached. The pinion, in turn, drives in

This object is achieved according to the invention by gear 10, which is rotatable on a collar 11 of the

solved that a pin 4 is mounted on the tool carrier slide. With the gear 10 is through

a screw 12 parallel to the pivot axis of the guide body is connected to a ring gear 13. This

Axis swivel-adjustable tool holder arranged- 45 gear rim is in engagement with a gear 14,

net is. rotatably through a disk 15 with a shaft

When setting the turning and drilling head to 23 is connected. This shaft sits rotatably in a a conical surface to be machined with a small through-bushing 16, this is cut into a housing part 17 the cutting edge of the turning tool is screwed through that onto the lower, threaded one Pivoting the tool holder into a position ge 5 ° end 18 of the pin 4 is screwed. That turned in which they only have a relatively small fixed connection between the pin 4 and the Distance from the axis of rotation. Should a cone housing 17 is secured by a pin 19, which in Hache are processed with a larger diameter, a hole 20 of the housing 17 is hammered so the tool holder continues accordingly and in a recess 21 of a collar 22 of the pivoted so that the cutting edge of the turning tool engages a pin 4

occupies greater distance from the axis of rotation. The shaft 23 rotatable in said bush 16 In this case, essentially only the turning tool is ex-centric at its lower end in a bushing 24 relocated, which is relocated and supported in comparison with a. This jack is in the already liv to the main body slidable slide only mentioned bore 25 of the housing 17 is screwed has a small mass. The rotary 80 according to the invention and secured by a grub screw 26. the and the drill head is therefore always well balanced, shaft 23 carries a worm 27. This stands in one-way Vibrations as a result of inertia forces and engaged with a worm wheel 28, which rotates freely The machining inaccuracy associated therewith is stored away on a short shaft journal 29. The traps, this shaft journal has (A b b. 3) a serrated

In an advantageous embodiment of the Er- 05 part 30. This sits longitudinally displaceable, but rotatable

Finding is the tool holder around a hub 31 of a handwheel 32 at the factory. With the hub

tool carrier slide arranged pin rotatable. 31 is the handwheel and thus also one end

This can be mounted on the threaded end of the Weil pin 29 in a bushing 33, which

Claims (4)

3 4 is not held in a threaded hole in the housing 17. One can then screwed through is. turn the housing 17 to the desired scale The end face of the hub facing the hub 31 has a turning diameter of a cylindrical bore 34 of the worm wheel 28 and the face of the set. Hub 31 each have a serration 35, the 5 In the ring 2 there is also a bore 64. be held in engagement by a spring 36. brings. A pin can be inserted into this to fix the This spring sits on the pin part 30 and has to be introduced as a cover 1. Abutment a ring 37, which is firmly on the pin. The operation of the device is below part 30 sits. The handwheel 32 can, however, contrary to the hand of the schematic A b b. 5 to 8. Spring force pulled outwards, d. H. the coupling io These figures show the base plate 39, the between the worm wheel 28 and thus also pivotable about the axis of the shaft journal 4 the shaft journal 29 are canceled. The hand of the scale 61 adjustable and with the help of the The handwheel can be locked in its outer position by means of a screw 59. Next the sledge-laid Ring spring 65 and a groove 66 in the hub-like tool carrier 42, then the tool holder 31 detectable. 15 46 with tool 65. In A b b. 5 is assumed To support the other end of the shaft journal that a workpiece 66 is to be faced. fens 29 is a socket 38, which is in a recess The base plate 39 is parallel to the surface of the tion of a circular plate 39, the base plate of the workpiece 66. Your shift is therefore in of the tool carrier, is attached. This plate is in the direction of the axis AB. The workpiece holder 46 around the axis of the shaft journal 29 with a ring 20 is adjusted so that the tool 65 in the axis shaped extension 40 rotatably mounted. The plate 39 CD, that is, lies in the axis of rotation of the pin 4. All has a dovetail-shaped recess 41. designated parts with the exception of the workpiece Slidably seated therein is a slide 42 with a 65 rotating around the axis CD. Since at the same time Toothed rack 43. This toothed rack engages in a toothed the tool carrier 46 in the base plate 39 in wheel 44, which is attached to the shaft journal 29. 25 direction of the axis AB is shifted, so leads With the help of this gear, the steel tip creates a spiral movement that Exercise of the slide 42. is required for the planning of the surface. The carriage 42 carries a pin 45. On the- In A b b. 6 it is assumed that a tool holder 46 is rotatably seated in a Werksem pin. The tool holder 46 has been rotated by 90 ° relative to the steel or another tool and threaded slide 42. The base bores 48 for threaded screws for the mounting plate 39 are set so that the axis AB moves with the movement of the steel. The tool holder 46 is rotatable as the axis CD coincides, ie the steel rotates. Its angular position to the slide is about the axis CD. One thus obtains a cylindrical one which can be fixed by a pin 49 which is drilled in the tool 35. Adjusting the position of the steel point holder sits. In the slide 42 are at intervals of a few degrees, e.g. B. of 6 °, holes 50 can, as shown in Fig. 7, seen thereby brought about, into which the pin 49 can engage. In order to ensure that the tool holder 46 is used to secure the tool holder, a carrier 42 is pivoted through an angle. The nut 51 and a washer 51 'which is screwed onto the thread end of the pin 45 when the steel tip is pushed forward. then still parallel to the CD axis. The The pin 45 has a conical extension 52. The pivoting of the tool holder 46 can, as Fig. 7 Housing 17 has an arm recognizable for the purpose of weight compensation, also for setting the respective 53. In a hole in this arm sits rotatably a desired chip removal, round disc 54 with a wedge-shaped groove 55 for 45 In A b b. 8 is assumed to be in a workpiece the square pin 52, d. H. the disc 54 rotates 63 a conical bore 70 or a cone 71 with the pin 45. Which is to be produced along a diameter. For this purpose, the Ser running groove 55 allows a displacement of the base plate 39 to the axis CD by the respective of the pin 52 to the disk 54. The round opening desired angle α pivoted, d. H. with the help of in the arm 53 is covered by a plate 56, the 50 scale 61. The axis AB is then below the is attached to the arm 53 by screws 57. Angle «to the axis CD. The steel tip moves Like A b b. 3 shows, the plate 39 has an annular dovetail-shaped groove 57 which is parallel to the advance of the tool carrier 46. The dovetail-shaped heads 58 and the cone 71 engage in this axis and to the generating of the cone 70 groove, and a conical two is obtained Screws 59 with nuts 60. These are used for 55 turning or a cone. Also in this case to determine the angular position of the plate 39. This can be used to adjust the chip removal or the angular position using a scale 61 according to a desired diameter of the cone of the scale mark 62 can be set, which on the lower tool holder 46 by one Angle to the tool side of the housing 17 is attached. The plate 39 can be rotated carrier 39, as can be done with the aid of the tightened nut 51 rotated 60 A b b. 7 is described.
after the nuts 60 are loosened. at Tightened nuts 60 can after loosening the nut claims:
ter 51 of the tool holder 46 to the slide 42 can be adjusted. In addition, the housing 17 with the 1st turning and drilling head for machining tenons 4 can be adjusted in its angular position relative to the cover 1 on 65 conical, cylindrical or flat surfaces, using a scale 63. This position of application to a spindle of a machine tool is important when the slide is bar, the revolving main body of which does not receive any feed, ie the cover 1, 2 swivels about an axis which is perpendicular to the axis of rotation. ble guide body for a displaceable transversely to this axis via an automatic drive Having tool carrier slide, characterized in that on the tool carrier slide (42) a tool holder (46) which can be pivoted about an axis (45) parallel to the pivot axis of the guide body (39) is arranged. 2. turning and drilling head according to claim 1, characterized in that the tool holder is rotatable about a pin (45) arranged on the tool carrier slide (42). 3. turning and drilling head according to claim 2, characterized in that on the thread provided end of the pin (45) a nut (51) is screwed, which the tool holder (46) presses against the tool carrier slide (42). 4. turning and drilling head according to claim 2 or 3, characterized in that the main body (17) a concentric to the guide body of the tool carrier slide (42) rotatable part (54) is mounted, which has a groove facing the pin (45) into which the pin bearing is slidable is fitted. For this purpose 2 sheets of drawings