DE2327686A1 - Borer facing attachment - has tool sliding radially in spindle head with pin engaging in spiral feed groove - Google Patents

Abstract

The attachment allows a borer to be used also for facing and cutting grooves in bore walls etc. The main spindle rotates in a stationary housing, and carries at its free end a driver head with a radial guide for the tool slide. A feed disc rotates on the spindle and has a spiral groove on its side nearest the driver head, in which a pin on the head engages. The feed disc can be driven via a differential drive from the main spindle, comprising gears fixed to spindle and disc and gears in a rotary housing. A worm wheel can be mounted on this housing, meshing with a worm turned by a handwheel.

Description

PATENT LAWYERS

DR. ERNST STURM DR. HORST REINHARD

Applicant: TJZBTA MECAiTICA. YDSA. SINAIA DIPL.-ING. KARL-JÜRGEN KREUTZ

Calea Bucuresti no. 14th

Sinaia - ^Romania: Γ ~ "" ~

'"8000 Munich 40, Leopoldstrasse 20 / IV

Telephone: (0811) 39 6451

Wire: Isarpatent -:

Bank: Deutsche Bank AG Munich 21/14171

Postal check: Munich 9756

Date 5/30/1975

Friction tuad facing device

(New version of the description)

The invention relates to a friction and planar preparation for use on reaming and drilling machines.

Facing devices are already known as accessories for coordinate drilling machines, wherein the turning tool is attached to a slide which can be driven by means of a screw, worm wheel or rack.

These known devices have the disadvantage that all their parts are in motion, allowing the worker to operate during must brake a feed disk during operation, which can lead to accidents

In order to eliminate these disadvantages, the following is proposed according to the invention:

The device according to the invention has a main spindle on which two gears (planet gears) sit, one on the main spindle fixed wheel and a wheel free from it. Each of these two planetary

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wheels meshes with a differential bevel gear. That opposite the main spindle free wheel is integral with a plate which has a spiral in which at least one tool slide is guided. A safety clutch is provided as overload protection when touching a pen with an adjustable curve, it can be stopped is.

The manual feed, i.e. the infeed, is carried out by means of a worm provided with a hand lever which meshes with a worm wheel which is firmly attached to the housing of the above-mentioned gear, whereby the feed over the plate edge and plate to ä & n. Merkzeugschlitten is transferred. Two or more tool slides can also be provided. The device can also be used as a centering and clamping chuck.
The drawing shows an exemplary embodiment of the invention.

Figure 1 is a kinematic scheme,

Figure 2 is a view of the device,

FIG. 3 is a section through the feed screw axis.

Figure h shows a device with two tool slides «.

According to Figure 1, a main spindle 1 is rotatably mounted in a housing. A gear 2 and a are seated in a rotationally fixed manner on the main spindle 1 Drive head 3 · Ibi drive head 3, a tool slide 8 is transversely displaceable guided.

The main spindle 1 thus rotates the drive head 3 and thus the tool slide 8. When the feed movement of the Vorricirba ':. 'Czech al direction and simultaneous rotary movement can al. ο .. honors are turned or rubbed or expanded. (AnS "s as with a lathe, in which the workpiece rotates and the - 3 -

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! Turning tool only the longitudinal or. Executes cross feed, stands by the invention the workpiece still while the tool rotates.

By moving the tool slide 8 transversely along its [guide on the drive head 3, the radius can be adjusted * jWhen the device, on the other hand, is - with a stationary workpiece! - without axial feed . merely rotates and if the tool slide 8 is advanced radially at the same time, the device works as a facing device. The cutting movement is in turn transmitted from the main spindle 1 to the drive head 3 and from there to the tool slide 8. At the same time, that means during facing, an automatic feed movement of the tool slide 8 takes place. The wheel 2, which is non-rotatably seated on the main spindle 1, meshes with a compensating wheel 4, which is integral and coaxial with a further compensating wheel 5, which meshes with a wheel 6 which is rotatable sits on the main spindle 1. This wheel 6, which is rotatable on the main spindle 1, is integral with a plate 7 which has a spiral into which the tool slide 8! Engages; upon rotation of the wheel 6 and thus the plate

the tool slide 8 is shifted radially, so what when facing the feed is given - and with which the

jgang dimension for facing as well as the dimension for internal longitudinal turning are adjustable.

The differential gears 4, 5 are mounted in a drum-like housing, which housing as a whole can be rotated on the main spindle 1 is stored. So it is a planetary gear between ! Main spindle and feed plate 7 provided, via which the i Cross feed takes place.

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The rotatably mounted on the main spindle 1 planetary housing also carries a worm gear 9, which with an on Fixed housing 13 mounted worm 10 cooperates, which is rotatable by means of handwheel 12. So by means of handwheel 12 is set the initial dimension and get the cross feed by hand, from worm wheel 10 via worm wheel 9, Planetary housing 14, differential gears 4, 5, feed wheel 6 on the plate 7, which the tool slide 8 radially via a spiral groove shifts. The main spindle 1 is of course held in this manual setting so that the balance wheel 4 on the stationary wheel 2 rolls and thereby the rotational movement of the plate 7 with the spiral and thus the transverse displacement of the Tool slide 8 causes. If, on the other hand, the main spindle 1 rotates, that is to say is driven by the drill, so the device works as a differential mechanism. This is followed by an automatic feed depending on the respective load, i.e. the tension resistance. For this purpose, i.e. to set the automatic feed, a frictional engagement is provided between the non-rotatably seated drive head 3 on the main spindle 1 and the one on the Main spindle 1 rotatable wheel 6, which carries the plate 7 with the transverse thrust spiral. This frictional connection is through spring-loaded Ball 17 shown.

The tool slide is used to machine cylindrical surfaces 8 blocked in its guide, so that no cross feed is possible. By axial feed in the direction the spindle axis with simultaneous rotation now takes place

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Boring or reaming cylindrical bores. The guide plates have an elastic segment for this purpose, which tightens the guide carriage. In this case it works the Ausglexchs gear as a planetary gear, the differential gears rotate at a speed that the Compensates for differences in movement.

The size of the manual feed is on a scale (drum 12) can be read from a mark fixed on the housing 13.

With the invention, you can set the dimensions very precisely the translation of the gearbox. Stopping the device when the desired level is reached takes place by touching pin 15 and the adjustment cam 16, whereby a safety clutch 17 is actuated.

The main advantages should be mentioned again: The device has automatic and manual feed. Two or even three tool slides can be used at the same time work. The tools and individual parts are protected against overload. The dimensions are to be set precisely and exactly to be observed. .

09 8 8 37 000?

Claims (2)

Contingent claims 1. ^ Friction and turning device that can be attached to a drilling machine, thereby knneaichnet,
that a main spindle rotatably mounted in a stationary housing j (1) with a drive head (3) at its lower or free end j ■ * '■ a radially extending guide for a tool slide (8) and that on the main spindle (1) a feed disk (7) is rotatably arranged, which on its the drive head (3) zuge-; turned side has a spiral groove or the like, in which a guide pin or the like on the drive head (3) j attacks. j - j 2. Device according to claim 1, characterized, · ■ that the feed disk (7) from the main spindle (1) via a dif-; differential gear or «planetary gear can be driven. j 3 device according to claims 1 and 2, characterized, . that two mutually coaxially rotatably connected © gears (^, 5) in a mounted rotatable relative to the stationary housing on the Hauptspindel1) epicyclic gear - are mounted housing or rib, of which the rsit a gear ⁽¹ O tight fitting on the main spindle gear (2) meshes with the? Other gear (j?) Meshes with a gear (6) fixedly connected to the feed plate ί?). - 7 -409883/0007 bad ORIGINAL . Device according to claim 3V
characterized, that on the rotating gear housing a gear, in particular a worm wheel (9) is provided with which a fixed j standing housing mounted worm 10 combs, which by hand! wheel is rotatable. 4098 83/00 07