DE948112C - Drilling machine, in particular coordinate drilling machine - Google Patents

Description

(WiGBl. P. 175)

ISSUED AUGUST 30, 1956

(Ges. Of 15.7.1951)

The invention relates to drilling machines, in particular coordinate drilling machines !!, with A headstock arranged on a projecting beam, the distance between which! from the stand through spacers is determined by the unchanged length due to the effects of temperature.

Compared to the known machine tools of this type, in which the drilling headstock with the Bracket consists of one piece or is screwed to it, whereby the disadvantage arises that the those originating from the drill spindle bearings and from the gears housed in the headstock Heat is transferred to the headstock housing and to its support, so that the drill spindle axis to emigrate from their original position, an older suggestion is that the Spindle head by means of at least one element made of practically inextensible material that is inserted into the boom Link material independently of the boom or carrier on the main machine body.

In this older proposal, the headstock is in front of the boom, and the inextensible ones Rods are on the one hand on the spindle head in as close as possible to the geometric axis of the Tool spindle lying point, on the other hand on the console leading the boom nearby attached to the geometric axis of the stator. With these means, the task at hand loosen only imperfectly, since the heating of the spindle head by the

drive means of the spindle and 'whose storage is not taken into account. Also, the solution is the According to the older suggestion, the task of using special rods, which by the Selection of the material are insensitive to heat, 'bound.

The invention aims to achieve an even higher level of accuracy. Regarding the spatial position of the drilling spindle axis, regardless of the heating that occurs, the carrier and the drilling spindle head can be achieved with simpler means, which, moreover, are not tied to the use of temperature-insensitive special rods. According to the invention, this is achieved by the fact that the carrier is fastened to the column sled in a heat-insulating manner and that the spacer holders are guided axially displaceably in the carrier and are kept at a constant temperature and are in contact with surfaces of the slide that are not themselves ao Are exposed to change in position due to heating, and that the headstock in the carrier is guided displaceably on horizontal guideways and ¹ is pressed against the spacers by flexible connecting pieces, preferably by springs mounted in the carrier: bolts, guided in the carrier a spacer having an unchanged length is not used to fasten the spindle stock, but rather 'are limited to their actual function * as spacers. They therefore do not need to be processed for the purpose of attaching fasteners. However, the use of temperature-insensitive special rods should not be ruled out. Following a between the carriage · and ¹ the carrier dee headstock located Wärmedämmfuge, which is achieved in that the carrier under Zwischenlschaltung, for example, cylindrically formed intermediate pieces of low thermal conductivity is connected to the carriage, it is possible with simple means, serving carrier to the column carriage heat-insulating ¹ and thereby to create support surfaces on the slide, which are not themselves exposed to any change in position due to heating, for the spacers of the headstock, so that the spacers are not exposed to inaccuracies that could otherwise result from heat transfer to the slide . In addition, 'the heating of the spindle head has no effect on the accuracy of the drilling spindle position because the spacers are supported on abutment surfaces of the drilling headstock,' the plane of which passes through the drilling spindle axis. For this purpose, the part of the headstock facing the carrier lies in a recess in the carrier, and the stop surfaces on the headstock for the spacers lie in front of this recess in the plane passing through the drilling spindle axis. As a result, the effects of elongation in the drill headstock cancel each other out and do not affect the position of the spindle axis. In addition, additional thermal insulation between the stand and the headstock is achieved through the air gap between this and the trough, through which cooling air, as is known per se, can also pass. Cooling air is also used to ventilate the interior space of the carrier, through which the spacers on the. pass freely through most of their length, so that their temperature is kept constant. Instead of cooling, artificial heating can be used, whereby the spacers are kept at a constant temperature.

It is also possible to use the spacers in the carrier in a thermally insulated manner. Per se Although it is known, harmful variable heat effects on parts of machine tools by sheathing such parts with a layer of heat-insulating material impede. This earlier proposal is aimed at the sheathing of certain parts of the frame, while in the present case only the spacers are protected from the effects of heat should.

So that the spacers on the one hand to the slide, on the other hand to the headstock as much as possible have low heat conduction, they advantageously have spherical end faces.

The invention is illustrated in an exemplary embodiment ini the drawing, from which further Features emerge.

Fig. Ι is a side view of the carrier and the stand of a jig boring mill;

Fig. 2 gives a partial view of an embodiment the adjusting spacers again;

Fig. 3 is a cross section along line AB of Fig. I.

The projecting support 2 with the drilling headstock is guided in the stand 7 by means of the slide 17. Carrier 2 and carriage. 17 are ¹ rigidly connected to each other. The headstock 1 of the drilling machine sits on the front part of the support 2. The connection between the headstock 1 of the drilling machine and the carrier 2 is secured by flexible connecting pieces 12. The drilling headstock is guided in part 2 of the carrier on horizontal bearing surfaces 13 and also on vertical bearing surfaces 14, so that it can only move in the longitudinal direction of the carrier, ie in the axial direction of the connecting pieces 12 due to their flexibility. This freedom of movement: -'des Bohrepindelstocks 1 independently from the carrier 2 is used in this invention, a migration of the B'ohrspindelachse to prevent as a result of elongating any of the carrier 2 as a result of heating during the work ¹ "of the machine. For this purpose, the position of the drill spindle stand relative to practically fixed points on the stand or the carrier 2 is fixed by means of spacers or wedges which form the teaching. The outer surfaces of these rods 11, which are guided in the carrier 2 in such a way that they can move freely in the longitudinal direction, lie on one side against the surface 19 of the carriage 17

and on the other hand against the surface 3 of the drill headstock, which is also the parting plane forms between the drill headstock 1 and the carrier 2. The length of the rods 11 is slightly greater than that of the carrier 2, so that a gap 18 between the carrier 2 and the headstock 1 is formed. If the machine heats up while it is working, it allows it to shift of the carrier 2 in the direction of the drill headstock 1, without its distance from the surface 19 of the carriage 17 being changed as a result, since this distance is kept unchanged by the length of the rods 11.

The bars are practically not subject to any significant elongation when the temperature increases, because they are thermally insulatedi or by artificial heating or cooling constantly be kept at a certain constant temperature. You can also choose from a Material with low thermal expansion.

The parting plane between the drill headstock and the carrier 2, which is connected to the surface 3 coincides, goes through the drilling spindle axis at the same time. As a result, the out-effects cancel the Länigens in the drill spindle itself on each other and do not affect the Position of the spindle axis. If the dividing plane 3 moves forward by a small amount, i. H. of the If the spindle axis is moved to the operating handle, the spindle axis moves in the case of a Increase in temperature of the headstock in the direction of the stand 7. This means can be used are to the slight changes in length to which the rods 11 are subjected can compensate.

In order to use the device described effectively / to be able to, it is essential that the rear Ends of the rods 11. To support surfaces, which themselves are not exposed to any change in position. For this purpose, part 2 of the The support is separated from the surface 19 of the center 17 by a heat-insulating joint 20. When assembling these two parts, spacers 8 are placed in the separating surface 20, through which this area remains open. The intermediate pieces 8 also consist of a material with low thermal expansion and low thermal conductivity, z. B-. Porcelain. You can cylüi> thresh Have cross-section and stored in V-shaped recesses of the carrier 2 and the surface 19 will.

Of course, there is nothing in the way of installing thermal insulation joints of this type in other places, in order to achieve the success aimed for by the invention, namely a mounting of the drilling spindle achieve that is not affected by thermal expansion. For example, one can Apply insulation joints at a point further to the front on beam 2. You can also do a number arrange several such thermal insulation joints.

At the front end of the carrier 2 there is a trough-shaped bulge 4, which is the the rear half of the boring headstock 1 and that of it through a heat-insulating die Air layer 5 is separated. Through this air gap 5, through which one also KühMuft can be painted, the heat transfer between the drilling headstock and the carrier 2 decreased even further.

Appropriately, the rods 11 have spherical ends. They then form teachers with rounded ends and keep the exact distance between the support surfaces 3 and 19 even if they have a slightly inclined position.

Claims (1)

75 PATENT CLAIMS: I. Coordinate drilling machine with a headstock arranged on a projecting support, the distance of which from the stand is determined by spacers of length unchanged by temperature influences, characterized in that the support (2) on the column carriage. (17) is attached in a heat-insulated manner and that the spacers (11) are guided axially displaceably in the carrier (2) and kept at a constant temperature and are in contact with surfaces (19) of the carriage (17) which themselves do not change position due to heating are exposed, and that the headstock in the carrier (2) is slidably guided on horizontal guideways (13) and ¹ is pressed against the spacers by flexible connecting pieces (12), preferably guided / springs on bolts fastened in the carrier ¹ . 2: Drilling machine according to claim 1, characterized characterized in that the part of the headstock (1) facing the carrier in a Trough (4) of the carrier (2) and the stop surfaces (3) on the headstock for the Spacer (11) in front of this trough in the plane passing through the drilling spindle axis lie. 3. Drilling machine according to claims 1 and 2, characterized in that the Spacers (11) in the carrier thermally are used in isolation. 4. A drill according to claims 1 and 2, characterized in that the temperature of the spacer is kept constant by artificial cooling or heating. ¹ 5. Drill according to claim 1, characterized characterized in that the carrier (2) is displaceable with the one on the stand (7). Sledge (17) with the interposition of intermediate pieces (8) is connected in such a way that a space (20) (thermal insulation joint) between the two surfaces is available. 6. Drill according to claim 6, characterized in that the intermediate pieces (8) consist of a material of low thermal expansion and low thermal conductivity, preferably porcelain. 7. Drill according to claims 6 and 7, characterized in that the intermediate pieces (8) are cylindrical and! are arranged in the V-shaped recess of the carrier (2) and the carriage (17). 8. Drill according to claims 1 to 5, characterized in that the spacers (ri)
sit. Spherical end faces in the publications considered: German Patent No. 701,306; Swiss Patent No. 211 151. 1 sheet of drawings © 609596 8.56