DE3706882A1 - Numerically controlled lathe - Google Patents

Abstract

In a lathe, a motor (12) is arranged coaxially relative to a tool support (6) pivotable about a vertical pivot axis (11) and forms both a pivoting drive for the tool support and a drive for a milling spindle (9) of the tool support (6). In order to pivot the tool support (6), the milling spindle (9) is blocked by means of a blocking device. <IMAGE>

Description

The invention relates to a numerically controlled Lathe with one arranged on longitudinal guides Bed sledge and one on cross guides rearranged cross slide on which a tool support one perpendicular to the plane of the longitudinal guides and cross guide axis is pivotally arranged, which one parallel to the plane of the longitudinal guides and Cross guides aligned milling spindle and tool has receptacles for fixed turning tools. A such lathe is the subject of DE-OS 34 10 276.

In the known lathe is for the milling spindle a separate drive is provided, which is coaxial to the milling spindle is arranged. Another, in Scripture The drive, not described, is used to turn the movement tool supports around its vertical swivel axis after the Release a usual swivel lock by disengaging bare face gear rings. To change the tools the Lathe a movable on the machine bed Tool magazine and another tool magazine in addition the lathe.

The known lathe is due to the large Movement possibilities for very different machining processing operations can be used. The arrangement of the two types drives for the milling unit on the one hand and on the other for pivoting the tool support, however not optimal. In particular, it is coaxial with the milling spindle-arranged motor for the milling spindle drive disadvantageous because it is often not available takes up space and causes vibrations and Vibrations during milling can be.  

Although it is already by DE-PS 20 44 187 knows a drive for a milling spindle instead of coaxial to the milling spindle across it on a non-swiveling one Arrange part of the cross slide. The drive is then less susceptible to vibration, but the milling unit gat only in a certain angular position of the swivel ed tool support, because only then a gear connection between the drive and Milling spindle can be produced.

The invention has for its object a Drehma to design machines of the type mentioned at the outset in such a way that his milling spindle in the simplest possible way can be driven at any angular position of the tool support is without the risk of vibrations from the Milling spindle drive exists and in the case of the drive there is as little risk of collision as possible.

This object is achieved in that the motor to pivot the tool support around its vertical swivel axis coaxial to the swivel axis of the Tool support is arranged and with a coaxial motor shaft aligned to the swivel axis at the same time regardless of the swivel position of the tool support through a constant, geared connection drives for the milling spindle.

With this design, an engine is either optional to drive the milling spindle or to swivel the Tool supports used. This is without usage The lathe can be restricted as both functions are not required at the same time. With the invention can thus save an engine, so that the inventions inventive lathe is cheaper to manufacture than the known, comparable lathes. Furthermore, it limits vertically above the tool  arranged motor supports the collision freedom of the Lathe is not one and is relatively ge to keep effort so that no vibrations in the tool systems can get.

The lathe is structurally particularly simple, if the motor on a fixed part of the Tool supports attached motor holder is arranged and the milling spindle or its gear connection has a blocking device for the motor shaft. At Such an embodiment is required after loosening the swivel lock only closes the milling spindle block to pivot movement by means of the motor bring about. The blocking required for this direction is for the tool change to fix the Milling spindle required anyway, so the invention can be realized with relatively little effort.

The turning machine is geared very simply ne, if according to another embodiment of the invention a bevel gear sits on the motor shaft, which with a Bevel gear meshes on a cross to the swivel axis trending shaft sits and if this wave over two Gears are geared to the milling spindle.

The motor holder can be designed very differently be. A very compact design of the lathe arises when the motor holder supports the tool penetrates. Such a motor holder limits Tool support swiveling on, but is on Swivel angle that can be achieved without any design problems of 270 degrees completely for most applications sufficient.  

Instead of the motor holder through the tool support you can lead it according to another configuration Guide the outside of the tool support.

A fundamentally different embodiment, which is also a Permitted pivoting through 360 degrees is that the Mount the motor with its housing on the tool support is, its motor shaft through the tool support penetrates and in the fixed part a blocking device device for determining the motor shaft is provided.

The motor shaft can be particularly easily fixed with the connect standing part, so that when the Motors not the motor shaft, but the motor housing rotates when according to a further embodiment Blocking device an electromagnetic tooth coupling for connecting the motor shaft to the fixed part is.

An automatic tool change is fictional contemporary lathe easy to do if a coaxial to the motor on the tool support magazine for turning and milling tools and on the cross sled a gripping device for the magazine Tools is provided.

In the above-mentioned lathe according to DE-OS 36 00 231.3 is the height of the tool support changeable that it by means of a feed motor a wedge-shaped base is moved. Through this Movability inevitably comes at the same time Movement in the x direction and y direction. You want to only one movement in the y direction, i.e. in a vertical direction Direction, you have to cross-slide in shift the same dimensions in opposite directions as the Tool support through its movement on the wedge base moves in the x direction. The necessary for this  The regulatory data can easily be there be won by that to monitor the position of the tool support with a parallel to the cross guide a reading head attached to the longitudinal slide Scalable carrier plate is provided, wel can be moved parallel to the cross guide on the cross slide ten is attached and which by means of a vertical ter direction displaceable relative to the support plate Driving device in the direction of the cross slide syn chron is movable with the tool support and that to monitor the height of the tool support on Tool support a read head and on the carrier plate another yardstick is provided. Such a carrier plate is also in a lathe without the pre named motor for the optional drive of the milling spindle or advantageous for pivoting the tool support.

The invention allows numerous embodiments. To several of them are part of their further clarification shown very schematically in the drawing and are described below. The drawing shows in

Fig. 1 is a side view of an inventive ge stalteten lathe,

Fig. 2 is a schematic front view of the inventive tools supports Drehma machine with the adjacent components,

Fig. 3 is a schematic plan view of the tool support.

Fig. 4 is a representation of FIG. 2 corresponding to a modified embodiment of the tool support.

Fig. 1 shows a rotary machine bed 1 with a longitudinal carriage 2, which has transverse guides 3 on which a cross slide 4 is arranged. This cross slide 4 has a wedge-shaped base 5 , on which a tool support 6 is arranged by means of a feed motor 7 movable bar. Due to this movability, the tool support 6 can be moved perpendicular to the bed 1 , that is to say in the y direction. To further illustrate the overall arrangement, the center of rotation is positioned at 8 in FIG. 1.

The tool support 6 shown has a milling spindle 9 and additional turning tools 10 . It is pivotable about a vertical right pivot axis 11 by means of a motor 12 . This motor 12 is arranged vertically above the tool support 6 . Its motor shaft 13 runs coaxially to the pivot axis 11 and engages in the tool support 6 . It is important for the invention that this motor 12 not only serves to pivot the tool supports 6 , but also serves as a drive for the milling spindle 9 , which will be explained in more detail later.

A round magazine 14 is arranged on the tool support 6 around the motor 12 and can rotate independently of the tool support. As a result, a double gripper 16 which can be pivoted about an axis 34 and which only has to be height-adjustable, can reach all the tools of the round magazine 14 on a support 15 attached to the base 5 .

If the tool support 6 is to move only in the y direction, then the movement in the x direction must be compensated for by an opposite movement of the cross slide 4 . In order to be able to detect the required movements, a carrier plate 17 is provided, which surface on a straight guide 18 of the cross slide 4 is slidable ver. This displacement in the x direction takes place synchronously with that of the tool support 6 in that it is connected to the carrier plate 17 via a driving device 19 . The driving device 19 be, for example, consists of a pin 20 fastened on the tool support 6 , which is arranged in a vertical guide 21 of the carrier plate 17 . To monitor the movements of the support plate 17 , a read head 22 and a scale 25 are attached to it. The reading head 22 is a horizontally arranged measuring rod 24 on the longitudinal slide 2 opposite, while the scale 25 is a vertically arranged on the tool support 6 ter reading head 23 is assigned.

Figs. 2 and 3 illustrate how the motor 12 is drivingly connected to the spindle 9 and how is the pivoting of the tool support. Fig. 2 shows that the motor 12 is net angeord on a motor holder 26 which is fixed on a fixed part 27 of the tool support 6 and penetrates the tool support 6 . On the motor shaft 13 there is a bevel gear 28 which meshes with a bevel gear 30 which can be rotated on a horizontal shaft 29 . The shaft 29 drives, as shown in FIG. 3, a gear 31 , which in turn is in engagement with a gear 32 which drives the milling spindle 9 . In Fig. 2, a Blockiereinrich device 33 is indicated schematically, with which the milling spindle 9 can be blocked. If this has happened, the motor 12 rotates the tool support 6 after the locking of the swivel direction has been released beforehand, for example by face gear rings 35 .

In Fig. 3 it is also shown that the milling spindle 9 has a lateral distance F from the pivot axis 11 , which corresponds exactly to the lateral distance D of the turning tool 10 from the pivot axis 11 .

It is not shown that the motor 12 can also be held by an outside of the tool support 6 passed motor holder, for example the carrier 15 in Fig. 1.

Another possibility to mount the motor 12 directly on the tool support 6 is shown in FIG. 4 ge. Here, the motor shaft 13 is guided into the fixed part 27 . There it can be connected to the fixed part 27 by means of a blocking device 33 in the form of an electromagnetic tooth coupling. If this tooth coupling is engaged, the tool support is pivoted by the motor 12 ; if it is not engaged, the motor 12 drives the milling pin del 9 . A prerequisite for the pivoting of the tool support is, of course, that its face gear rings are loosened beforehand.

• List of reference numbers used 1 bed
  2 longitudinal slides
  3 lateral guidance
  4 cross slides
  5 wedge-shaped bases
  6 tool support
  7 feed motor
  8 center of rotation
  9 milling spindle
  10 turning tool
  11 swivel axis
  12 engine
  13 motor shaft
  14 round magazine
  15 carriers
  16 double grippers
  17 carrier plate
  18 Straight guidance
  19 Carrying device
  20 cones
  21 Scenic tour
  22 reading head
  23 reading head
  24 scale
  25 scale
  26 motor bracket
  27 fixed part
  28 bevel gear
  29 wave
  30 bevel gear
  31 gear
  32 gear
  33 blocking device
  34 axes
  35 face gear ring

Claims (9)

1. Numerically controlled lathe with a bed slide arranged on longitudinal guides and a cross slide arranged thereon on transverse guides, on which a tool support is arranged by means of a motor so as to be pivotable about an axis running perpendicular to the plane of the longitudinal guides and transverse guides, which axis is parallel to the plane of the longitudinal guides and transverse guides aligned milling spindle and tool holders for fixed turning tools, characterized in that the motor ( 12 ) for pivoting the tool supports ( 6 ) about its vertical pivot axis ( 11 ) is arranged coaxially to the pivot axis ( 11 ) of the tool support ( 6 ) and with a coaxial to the swivel axis ( 11 ) aligned motor shaft ( 13 ) at the same time independently of the swivel position of the tool support ( 6 ) by a constant gear connection to a drive for the milling spindle ( 9 ). 2. Lathe according to claim 1, characterized in that the motor ( 12 ) on a fixed part of the tool support ( 6 ) attached motor holder ( 26 ) is arranged and the milling spindle ( 9 ) or its gear connection to the motor shaft ( 13 ) Has blocking device ( 33 ). 3. Lathe according to claim 2, characterized in that on the motor shaft ( 13 ) sits a bevel gear ( 28 ) which meshes with a bevel gear ( 30 ) which sits on a shaft ( 29 ) extending transversely to the pivot axis ( 11 ) and in that this shaft ( 29 ) is coupled to the milling spindle ( 9 ) via two toothed wheels ( 31 , 32 ). 4. Lathe according to one or more of the preceding claims, characterized in that the motor holder ( 26 ) penetrates the tool support ( 6 ). 5. Lathe according to one or more of the preceding claims, characterized in that the motor holder on the outside of the tool support ( 6 ) is guided past. 6. Lathe according to one or more of the preceding claims, characterized in that the motor ( 12 ) with its housing on the tool support ( 6 ) be fastened, its motor shaft ( 13 ) penetrates the tool support ( 6 ) and in the fixed part ( 27 ) a blocking device ( 33 ) is provided for locking the motor shaft ( 13 ). 7. Lathe according to claim 6, characterized in that the blocking device ( 33 ) is an electromagnetic tooth coupling for connecting the motor shaft ( 13 ) with the fixed part ( 27 ). 8. Lathe according to one or more of the preceding claims, characterized in that a round magazine ( 14 ) for turning and milling tools and on the cross slide ( 4 ) has a gripping device (coaxial to the motor ( 12 ) on the tool support ( 6 ). 16 ) is provided for the magazine tools. 9. Lathe according to one or more of the preceding claims, in which the tool support is arranged ver mobile on a wedge-shaped base of the cross slide, characterized in that a parallel to the transverse guide ( 3 ) with a for monitoring the position of the tool support ( 6 ) Read head ( 22 ) is provided over a support plate ( 17 ) which is displaceable on the scale ( 24 ) attached to the longitudinal slide ( 2 ), which is slidably attached to the cross slide ( 4 ) parallel to the transverse guide ( 3 ) and which is mounted in a vertical direction relative to the support plate ( 17 ) movable driving device ( 19 ) in the direction of the cross slide ( 4 ) can be moved synchronously with the tool support ( 6 ) and that for monitoring the height of the tool support ( 6 ) on the tool support port ( 6 ) a read head ( 23 ) and on the Carrier plate ( 17 ) a further scale ( 25 ) are provided.