DE3020795A1 - METHOD, ITS APPLICATION AND DEVICE FOR DISPLAYING OR. GENERATING EXTERIOR CONICAL AND / OR INTERIOR CONICAL COAT OR CAVITY AREAS - Google Patents

Description

20 894 bottles / ski - 5 - 5/30/80

The invention relates to a method, its application and a device for representing or generating outer-conical and / or inner-conical casing or cavity surfaces, in particular on tubular bodies defined length, whose reference axis or central longitudinal axis each have one having a curved course.

Such methods are used for the graphic representation, the production production and the measurement of geometric bodies, which one are subject to relatively high accuracy with regard to their shape as well as with regard to their dimensions.

It is a device for the non-circular turning of molds and the like Workpieces known (DE-PS 619 187 - IPC B 23 C - 3/14). The known device is suitable for processing obliquely to one another Inner surfaces by means of a transversely controlled rod carrying the cutting tool displaceable in the longitudinal direction of the workpiece, which in transversely displaceable trestles is attached. With the interposition of tie rods, the trestles are adjustable to the inner surfaces to be generated by means of swinging against a common ruler. The well-known The device therefore allows only straight cones to be produced.

In individual branches of industry, however, it is necessary to have conical surfaces or Draw, create and measure conical bodies whose reference axis or central longitudinal axis has a curved course. For the present invention is to be taken into account that the borderline case of a Infinite curvature does not occur and is thus excluded from the present invention. On the other hand, radii of curvature of several meters may be desirable, so that an application range of the order of about 2 to 20 m for the present invention Radius of curvature and more.

Such an application is e.g. B. for curved Stranggießkoki11 s for the casting of liquid steel or non-ferrous metals applies. the Technology that sets continuous casting molds swinging on a curved path curved central longitudinal axes of the continuous casting mold ahead.

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It is also known what is currently practiced, continuous casting molds made from straight copper pipe, the straight copper pipe slide over a curved mandrel and form the final shape of one to produce curved hollow kegeis by explosive forming. The precision of the bent copper pipe depends crucially on the manufacturing accuracy of the cathedral. Ultimately, therefore, is the shape accuracy of the Domes decisive for the accuracy of the bent copper pipe. Such Thorns can only be made with the help of a copier through a planer or Milling machine can be transferred from a model to the required size, which leads to inaccuracies. However, this model is so far on a Machine tool likewise cannot be manufactured geometrically exactly, but must ultimately be manufactured manually with the help of model building technology. As a result the problem is the shape of the curved dome with sufficient Determine accuracy unsolved.

The invention is based on the new object, externally conical and / or to represent or produce inner conical shell or cavity surfaces, each on a central longitudinal axis (reference axis) with a curved Course are related.

According to the invention, this object is achieved in that during and as a function of due to a curved movement of the body to be provided with a curved cone around a defined center of curvature a generating line formed from a rotational movement of the conical shape of the shell or cavity surface by continuously adjusting the Distance of the generatrix to the curved reference axis or central longitudinal axis is pictured. This solution allows z. B. body of revolution internally and / or externally conical with a curved central longitudinal axis to represent or produce geometrically ideal. Is particularly advantageous In this process, that each repetition of the process leads to a more precise pattern than a previous one with a lot of effort in one Single piece could be produced.

The method according to the invention is based on the decomposition of a spherical one geometric task in two related geometric tasks.

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The invention can advantageously be based on a round cross-section along the axis curved, conical bodies and polygonal in cross-section, conical bodies curved along the axis are used.

For use on polygonal cross-sections of the body it is intended that the generator is moved from a step-by-step over the circumference of the shell or cavity surface to be generated, one at a time Curve movement of the body opposing, straight movement lying on the cone is formed.

For use on bodies with a round or oval cross-section, it is proposed that that the generatrix can be adjusted from at least one rotating, fixed in the direction of the central longitudinal axis, perpendicular to the central longitudinal axis cutting tool is formed.

A smooth surface produced by machining curved, conical body is achieved according to a further feature of the invention in that the distances covered per unit of time of Behave tool and workpiece as 1: 1 or less than 1: 1.

Mach the further invention is provided, the curved shape of the Select the central longitudinal axis for a simple manufacturing option. According to the invention the body is moved on a circular path for this purpose.

The inventive method is also used as a measuring method for testing the Body applicable to deviations from a predetermined geometric shape and / or predetermined dimensions.

The device for performing the method according to the invention has features: On a machine frame there is a mount for the Body provided which can be moved back and forth in a cam guide; furthermore, a is tangential to the central longitudinal axis or parallel to a tangent of the body fastened in the receptacle running, rotatably drivable stored tool carrier with a cutting tool in front of

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seen that is perpendicular to the axis of the tool carrier and against the Body is employable. It should be noted here that for the curvature of the curved, conical body, the distance between the curve guide and the The center of curvature is decisive, but the distance of the body or its inclusion from the center of curvature.

The device according to the invention now opens up the possibility of being able to manufacture the described spherical hollow body in one operation on the device according to the invention, geometrically exactly with a tolerance specific to the device.

The core of the device according to the invention is now that this Device is capable of performing three movements at the same time:

a) the rotation of the tool around its central longitudinal axis,

b) the feed movement of the workpiece in the receptacle according to Cornering,

c) the feed movement of the tool in the radial direction to produce the cone.

In an embodiment of the invention it is provided that the tool carrier from a shaft and that inside or outside the shaft control means are provided for the employment of the cutting tool. The shaft can be rotated with simple means at both ends are rotatably mounted so that even commercially available machines such. B. boring mills can be used with appropriate modification.

In a further improvement of the invention, the control means consist of one arranged within a hollow shaft, depending on the movement of the receptacle back and forth sliding control rod for the cutting Tool.

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To generate the adjustment movement for the cutting tool is also it is provided that the control rod is provided with a cone corresponding to the predetermined conicity of the body, onto which the cutting rod is located Tool supports.

For conical bodies that are to be provided with conical surfaces on the outside, the principle of the device according to the invention modified to the effect that the control means outside the shaft from one the body, the receptacle and the shaft surrounding the outer guide exist, on the conical inner surface of the cutting tool is supported and that the guide in Is mounted displaceably in the direction of the axis of movement.

The quality of the surfaces to be produced is improved in that the cutting tool consists of one or more cutting chisels which follow one another in the cutting direction and are set for different cutting depths.

To absorb the forces that occur when machining a metallic Body is provided that the cutting tool rests with a support element against the control rod or against the guide.

The absorption of greater cutting forces corresponding to greater depths of cut or high cutting speeds is further improved by the fact that the cutting tool is by means of at least one roller body, the axis of which runs transversely to the direction of advance of the control rod or a planar sliding body is supported on the control rod, the cross-sectional shape of the control rod corresponding to that of the body to be produced and in that the tool carrier and the control rod are synchronous are drivable.

To use the method according to the invention as a measuring method is a Device advantageous in which, instead of the cutting tool, a transducer, preferably a dial gauge, is provided, the feeler lever of which is on the control rod or on the outer guide is supported.

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Several exemplary embodiments of the invention are shown in the drawing and are described in more detail below. Show it

Fig. 1 is a plan view of the device according to the invention for a body with a curved central longitudinal axis and a conical inside Area with a circular cross-section,

2 shows the application of the method according to the invention as a measuring method,

Fig. 3 is a plan view of the device according to the invention for a body with a curved central longitudinal axis and an outer conical surface with a circular cross-section,

4 shows a cross section through a control rod with a circular cross section and with a trimmed cutting tool,

5 shows a cross section through a polygonal control rod with support of the cutting tool.

On the machine frame 1, which consists of a clamping table of a machine tool, for. B. can consist of a boring table, the recording 2 is for the body 3 to be represented or produced is mounted in a slidable manner. the Recording 2 slides in the curve guide 4, which describes an arc with the curvature 4a. The center of curvature can lie outside the machine frame 1. The central longitudinal axis 5 of the body 3 forms a tangent to the movement axis 4b of the curve guide 4 at the tangent point 5a The axis of movement 4b does not necessarily have to coincide with the central axis of the cam guide 4. The axis of movement 4b, however, generally coincides with the Central longitudinal axis 5 of the body 3 together. The tool carrier 6 is with a cutting tool 7 is provided. The cutting direction of the tool 7 runs perpendicular to the axis 8 of the tool carrier 6.

The tool carrier 6 consists of a shaft 6a which is connected to control means 9 for the continuous adjustment of the cutting tool 7 to the Body 3 is equipped.

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According to Figures 1 and 3, the shaft 6a consists of a hollow shaft 6b. In Fig. 1, the control rod 10 is arranged in the interior of the hollow shaft 6b, each of which is mounted in pivot bearings at their non-visible ends is, on which at least one end a rotary or sliding drive attacks. The control rod 10 is axially displaceable in the direction 10a from the starting position shown. On the other hand, the hollow shaft is 6b axially unadjustable with the tool 7. At the end of the displacement path, which is greater than the length of the body 3, the (not shown) slide drive to a position that corresponds to the initial position shown. The control rod 10 is analogous to the conicity 3a of the body 3, the speed of movement of the body 3 on the Axis of movement 4b is to be taken into account as a function of the speed of movement of the control rod 3, provided with the cone 10b.

Corresponding to the body 3 to be produced with externally conical surfaces according to FIG. 3, the control means 9 are arranged outside the hollow shaft 6b. The guide 11 has a conical inner surface 12 on which the cutting tool 7 is supported. The guide 11 is in the direction of Movement axis 4b mounted displaceably in such a way that at the tangent point 5a the direction of the axis 8 is always taken, at this point the cutting tool 7 is employed and works. The guide 11 is here moved together with the receptacle 2, which the body 3 by means of not holder shown in more detail on the end faces 3b and 3c.

The cutting tool 7 is shown in Figures 1, 3, 4 and 5 as Cutting chisel 7a is shown, which is supported with the support element 13 against the control rod 10 (FIG. 1) or against the guide 11 (FIG. 3).

The support takes place with regard to the cutting forces that occur one or more cutting bits 7a which, for. B. the material copper machining, with special support bodies.

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According to FIG. 4, the control rod 10 has a circular cross section. the The control rod 10 is driven in rotation as described, and the cutting chisel 7a is supported by means of a rolling element 14, the rolling axis 14a runs parallel to the axis 8. This support can be used when the control rod 10, which is circular in cross section, moves axially in the direction 10a executes, the tool carrier 6 is axially stationary and with the control rod 10 rotated together synchronously. This case occurs when a body of revolution 3 is represented or generated. For such a body 3 is the support according to FIG. 5 is still possible. The control rod 10 with a polygonal cross-section makes the axial movement there in the direction 10a and rotates simultaneously with the axially fixed tool carrier 6.

In the event that the body 3 to be represented or manufactured is a polygonal cross-section, e.g. B. has a square cross-section, the polygonal control rod 10 performs the axial movement in the direction 10a, the Tool carrier 6 is axially stationary and is together with the control rod 10 stepwise over the polygonal profile relative to the body 3 against its direction of movement advanced and retrieved. Particularly large cutting forces are absorbed according to FIG. 5 with the roll axis 15a running transversely to the axis 8, about which the rolling body 15 is rotatable on the cutting chisel 7a is stored.

According to FIG. 2, instead of the cutting tool 7, a transducer is used 16 is provided in the form of a dial gauge 17, the feeler lever 17a of which is supported on the control rod 10 or, in the case of FIG. 3, on the outer guide 11 is.

The mode of operation of the device using the method according to the invention is as follows:

During and as a function of the curved movement of the body 3 together with its receptacle 2 in the curved guide 4 opposite to the direction 10a, the tool carrier 6 with the cutting tool 7 becomes rotates (Figures 1 and 3) and at the same time the control rod 10 is advanced in the direction 10a. This forms the conicity 3a (in FIG. 1 as Inner cone and in Figure 3 as outer cone).

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Polygonal conicities become inside and / or outside after the modified Process produced that provides not the rotating cutting chisel as the generator, but the cutting chisel moving in a straight line in the form of a planing chisel. The planer chisel (not shown) is incremental moved over the circumference of the polygon and in every standstill position against the straight movement of the body 3 parallel to the movement axis 4b relatively moved.

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Claims (15)

Mannesmann Aktiengesellschaft June 30, 1980 Mannesmannufer 2 20 894 - Düsseldorf Fl / Ski Method, its application and device for displaying or generating of outer conical and / or inner conical shell or cavity surfaces Claims l.J method for the representation or generation of perceptual and / or inner conical shell or cavity surfaces, in particular on tubular bodies of defined length, the reference axis or central longitudinal axis of which each has a curve-shaped course, characterized, that during and as a function of a curved movement of the with a curved cone to be provided around a defined body Center of curvature due to a rotational movement Generators formed the conical course of the shell or cavity surface by continuously adjusting the distance between the generators to the curved reference axis or central longitudinal axis will. 130050/0200 ORIGINAL INSPECTED 894- bottle / ski - 2 - 5/30/80 302071 2. Modification of the method according to claim 1, characterized, that the generating from a stepwise over the scope of the to generating shell or cavity surface moved, each one individually Curve movement of the body opposing, straight movement lying on the cone is formed. 3. The method according to claim 1,
characterized, that the generator consists of at least one rotating, in the direction of the Central longitudinal axis fixed, perpendicular to the central longitudinal axis adjustable cutting tool is formed. 4. The method according to claims 1 to 3,
characterized, that the distances covered by the tool and workpiece per unit of time are 1: 1 or less than 1: 1. 5. The method according to claims 1 to 4,
characterized, that the body is moved on a circular path. 6. Application of the method according to claims 1 to 5 as a measuring method for testing the body for deviations from a given geometric shape and / or given dimensions. 7. Device for performing the method according to claims 1 until 5, characterized, that on a machine frame (1) a receptacle (2) for the body (3) is provided, which can be moved back and forth in a curved guide (4), that a further tangential to the central longitudinal axis (5) or parallel to a tangent of the body (3) fastened in the receptacle (2) running, rotatably mounted tool carrier (6) with a cutting tool (7) is provided, which is to the axis (8) of the tool carrier (6) runs vertically and against the body (3) is adjustable bar. 1300S0 / 020O 894- Π / ski - 3 - 5/30/80 8. Apparatus according to claim 7, characterized in that the tool carrier (6) consists of a shaft (6a) and that inside or outside the shaft (6a) control means (9) are provided for setting the cutting tool (7). 9. Device according to claims 7 and 8, characterized in that that the control means (9) consist of an inside a hollow shaft (6b) arranged control rod (10) for the cutting tool (7) that can be pushed back and forth depending on the movement of the receptacle (2) consists. 10. Device according to claims 7 and 8, characterized in that that the control rod (10) is provided with a cone (10b) corresponding to the predetermined conicity (3a) of the body (3) on which the cutting tool (7) supports. 11. Device according to claims 7 to 9, characterized in that that the control means (9) outside the shaft (6a) from an outer one surrounding the body (3), the receptacle (2) and the shaft (6a) Guide (11) exist, on whose conical inner surface (12) the cutting tool (7) is supported and that the guide (11) in Is mounted displaceably in the direction of the axis of movement (4b). 12. Device according to claims 7 to 11, characterized in that that the cutting tool (7) consists of one or more consecutive in the cutting direction, for different depths of cut set cutting chisels (7a) consists. 130QS0 / 0200 894- bottle / ski - 4 - 5/30/30 302079§ 13. Device according to claims 7 to 12, characterized in that that the cutting tool (7) with a support element (13) against the control rod (10) or /. against the guide (11). 14. Apparatus according to claim 13,
characterized, that the cutting tool (7) by means of at least one roller body (15), the axis (15a) of which runs transversely to the feed direction (10a) of the control rod (10) or of a planar sliding body the control rod (10) is supported, the cross-sectional shape of the control rod (10) being that of the body (3) to be produced corresponds and that the tool carrier (6) and the control rod (10) can be driven synchronously. 15. Device for performing the method according to claim 6, characterized in that that instead of the cutting tool (7) a transducer (16), a dial gauge (17) is preferably provided, the feeler lever (17a) of which is supported on the control rod (10) or on the outer guide (11) is. 130QS0 / O2OO