DE2502306A1 - METHOD AND DEVICE FOR SHAPING THE EXTERNAL SURFACE OF OBJECTS FROM DEFORMABLE MATERIAL - Google Patents

Description

ZELiE M Γ; N

Politechnika Warszawska January 21, 1975

Warszawa, Poland BZ / Hu

PL 2239

Method and device for shaping the outer surfaces of objects made of deformable material

The invention relates to a method and a device for shaping the outer surfaces of objects made of deformable material, the outer surfaces can be smooth or toothed, so that the finished objects have the shape of molded bodies, Have spur gears or bevel gears, nut shafts or the like.

They are methods of forming cross-sections of metal products known by means of extrusion, butt joints and trees, in which machining tools are used, their inner surface is an image of the outer surface of the finished product, the machining being the result of one in the axial direction acting applied force takes place, which causes an axial movement of the object to be machined relative to the machining tool.

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The advantage of these solutions is their simple construction. The basic needle part is that the machining tools work with the object to be machined on the whole Touch the length of their inner circumference, which causes an increase in the frictional forces with its known disadvantages.

Known devices have a flywheel with arranged therein Machining tool in the form of inserts, which are attached to slides of a hammer mill "for hammering metal products are. The processing takes place by in-phase radial back and forth movements of the slides together with those on them attached machining tools. When lifting the machining tool from the machined surface there is a displacement of the object to be machined in the axial direction such that the cycle of shaping the surface is repeated in the subsequent sections of the object to be machined will. The lifting of the machining elements from the machined surface improves the lubrication conditions, since the lubricant removed during the contact of the machining tool with the object to be machined is replenished can be. However, the number of slides with the machining tools is limited for design reasons, what the Makes processing of objects with complicated external shapes, such as gears, impossible.

The object of the invention is to provide a method while avoiding the disadvantages inherent in the known methods and devices and an apparatus for performing this method

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specify which make it possible to provide the outer surfaces of objects made of deformable material with complicated I ¹ Orms and to achieve the quality of the deformation by improving the lubrication conditions.

Another aim of the invention is to further increase the quality by using radial pressure in addition to the axial pressure.

According to the invention, this is achieved by a method and an apparatus eris-cht in which the processing tool the Shape of a bing for extrusion, butt broaching and trees of Has metal products and consists of parts of the circumference forming segments, which moves in such a way radially from the Buhekreislage be that at a given moment the machining tool in a cut perpendicular to its axis with only one Part of its scope burdening the object to be processed touches, while between the remaining parts of the circumference of the machining tool and those of the circumference of the machining tool Subject a free space is maintained, the angular position of the zones of maximum radial load the peripheral parts of the machining tool in relation to the immovable axis passing through the axis of the machining tool passes through and lies in a plane perpendicular to the axis of the machining tool, is continuously changed, i.e. the pressure load moves continuously around the feed axis of one or more segments forming part of the circumference ments to neighboring segments.

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The measures according to the invention make it possible to use objects with complicated. external surfaces, e.g. to manufacture gear wheels, as well as to improve the lubrication conditions, under Exploitation of the positive influence of repetitive loads on the course of the plastic deformation of a Materials.

According to the invention, it is annular or cylindrical Wall of the machining tool cut through radially, with one or both end faces of the ring or of the cylinder not cut through or cut through. In the event that the wall is completely cut through, one or both are The end faces of the ring or of the cylinder are firmly gripped. By The cutting tool consists of at least three shape segments that are uniform on the circumference of the circular cut of the machining tool distributed one and the other in the radial direction independently in the sense of sagging are movable.

The machining tool can also be in the form of radially distributed shaped segments in an annular or cylindrical mount are slidably attached, be formed. The shape segments that are an image of part of the surface of the finished machined object are bent or displaced by applying radial pressure to the parts of the Outer circumference of the working tool. The object to be processed is deformed in its cross section both as a result of the Axial force as well as the radial forces resulting from the action

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the respective bent or possibly displaced shape segments of the machining tool result. In each At the moment, the deflections or displacements of the individual form segments are not the same. One or more shape segments are maximally bowed or displaced, while the neighboring shape segments are less bowed or displaced, until the value of their deflection or displacement becomes full. As a result, they touch the axis of the machining tool perpendicular cut only part of the shape segments of the machining tool with the machined object while between the remaining shape segments and the perimeter of the machined There is a gap between the object at that moment.

During the duration of the molding process, the maximum change Deflections or displacements of the shape segments continuously their angular position in relation to the immovable axis, which passes through the axis of the machining tool and lies in the plane perpendicular to the axis of the machining tool, whereby the angular position of the zones of contact of the machining tool continuously changes with the processed object. The editing tool is. coaxial with the Flywheel and arranged with the sleeve and is rotatably attached to the body by means of a regulating screw, the element the device which deflects the mold segments or moves, is an elastic sleeve detachably fastened in the body, in which the machining tool is arranged coaxially which is deformed in the radial direction with the help of some rolling elements, e.g. rollers that are arranged in a cage,

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which determines their mutual angular position. These rolling elements exert a pressure on the outer surface of the sleeve, with each cross section of the sleeve being the distance from the sleeve axis the point of contact of each roller with the sleeve is smaller than the radius of the outer surface of the sleeve in the undeformed state. The rollers roll on the outer surface of the sleeve and as a result there is a continuous change in the angular position the zone of maximum deflection or maximum radial displacement of the form segments of the machining tool is reached, The rollers are driven by the flywheel, the inner surface of which is in operative contact with them.

An advantage of the solution according to the invention is the fact that as a result of the use of a machining tool, the shape segments of which are independent of one another in the radial direction can easily exert a local radial pressure on the object to be processed, which causes the deformation of the Material facilitated in the radial direction and while maintaining the core of the object to be processed In the non-plasticized state, the receipt of high quality Allows surface deformation.

As a result of the repetitive deflections or displacements of the individual zones of the perimeter of the machining tool, the repetitive application of pressure to the corresponding Create area of the processed object, at the same time becomes the positive influence of the repetitive Exploited loads on the plastic forming process.

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The one between the item in progress and Free local leeway created by the machining tool improve the conditions for lubrication.

The method according to the invention as well as the device for Implementation of the method allows the simultaneous production of internal shapes when the outer surfaces of objects are being formed in these objects as a result of the constriction of the object subjected to the shaping on a core which is in a previously The opening made in the object has been inserted.

The invention is described below with the aid of exemplary embodiments explained in more detail with reference to the drawings. It shows

1 shows a machining tool and in a schematic representation the method of molding by this tool;

FIGS. 2 and 3 show two variants of the machining tool;

4 shows a device in longitudinal section with a partial view of the segment}

5 shows the device in longitudinal section.

A cylindrical machining tool (Fig. 1) consists of a row of shaped segments 1, 2, 3 » ² S 5» 6, which are firmly enclosed on one of the end faces. The object 7 to be processed is deformed as a result of the application of axial and radial forces, which are indicated by black arrows. The radial forces change their angular position in the direction that

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indicated by white arrows. The segments 2, 3, 4-, 5 of the machining tool that are not loaded with radial forces at the given moment do not touch the object being worked 7.

Fig. 2 illustrates a variant of the machining tool in which only some of the shape segments, namely the segments 1, 2, 3, 4- and 5 are shown, which are firmly bordered on both end faces are.

Fig. 3 illustrates a machining tool that consists of shape segments 1, 2, 3j 4-, 5 »6 consists in an annular Version 18 are slidably arranged.

Figs. 4- and 5 illustrate a longitudinal section and a Cross section through a device according to the invention, which is equipped with a sleeve 8 in which the mold segments 1, 2, 3, 4-, 5j 6 of the machining tool are located. The sleeve 8 is bent in the radial direction by tapered rollers 9 and 10, which are arranged in a cage and roll on the conical outer surface of the sleeve 8. Hollen 9 and 10 are driven by a flywheel 11 arranged in a bearing 12. The flywheel 11 is driven by a belt drive driven by means of a belt pulley 13. The adjusting screw 14, which attaches the machining tool to a body 16 in a rotatable manner and the regulating screw 15, which is arranged in the bearing 12 and in the body 16, are used to regulate the size of the radial deflection of the mold segments 1, 2, 3, 4-, 5, 6 of the machining tool.

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

The flywheel 11 is deformed with the help of the rollers 9 and 10, the are arranged in the cage 17, which their mutual angular position determined, the sleeve 8, which assumes an oval shape, depending on the rotation of the flywheel 11, the angular position of the largest and the smallest axis of the oval changes in the direction of rotation of the flywheel 11, which is a repetitive one Approach and removal of the shape segments 1, 2, 3, 4-, 5> 6 of the processing tool to and from the object to be processed 7 causes which is displaced in the axial direction at the same time. The combination of the movement of the shape segments 1, 2, 3 » 4, 5 | 6 of the processing tool and the processed object 7 gives the effect of the corresponding design as a result the surface of the processed object 7 · The size of the radial deflection of the mold segments 1, 2, 3, 4-, 5, 6 of the processing tool can be adjusted by tightening the regulating screws 14 and 15.

The device with the processing tools can also be used for the plastic processing of non-metallic materials that can be shaped plastically.

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Claims (4)

Claims (1.! A method for shaping the outer surfaces of objects made of deformable material by exerting equalizing radial pressures with the aid of shaping segments of a machining tool on the surface of objects to be machined, characterized in that of the at least three shaped segments of the tool in each case only one part is brought into pressure contact with the object to be processed, while at the same time a play is established between the remaining mold segments and the object to be processed, the angular position of the zones of greatest pressure in the plane perpendicular to the axis of the object to be processed during of the shaping processS) in relation to the axis immovable with respect to the shape segments of the tool, which is perpendicular to the axis of the object to be machined. 2. Device for shaping the outer surfaces of objects deformable material that contains a flywheel in which a tool is arranged, the mold segments of which are movable are, characterized in that äie includes a radially deformable sleeve (8) which is coaxial with the 509830/0749 -2- Flywheel (11) arranged and detachable in a body (16) is attached and that in the sleeve (8) the annular tool is arranged coaxially, which has at least three lOrmsegmente (1, 2, 3, 4-, 5 »6), which are evenly distributed over the circumference of the circular section of the tool, with one another are directly connected and rigidly bordered on at least one of their end faces, and that also the tool rotatable in the body (16) by means of a regulating screw (14-) is arranged, and that between the outer surface of the sleeve (8) and the inner surface of the flywheel (11) at least two lobes (9 and 10) are arranged, which the sleeve (8) to the Eormsegmente (1,2,3,4,5,6) containing Press the tool on, the balls (9, 10) being arranged in a cage (17) in such a way that their mutual angular position determines that in each cross section the sleeve (8) the distance of the point of contact of each roller (9, 10) with the Sleeve (8) from the axis of this sleeve (8) is smaller than the radius of the outer surface of the sleeve (8) in non-deformed State. · 3. Device for shaping the outer surfaces of objects Made of deformable material, which contains a flywheel in which a tool is arranged, whose lormsegmente are movable are, characterized in that it contains a deformable in the radial direction sleeve (8) which is coaxial with the flywheel (11) is arranged and releasably secured in a body (16), and that in the sleeve (8) coaxially the annular tool is arranged, which at least three 509830/0749 Contains form segments (1,2,3,4,5 * 6), which are distributed evenly on the Distributed around the circumference of the circular section of the tool and connected to one another by means of an annular socket (18), are, in which the mold segments are arranged to be radially movable and that also the tool with the aid of a regulating screw (14) is rotatably arranged in the body (16), and that between the outer surface of the sleeve (8) and the inner surface of the flywheel (11) at least two bolts (9 and 10) are arranged, which press the sleeve (8) against the tool containing the mold segments (1,2,3,4,5,6) and wherein the roles in a cage (17) »cLer their mutual angular position intended to be arranged such that in each cross-section of the sleeve (8) is the distance of the point of contact of each bolt (9, 10) of the sleeve (8) from the axis of this sleeve (8) is smaller than the radius of the outer surface of the sleeve (8) in the non-deformed state. 4. Apparatus according to claim 2 or 3 »characterized in that that each shape segment (1,2,3,4,5,6) of the tool is an image represents a part of the surface of the finished object (7), and that each shape segment (1,2,3, 4, 5, 6) can be moved from their common Buhekreislage independently of the other mold segments. 509830/0749