DE10204957A1 - Reamer for use in e.g. drilling machines or lathes, includes mechanism for retracting cutting part once reaming has finished - Google Patents

Abstract

The cutting part adjustment device (5, 6, 8-10, 12-14) includes at least one mechanism for automatically retracting the cutting part once reaming has finished. The adjustment device is used to alter the radial position of at least one cutting part so that during at least one reaming step an outer edge (15) of the cutting part is separated from the reamer rotation axis (16) by a distance corresponding to the radius of the reamed bore. An Independent claim is also included for a reaming method using this reamer, in which the radial position of the cutting part is altered so that it adopts a non-cutting position once reaming has finished.

Description

The invention relates to a high-performance reamer for reaming of bores with an adjustment device for radial Adjust at least one cutting element after the Preamble of claim 1.

State of the art

Reamers for fine or final machining of bores are has been in use for decades and is becoming the Production of bore diameters with low tolerance, used especially for fits. The most varied Reamers are used in drilling machines, boring machines, lathes or the like used accordingly. In recent years so-called CNC machines are increasingly used program-controlled, largely automatic processing of Workpieces.

Conventional reamers often have replaceable ones Cutting elements (see e.g. DE 31 20 219). The cutting head the reamer can be one, two, three or more Have cutting elements. The cutting elements are preferably arranged radially symmetrically about the axis of rotation.

In general, the cutting elements are known as Inserts or indexable inserts, which are often one cutting edge each on two opposite sides Have chip removal. When dulling or damaging one cutting edge can turn the insert and use the second cutting the processing can be continued. to Setting the exact hole diameter, d. H. the Distance of the outer edge of the cutting element to the axis of rotation of the Reamer, the cutting elements or inserts become radial adjusted or adjusted.

A disadvantage of prior art reamers is that that when pulling the reamer out of the reamed Bore the reamer with a comparatively small axial speed can be pulled out of the hole to avoid damaging them. In particular when machining numerous similar bores or workpieces, especially on CNC machines, are comparatively long machining cycle per hole, d. H. Ream the hole and remove it with the reamer from the well, relatively low production rates achieved. Especially when it comes to metalworking using CNC machines however, due to the economic environment to strive for high productivity.

Object and advantages of the invention

In contrast, the object of the invention is to provide a reamer for Reaming holes with an adjustment device for radial adjustment of at least one cutting element, wherein a distance from an outer edge at least in one rubbing phase of the cutting element to the axis of rotation to be generated Hole radius forms, to propose with the one Machining cycle significantly shortened and thus the Productivity of the machine used significantly improved becomes.

This task is based on a reamer type mentioned in the introduction, by the characteristic features of claim 1 solved.

By the measures mentioned in the subclaims advantageous embodiments and developments of the invention possible.

A reamer according to the invention is accordingly distinguished characterized in that the adjustment device at least one Retraction mechanism for automatic retraction of the Includes cutting element after the friction phase.

With the help of a retraction mechanism according to the invention Distance of the outer edge of the cutting element to the axis of rotation reduced after the rubbing phase, is a free retreat Ensure reamer out of the hole. This will in advantageously the distance of the outer edge of the Cutting element to the axis of rotation smaller than that generated Bore radius, causing damage to the bore wall the cutting element or elements and / or if necessary jammed chips effectively prevented. As a result, the Reamer according to the invention compared to the prior art much faster from the reamed hole withdrawn, making a much faster Machining the hole is ensured. This increases the service life of the tool or cutting element clearly.

According to the invention, the retraction mechanism is such trained that this automatically after the rubbing phase or withdrawing or adjusting the cutting elements radially. If necessary, a registration unit can be implemented with Help the end of the friction phase or the local end of the hole is detectable and in advantageously the automatic retraction of the Triggers cutting elements.

A mechanical detection unit is preferably used for local detection provided at least the end of the bore. The retraction mechanism advantageously has at least a spring element. By tension or relaxation of the Spring element, for example a spiral spring, one elastic rubber element or pneumatic or hydraulic, by centrifugal force, etc., can at least the automatic Retraction of the cutting element or elements after the friction phase triggered or effected.

If necessary, the spring element can also be used a recording of the time and / or location The beginning of the bore. In a preferred one Further development of the invention is by means of Detection unit or the spring element the automatic Pulling in and adjusting or adjusting the distance of the Guaranteed outer edge of the cutting element to the axis of rotation. The spring element is advantageously at the beginning of the Tensioned hole and relaxed at the end of the hole. This leads to a particularly simple embodiment of the Invention.

In an advantageous variant of the invention, at least a guide unit for radial and axial adjustment and Guide the or the cutting elements provided. With help an appropriately trained management unit especially the automatic retraction of the Cutting elements in the radial direction as well preferably axial adjustment or tensioning and / or Relaxation of the spring elements can be realized. A radially oriented clamping or Relaxation of the spring element conceivable, this possibly regardless of the adjustment of the Cutting elements can be realized.

The radial and axial adjustment can advantageously with the help of a guide inclined in the axial direction largely realized at the same time. For example, the guidance unit can include a three or more sided truncated pyramid or pyramid or one Sphere section or a spherical layer for at least partly simultaneous radial as well as axial Adjustment or guidance of the cutting element or elements include. The guide unit preferably has at least a conical section, for example a cone or truncated cone. Along the conical section, the simultaneous radial and axial adjustment or Guide of the cutting element or elements in an advantageous manner respectively.

In a special development of the invention at least one stop element for setting the distance intended. Generally, the cutting element or elements in the radial direction until it strikes the stop element adjusted, whereby at least the bore radius is fixed or is defined. One is relative, especially with reamers exact definition of the bore diameter for production of small tolerance holes, for example of Fit holes, vital.

At least two stop elements are advantageously for Define the maximum or minimum distance intended. The maximum distance defines the Hole radius and the minimum distance the reset radius of the cutting element or elements, the smaller according to the invention than the bore radius is. If necessary, can Definition of the maximum and minimum distance in each case two, three or more, in particular radially symmetrical the axis of rotation arranged stop elements are provided. In a preferred embodiment of the invention that is Cutting element designed as a so-called indexable insert. Corresponding inserts for reamers have in Generally two opposing blades on. The insert is arranged on the reamer in such a way that a first cutting edge is used to ream holes is and if necessary, for. B. in the event of wear or damage, the insert is turned or arranged so that the second cutting edge can be used for reaming holes. Corresponding indexable inserts are advantageously made of particularly hard material such as hard metal, ceramic or the like.

At least two cutting elements are preferably provided. Here, the two cutting elements are advantageously diametrically opposite each other with respect to the axis of rotation arranged. The two or more cutting elements are to be arranged as radially symmetrically as possible, which is advantageous Force relationships at the cutting head of the reamer can be achieved are. By using multiple cutting elements the stress per is advantageously reduced Schneielement.

embodiment

An embodiment of the invention is in the drawing shown and will be explained in more detail below with reference to the figures explained.

In detail shows:

Fig. 1 a schematic cross-sectional view of a reamer according to the invention,

Fig. 2 is a schematic side view of the reamer according to the invention and

Fig. 3 is a schematic detail view in FIG. 1.

In Fig. 1 is a schematic cross-section of a reamer according to the invention. The reamer comprises a cylindrical shaft 1 and a reaming head 2 . The reaming head 2 consists in particular of a base body 3 and a guide element 6 , on which the adjustable cutting elements 4 or indexable inserts 4 are arranged.

The reversible plates 4 are each fixed to a slide 5 . The sliders 5 are guided in particular by the guide element 6 . To guide the sliders 5 , the guide element 6 has in particular a T-groove 7 according to FIG. 3 (cf. detail z). With the aid of the T-groove 7 , a radial adjustment towards and away from an axis of rotation 16 of the reamer is ensured. In addition, the slider 5 is additionally stabilized or guided with the aid of a recess 8 in the base body 3 .

The guide element 6 comprises a conical guide section, so that the sliders 5 are adjusted both in the radial and in the axial direction and thus the indexable inserts 4 accordingly.

The sliders 5 are connected to a spring 11 by a spacer ring 9 and a washer 10 . On the side opposite the disc 10 , a second disc 12 is provided, the position of which is defined, for example, by two adjusting screws 13 or so-called thread maggots. The adjusting screws 13 or washer 12 form a first stop with respect to the axial adjustment of the indexable inserts 4 . Here, an axial adjustment of the inserts 4 in the direction of the cylindrical shaft 1 causes an adjustment of the sliding element 5 , the spacer ring 9 , the disk 10 and thus a compression or tensioning of the spring 11 until it strikes the disk 12 .

Due to the conical design of the guide element 6 , the maximum radial distance between an outer edge 15 of the insert cutting edges and the axis of rotation 16 of the reamer and thus the bore radius are defined or defined by the axial stop 12 or 13 .

Referring to FIG. 1, the adjusting mechanism of the inserts 4 shown in the axially extended and radially contracted state. Here, the sliders 5 abut a second stop 14 , so that the minimum distance between the outer edge 15 of the insert 4 and the axis of rotation 16 is fixed. The spring 11 is largely relaxed in this state.

In Fig. 2 is a schematic side view of the reamer is listed.

By means of a reamer according to FIG. 1, a hole 17 of a work 18 reamed. The bore 17 is generally up to about 0.3 to 0.6 mm of the finished diameter or of the pre-drilled bore to be produced diameter so 1 that at the moment of touchdown of the inserts 4 to the workpiece 18 as shown in FIG., The inserts 4 to striking this. By means of an axial movement of the reamer in the direction of the workpiece 18 , the indexable inserts 4 are axially adjusted in the direction of the cylindrical shaft 1 until the spring 11 is completely compressed or the axial adjustment stops. Through the conical section of the guide element 6 , the indexable inserts 4 are at the same time displaced in the radial direction away from the axis of rotation 16 , so that they also define the bore diameter to be produced when the adjusting mechanism is struck axially. By a further axial adjustment of the reamer in the direction of the workpiece 18 , the inserts 4 rub out the bore 17 . During the friction phase, the spring 11 is tensioned or compressed. At the end of the bore 17, no axial counterforce acts on the spring 11 , so that this ensures an axial and at the same time radial adjustment of the indexable inserts 4 by means of the disk 10 , the spacer ring 9 and the sliding pieces 5 . As a result, the distance between the outer edge 15 of the indexable insert 4 and the axis of rotation 16 is smaller than the bore radius generated, so that damage to the reamed bore 17 when the reamer is withdrawn from it is effectively prevented.

According to the invention, the processing time is for reaming a hole significantly reduced, so that the service life significantly increased.

Basically, it is conceivable that the retraction mechanism both hydraulically, pneumatically and / or electrically operated is trained. For generally rotating reamers is however an appropriately supported retraction mechanism compared to a purely mechanical variant such. B. according to the Drawing significantly higher.

Particularly due to the T-groove 7 , a particularly simple retraction of the indexable inserts 4 is advantageously ensured, so that a quick and free withdrawal from the bore 17 is possible. Due to the free retraction of the reamer, no surface damage is possible, in particular due to chips which may become jammed between the inserts 4 and the bore 17 .

In general, the reamer can be used both in wet machining and in dry machining. 1 cylinder shaft
2 reaming head
3 basic bodies
4 insert
5 slider
6 guide element
7 T-slot
8 recess
9 spacer ring
10 disc
11 spring
12 disc
13 adjusting screw
14 stop
15 outer edge
16 axis of rotation
17 hole
18 workpiece

Claims (10)

1. reamer for reaming bores ( 17 ) with an adjusting device ( 5 to 14 ) for radially adjusting at least one cutting element ( 4 ), with at least one distance between an outer edge ( 15 ) of the cutting element ( 4 ) and the axis of rotation ( 16 ) forms the bore radius to be produced, characterized in that the adjusting device ( 5 to 14 ) comprises at least one retracting mechanism ( 5 to 14 ) for automatically retracting the cutting element ( 4 ) after the friction phase. 2. Reamer according to claim 1, characterized in that the retracting mechanism ( 5 to 14 ) has at least one spring element ( 11 ). 3. Reamer according to one of the preceding claims, characterized in that at least one guide unit ( 6 ) for radially and axially adjusting and guiding the cutting element ( 4 ) is provided. 4. Reamer according to one of the preceding claims, characterized in that the guide unit ( 6 ) has at least one conical section. 5. Reamer according to one of the preceding claims, characterized in that at least one stop element ( 13 , 14 ) is provided for setting the distance. 6. Reamer according to one of the preceding claims, characterized in that at least two stop elements ( 13 , 14 ) are provided for setting the maximum or the minimum distance. 7. Reamer according to any one of the preceding claims, characterized in that the cutting element (4) is designed as a turning plate (4). 8. Reamer according to one of the preceding claims, characterized in that at least two cutting elements ( 4 ) are provided. 9. A method for reaming bores ( 17 ) with a reamer which comprises at least one cutting element ( 4 ), characterized in that after a rubbing phase of the cutting element ( 4 ) there is a radial drawing in from a drilling position into a free-running position of the cutting element ( 4 ) , 10. The method according to claim 9, characterized in that a reamer according to one of the preceding claims used becomes.