CARRIER BODY FOR GRINDING TOOLS

Abstract

A carrier body for grinding tools has an inner hub ring which surrounds a central bore for connecting the grinding tool to a rotary drive, and an jacket ring for receiving a grinding means, in particular in the form of a galvanic coating, a grinding ring, or a plurality of grinding segments. The hub ring and the jacket ring are connected to one another by several webs, which are spaced apart from one another, and the webs each have at least one recess.

Claims

1. A carrier body for grinding tools having an inner hub ring surrounding a central bore for connecting the grinding tool to a rotary drive, and an outer casing ring for receiving a grinding means, in particular in the form of a galvanic coating, a grinding ring or a plurality of grinding segments, wherein the hub ring and the casing ring are connected together by way of a plurality of mutually spaced webs, wherein the webs each have at least one respective opening.

2. The carrier body as set forth in claim 1, wherein the webs have at least two web portions spaced from each other by the at least one opening.

3. The carrier body as set forth in claim 2, wherein the web portions are of an arcuate configuration, and/or are of a mirror-image symmetrical configuration relative to a plane oriented parallel to the axis of rotation of the carrier body, and/or mutually intersect, and/or provide at least one contact location.

4. The carrier body as set forth in claim 2, wherein a web portion of a web form a respective cut-off arc with a web portion of an adjacent web, wherein the tips of the arcs which are notionally completed lie outside the casing ring.

5. The carrier body as set forth in claim 2, wherein a web portion of a web respectively form an arc with a web portion of an adjacent web, wherein the tips of the arcs touch the casing ring.

6. The carrier body as set forth in claim 4, wherein the arcs are of a parabolic configuration or an ogival configuration.

7. The carrier body as set forth in claim 1, wherein the webs widen towards the casing ring and/or towards the hub ring in the plane of the carrier body.

8. The carrier body as set forth in claim 1, wherein at least one of the two outer lateral surfaces of the carrier body, that are oriented substantially normal to the axis of rotation of the carrier body has a cover means.

9. The carrier body as set forth in claim 8, wherein the cover means is connected in one piece or by way of fixing means to the webs and/or the hub ring and/or the casing ring.

10. The carrier body as set forth in claim 1, wherein the carrier body has a central plane which is oriented substantially normal to the axis of rotation of the carrier body and which subdivides the carrier body into two mutually distinguishable halves.

11. The carrier body as set forth in claim 10, wherein a membrane is arranged in the central plane.

12. The carrier body as set forth in claim 10, wherein the halves of the carrier body are connected together, preferably releasably, at the central plane, and/or are of a mirror-image symmetrical configuration relative to the central plane, and/or are of an identical configuration and are arranged turned relative to each other by a given, preferably half of, an angular spacing of two adjacent webs.

13. The carrier body as set forth in claim 1, wherein the carrier body is of a radius of between 200 mm and 300 mm, preferably 250 mm, and/or the hub ring and the casing ring are at a spacing relative to each other of between 50 mm and 150 mm, preferably 100 mm, and/or the central bore is of a radius of between 50 mm and 150 mm, preferably 63.5 mm or 101.6 mm, and/or the carrier body is of a substantially rotationally symmetrical configuration, and/or the hub ring and the casing ring are connected together by way of a number of webs, wherein the number corresponds to a primary number and/or an odd number, and/or the carrier body is made from a metal.

14. A grinding tool comprising the carrier body as set forth in claim 1 and a grinding member connected to the casing ring, in particular in the form of a galvanic coating, a grinding ring or a plurality of grinding segments.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0009] Further details and advantages of the invention are discussed more fully hereinafter by means of the specific description with reference to the Figures in which:

[0010] FIGS. 1a-1d show a first preferred embodiment of the carrier body according to the invention,

[0011] FIGS. 2a-2c show a second preferred embodiment of the carrier body according to the invention,

[0012] FIG. 3 shows a third preferred embodiment of the carrier body according to the invention,

[0013] FIG. 4 shows a fourth preferred embodiment of the carrier body according to the invention,

[0014] FIGS. 5a, 5b show a fifth preferred embodiment of the carrier body according to the invention,

[0015] FIG. 6 shows a sixth preferred embodiment of the carrier body according to the invention, and

[0016] FIGS. 7a-7c show a seventh preferred embodiment of the carrier body according to the invention.

DETAILED DESCRIPTION OF THE INVENTION

[0017] FIGS. 1a-1d show a first preferred embodiment of the carrier body 1 according to the invention, wherein FIG. 1a shows a perspective view, FIG. 1b shows a plan view of a first lateral surface 28, FIG. 1c shows a plan view of the peripheral surface 47 and FIG. 1d shows a plan view of the second lateral surface 18 of the carrier body 1.

[0018] The carrier body 1 has an inner hub ring 7 which surrounds a central bore 8 for connecting the carrier body 1 or a grinding tool constructed by means of the carrier body 1 to a rotary drive.

[0019] The central bore 8 is of a radius 44 of between 50 mm and 150 mm, preferably 63.5 mm or 101.6 mm, wherein the radius 44 is measured from the center point of the central bore 8, through which the axis of rotation 24 of the carrier body 1 passes, to the inner edge of the hub ring 7.

[0020] The carrier body 1 further has an outer peripheral casing ring 9 for receiving a grinding means, in particular in the form of a galvanic coating, a grinding ring or a plurality of grinding segments. The hub ring 7 and the casing ring 9 are at a spacing 43 of between 50 mm and 150 mm, preferably 100 mm, relative to each other. That spacing 43 is measured from the outer edge of the hub ring 7 to the inner edge of the casing ring 9.

[0021] The hub ring 7 and the casing ring 9 are connected together by way of a plurality of webs 10, more precisely by way of a total of eleven webs 10 which are arranged relative to each other at a regular angular spacing 41. The webs 10 are spacing from each other. Disposed between the webs 10 are openings 48 which in the present case are of an approximately trapezoidal configuration, with the corners of the trapezium being rounded.

[0022] The provision of a number of webs, wherein the number corresponds to a primary number and/or an odd number, is particularly advantageous as in that way the carrier body experiences particularly few vibrations.

[0023] The webs 10 each have a respective approximately triangular opening 13. In addition the webs 10 have two web portions 18 and 19 spaced from each other by the opening 13. Those web portions 18 and 19 have a common contact location 31 arranged adjacent to the hub ring 7. Starting from that contact location 31 the web portions 18 and 19 extend away from each other in opposite directions in the direction of the casing ring 9, that is to say the spacing of the web portions 18 and 19 relative to each other becomes greater in the radial direction. In other words the webs widen towards the casing ring 9 in the plane of the carrier body 1.

[0024] The web portions 18 and 19 are further of an arcuate configuration and are of a mirror-image symmetrical configuration relative to a plane 25 oriented parallel to the axis of rotation 24 of the carrier body 1.

[0025] A web portion 18 of a web 10, with a web portion 19 of an adjacent web 10, respectively forms a cut-off ogival configuration 26 (shown in broken line in FIG. 1b), wherein the tip 27 of the ogival configuration 26 which is notionally completed lies outside the casing ring 9.

[0026] Instead of ogival configurations it is also possible to use parabolic arcs.

[0027] The carrier body 1 is of a radius 42 of between 200 mm and 300 mm, preferably 250 mm.

[0028] The casing ring 9 includes two outer webs 46, between which the peripheral surface 47 is disposed. Those two webs 46 can be galvanically coated with a grinding means. That therefore affords two active grinding regions, with which two workpieces or two regions of a workpiece can be simultaneously machined.

[0029] A second preferred embodiment of the carrier body 2 according to the invention is shown in FIGS. 2a through 2c, wherein FIG. 2a shows a perspective view, FIG. 2b shows a plan view of one of the lateral surfaces 28 of the carrier body 2 and FIG. 2c shows a plan view of the peripheral surface 47 of the carrier body 2.

[0030] As also in the first embodiment the carrier body 2 has an inner hub ring 7 which surrounds a central bore 8 for connecting the carrier body 2 or a grinding tool provided therewith to a rotary drive, and an outer casing ring 9 for receiving a grinding means, in particular in the form of a galvanic coating, a grinding ring or a plurality of grinding segments. A fixing ring 45 projecting in the axial direction is arranged at the inner hub ring 7, the fixing ring 45 being provided at a side 28 of the carrier body 2.

[0031] The hub ring 7 and the casing ring 9 are connected together by way of a plurality of, more precisely twelve, webs 11, the webs 11 being spaced from each other by openings 49. In this case the openings 49 are approximately in the shape of rectangles.

[0032] The webs 11 each have two openings 14 and 15 which are arranged in mutually displaced relationship in the radial direction. The openings 14 are in the form of a slot. The openings 15 are of a substantially circular cross-section. The openings 15 serve at the same time as fixing means, by way of which the lateral surfaces 28 of the carrier body 2 can be provided with cover means.

[0033] In this arrangement the cover means can extend from the fixing ring 45 to the inner edge of the casing ring 9.

[0034] The webs 11 further have two web portions 20 and 21 spaced from each other by the openings 14 and 15. The web portions 20 and 21 are connected together by way of two contact locations 31.

[0035] The webs 11 widen towards the casing ring 9 and the hub ring 7 in the plane of the carrier body 2.

[0036] The web portions 20 and 21 are of an arcuate configuration and are of a mirror-image symmetrical configuration relative to a plane 25 oriented parallel to the axis of rotation 24 of the carrier body 2.

[0037] In addition a web portion 20 of a web 11, with a web portion 21 of an adjacent web 11, respectively form a cut-off ogival configuration 26 (see FIG. 2b), wherein the tip of the ogival configuration 26 which is notionally completed lies outside the casing ring 9. Instead of ogival configurations it is also possible to use parabolic arcs.

[0038] In comparison with the first preferred embodiment (see FIGS. 1a through 1d), the carrier body 2 has a plurality of grooves at the peripheral surface 47. In addition a delimiting projection 46 is provided only at one side of the peripheral surface 47.

[0039] FIG. 3 shows a third preferred embodiment of a carrier body according to the invention as a plan view on a lateral surface of the carrier body 3, that is oriented substantially normal to the axis of rotation.

[0040] As also in the two above-described embodiments the carrier body 2 includes an inner hub ring 7 surrounding a central bore 8 for connecting the carrier body 2 or a grinding tool provided therewith to a rotary drive, and an outer casing ring 9 for receiving a grinding means, in particular in the form of a galvanic coating, a grinding ring or a plurality of grinding segments. The hub ring 7 and the casing ring 9 are connected together by way of a plurality of webs 12. The webs 12 are spaced from each other by openings 50. Like also the openings 49 and 48 in the above-described embodiments, the openings 50 represent through apertures which extend over the entire thickness of the carrier bodies 1, 2 and 3. In other words, at least in the region of the openings 48, 49 and 50, it is possible to look through the carrier bodies 1, 2 and 3.

[0041] The webs 12 each have two openings 16 and 17 which are spaced from each other in the radial direction and which are of a substantially triangular configuration, the triangles facing towards each other with a respective tip.

[0042] The webs 12 further have two web portions 22 and 23 which are spaced from each other by the openings 16 and 17 and which in turn are of an arcuate and mirror-image symmetrical configuration relative to a plane 25 oriented parallel to the axis of rotation of the carrier body 3.

[0043] The web portions 22 and 23 intersect in this embodiment and form a contact location 31 at the point of intersection.

[0044] As also in the other two embodiments a web portion 22 of a web 11, with a web portion 23 of an adjacent web 12, respectively form a cut-off ogival configuration 26, wherein the tips of the ogival configurations which are notionally completed lie outside the casing ring 9. Alternatively the arcs 26 can also be of a parabolic configuration.

[0045] There are in all fifteen webs 12 which are arranged at uniform angular spacings 41 between the inner hub ring 7 and the outer casing ring 9.

[0046] Provided at each fourth web 12 are fixing means 32, by way of which the outer lateral surfaces 28 of the carrier body 3 can be provided with cover means. If necessary the fixing means 32 can also be provided at smaller spacings, therefore for example at each second web.

[0047] In principle it is also to be noted that the illustrated carrier body 3, like also the other carrier bodies 1, 2, 4, 5 and 6 shown in the Figures, are of a substantially rotationally symmetrical configuration and are made from a metal.

[0048] The preferred embodiments 4, 5 and 6 shown in FIGS. 4, 5a and 5b and FIG. 6, as regards the webs 12 provided between the hub ring 7 and the casing ring 9, are of substantially the same structure as the third embodiment shown in FIG. 3.

[0049] Unlike the third preferred embodiment of FIG. 3 however the fourth preferred embodiment of FIG. 4 is divided into two, wherein the webs 12, starting from a central plane 33, are milled in the axial direction without however entirely breaking through the disks. Accordingly at the outer lateral surfaces there remains a respective thickness of material which serves as a closure or cover means 29. The cover means 29 are thus connected in one piece to the webs 12 and the hub ring 7 as well as the casing ring 9. As an alternative thereto however the cover means 29 could also be connected to the webs 12 and/or the hub ring 7 and/or the casing ring 9 by way of fixing means.

[0050] The halves 34 and 35 of the carrier body 4, that are of a mirror-image symmetrical configuration relative to the central plane 33, are releasably connected together at the central plane 33. The fixing means 32 can be used for that purpose.

[0051] In the fifth preferred embodiment shown in FIGS. 5a and 5b, where FIG. 5a is a perspective view and FIG. 5b is a sectional view along the sectional plane shown in broken line in FIG. 5a, arranged in the central plane 33 of the carrier body 5 is a membrane 40 subdividing the carrier body 5 into two halves 36 and 37 which can be distinguished from each other. That membrane 40 prevents a flow of material between the lateral surfaces of the carrier body 5. In this case therefore the openings 16, 17 and 50 do not extend over the entire thickness of the carrier body 5.

[0052] The sixth preferred embodiment shown in FIG. 6 is a variant of the fifth preferred embodiment, wherein a membrane 40 is again disposed in the central plane 33. In comparison with the fifth preferred embodiment, the sixth preferred embodiment provides that the halves 38 and 39 of the carrier body 6 are identical and are arranged in mutually displaced relationship by a given angular spacing 41, in this case half, of two adjacent webs 12.

[0053] FIGS. 7a through 7c show a seventh preferred embodiment of a carrier body 30, FIG. 7a being a perspective view, FIG. 7b being a plan view of a lateral surface 18 of the carrier body 30, that is oriented substantially normal to the axis of rotation 24, and FIG. 7c showing a plan view of the peripheral surface 47 of the carrier body 30.

[0054] The carrier body 30 again comprises an inner hub ring 7 which surrounds a central bore 8 for connecting the carrier body 30 or a grinding tool including the carrier body 30 to a rotary drive, and an outer casing ring 9 for receiving a grinding means, in particular in the form of a galvanic coating, a grinding ring or a plurality of grinding segments. The hub ring 7 and the casing ring 9 are connected together by way of a plurality of webs 51, the webs 51 each having a respective opening 52. The webs 51 are spaced from each other by way of through apertures 57. In all there are thirteen webs 51.

[0055] The webs 51 each have two web portions 53 and 54 spaced from each other by the opening 52, wherein the web portions 53 and 54 are of an arcuate configuration and are of a mirror-image symmetrical configuration relative to a plane 25 oriented parallel to the axis of rotation 24 of the carrier body 30.

[0056] In addition a web portion 53 of a web 51, with a web portion 54 of an adjacent web 51, respectively forms an arc 55, wherein the tips 56 of the arcs 55 touch the casing ring 9. The arcs 55 are of a parabolic configuration. They could alternatively also be of an ogival configuration.

[0057] The angular spacing 41 of two adjacent webs 51, the radius 42 of the carrier body 30, the radius 44 of the central bore 8 and the spacing 43 of the hub ring 7 relative to the casing ring 9 can be of the dimensions specified in connection with the other embodiments.