Grinding disc and use of such a grinding disc
20220088747 · 2022-03-24
Inventors
- Stefan GEHRMANN (Marienheide, DE)
- Frank Henn (Marienheide, DE)
- Achim Schmitz (Marienheide, DE)
- Fabian SCHUMACHER (Engelskirchen, DE)
Cpc classification
International classification
Abstract
A grinding disc comprises a grinding layer formed of grinding grains bound by means of a binding agent. Reinforcing fabrics are embedded in the grinding layer on the outer sides of the grinding layer. At least one additional fabric is arranged on at least one of the reinforcing fabrics and has a respective diameter which is smaller than the diameter of the rein-forcing fabrics. The at least one additional fabric stiffens the grinding disc in a region around a central opening and improves the properties of the grinding disc during rough machining and/or cutting off
Claims
1-15. (canceled)
16. A grinding disc comprising: a grinding layer, which is formed of grinding grains bound by a binding agent, which has a grinding layer diameter DS, which forms a first outer side and a second outer side, a first reinforcing fabric, which is embedded in the grinding layer on the first outer side, which has a first fabric diameter DA1, wherein: DA1≥0.8.Math.DS, a second reinforcing fabric, which is embedded in the grinding layer on the second outer side, which has a second fabric diameter DA2, wherein: DA2≥0.8.Math.DS, wherein at least one fabric is arranged on at least one of the reinforcing fabrics, and wherein the at least one fabric has a respective diameter Di, wherein: Di<DA1 and Di<DA2.
17. The grinding disc according to claim 16, wherein the grinding layer between the reinforcing fabrics is free of reinforcing fabrics.
18. The grinding disc according to claim 16, wherein the at least one fabric is arranged relative to the at least one reinforcing fabric on a side facing away from the grinding layer.
19. The grinding disc according to claim 16, wherein at least one fabric is arranged on the first reinforcing fabric and at least one fabric is arranged on the second reinforcing fabric.
20. The grinding disc according to claim 16, wherein a plurality of fabrics are arranged on at least one of the rein-forcing fabrics.
21. The grinding disc according to claim 16, wherein the following applies for the respective diameter Di: 0.25.Math.DS≤Di≤0.75.Math.DS.
22. The grinding disc according to claim 16, wherein the at least one fabric is arranged in at least one of a clamping region and outside an outer working region, which is usable for cut-ting off, and an inner working region, which is usable for rough machining, of the grinding disc.
23. The grinding disc according to claim 16, wherein the at least one fabric delimits a reinforced region of the grinding disc with a thickness d1 and an unreinforced region of the grinding disc with a thickness d2, wherein the following applies: 0.95≤d1/d2≤1.05.
24. The grinding disc according to claim 16, having a thickness d, wherein the following applies: 2 mm≤d≤7 mm.
25. The grinding disc according to claim 16, having a thickness d, wherein the following applies: 0.8 mm≤d≤4 mm.
26. The grinding disc according to claim 16, wherein the at least one fabric which is assigned to one of the rein-forcing fabrics has, in total, a respective weight per unit area Gj, wherein the following applies: 50 g/m2≤Gj≤500 g/m2.
27. The grinding disc according to claim 16, wherein the at least one fabric has a respective thread width bi, where-in the following applies: 0.1 mm≤bi≤1.8 mm.
28. The grinding disc according to claim 16, wherein the at least one fabric has a respective value Ri, wherein the following applies: 0.2≤Ri≤1.2.
29. The grinding disc according to claim 16, comprising a clamping ring for clamping the grinding disc on a grinding machine.
30. A method of at least one of rough machining and cutting off, the improvement comprising using the grinding disc according to claim 1, wherein a cutting speed is at least 80 m/s.
Description
BRIEF DESCRIPTION OF THE FIGURES
[0029]
[0030]
[0031]
DESCRIPTION OF THE PREFERRED EMBODIMENT
[0032] The grinding disc 1 shown in
[0033] A first reinforcing fabric 6 is embedded in the grinding layer 2 on a first outer side 5. Correspondingly, a second reinforcing fabric 8 is embedded in the grinding layer 2 on a second outer side 7. The first reinforcing fabric 6 has a first fabric diameter D.sub.A1, which corresponds to the grinding layer diameter D.sub.S. Correspondingly, the second reinforcing fabric 8 has a second fabric diameter D.sub.A2, which corresponds to the grinding layer diameter D.sub.S. The reinforcing fabrics 6, 8 are construed as glass fiber fabrics, for example.
[0034] The grinding disc 1 comprises additional fabrics W.sub.1, W.sub.2, W.sub.3 and W.sub.4. The fabrics W.sub.1 and W.sub.2 are arranged on a side of the first reinforcing fabric 6 facing away from the grinding layer 2 and are embedded in the grinding layer 2, whereas the fabrics W.sub.3 and W.sub.4 are arranged on a side of the second reinforcing fabric 8 facing away from the grinding layer 2 and are embedded in the grinding layer 2.
[0035] The grinding disc 1 comprises a central opening 9 for attachment to an angle grinding machine. The central opening 9 defines an axis of rotation M of the grinding disc 1. For clamping to an angle grinding machine, the grinding disc 1 has a clamping ring 10 which is arranged in the central opening 9. The clamping ring 10, for example, is construed as a steel ring. The clamping ring 10 abuts the fabric W.sub.1 on the first outer side 5 and is connected to the grinding layer 2.
[0036] The grinding disc 1 is circular in shape. The reinforcing fabrics 6, 8 and/or the fabrics W.sub.1 to W.sub.4 are arranged concentrically to the axis of rotation M. The reinforcing fabrics 6, 8 and/or the fabrics W.sub.1 to W.sub.4 are annular.
[0037] The fabrics W.sub.1 to W.sub.4 have a respective diameter D.sub.1 to D.sub.4. The fabrics are generally designated W.sub.i and the corresponding diameter D.sub.i with i=1, 2, 3, 4. The index i specifies the respective fabric W.sub.i. The following applies to the respective diameter D.sub.i: D.sub.i<D.sub.A1 and D.sub.i<D.sub.A2. In particular, the following applies to the respective diameter D.sub.i: 0.25.Math.D.sub.S≤D.sub.i≤0.75.Math.D.sub.S, in particular 0.3.Math.D.sub.S≤D.sub.i≤0.7.Math.D.sub.S, and in particular 0.35.Math.D.sub.S≤D.sub.i 0.65.Math.D.sub.S. Preferably, D.sub.1=D.sub.2=D.sub.3=D.sub.4.
[0038] The grinding layer 2 is free of further reinforcing fabrics between the reinforcing fabrics 6, 8, so that the grinding layer 2 is in particular free of a reinforcing fabric arranged centrally in the grinding layer 2. Preferably, the grinding layer 2 is also free of further additional fabrics between the reinforcing fabrics 6, 8.
[0039] The grinding disc 1 forms a clamping region 11 in the radial direction to the axis of rotation M and a working region 12 surrounding the clamping region 11. The working region 12 is divided in the radial direction to the axis of rotation M into an inner working region 13 and an outer working region 14 surrounding it. The working region 12, i.e. the inner working region 13 and the outer working region 14, are annular. The inner working region 13 extends in the radial direction as far as the fabrics W.sub.1 to W.sub.4 extend. The clamping region 11 and the inner working region 13 thus form a reinforced region 15 in which the fabrics W.sub.1 to W.sub.4 are arranged. The outer working region 14, on the other hand, forms an unreinforced region 16 which is free of additional fabrics W.sub.1 to W.sub.4. The outer working region 14 is preferably used for cutting off a workpiece, whereas the inner working region 13 and the outer working region 14 are used for rough machining a workpiece.
[0040] The reinforced region 15 has a thickness d.sub.1, whereas the unreinforced region 16 has a thickness d.sub.2. The grinding disc 1 has a substantially constant thickness in the radial direction to the axis of rotation M, wherein: 0.95≤d.sub.1/d.sub.2≤1.05, in particular 0.99≤d.sub.1/d.sub.2≤1.01, and in particular 0.995≤d.sub.1/d.sub.2≤1.005. A thickness d of the grinding disc 1 results from the maximum of the thicknesses d.sub.1 and d.sub.2. Preferably, the following applies: d=d.sub.1=d.sub.2.
[0041] In a preferred use of the grinding disc 1 for rough machining a workpiece, the following preferably applies to the thickness d: 2 mm≤d≤7 mm, in particular 3 mm≤d≤6 mm, and in particular 4 mm≤d≤5 mm. In a preferred use of the grinding disc 1 for cutting off a workpiece, the following preferably applies for the thickness d: 0.8 mm≤d≤4 mm, in particular 1.2 mm≤d≤3.2 mm, and in particular 1.6 mm≤d≤2.5 mm.
[0042]
[0043] The weft threads 17 have a thread width b.sub.xi, whereas the warp threads 18 have a thread width b.sub.yi. The thread width b.sub.xi or b.sub.yi is also referred to as the web width. For the thread width b.sub.xi, the following preferably applies: 0.1 mm≤b.sub.xi≤1.8 mm, in particular 0.3 mm≤b.sub.xi≤1.5 mm, and in particular 1 mm≤b.sub.xi≤1.2 mm. For the thread width b.sub.yi, the following preferably applies: 0.1 mm≤b.sub.yi≤1.8 mm, in particular 0.3 mm≤b.sub.yi≤1.5 mm, and in particular 1 mm≤b.sub.yi≤1.2 mm. The thread widths b.sub.xi and b.sub.xi are generally referred to as thread width b.sub.i. The thread widths b.sub.xi and b.sub.yi of the respective fabric W.sub.i may be the same and/or different. Furthermore, the thread widths b.sub.xi and b.sub.yi of the fabrics W.sub.i can be the same among each other and/or be different from each other.
[0044] The respective fabric W.sub.i has a value R.sub.i which characterizes the openness of the fabric W.sub.i. The following applies to the respective value R.sub.i:
R=R.sub.xi+R.sub.yi (1)
with
R.sub.xi=b.sub.xi.Math.n.sub.xi/l.sub.xi (2)
and
R.sub.yi=b.sub.yi.Math.n.sub.yi/l.sub.yi (3).
[0045] In equations (2) and (3):
[0046] b.sub.xi denotes the thread width of the weft threads 17,
[0047] n.sub.xi/l.sub.xi denotes the number of weft threads 17 in relation to a length l.sub.xi in the x-direction,
[0048] b.sub.yi denotes the thread width of the warp threads 18,
[0049] n.sub.yi/l.sub.yi denotes a number of warp threads 18 in relation to a length l.sub.yi in the y-direction.
[0050] The values R.sub.xi and R.sub.yi of the respective fabric W.sub.i can be the same or different. The values R.sub.xi and R.sub.yi of the fabrics W.sub.i can be the same among each other and/or different. The values R.sub.i of the fabrics W.sub.i can be the same and/or different. The following preferably applies to the values R.sub.i: 0.2≤R.sub.i≤1.2, in particular 0.3≤R.sub.i≤1.
[0051] The fabrics W.sub.1 and W.sub.2 are associated to the first reinforcing fabric 6 and have a total first weight per unit area G.sub.1. Correspondingly, the fabrics W.sub.3 and W.sub.4 are associated to the second reinforcing fabric 8 and have a total second weight per unit area G.sub.2. The respective weight per unit area is generally denoted by G.sub.j, wherein the index j denotes the respective reinforcing fabric 6, 8 or the respective outer side of the grinding layer 2 to which the fabrics W.sub.1, W.sub.2 or W.sub.3, W.sub.4 are associated. For the index j, the following applies: j=1, 2. For the respective summed weight per unit area G.sub.j, the following applies preferably: 50 g/m.sup.2≤G.sub.j≤500 g/m.sup.2, in particular 75 g/m.sup.2≤G.sub.j 450 g/m.sup.2, and in particular 100 g/m.sup.2≤G.sub.j≤400 g/m.sup.2. The weights per unit area G.sub.j may be the same and/or different. The weights per unit area of the individual fabrics W.sub.i may be the same and/or different.
[0052] The mode of operation and the use of the grinding disc 1 are as follows:
[0053] The additional fabrics W.sub.1 to W.sub.4 reinforce and stiffen the grinding disc 1 so that the grinding disc 1 can be operated at a comparatively higher rotational speed and a higher cutting speed v during rough machining and/or cutting off. The cutting speed v is at least 80 m/s, in particular at least 90 m/s, and in particular at least 100 m/s at the outer circumference of the grinding disc 1 or at the grinding layer diameter D.sub.S. This increases the grinding performance and/or cutting-off performance.
[0054] When the grinding disc 1 is designed as a cut-off grinding disc, the additional fabrics W.sub.1 to W.sub.4 prevent vibration or fluttering at high rotational speeds or high cutting speeds v. When the grinding disc 1 is designed as a cut-off grinding disc, in particular it also allows for a curved cut, as the reinforcing fabric 6 is protected by the fabrics W.sub.1 and W.sub.2 when it is bent on fastening means of an angle grinding machine.
[0055] When the grinding disc 1 is designed as a rough grinding disc, the additional fabrics W.sub.1 to W.sub.4 enable the number of additional reinforcing fabrics within the grinding layer 2 to be reduced between the reinforcing fabrics 6, 8. This increases the grinding performance with comparable stability and stiffness, as additional reinforcing fabrics in the working region 12 have an adverse effect on the grinding properties or grinding performance. Furthermore, it is possible to make the rough grinding disc comparatively thin so that it can also be used for cutting off. For example, the outer working region 14 can be used for cutting off, whereas the inner working region 13 and additionally the outer working region 14 can be used for rough machining.
[0056] In general:
[0057] The preferred structure of the grinding disc 1 is label/N—fabric W.sub.i/reinforcing fabric 6/grinding layer 2/reinforcing fabric 8/N—fabric W.sub.i/label/clamping ring 10. The grinding disc 1 can be configured in a cranked manner in the clamping region 11. The additional fabrics W.sub.i may be finer-meshed and/or coarser-meshed and/or of the same mesh size as the first reinforcing fabric 6 and/or the second reinforcing fabric 8.