EP1275473A2 - Tool dressing apparatus and method - Google Patents

Abstract

Roll bodies (14,16,18) as the outer ring of a roller bearing (48,50,52) mounted in a housing (24) are braced together with the tool by a tensioning appliance (20). The housing contains at least three roll bodies with rolling surfaces (32,34,36) defining at least one free cavity (38). The housing has at least two parts (40,42) movable towards each other and linked together and adjustable by at least one adjustment (44) in the form of a screw.

Description

State of the art

Cutting tools are known whose cutting surface is covered by a Binding material and formed by abrasive cutting bodies is. The abrasive cutting elements are in the binding material introduced in multiple layers and are through a sintering process firmly connected to the binding material.

The consistency of the binding material is similar to that to be processed Material adapted. During operation, a Aggressiveness of the material to be processed Removal of the binding material causes and the rounded and / or worn abrasive cutting body can from the Binding material is loosened and / or destroyed. Cutting body, that are in lower levels come through it used, and there is no need to sharpen the cutting tool. The cutting tool can be used up to the cutting surface is used up.

On the other hand, in the case of cutting tools with one single-layer layer of abrasive cutting body an independent Resharpening not possible. Such cutting tools are used especially with materials whose material aggressiveness unsuitable for removing the binding material is. In particular cutting tools for cutting tiles have an essentially single-layer abrasive layer Cutting body.

Advantages of the invention

It becomes a device for sharpening a tool with abrasive Cutting bodies suggested that at least one means and has a tensioning device via which the means and the tool can be clamped together, with a Bearing a rolling movement between the medium and the Tool can be generated and at least individual abrasive Cutting body with the agent are breakable.

A device can be reached with the tools, and in particular tools with abrasive applied in one layer Cutting bodies whose abrasive cutting bodies are worn out are rounded off, simply and inexpensively processed and the tool life can be extended. The above, worn or round cutting bodies broken and their Cutting behavior can be improved. By breaking the above, worn abrasive cutting body, can these are shortened and smaller, unused, sharp-edged abrasive cutting bodies can be made with a material to be machined come into contact. The respective canceled Cutting bodies themselves have new sharp cutting edges, which also improve the cutting behavior.

Due to the generating rolling movement between the medium and the Tool can be used with a large surface pressure between the Means and the tool and with a small actuation force the abrasive cutting bodies are advantageously broken. Removing the abrasive cutting body from one Binding material of the tool can at least largely break be avoided. It is a manual operation of the device attainable with either the tool on the middle and / or the agent is rolled on the tool can.

An operator places one while using the tool Decrease in cutting performance, this can fix the device for sharpening the cutting body advantageous on site attach the tool without removing the tool from a holder to solve a hand machine tool. The mean and the tool can be rolled on each other manually, the Means and / or the tool perform a rolling movement can. However, it is also conceivable that the tool and / or the means for sharpening the cutting body from one in the Device integrated or powered by a separate motor becomes. The tool can basically with the device be sharpened several times, until the existing ones abrasive cutting elements are completely removed.

The rolling movement between the medium and the tool can can be achieved in different ways, for example with two plates that are translationally moveable and between which the tool can be clamped. However, the agent is particularly advantageous from one to one Housing bearing rolling elements formed. Can be advantageous translatory movements to achieve the rolling movement be avoided between the medium and the tool, and it is a compact device accessible, the means one has simple and inexpensive storage. The device can be easily by hand by the operator around the tool and / or the tool can easily be hand or powered from a motor, for example from a hand machine tool motor, be rotated in the device.

The rolling element can be useful by various experts appearing components be formed, for example from one in a recess or on a bolt over one Plain roller bearing. Is the mean of an outer ring a rolling bearing can be advantageously inexpensive Standard components are used. It can be a storage can be achieved, which has a low friction, and an operator can operate the device with a small actuation force especially operate manually. Particularly advantageous sealed bearings are used for the bearings. The bearings can prevent the cutting bodies from abrasive wear be protected and it's long life the rolling bearing accessible.

At least three as are particularly advantageous in the housing Rolling elements trained means stored, their rolling surfaces limit a free space, at least one means in its Position through the jig to the other two means adjustable and thus the tool can be clamped in free space is. The tool is in free space above the rolling elements in its Location advantageously fixable, and in particular can with three rolling elements a statically determined bracket of the Tool can be achieved. The rolling elements can be used as clamping jaws the device used to hold the tool and the forces required for breaking or processing of the tool are required can be advantageous on the Rolling elements are introduced into the tool. It is one Device accessible, the universal to several, different large tools can be customized.

Furthermore, a device is also conceivable, the means of which are radial are movably mounted outwards so that the means are radial outwards against an inner circumference of a tool, for example a hollow cylindrical tool, pressed and radially inward facing abrasives attached to the inner circumference Cutting body of the tool sharpened by means can be.

In a further embodiment of the invention, the housing has at least two housing parts that are movable relative to one another, which form part of the clamping device. The freedom can thereby designed to be easily adaptable to a tool become.

If the two housing parts are hinged together, can advantageously be achieved a lever arm, which with a small actuation force achieves a large clamping force can be. Furthermore, it is inexpensive and easy to store of the housing parts accessible, the low tendency to jam having. Basically, however, are also translational Adjustment movements for clamping the tool are conceivable.

It is also proposed that the two housing parts over at least an adjusting means are adjustable to each other. It is an advantageous translation can be reached via a small operating force a large clamping force between the Means and the tool can be achieved. The actuating device can thereby of various ones which appear to be useful to the expert Means be formed, for example by an eccentric etc. However, if the actuating means is formed by a screw, can be an inexpensive and structurally simple Adjustment mechanism can be reached, through which the clamping force is exact can be adjusted.

The agent can be useful from various, to the expert appearing, particularly hard materials formed or with be coated with a particularly hard material, for example the agent can be formed from a hard plastic or the agent can have a ceramic layer or a diamond layer be coated etc. However, this is advantageous Means made of hardened steel, creating a inexpensive construction can be achieved.

drawing

Further advantages result from the following description of the drawing. In the drawings is an embodiment presented the invention. The drawings, the description and the claims contain numerous features in combination. The person skilled in the art also expediently acquires the features look at them individually and make meaningful further combinations sum up.

Fig. 1

eine Vorderansicht einer Vorrichtung zum Schärfen eines mit abrasiven Schneidkörpern besetzten Werkzeugs,

Fig. 2

einen Schnitt entlang der Linie II-II in Fig. 1,

Fig. 3

eine Seitenansicht der Vorrichtung aus Fig. 1 und

Fig. 4

ein Fliesenschneidwerkzeug mit abrasiven Schneidkörpern.

Show it:

Fig. 1

FIG. 2 shows a front view of a device for sharpening a tool equipped with abrasive cutting bodies,

Fig. 2

2 shows a section along the line II-II in FIG. 1,

Fig. 3

a side view of the device of Fig. 1 and

Fig. 4

a tile cutting tool with abrasive cutting elements.

Description of the embodiment

FIG. 1 shows a device for sharpening one in FIG. 4 Tile cutting tool 10 shown with one layer applied abrasive cutting bodies 12. The device has a housing 24 and three means 14 mounted in the housing 24, 16, 18, wherein the housing 24 consists of a first housing part 40 and a second housing part 42. The housing parts 40, 42 are on a first side to each other via a joint 46 pivoted and on one side opposite the first second side with each other via an adjusting means 44 connected.

On the first side, the second housing part 42 projects with a molded web-like extension 72 into a cross section U-shaped region 74 of the first housing part 40, with the web-like extension 72 of the second housing part 42 and through the U-shaped region 74 of the first housing part 40 an aligned in the insertion direction 22 of the tile cutting tool 10 Bolt 30 is guided (Fig. 1 and 3). The bridge-like Extension 72, the U-shaped region 74 and the bolt 30 form the joint 46.

The housing parts 40, 42 are formed by a screw Adjustment means 44 adjustable to each other and form one Part of a clamping device 20 (Fig. 1). The positioning device 44 is perpendicular to the insertion direction 22 of the tile cutting tool 10 or in the pivoting direction of the housing parts 40, 42 passed through a bore 54 in the first housing part 40 and engages with its external thread in an internal thread of a hole 56 in the second housing part 42.

In the housing 24 of the device three are designed as ball bearings Rolling bearings 48, 50, 52 with parallel to the direction of insertion 22 of the tile cutting tool 10 extending axes of rotation stored, which have outer rings designed as rolling elements (Fig. 1). The outer rings form the means 14, 16, 18, wherein in the clamped state of the tile cutting tool 10 a rolling movement between the outer rings and the tile cutting tool 10 can be generated. The roller bearings 48, 50, 52 are sealed by seals 26, the balls 28 of the rolling bearings Protect 48, 50, 52 in particular from abrasive dust (Fig. 2).

The roller bearings 48, 50, 52 are arranged in the housing 24 in such a way that their axes of rotation have a triangular surface span, and their rolling surfaces 32, 34, 36 a free space 38 limit in which the tile cutting tool 10 in the insertion direction 22 is insertable. The roller bearing 48 is in the housing part 42 mounted, and the roller bearings 50, 52 are in the housing part 40 stored, with the clamping device 20th or by a pivoting movement of the housing parts 40, 42 the Position of the roller bearing 48 to the roller bearings 50, 52 adjustable is.

The roller bearings 48, 50, 52 are parallel with their inner rings Bolts 64, 66, 68 aligned with the insertion direction 22 stored, between the bolts 64, 66, 68 and the inner rings Sleeves 58, 60, 62 are arranged around rolling bearings 48, 50, 52 with large diameters to be able to use one advantageous rolling motion with low resistance and have a low wear (Fig. 1 and 2). In the Axial direction two-piece sleeves 58, 60, 62 each form an annular groove bearing seat on its outer circumference for roller bearings 48, 50, 52.

An operator opens to sharpen the tile cutting tool 10 the device by forming the actuator 44 Unscrew the screw until the tile cutting tool 10 can be inserted into the free space 38 (Fig. 1). A helical compression spring 70 arranged on the adjusting means 44, which are located on opposite sides of the housing parts 40, 42 supports, pushes the housing parts 40, 42 apart.

After inserting the tile cutting tool 10, the Adjusting means 44 screwed into the internal thread of bore 56, the housing parts 40, 42 are pivoted and the tile cutting tool 10 and the means 14, 16, 18 are together braced.

The operator rotates the tile cutting tool 10 around his Longitudinal axis, are at three lines of contact of the tile cutting tool 10 with the rolling surfaces 32, 34, 36, the hardened steel formed means 14, 16, 18 or outer rings the roller bearings 48, 50, 52 the worn abrasives Cutting body 12 of the tile cutting tool 10 through the Rolling movement broken and the tile cutting tool 10 is sharpened.

reference numeral

10

Tool

12

cutting body

14

medium

16

medium

18

medium

20

jig

22

insertion

24

casing

26

poetry

28

rolling elements

30

bolt

32

rolling surfaces

34

rolling surfaces

36

rolling surfaces

38

free space

40

housing part

42

housing part

44

actuating means

46

joint

48

roller bearing

50

roller bearing

52

roller bearing

54

drilling

56

drilling

58

shell

60

shell

62

shell

64

bolt

66

bolt

68

bolt

70

Helical compression spring

72

extension

74

Area

Claims (10)

Device for sharpening a tool (10) with abrasive Cutting bodies (12) which have at least one means (14, 16, 18) and a tensioning device (20) via which the means (14, 16, 18) and the tool (10) together are braced, a rolling movement via a bearing between the medium (14, 16, 18) and the tool (10) can be generated and at least individual abrasive Cutting body (12) with the means (14, 16, 18) breakable are. Device according to claim 1, characterized in that the means (14, 16, 18) is formed by a rolling element mounted in a housing (24). Device according to claim 2, characterized in that the means (14, 16, 18) is formed by an outer ring of a rolling bearing (48, 50, 52). Device according to claim 2 or 3, characterized in that at least three means (14, 16, 18) designed as rolling elements are mounted in the housing (24), the rolling surfaces (32, 34, 36) of which delimit a free space (38), and that at least one means (14) can be adjusted in its position by the clamping device (20) to the other two means (16, 18) so that the tool (10) can be clamped in the free space (38). Device according to claim 4, characterized in that the housing (24) has at least two mutually movable housing parts (40, 42) which form part of the tensioning device (20). Device according to claim 5, characterized in that the two housing parts (40, 42) are articulated. Apparatus according to claim 5 or 6, characterized in that the two housing parts (40, 42) can be adjusted relative to one another via at least one adjusting means (44). Device according to claim 7, characterized in that the adjusting means (44) is formed by a screw. Device according to one of the preceding claims, characterized in that the means (14, 16, 18) is formed from a hardened steel. Method for sharpening a tool (10) with abrasive cutting bodies (12) with a device according to one of the preceding claims, characterized in that the abrasive cutting bodies (12) of the tool (10) are broken by a rolling movement.

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