Manual Grinding Tool

Abstract

The invention relates to a manual grinding tool comprising a rotating grinding head (7). The inventive grinding device is characterised by a guiding device that is connected to the grinding tool (8) and can be applied to a workpiece (19) in a sliding and/or rolling manner. The grinding head (7) assumes a fixed position in terms of the guiding device which is used to press the grinding tool against the workpiece (19) in at least one direction without tilting.

Description

The invention is explained in more detail below with reference to exemplary embodiments and the attached drawings referring to these exemplary embodiments. In the drawings:

FIG. 1 shows a first exemplary embodiment for a grinding tool according to the invention comprising a conical grinding head and an annular guide device,

FIG. 2 shows a second exemplary embodiment for a grinding tool according to the invention comprising a cylindrical grinding head and an annular guide device,

FIG. 3 shows a third exemplary embodiment for a grinding tool according to the invention comprising a disk-shaped grinding head and a guide device acting on opposite sides of a workpiece,

FIG. 4 shows a fourth exemplary embodiment for a grinding tool according to the invention comprising a guide device according to FIG. 3 and a conical grinding head,

FIG. 5 shows a fifth exemplary embodiment for a grinding tool according to the invention comprising a guide device pivotable in its entirety,

FIG. 6 shows a sixth exemplary embodiment of a grinding tool according to the invention comprising a grinding head arranged between stop elements of a guide device,

FIG. 7 shows a seventh exemplary embodiment for a grinding tool according to the invention, and

FIG. 8 shows a further exemplary embodiment for a grinding tool according to the invention.

A manual grinding tool has a housing 1 for a motor/gear unit (which cannot be seen in the figures), a handle 2 with a switch button 3, and a holding stirrup 4 on the housing end remote from the handle.

In a housing extension 5 extending at right angles to the housing longitudinal axis, a shaft 18 connected to the motor/gear unit can be rotated about an axis 6. At its end remote from the housing 1, the shaft 18 is connected to a grinding head 7.

An annular stop 8 forming a guide and having a flat stop surface 15 coaxially surrounds the grinding head 7. The housing extension 5 has a section 9 which comprises the stop 8 and can be screwed to the rest of the grinding tool. The stop 8 can be axially adjusted by rotating the section 9 and can be locked by a ring nut 16. A further ring nut 17 serves to connect the grinding head 7 to the shaft 18.

As FIG. 1 shows, a bevel can be ground on a marginal edge 20 of a plate-shaped workpiece 19 by means of the grinding tool. By adjustment of the annular stop 8 in the direction of the axis 6, the application point or the application surface on the grinding head 7 can be displaced and uniform wear of the conical grinding surface of the grinding head can be achieved as a result.

To adjust the guide or the stop 8 in the direction of the rotation axis 6 of the grinding head 7, the section. 9 could also be guided in a rotationally locked manner and be coupled axially to a freely rotatable nut.

For the purpose of uniform wear of the grinding surface of the grinding head, the guide or the stop 8 could oscillate in the direction of the grinding-head rotation axis 6. A separate drive motor or pneumatic cylinder could be provided for the oscillating adjustment. However, an adjusting drive could also be connected to the drive of the grinding head 7, for example, via epicyclic or worm gearing. The section 9 may be provided with a winding groove, in which a guide pin or roller connected to the drive device engages, so that the encircling guide pin or the encircling roller displaces the section 9, guided in a rotationally locked manner, back and forth. FIG. 8 shows a further embodiment having an oscillating grinding head.

During the grinding, the user presses the flat stop surface 15 of the annular stop 8 against the plate surface, adjoining the edge 20, of the workpiece 19. A component of the contact pressure that is parallel to the plate surface provides for the desired material removal by the grinding head. A component of the contact pressure that is perpendicular to the plate surface ensures guidance of the grinding head 7 in a stable manner without tilting, the rotation axis 6 of said grinding head 7 merely being displaced in parallel while maintaining its spatial direction during the grinding. An increase in the contact pressure advantageously leads to the increase in both the material removal rate and the tilting moment, so that the tool can also be reliably guided at a high contact pressure and a high removal rate.

Due to the annular shape of the stop 8, the tool is especially suitable for machining concavely running workpiece edges.

The grinding head 7 is described in detail in DE 10 2004 016 565.3 included here.

In the figures below, identical parts or parts having the same effect are designated by the same reference numerals as in FIG. 1, the letter a, b, etc., being added to the relevant reference numeral.

The grinding tool of FIG. 2 differs from the preceding grinding tool in that a cylindrical grinding head 7a is provided instead of a conical grinding head 7. A marginal surface 14 of a workpiece 19a can be machined by means of this tool.

This grinding tool can also be reliably guided at a high contact pressure, a component of the contact pressure that is perpendicular to the plate surface of the workpiece 19a providing for the stability of the rotation axis of the grinding head without tilting, and a component that is parallel to the plate surface provides for the desired material removal.

A manual grinding tool shown in FIG. 3 and having a housing 1b has a disk-shaped grinding head 7b. Attached to a housing extension 5b as a component of a guide device 8b is a carrier 10, which is connected to a first stop element 11 and a second stop element 12. The stop elements 11 and 12 act on opposite sides on a workpiece 19b in a rolling manner via rotatably mounted balls 26.

The stop element 12 can be adjusted by means of a lockable setscrew 21 for adaptation to different workpiece plate thicknesses. Furthermore, the stop element 12 has an extension arm 22 having a stop roller 23. A tapered surface 24 of the stop roller 23 can be placed against a marginal surface 14b of the workpiece 19b.

By means of the guide device 8b, the grinding tool can be kept at a desired angle with respect to the plate surfaces of the workpiece 19b in a stable manner without tilting. By movement of the tool perpendicularly to the paper plane, a bevel can be ground on an edge 20b of the workpiece 19b by means of the tool, the grinding tool being tilted relative to the position shown in FIG. 3, so that the grinding wheel 7b is at an angle to the edge 20b in the feed direction.

In the exemplary embodiment in FIG. 4, the grinding is effected in such a tilted position that the grinding generating line of a conical grinding head 7c runs parallel to a workpiece edge 20c.

In the exemplary embodiment of FIG. 5, a guide device 8d is designed in a similar manner to the embodiments according to FIGS. 3 and 4. However, the entire guide device 8d is rotatable about an axis 25 and can be locked in desired rotary positions.

A stop element 12d can be pivoted about an axis 27 by means of levers 26. The levers 26 are attached to fork legs 28, between which a grinding head 7d is arranged, which engages in a recess in a stop element 11d.

In the stop position, shown in FIG. 5, of the stop element 12d, the levers 26 engage in a guide 29 in the relevant fork leg 28, as a result of which rotation of the stop element 12d about the axis 27 is blocked. In this position, the force of a disk spring 30 acts on the stop element 12d. The contact pressure can be adjusted by the helical spring 30 by means of a knurled nut 31.

By means of the tool shown in FIG. 5, bevels 20d can be ground at different angles on workpieces 19d depending on the pivoted position of the guide device 8d.

A manual grinding tool shown in FIG. 6 has a guide device 8e which is intended for placing against a flat surface 32 of a workpiece 19e.

The guide device 8e consists of a support plate 33 which is connected to a housing extension Se of the grinding tool and from which stop elements 34 and 35 in the form of elongated supporting feet of different height project. A grinding head 7e having a conical grinding surface is arranged between the stop elements 34 and 35, which are provided with rollers 36. The difference in height between the stop elements 34, 35 is dimensioned in such a way that the respective generating line, nearest to the workpiece 19e, of the conical grinding surface 7e runs parallel to the surface 32.

The grinding head 7e could be displaceable with respect to the rest of the tool and could be acted upon by a spring in such a way that the contact pressure of the grinding head against the workpiece is increased by increasing the contact pressure of the tool against the surface 32.

A weld 37 projecting from the surface 32 can advantageously be ground off by means of the tool of FIG. 6, the guide device 8e guiding the grinding head 7e parallel to the surface 32. In addition, the rollers 36 provide for linear guidance along the weld 37.

A grinding tool shown in FIG. 7 and comprising a grinding head 7f has a guide device 8f with two rollers 38 and 39. The rollers are attached at one end to a support plate 40 which is perpendicular to the roller axis and which in turn is connected to a holder 41 which can be pivoted about an axis 25f and can be locked in desired pivoted positions. The holder 41 can be varied in its length for adjusting the grinding point.

The end edge of a tubular workpiece 42 can be machined with the tool, the rollers 38 and 39 of the guide device 8f rolling on the outer or inner lateral surface of the pipe length, while the support plate 40 bears against the end of the pipe length. The bevel angle to be ground can be set by pivoting the guide device 8f, and the grinding, point at the conical grinding surface of the grinding head 7f can be varied by adjusting the length of the holder 41.

The workpiece 42 has sufficient play between the rollers 38 and 39 in order to be able to pivot the tool for varying the infeed and thus the removal depth.

Instead of two rollers, four rollers could also be attached to the support plate, and the grinding head could be displaceable relative to the support plate for varying the infeed.

In an exemplary embodiment shown in FIG. 8, a drive shaft 18g for a grinding head 7g is connected to gearing 51 via a driving belt 50. A gear 52 attached to the gearing 51 on the output side meshes with a gear 53 which is connected to a bush part 9g. The bush part 9g is rotatably mounted at 54 on a housing extension 5g. A further bush part 55 arranged between the bush part 9g and the housing extension 5g and connected to an annular stop 8g has a curved annular groove 56, in which a cam 57 projecting inward from the bush part 9g engages. Lugs 59 projecting inward from the bush part 55 engage in longitudinal grooves 60 in the housing extension 5g, with an anti-rotation locking means being formed.

The gearing 51 reduces the speed of the drive shaft 18g to a few revolutions per minute. The cam 57 of the bush part 9g driven via the gears 52 and 53 displaces the further bush part 55 axially according to arrow 58, so that the annular stop 8g performs an oscillating movement.

Claims

1. A manual grinding tool comprising a rotating grinding head (7), comprising a guide device (8) which is connected to the tool and can be placed against a workpiece (19) in a sliding and/or rolling manner and with respect to which the grinding head (7) assumes a fixed position and by means of which the tool can be pressed against the workpiece (19) in at least one direction in a stable manner without tilting.

2. The grinding tool as claimed in claim 1, wherein the guide device (8) can be pressed at at least three bearing points against the workpiece (19) in two directions in a stable manner without tilting.

3. The grinding tool as claimed in claim 1, wherein the guide device (8) has a bearing surface (15) which can be adapted to a surface of the workpiece (19).

4. The grinding tool as claimed in claim 3, wherein the surface of the workpiece (19) adjoins an edge (20) of the workpiece (19), and the grinding head (7) is provided for machining the edge (20) or/and a marginal surface (14) of the workpiece (19a) adjoining the workpiece edge.

5. The grinding tool as claimed in claim 4, characterized in that wherein the guide device (8b) comprises a stop element (23) for bearing against the marginal surface (14b).

6. The grinding tool as claimed in claim 3, wherein the bearing surface (15) is formed by an annular surface coaxial to the grinding head (7).

7. The grinding tool as claimed in claim 1, wherein the grinding head (7e) is arranged between a plurality of stop elements (34, 35) of the guide device (8e) which are provided for bearing against a workpiece surface (32).

8. The grinding tool as claimed in claim 7, wherein the stop elements (34, 35) have different heights and the rotation axis of the grinding head (7e) is at a desired angle to the workpiece surface (32) when the stop elements (34, 35) bear against the workpiece surface (32).

9. The grinding tool as claimed in claim 1, wherein the guide device (8b-8d) comprises stop elements (11, 12) acting on opposite sides of a workpiece (19b-19d).

10. The grinding tool as claimed in claim 1, wherein the guide device (8, 8a, 8d) is adjustable, in particular for setting the angles of bevels to be ground and for setting the position of the grinding point at the grinding head (7).

11. The grinding tool as claimed in claim 10, wherein the guide device (8d) is pivotable about an axis (25) for setting the bevel angle.

12. The grinding tool as claimed in claim 10, wherein a drive device is provided for the adjustment, in particular for the oscillating adjustment, of the grinding point position.

13. The grinding tool as claimed in claim 12, wherein the drive device is in drive connection with the drive of the grinding head, preferably via epicyclic or worm gearing.

14. The grinding tool as claimed in claim 12, wherein the drive device comprises a separate drive motor or pneumatic cylinder.