Grinding tool comprising form profile for an oscillating grinding device

Abstract

A grinding tool for a grinding device with an oscillatory drive, in particular a rotary oscillatory drive is disclosed, the drive shaft of which can be driven about its longitudinal axis, wherein the grinding tool includes a holder having a support for securing to the drive shaft of the oscillatory drive, and whereon a form profile with a grinding mechanism is provided, wherein the holder includes a profile support for releasable securement of the form profile, and wherein the profile support includes a clamping region, into which the form profile can be inserted with a holding section and can be fixed thereto, and which can be elastically enlarged for releasing the form profile.

Claims

1. A grinding tool for a grinding device comprising an oscillatory drive, the drive shaft of which can be oscillatingly driven about its longitudinal axis, said grinding tool comprising: a holder including a support for securing to said drive spindle of said oscillatory drive; a form profile including a grinding agent being received on said holder; a profile support provided on said holder for releaseably securing said form profile, said profile support comprising a clamping region being configured for receiving and securing a holding section provided on said form profile when inserting said holding section into said clamping region, said clamping region being further configured for being elastically enlarged to allow a release of said form profile secured within said clamping region; at least one gripping part being attached to said clamping region to allow an elastic enlargement of said clamping region; and an elastically enlargeable cavity provided within said clamping region into which said form profile can be inserted with its holding section and can be secured under action of an internal stress of said clamping region.

2. The grinding device of claim 1, wherein said form profile is secured frictionally engaged with its holding section within said cavity of said holder.

3. The grinding device of claim 1, wherein said form profile is held positively with its holding section within said cavity of said holder, wherein said positive engagement can be released by an elastic enlargement of said cavity.

4. The grinding device of claim 1, wherein said clamping region is limited at both axial ends of said cavity by end sections, wherein between said end sections on both sides respective side sections extend which are spaced from said end sections.

5. The grinding device of claim 1, wherein said cavity comprises a substantially U-shaped cross-section.

6. The grinding device of claim 4, wherein at least one gripping part is attached to a first one of said side sections.

7. The grinding device of claim 6, wherein two gripping parts are attached at said first side section and extend from said side section slanted to the outside.

8. The grinding device of claim 6, wherein said first side section starting from a bent section yields into a plane section onto which said at least one gripping part is attached from the outside.

9. The grinding device of claim 4, wherein said end sections each comprise an end face and lateral attachments substantially extending perpendicularly thereto, each being spaced from said adjacent first and second side sections by a slot.

10. The grinding device of claim 9, wherein at both end sections there is provided at least one stop for limiting an insertion depth of said form profile into said cavity.

11. The grinding device of claim 1, wherein said form profile is coated at least at a part of its outer surface by means of a grinding agent.

12. The grinding device of claim 1, wherein said form profile is configured for receiving a grinding paper which can be secured together with said form profile within said cavity of said holder.

13. The grinding device of claim 4, wherein said grinding paper is mated such to said outer surface of said form profile, so that said grinding paper at least partially wraps around said outer surface of said form profile and is held with both ends between a holding section of said form profile and said side sections of said holder.

14. The grinding device of claim 1, wherein said form profile is made of an elastically yielding material.

15. The grinding device of claim 4, wherein at said side sections of said holder webs are provided at each surface facing said form profile, to which grooves at said form profile are assigned.

16. The grinding device of claim 1, wherein said support defines a longitudinal axis and in that said form profile extends at least in one direction of extension straight and perpendicularly to said longitudinal axis of said support.

17. A grinding tool for a grinding device comprising an oscillatory drive, the drive shaft of which can be oscillatingly driven about its longitudinal axis, said grinding tool comprising: a holder including a support for securing to said drive spindle of said oscillatory drive; a form profile including a grinding agent being received on said holder; a profile support provided on said holder for releaseably securing said form profile, said profile support comprising a clamping region comprising a cavity being configured for receiving and securing a holding section provided on said form profile when inserting said holding section into said clamping region, said clamping region being further configured for being elastically enlarged to allow a release of said form profile secured within said clamping region.

18. The grinding device of claim 1, wherein said support is configured for a positive connection to said drive shaft of said oscillatory drive.

19. The grinding device of claim 1, wherein said support defines a longitudinal axis and in that said form profile extends at least in one direction of extension straight and perpendicularly to said longitudinal axis of said support.

20. A grinding tool for a grinding device comprising an oscillatory drive, the drive shaft of which can be oscillatingly driven about its longitudinal axis, said grinding tool comprising: a holder including a support for securing to said drive spindle of said oscillatory drive; a form profile including a grinding agent being received on said holder; a profile support provided on said holder for releaseably securing said form profile, said profile support comprising a clamping region being configured for receiving and securing a holding section provided on said form profile when inserting said holding section into said clamping region, said clamping region being further configured for being elastically enlarged to allow a release of said form profile secured within said clamping region.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Further features and advantages of the invention can be taken from the subsequent description of preferred embodiments with reference to the drawings. In the drawings show:

(2) FIG. 1 a perspective view of a grinding tool according to the invention;

(3) FIG. 2 the grinding tool according to FIG. 1 which is secured to an assigned drive spindle of an oscillatory drive in its application position;

(4) FIGS. 3a-3c an explosive representation of the individual parts of the grinding tool comprising a holder according to FIG. 3a, a form profile according to FIG. 3b and an assigned grinding paper according to FIG. 3c;

(5) FIG. 4 a top view of the holder according to FIG. 3a;

(6) FIG. 5 a cross section through the holder according to FIG. 4 along the line V-V;

(7) FIG. 6 a plan view of the holder according to FIG. 4 seen from the bottom;

(8) FIG. 7 a longitudinal section through the grinding tool according to FIG. 1; and

(9) FIG. 8 a perspective cross section of the grinding tool according to FIG. 7.

DESCRIPTION OF PREFERRED EMBODIMENTS

(10) A grinding tool according to the invention is shown in FIG. 1 in perspective and designated in total with numeral 10. The grinding tool 10 comprises a holder 14 at which a form profile 16 and a grinding means 18 configured as a grinding paper are supported.

(11) The grinding tool 10 is configured for utilization with a oscillatory drive of known design, such as shown schematically in FIG. 2. The oscillatory drive 20 comprises a drive spindle 22 which can be driven about its longitudinal axis 24 in rotary oscillating fashion at high frequency in the range of about 10.000 to 25.000 oscillations per minute and with a small pivot angle of about 0.5 to 5. The grinding tool 10 is secured positively at the outer end of the drive spindle 22 with a suitable support and is safeguarded by means of a securing element 26.

(12) The grinding tool 10 serves in particular for grinding longitudinal profiles and longitudinal recesses. To this end the form profile 16 and the assigned grinding means 18 are supported exchangeably at the holder 12 as will explained in more detail in the following. The shape of the form profile 16 expediently is adjusted to the longitudinal profile that is to be ground. Thus different form profiles with different cross sections may be provided which are secured exchangeably to the holder 12. In the case shown in FIG. 1 the form profile 16 comprises several flat formed surfaces which are arranged at an angle to each other. Herein a plane designed front face 19 of the form profile 16 extends perpendicularly to the longitudinal axis 24 of the drive shaft 22, and thus also perpendicularly to the longitudinal axis 60 which is defined by the support 14 of the holder 12.

(13) The more detailed design of the grinding tool 10 now will be explained with reference to FIGS. 3 to 8.

(14) From FIGS. 3a-3c it can be seen that the grinding tool 10 is made up at least of two parts, possibly of three parts. In any case to this end a holder 12 with a support 14 is configured for connection with the drive spindle 22 (FIG. 2). At the holder 12 the form profile 16 together with a suitably shaped grinding means 18 being configured as a grinding paper can be secured. The form profile 16 according to a first design at its surface may be provided with a grinding agent to thus allow a grinding directly with the form profile 16. Alternatively also a separate grinding means 18 configured as a grinding paper may be provided, the shape of which is adapted to the shape of form profile 16 and which can be secured together therewith at the holder 12.

(15) The holder 12 consists of a rigid plastic material and comprises a clamping region 36 having a cavity 38 into which the form profile 16 can be inserted with an assigned holding section 40 and can be secured thereto. To ensure a force transmittance between the drive spindle 22 and the holder 12, within the support 14 a driving disk 30 made of metal, in particular of steel, is molded (cf., FIG. 1, 3, 7, 8) that allows for a positive force transmittance to the drive spindle 22. To this end suitable recesses 32 are provided at the driving disk.

(16) The clamping region 36 comprises two side sections 46, 48 facing each other which are connected in one piece with the holder 12. The axial ends of the cavity 38 are closed by end sections 42, 44, wherein respectively one flat end face and two side extensions 53, 54 facing each other are provided. Between the end sections 43, 44 the side sections 46, 48 are enclosed which each are divided from the end sections 42, 44 by a slot 66. This leads to the consequence that the two side sections 46, 48 facing each other that are only connected at there inner ends with the holder 12 can be enlarged relative to each other.

(17) To this end at the first side section 46 there are provided two gripping parts 50, 51 extending slanted to the outside. In case pressure is exerted onto the gripping parts 50, 51 from the outside, then the first side section 46 can be slightly widened to the outside relative to the second side section 48 to thus allow an insertion of the form profile 16 into the cavity 38 of the holder, or a withdrawal of the form profile 16 with its holding section 40 from the cavity 38.

(18) In addition at the inner surfaces of the first side section 46 and the second side section 48 there may be provided webs 56 extending in insertion direction of the form profile 16, to which respective grooves 58 are assigned at the holding section 40 of the holder 12.

(19) In this way during insertion of the form profile 16 with its holding section 40 into the cavity 38 of the holder 12, a positive support is made possible which impedes a shifting of the form profile 16 in longitudinal direction.

(20) If the form profile 16 shall be inserted with its holding section 40 into the cavity 38 of the holder, only pressure must be exerted onto the two gripping parts 50, 51, whereby the first side section 46 enlarges to the outside relatively to the second side section 48.

(21) Now the form profile 16 can be slid with its holding section 40 into the cavity 38 and is guided herein by the grooves 58 and the assigned webs 56. If the form profile 16 is slid sufficiently deep into the cavity 38 or abuts therein, then the gripping parts 50, 51 are released, whereby the form profile 16 is safely secured within the clamping region 36 under the action of the internal stress of the clamping region 36.

(22) If a separate grinding means 18 configured as a grinding paper according to FIG. 3c is used, then this comprises a flat contour according to FIG. 3c which preferably at both side faces facing each other is pressed into a recess 64 (FIG. 1) which is shaped so that the two side sections 46, 48 of the holder 12 can directly interfere to thus ensure a safe securement of the grinding means 18. The grinding means to this end is placed onto the form profile 16 and is inserted together therewith into the widened clamping region 36 of the cavity 38, and thus is secured together with the form profile 16. Herein the shape of the grinding means 18 adjusts to the outer shape of the form profile 16.

(23) The form profile 16 preferably consists of a yielding plastic foam, such as a polyurethane foam, to allow for a suitable yielding of the form profile during grinding.

(24) While FIG. 6 shows the holder 12 from the bottom without the adaptor 30, from FIG. 7 a longitudinal section and from FIG. 8 a perspective longitudinal section through the grinding tool 10 can be seen.

(25) As can be seen in particular from FIGS. 5 to 8, the first side section 46 is received at the body of the holder 14 with a bent section 68 which subsequently yields into a flat section 70. The opposite second side section 48 comprises a flat section 72 facing the first flat section 70 and at its inner end has a stop 74 formed perpendicularly therein serving as a stop when inserting the form profile 16.

(26) The holder 12 is prepared as an injection molded part from a rigid plastic material (e.g. PVC). Thus a cost effective manufacture at high quantities and the same time an elasticity of the clamping region 36 is made possible.