EP2052813A1 - Plate grinder and grind plate for a plate grinder - Google Patents

Abstract

The grinder has a retaining device (7) that is provided for detachable fastening of a grinding disk (8) and effecting a rotary movement of the grinder during operation. The grinding disk is detachably fastened to the retaining device using plugging/swiveling connection device according to the type of bayonet connection. The retaining device has a part (9) with a protrusion (16) that projects outside in a radial direction and is arranged in the circumferential direction. The projection has an annular surface (17) lying in an axial direction from the grinding disk.

Description

The invention relates to a disc sander, in particular Exzentertellerschleifer, with a motor-driven rotating and / or orbital movement during holding holding device for releasably securing a sanding plate. The invention further relates to a sanding pad for such a disc sander.

Disc grinders are hand-guided devices and are used for grinding workpieces. Depending on the grinding work to be performed or in the event of wear, a sanding disk change may be required. This removal and attachment of the sanding plate should be possible without tools and without any special difficulties for the user.

Furthermore, there is a general risk of sanding plates that they do not perform a precisely planar grinding movement but rotate with a so-called chipping, which may affect the work result.

Proceeding from this, the invention is based on the object of making the assembly and disassembly of the sanding pad as simple as possible and tool-free. In addition, the sanding plate should rotate as plan as possible.

This object is achieved in that the sanding pad by means of a plug / rotary connection device in the manner of a bayonet connection is detachably fastened to the holding device.

When attaching the sanding pad this must only be plugged in the axial direction of the fixture and then rotated, so that the bayonet connection is effective and the sanding pad is held securely. The removal of the sanding plate takes place in the opposite direction. This results in a very easy handling. Any tools are not needed.

Bayonet joints generally have a relatively large diameter. Accordingly, in the present case, the diameter can be made large, which favors the flat circulation of the grinding plate.

Another advantage is that a bayonet connection in the axial direction builds short. In connection herewith, the sanding pad according to the invention is characterized in that it has a substantially circular plug-in recess for immersing the retaining part, which end of its upper side opposite the workpiece to be sanded during use.

In this way, the bayonet locking takes place so to speak inside the sanding pad. Due to the small axial length of the plug recess, the plug recess containing, consisting of rigid material upper part of the grinding plate can be kept relatively flat, so that an attached to the upper part sanding pad lower part made of elastically deformable plastic material can be made correspondingly thicker. Sanding pads usually have an elastic lower part, on the underside of which the abrasive machining abrasive is applied. In this case, the elastic lower part provides a good nestling of the abrasive to the workpiece, even if it is uneven.

Advantageous embodiments of the invention are specified in the further claims.

Figur 1

einen Tellerschleifer mit zugehörigem Schleifteller, wobei der Schleifteller und die ihn haltende Halteeinrichtung des Tellerschleifers im Schnitt gezeigt und vom Tellerschleifer ansonsten nur der Umriss strichpunktiert angedeutet ist,

Figur 2

die in Figur 1 enthaltene Schnittdarstellung des Schleiftellers und der Halteeinrichtung in vergrößertem Zustand,

Figur 3

den Schleifteller allein im den Figuren 1 und 2 entsprechenden Schnitt,

Figur 4

den Schleifteller und die Halteeinrichtung im voneinander getrennten Zustand in Schrägansicht und

Figur 5

den Schleifteller in Draufsicht gemäß Pfeil V in Figur 3.

An embodiment of the invention will be explained in detail below with reference to the drawings. Show it:

FIG. 1

a disc sander with associated sanding pad, wherein the sanding pad and the holding device of the disc sander holding it is shown in section and otherwise only the outline is indicated in broken lines by the disc sander,

FIG. 2

in the FIG. 1 included sectional view of the grinding plate and the holding device in an enlarged state,

FIG. 3

the sanding pad alone in the FIGS. 1 and 2 appropriate cut,

FIG. 4

the sanding pad and the holding device in the separated state in an oblique view and

FIG. 5

the sanding pad in plan view according to arrow V in FIG. 3 ,

In the hand grinder resulting from the drawing is a disc sander 1 and thereby an eccentric disc grinder having a machine head 2, to which a motor housing 3 connects, in which an unillustrated drive motor is housed. In this case, the motor housing 3 is arranged and shaped so that it can serve as a handle. With the other hand you can hold the machine head 2 and hold down against a workpiece to be ground.

The machine head 2 contains a driven by the drive motor forth drive unit having a perpendicular to the motor shaft extending and driven via an unillustrated reversing gear from the motor shaft ago drive shaft, which is indicated by its axis line 4. The drive shaft is operatively connected to an eccentric part 5 which is arranged with its axis line 6 eccentric to drive shaft axis line 4 and, depending on the user-set operating mode, revolves around the drive shaft axis line 4 and / or rotates about its eccentric part axis line 6. Further details are of no interest here. In the present context, it could also be a perform only a rotating movement disc grinder.

The eccentric 5 is fixedly connected to a coaxially arranged thereon holding device 7, which serves for releasably securing a sanding plate 8. In this case, the holding device 7, a holding part 9, which is arranged in the axial extension of the eccentric 5 and fixedly connected thereto by an axially extending fastening screw 10.

The sanding pad 8 is detachably attached to the holding device 7 and thereby to its holding part 9 by means of a plug / rotary connection device 11 to be described in detail in the manner of a bayonet connection.

The sanding pad 8 has a circular shape. It is made of a sanding pad upper part 12 of rigid material, in particular plastic material, and a bottom attached to the upper part 12 sanding pad base 13 made of elastically deformable material, in particular foam plastic. On the underside of the sanding pad lower part 13, a sanding blade-like abrasive can be exchangeably secured, with which the grinding of the respective workpiece is performed. The attachment of the abrasive can be done by means of a hook and loop fastener. For this purpose, a Klettenhaftbelag 14 is disposed on the underside of the sanding pad base 13. The abrasive not shown has a cooperating with the Velcro adhesive 14 Klettenhaftbelag.

The illustrated sanding pad 8 is traversed by Staubabsaugöffnungen 15, which emanate from the sanding pad bottom and through which the resulting dust during grinding can be sucked off in a manner not shown. This interests in the present case not further.

The plug / rotary connection device 11 includes on the holding part 9 circumferentially spaced apart arranged rear engagement projections 16 which project in the radial direction and each extend a distance in the circumferential direction. The Hintergreifvorsprüngen 16 is located in the axial direction of the sanding pad 8 away from an annular surface 17 of the holding device 7, so that each Hintergreifvorsprung 16 in the axial direction 6 on the one hand by the respective Hintergreifvorsprung 16 and the other part of the annular surface 17 limited Teilringnut 18 is formed.

On the sanding pad 8 corresponding bayonet projections 19 are arranged in the number of the Hintergreifvorsprüngen 16, which are arranged distributed in the circumferential direction at a distance from each other, extend in the circumferential direction and protrude inwards in the radial direction. The measured in the circumferential direction length of the bayonet projections 19 is smaller than the distance between the Hintergreifvorsprüngen 16 of the holding part 9, so that the bayonet projections 19 are movable in a mounting rotational position of the grinding disc 8 between the Hintergreifvorsprüngen 16 and in a mounting rotational position in the Teilringnuten 18th the holding device 7 are arranged and engage behind the Hintergreifvorsprünge 16.

Thus, the sanding pad 8 is placed on the holding part 9 when it is mounted in the mounting rotational position in which the Hintergreifvorsprünge 16 and the bayonet projections 19 are arranged so to speak on a gap to each other. The bayonet projections 19 pass through the spaces between the Hintergreifvorsprüngen 16 and the Hintergreifvorsprünge 16 through the spaces between the bayonet projections 19. During subsequent rotation of the grinding plate 8 in its mounting rotational position, the bayonet projections 19 reach behind the Hintergreifvorsprünge 16 so that a firm locking takes place. To remove the sanding pad 8 this is first rotated and then withdrawn in the axial direction.

Said annular surface 17, which limits the Teilringnuten 18 above, is arranged to be movable in the axial direction and spring-loaded to the Hintergreifvorsprüngen 16 out. In this case, the arrangement is such that the annular surface 17 is held at a removed grinding plate 8 by the spring force against a stop that the Teilringnuten 18 in the axial direction less wide than the bayonet projections 19 are thick.

When attaching the sanding plate 8, when this is axially plugged and then rotated, the annular surface 17 is displaced by the bayonet projections 19 against the spring force in the axial direction, so that the bayonet projections 19 are then held by the spring force clamping in the Teilringnuten 18.

Both the Hintergreifvorsprünge 16 and the bayonet projections 19 are arranged in a respective same, perpendicular to the axial direction plane of the holding part 9 and the sanding pad 8.

In the manner mentioned, the bayonet projections are automatically clamped during rotation of the sanding pad 8 in its mounting rotational position, so that the sanding pad 8 holds securely on the holding part 9.

The annular surface 17 is formed by a relative to the holding part 9 axially movably mounted pressure ring 20. In this case, the pressure ring 20 is placed on a cylindrical portion 21 of the holding part 9, which is arranged in the axial direction next to the Hintergreifvorsprünge 16 supporting holding part section 22.

The spring force is applied by a plate spring 23 which has a conical shape and widens toward the pressure ring 20. The plate spring 23 is supported radially inwardly against an annular shoulder 24 of the holding device 7 and radially outwardly against the pressure ring 20. It can be seen that when screwing the bayonet projections 19 into the partial ring grooves 18 when the pressure ring 20 is moved in the direction away from the rear engagement projections 16, the cone angle of the plate spring 23 is increased.

The Hintergreifvorsprünge 16 have, as from FIG. 4 it can be seen on its the respective partial annular groove 18 bounding inside a screwing the bayonet projections facilitating inclined surface 25, so that, so to speak, a funnel-like mouth for the engagement of the respective bayonet projection 19 results. The adjoining the inclined surface 25 portion 26 of the inner side of the Hintergreifvorsprünge runs flat, while in a direction transverse to the axial direction of the plane. As can also be seen from the drawing, a total of three bayonet projections 19 are arranged on the sanding pad 8. Accordingly, the holding part 9 has three Hintergreifvorsprünge 16.

On the sanding pad 8 one of his in use the workpiece to be ground opposite top 26 outgoing, substantially circular plug recess 27 is formed, with the sanding plate 8 is attached to the holding part 9 so that it dips into the plug recess 27. The plug-in recess 27 is formed in the sanding pad upper part 12. The plug-in recess 27 terminates within the grinding plate 8 on a bottom surface 28 formed by the sanding pad upper part 12.

The sanding plate 8 is supported in its fastened state all around against the holding device 7 and thereby against the annular surface 17 formed by the pressure ring 20. For this purpose, the sanding pad 8 on its upper side an annular around the plug recess 27 around circumferential flat surface 29, whose plane is transverse to the axial direction. The bayonet projections 19 protrude radially inwards from the inner circumference of the plug-in recess 27 and are arranged in the axial direction so that the upper side 30 of the bayonet projections 19 is formed by regions of the planar surface 29 which are drawn inwards. The bayonet projections 19 are thus with their top 30th This results in the largest possible support of the sanding plate 8 on the flat surface 29 on the pressure ring 20. Furthermore, the bayonet projections 19 are located at the furthest possible location of the plug recess 27 so that they are accordingly little into the sanding pad must extend. This allows a relatively thin construction of the sanding pad upper part 12, so that the sanding pad lower part also below the plug recess 27 of the upper part 12 has a sufficient thickness for a good nestling against the workpiece.

The plug recess 27 must be so deep that the Hintergreifvorsprünge 16 of the holding part 9 can get behind the bayonet projections 19. In this context, it is provided that a circumferentially extending gap 31 for receiving the respective Hintergreifvorsprungs 16 is formed on the circumference of the plug recess 27 in the axial direction between each bayonet projection 19 and the bottom surface 28.

Each of these gaps 31 terminates in the circumferential direction at one of its ends on a rotation stop 32. During assembly, the sanding plate 8 mounted on the holding part 9 is rotated such that the rear grip projections 16 pass through the open ends of the gaps 31 behind the bayonet projections 19. The rotation stops 32 limit this rotation of the grinding plate 8, so that too much twisting is avoided. In principle, it would be sufficient if only such a rotation stop 32 was present in one of the gaps 31. The rotational stops 32, like the bayonet projections 19, integrally formed on the sanding pad upper part 12. They form a conclusion of column 31.

The bayonet projections 19 have over their circumferentially extending length in the axial direction constant thickness.

The centering of the sanding plate 8 on the holding part 9 takes place by the centering of the bayonet projections 19 on the circumference of the holding part 9. The bottom of the bayonet projections 19 receiving Teilringnuten 18 is formed by the grinding disc 8 centering peripheral surface of the holding part 9.

Claims (15)

Disc grinder, in particular Exzentertellerschleifer, with a running during operation, a motor-driven rotating and / or circular movement holding device for releasably securing a sanding plate, characterized in that the sanding plate (8) by means of a plug / rotary connection means (11) in the manner of a bayonet connection to releasably the holding device (7) can be fastened. Disc grinder according to claim 1, characterized in that a holding part (9) of the holding device (7) distributed in the circumferential direction spaced apart, radially outwardly projecting Hintergreifvorsprünge (16), which in the axial direction of the sanding pad (8) away an annular surface (17) is opposite, so that in each Hintergreifvorsprung (16) in the axial direction on the one hand by the Hintergreifvorsprung (16) and the other part of the annular surface (17) limited Teilringnut (18) is formed, and that on the sanding pad (8) in the number of bayonet projections (19) projecting in the circumferential direction at a distance from each other and distributed circumferentially with respect to each other are arranged, whose circumferentially measured length is smaller than the distance between the rear engagement projections (16), so that the Bayonet projections (19) in a mounting rotational position of the sanding plate (8) between de n Hintergreifvorsprüngen (16) are movable through and are arranged in a mounting rotational position in the Teilringnuten (18) and engage behind the Hintergreifvorsprünge (16). Disc grinder according to claim 2, characterized in that the annular surface (17) is arranged movable in the axial direction and spring loaded on the Hintergreifvorsprünge (16), such that when removed sanding pad (8) the Teilringnuten (18) less wide than the bayonet projections ( 19) are thick and the annular surface (17) during mounting of the sanding pad (8) is displaced by the bayonet projections (19) against the spring force in the axial direction, so that the bayonet projections (19) by the spring force clamped in the Teilringnuten (18) are held , Disc grinder according to claim 3, characterized in that the annular surface (17) formed by a relative to the holding part (9) axially movably mounted pressure ring (20) and the spring force of a plate spring (23) is applied. Disc grinder according to claim 4, characterized in that the plate spring (23) having a conical shape widens toward the pressure ring (20) and is supported radially inwardly against an annular shoulder (24) of the holding device (7) and radially outwardly against the pressure ring (20) is. Disc grinder according to one of claims 1 to 5, characterized in that the Hintergreifvorsprünge (16) on its the respective Teilringnut (18) delimiting the inside a screwing the bayonet projections (19) facilitating inclined surface (25). Disc grinder according to one of claims 2 to 6, characterized in that the holding part (9) has three Hintergreifvorsprünge (16). Sanding plate for a disc sander according to one of claims 1 to 7, characterized in that the sanding pad (8) has a substantially circular plug-in recess (27) emanating from its upper side (26) opposite the workpiece to be ground during use for dipping the holding part (9). Sanding pad according to claim 8, characterized in that it has on its upper side (26) around the plug recess (27) encircling plane surface (29) and the bayonet projections (19) from the inner periphery of the plug recess (27) protrude radially inward, wherein the top (30) of the bayonet projections (19) is formed by inwardly drawn regions of the planar surface (29). Sanding pad according to claim 9, characterized in that in the axial direction between each bayonet projection (19 and the plug recess (27) downwardly delimiting bottom surface (28) of the plug recess (27) extending in the circumferential direction gap (31) for receiving the respective Hintergreifvorsprungs (16) of the holding part (9) is formed. Sanding pad according to claim 10, characterized in that at least one gap (31) in the circumferential direction ends at a rotation stop (32). Sanding pad according to one of claims 8 to 11, characterized in that the bayonet projections (19) have a constant thickness over their length. Sanding pad according to one of claims 8 to 12, characterized in that three bayonet projections (19) are present. Sanding pad according to one of claims 8 to 13, characterized in that it consists of a rigid material, The upper part (12) containing the plug-in recess (27) and a lower part (13) made of elastically deformable plastic material attached to the upper part (12). Disc grinder, in particular eccentric disc grinder, with a holding device driving a motor-driven rotating and / or rotating movement for releasably securing a sanding plate, wherein the sanding plate (8) by means of a plug / rotary connection device (11) in the manner of a bayonet connection releasably attached to the holding device ( 7), wherein the disc sander has a sanding pad (8) which has a substantially circular plug-in recess (27) emanating from its upper side (26) opposite the workpiece to be ground during use for dipping the retaining part (9).

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