EP1559509A1 - Device for mounting a grinding tool to a machine tool - Google Patents

Abstract

The coupling device has a fixing part (4) associated with the polishing disc (1) and a fixing part (5) associated with the machine tool drive provided with cooperating screw threads (6,7), which are screwed together to bring a bearing surface (12) of the polishing disc into engagement with a bearing surface (13) of the machine tool drive. A spring force acts on the machine tool drive screw thread in the axial direction, the polishing disc fixing part screwed into place relative to the machine tool drive fixing part until reaching a rotary end position defined by rotary end stops (18,19).

Description

The invention relates to a device for releasably connecting a plate or disc-shaped grinding tool with one during operation the tool to a rotating movement driving machine tool, with a tool-side fastening device and a machine-side fastening device, each having a threaded portion and screwed together over their thread parts, where one of the thread parts is an external thread and the other Thread part has an internal thread and the two fastening devices in the bolted together state are supported against each other via support surfaces.

Usual sanding discs have a threaded portion with an internal thread on, with it on one end to the output shaft the machine tool arranged external thread be screwed on. This screwing is done by a output shaft side Supporting surface limited, against the one on Sanding pad arranged supporting surface comes to the plant. Then the sanding pad is still against the output shaft side Tightening support surface. This tightening takes place the user often so hard that a later unscrewing the grinding plate is difficult. In addition, that grinding pad during operation due to the between occurring to them and the workpiece to be ground Regularly tighten forces by itself, so that the release of the grinding plate is made even more difficult.

For grinding wheels the same applies.

Based on this, the present invention has the object based, a device of the type mentioned above create, with the too strong tightening of the respective Grinding tool is avoided.

This object is achieved in that a the thread parts against a spring force in the direction of the support surface of the respective threaded portion having Mounting device away axially movable is and that the tool-side fastening device until to a predetermined by rotary limit stops rotary end position screwed with the machine-side fastening device is.

In this way tightening can not be arbitrarily wide but only until the rotary end stops abut each other. This results in a process in which enough screwing the two support surfaces together abutment, after which further rotation of the grinding tool the thread in question against the spring force shifted and while still screwed to the other threaded part becomes. This further screwing is then by limited the rotary limit stops. In this way you get a defined by the spring force and the rotary end stops maximum tightening torque, up to that of the grinding tool can be tightened. The spring force is chosen or the spring force generating spring device so designed so that the grinding tool on the one hand tightened Condition safely and secondly without difficulty can be unscrewed.

Another advantage is that one in operation possibly torque applied to the grinding tool does not lead to loosening of the grinding tool in the release direction, as long as the spring force is effective.

Advantageous embodiments of the invention are in the subclaims specified.

Figur 1

einen mittels einer erfindungsgemäßen Vorrichtung mit dem Abtriebsteil einer Werkzeugmaschine verbundenen Schleifteller im Querschnitt,

Figur 2

die Anordnung nach Figur 1 ohne das Abtriebsteil in explodierter Darstellungsweise,

Figur 3

den Schleifteller der Anordnung nach den Figuren 1 und 2 in Draufsicht (in Figur 2 von oben) und

Figur 4

das Basisteil der maschinenseitigen Befestigungseinrichtung in Draufsicht (in Figur 2 von oben).

An embodiment of the invention will be explained with reference to the drawing. Show it:

FIG. 1

a grinding plate connected in cross section by means of a device according to the invention with the driven part of a machine tool,

FIG. 2

the arrangement of Figure 1 without the stripping section in an exploded view,

FIG. 3

the sanding pad of the arrangement according to Figures 1 and 2 in plan view (in Figure 2 from above) and

FIG. 4

the base part of the machine-side fastening device in plan view (in Figure 2 from above).

From the drawing is a grinding tool 1 in the form of a Sanding plate for grinding workpieces out, at the bottom of a 2 not in the drawing shown abrasive coating is interchangeable attached. Instead of a sanding plate could also be a Act grinding wheel. The grinding tool 1 is provided with a Stripping part 3 of a motor machine tool detachable rotatably connected, so that it is in operation when the machine tool is turned on, performs a rotating movement. The further training of the driven part 3 in detail interested in connection with the present invention not further.

The bonding of the grinding tool 1 to the driven part 3 takes place by means of a tool-side fastening device 4 and a machine-side fastening device 5, each having a threaded portion 6 and 7 and over their threaded sections 6, 7 are screwed together. A the thread parts, expediently the tool-side threaded portion 6, has an internal thread 8. Accordingly forms the other thread part, expediently the machine side Thread part 7, one with the internal thread 8 cooperating external thread 9.

In principle, however, the arrangement could also be reversed like this be that the tool-side fastening device with an external thread and the machine-side fastening device provided with an internal thread.

The tool-side fastening device 4 with the internal thread 8 carrying thread part 6 is an integral part of the grinding tool 1, that in the embodiment from a tool-side fastening device 4 having tool top 10 made of hard plastic is, on the underside of a softer foam body 11th is attached to the bottom of the abrasive coating is attached.

The machine-side fastening device 5 is how is still described, made up of several items and will firmly connected to the output part 3, so that they on the Machine tool remains. It is understood that they, for example also be taken away for repair purposes can.

If you screw the grinding tool 1 with its internal thread. 8 on the external thread 9 of sitting on the machine tool Tool-side fastening device 4, passes a support surface 12 of the tool-side fastening device 4th for engagement with a support surface 13 of the machine-side fastening device 5, so that the grinding tool 1 supported on the machine side via the support surfaces 12, 13. Both Support surfaces 12, 13 have an annular shape and are coaxial with the axis of rotation 14 of the driven part. 3 and thus also the grinding tool 1. It will the tool-side support surface 12 from the front side of the Tool-side threaded portion 6 and the machine-side support surface 13 from the bottom of a base member 15 of the Machine-side fastening device 5 is formed. The basic element 15 is in the radial direction over the threaded portion 7 of the machine-side fastening device 5 before. At This projecting area is the machine-side support surface 13 arranged.

One of the two fastening devices, expediently the machine-side fastening device 5, contains a Spring device 16 expediently in the form of a plate spring 17. The arrangement is such that the Machine-side thread pitch 7 against the spring force of Spring device 16 in the direction of the machine-side support surface 13 is mounted axially movable away. hereby is achieved that when screwing the grinding tool 1, if its support surface 12 for engagement with the machine side Support surface 13 has arrived, the grinding tool 1 still can be further rotated in the sense of screwing, where the machine-side threaded portion 7 against the spring force further into the tool-side internal thread 8 so to speak is involved. The tightening torque with which the Grinding tool 1 on the machine-side threaded portion 7 and the machine-side support surface 13 is tightened, is thus determined by the force of the spring means 16.

The under the relocating the machine-side threaded portion 7 against the spring force further screwing the Grinding tool 1 is limited. For this purpose, the tool side Fastening device 4 and the machine side Fastening device 5 each have at least one rotary end stop 18 or 19, which determine the rotary end position, to which the grinding tool 1 can be rotated. In this Drehendlage comes the at least one turn-stop 18 of the grinding tool 1 in the circumferential direction to the plant the at least one rotary end stop 19 of the machine side Fastening device 5.

In this way, the maximum tightening torque is predetermined. A stronger tightening of the grinding tool is not possible.

The tightening is not practically abrupt as in usual case of a rigid arrangement of the machine side Thread part relative to the associated support surface but over a longer turning distance against the spring force, until the final rotational position is reached.

From the drawing is also apparent that expediently three evenly distributed over the circumference tool side Rotary end stops 18 and accordingly three machine-side Rotary end stops 19 are provided.

The two thread sections 6, 7 are due to space in axial Direction as short as possible. Especially in context hereby it is advantageous that the two threaded parts 6, 7 each a multi-start thread with at least two angularly offset threads exhibit. In the expedient embodiment has both the tool-side internal thread 8 and the machine side External thread 9 three such internal threads 20 and external threads 21 on. The external threads 21 are relatively short in the circumferential direction and arranged one behind the other without overlapping. there is between the outer threads 21 a distance provided so that in Figure 2 at the machine side Gewindepartie 7 only one of the three external threads 21st is visible.

The angle of rotation, over which the two threaded sections 6, 7 in threaded engagement with each other should, because of the three rotary Endanschlagspaare 18, 19 be less than 120 °. Would only such a rotary end stop pair would have to exist the maximum angle of rotation is less than 360 °.

The machine-side Gewindepartie 7 is of a threaded part 22 formed in the axial direction already mentioned Base element 15 is adjacent. This is the Base element 15 at the attached with grinding tool 1 this opposite side of the threaded part 22. The base element 15 and the threaded portion 22 are separate from each other Parts.

As already mentioned, the base element 15 stands in radial direction, expediently circumferential, over the threaded part 22 before and has at the above area the Support surface 13 on.

The spring force generating spring device described 16 engages of the base element 15 opposite side forth on the threaded portion 22 at. The threaded portion 22 has a can-like Shape with a the base member 15 facing Floor 23, from which the threaded portion 7 protrudes. The spring device 16, i. the plate spring 17, is in the of the Threaded part 7 enclosed space of the threaded portion 22 used and cooperates with the threaded part bottom 23.

The base member 15 and the threaded portion 22 are mounted in the State non-rotatable and in the axial direction relative to each other movably connected. These are the basic element 15 and the threaded portion 22 rotatably inserted into each other. For this purpose, in the embodiment of the threaded part 22 distributed over the circumference arranged pocket-like recesses 24 is provided, which are open to the base member 15. These pocket-like recesses 24 are each a plug-in projection 25 assigned to the base member 15. The in the bag-like Recesses 24 inserted plug-in projections 25th make a non-rotatable, but axially movable connection ago.

The spring means 16, the threaded part 22 and the base part 15 are in this order of a locking screw 26 penetrated, with the machine-side fastening device 5 is fixed to the driven part 3. It will the locking screw 26 with its protruding from the base part 15 Scope screwed into the driven part 3.

So that the maximum tightening torque of the grinding tool 1 regardless of how tight the locking screw 26 is tightened is a spacer box 27 is present, which is aligned arranged mutually Axialausnehmungen 28, 29 of the threaded part 22 and the spring means 16 passes through and on the Base element 15 is supported. The spacer bushing 27 secures further the spring device 16 in the axial direction. The latter takes place by means of a radially projecting annular collar 30 of the spacer bushing 27, the spring means 16 to the axial recess 29 engages around. The locking screw 26 passes through the axial recesses 28, 29 of the threaded part 22 and the spring device 16 so to speak lining Spacer bushing 27 and an axial bore 31 of the base member 15. The locking screw 16 has at its the spacer sleeve 27 facing end a radially projecting screw head 32, which - directly or via an intermediate element - against the spacer bush 27 acts, so that in the stripping section. 3 screwed locking screw 26, the spacer sleeve 27th clamped between the screw head 32 and the base member 15 is. In this way, the spring device 16 remain and the threaded portion 22 unaffected by how strong the Locking screw 26 is tightened.

The screw head 32 has a hexagon socket for a turning tool on.

The spacer bushing 27 has at its radially outward projecting annular collar 30 opposite end one after radially inwardly directed annular shoulder 33 on which the in the interior of the spacer bushing 27 dipping screw head 32nd attacks.

The annular shoulder 33 encloses a passage opening 34 for the passage of the locking screw 26th

The base member 15 has at least in its radial Direction on the machine-side thread part 7 above Area a plate-like shape.

The machine-side rotary end stops 19 are on the base element 15 arranged. It is expediently provided that the rotary end stops 19 on the circumference of the base element 15 protrude radially outward.

The rotary end stops 18 of the tool-side fastening device 4 may each be facing from the circumferentially End face 35 of a strip-like Anformung 36 formed which are radially outside of the tool-side support surface 12 is arranged and extends in the circumferential direction. The mounted with abrasive tool 1 the base part 15 of the machine-side fastening device 5 facing Top 37 of the strip-like projections 36 extends the Slope of the internal thread 8 is inclined accordingly, so that the strip-shaped projections 36 screwing the Do not hinder grinding tool 1.

Claims (18)

Device for releasably connecting a plate-shaped or disc-shaped grinding tool with a machine tool driving the tool during operation, with a tool-side fastening device and a machine-side fastening device, each having a threaded portion and screwed together through their threaded portions, wherein one of the threaded sections External thread and the other part has an internal thread and the two fastening devices are screwed together supported on support surfaces against each other, characterized in that one (7) of the threaded parts against a spring force (spring means 16) in the direction of the support surface (13) of the relevant Threaded part (7) having fastening means (5) is mounted axially movable away and that the tool-side fastening means (4) up to a rotation by end stops (18, 19) predetermined Dre h end position with the machine-side fastening device (5) can be screwed. Apparatus according to claim 1, characterized in that the two threaded portions (6, 7) over a maximum angle of rotation of less than 360 ° in threaded engagement with each other. Apparatus according to claim 2, characterized in that the threaded portions (6, 7) each have a multi-start thread (8, 9) with at least two angularly offset from each other arranged threads (20, 21). Apparatus according to claim 3, characterized in that the threaded portions (6, 7) each have a three-start thread (8, 9). Device according to one of claims 1 to 4, characterized in that the counter to the spring force movably mounted threaded portion (7) on the machine-side fastening means (5) is arranged. Device according to one of claims 1 to 5, characterized in that the external thread (9) on the threaded portion (7) of the machine-side fastening device (5) and the internal thread (8) on the threaded portion (6) of the tool-side fastening device (4) is arranged , Apparatus according to claim 6, characterized in that the machine-side fastening means (5) has a threaded portion (7) forming threaded part (22) which is in the axial direction of a threaded part (22) separate base member (15) adjacent, in the radial direction projects beyond the threaded portion (7) and the machine-side support surface (13), wherein the spring force generating spring means (16) of the base member (15) opposite side on the threaded portion (22) engages. Device according to one of claims 1 to 7, characterized in that the spring device (16) by a plate spring (17) is formed. Apparatus according to claim 7 or 8, characterized in that the base element (15) and the threaded part (22) are rotatably inserted into one another. Device according to one of claims 7 to 9, characterized in that the threaded part (22) has a can-like shape with the base element (15) facing the bottom (23) from which the threaded portion (7) protrudes. Apparatus according to claim 10, characterized in that the spring device (16) with the bottom (23) of the threaded part (22) cooperates. Device according to one of claims 7 to 11, characterized in that the spring device (16), the threaded part (22) and the base part (15) in this order of one of the machine-side fastening means (5) on a driven part (3) of the machine tool fixing Locking screw (26) are reached. Apparatus according to claim 12, characterized in that the threaded part (22) and the spring means (16) aligned with each Axialausnehmungen (28, 29), by a on the one hand in the axial direction of the base member (15) supporting and on the other hand, the spring means ( 16) in the axial direction locking bushing (27) engages, through which and an axial bore (31) of the base member (15), the locking screw (26) extends with its radially projecting screw head (32) or an intermediate element against the spacer bushing (27 ) acts. Device according to one of claims 7 to 13, characterized in that at least in the radial direction over the threaded portion (7) projecting portion of the base member (15) has a plate-like shape. Device according to one of claims 7 to 14, characterized in that the base element (15) at least one rotary end stop (19) which cooperates with a rotary end stop (18) on the tool-side fastening means (4). Apparatus according to claim 15, characterized in that the at least one rotary end stop (19) of the base member (15) on the periphery of the base member (15) protrudes radially outward. Device according to one of claims 6 to 16, characterized in that the tool-side fastening device (4) has at least one rotary end stop (18) which cooperates with a rotary end stop (19) on the machine-side fastening device (5). Apparatus according to claim 17, characterized in that the at least one rotary end stop (18) of the tool-side fastening device (4) of the circumferentially facing end face (35) arranged radially outside the tool-side support surface (12), extending in the circumferential direction, strip-like Anformung (36) is formed, the top (37) of the pitch of the internal thread (8) extends correspondingly inclined.

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