EP2260976B1 - Surface grinding machine and device for setting up same - Google Patents

Abstract

The grinder (10) has a grinding tool, and a work piece holder (16) for holding a work piece. A drive device (56) drives the work piece holder in a rotational direction. A coupling device (58) i.e. electromagnetic coupling, provides a rotationally fixed connection between the drive device and work piece holder, where the connection is releasable at a preset limit torque by sliding the coupling device. A controller (60) adjusts the limit torque of the coupling device based on an actual resulting maximum drive torque. An independent claim is also included for a method for adjusting a surface grinder.

Description

The present invention relates to a surface grinding machine comprising at least one grinding tool, a workpiece holder for holding at least one workpiece, and drive means for driving the workpiece holder in a rotational direction.

In surface grinding machines of the type mentioned above, the workpiece holder is used to bring a held on the workpiece holder workpiece in engagement with at least one grinding tool. In this case, it is necessary to be able to fix an unprocessed workpiece with high accuracy to the workpiece holder, so that when the workpiece is introduced into the processing area of the grinding tool, the workpiece, the workpiece holder and the grinding tool are not mutually connected tilt. Corresponding careful coordination is required in the region of a workpiece outlet of the machining area in order to avoid tilting between the workpiece, the workpiece holder, the grinding tool and an outlet guide adjoining the machining area in this area.

In addition, a transfer of unprocessed workpieces from a loading device in workpiece holders of the workpiece holder is critical. In this area, too, it is possible that, if all components are not exactly matched, a workpiece will become jammed with these components. All this means that a surface grinding must be very carefully set up to avoid damage to components of the surface grinding machine and / or workpieces.

From the US 2004/0166778 A1 a lapping device is known, which comprises a two-stage drive for driving a workpiece holder. Each drive stage comprises a clutch which can be shifted in dependence on a torque measured on an output shaft.

On this basis, the present invention has the object to prevent damage to a surface grinding machine.

This object is achieved according to the invention in a surface grinding machine of the type mentioned above by a coupling device having the features of patent claim 1.

The surface grinding machine according to the invention makes it possible to have a rotationally fixed connection between the drive device and the workpiece holder as a function of a predefinable To release limit torque. This makes it possible to apply the drive torques required for a surface grinding machining of a workpiece, but when a limit torque is reached, the rotationally fixed connection is released. This has the consequence that the drive device can be decoupled from the workpiece holder and damage described above the surface grinding machine can be prevented. Once the predefinable limit torque is exceeded, it is prevented by releasing the rotationally fixed connection between the drive device and the workpiece holder, that the workpiece holder is driven in a canted with a workpiece and / or with other components of the surface grinding machine state in the direction of rotation.

The surface grinding machine according to the invention is particularly advantageous when a disk-shaped workpiece holder is used whose height is, for example, a maximum of about 1 cm or only a few millimeters. Such a flat workpiece holder has the advantage that also the machining of very flat workpieces is possible, but has the disadvantage that the workpiece holder does not have a high deformation resistance. Since the workpiece holders may have a large area with a diameter of 50 cm to 100 cm or more in comparison with their thickness, they are particularly susceptible to deformation due to tilting of the workpiece holder with a workpiece and / or with other parts of the surface grinding machine.

Due to the solvability of the rotationally fixed connection between the workpiece holder and the drive device and the concomitant stop the workpiece holder and other components of the surface grinding machine from damage be protected, for example in the range of a workpiece inlet and a workpiece outlet of the machining area. The same applies to the protection of any existing placement device, by means of which the workpiece holder can be equipped with unprocessed workpieces. As a result, a measuring device optionally arranged in the region of the workpiece holder for measuring a geometry of a machined workpiece is also protected from damage.

The surface grinding machine according to the invention also makes it possible to set them up with less care and with higher tolerances.

In the context of the invention, it is possible that the predetermined limit torque is set manually, for example, based on empirical values. However, it is preferred if a control device is provided which adjusts the limit torque of the clutch device as a function of an actually occurring maximum drive torque. In this case, it is preferable if the limit torque is set higher than the actually occurring maximum drive torque in order to prevent inadvertent release of the rotationally fixed connection.

The coupling device is designed in the form of an electromagnetic clutch. This has the advantage that the limit torque is particularly precisely adjustable.

The non-rotatable connection is a frictional connection. As a result, the mechanical load of mutually engaging coupling elements can be reduced.

The surface grinding machine is preferably designed as a double-surface grinding machine which has two grinding tools, between which a grinding gap is formed, in which a workpiece can be processed on mutually opposite workpiece surfaces. The invention further relates to a method for setting up a surface grinding machine, wherein the surface grinding machine comprises at least one grinding tool, a workpiece holder for holding at least one workpiece and a drive device for driving the workpiece holder in a rotational direction.

The present invention has the further object of providing a method for setting up a surface grinding machine, with which damage to the surface grinding machine can be prevented.

This object is achieved by a method having the features of patent claim 4.

Advantages and embodiments of the method according to the invention have in part already been explained above in connection with the advantages and refinements of the surface grinding machine according to the invention. Therefore, in the following only those advantages and embodiments of the method according to the invention will be discussed, which have not already been explained above in connection with the advantages and embodiments of the surface grinding machine according to the invention.

By determining an actually occurring maximum drive torque with the aid of at least one sample workpiece, drive torques occurring during regular operation of the surface grinding machine can be determined in a simple manner and accurately. The limit torque, which is then to be specified in the regular operation of the surface grinding machine, is determined as a function of the actually occurring maximum drive torque.

One possibility for detecting the actually occurring maximum drive torque is to detect the energy requirement of the drive device. For example, voltage and / or current values with which the drive device is operated can be detected.

Additionally or alternatively, it is possible to measure the actually occurring maximum drive torque with a torque-measuring device. Preferably, such a measuring device is arranged in a spatial relationship to the coupling device, for example between the drive device and the coupling device or between the coupling device and the workpiece holder.

It is also preferable if the limit torque is equal to the maximum drive torque multiplied by a factor of greater than one. In this way, it can be ensured that slight exceedances of the maximum drive torque measured with the aid of the sample workpiece do not lead to an undesirable release of the clutch device in the regular operation of the surface grinding machine.

Preferably, the limit torque is equal to the maximum drive torque multiplied by a factor of less than 1.5. In particular, the factor is between 1.1 and 1.3. These factors provide a good compromise between overload protection of the components of the surface grinding machine and an interruption-free operation.

It is furthermore preferred if the at least one sample workpiece has the same geometry as a raw workpiece that is to be flat-ground by means of the surface grinding machine. As a result, the actually occurring maximum drive torque can be determined particularly accurately. In this context, it is advantageous if maximum drive torques determined with the aid of trial workpieces and, if appropriate, their associated limit torques are stored, so that these values are already known and can be used after a new set-up of the surface grinding machine.

Advantageously, the maximum drive torque is determined when an engagement surface between the at least one grinding tool and the at least one sample workpiece is maximum. In this state of the surface grinding machine, the friction surfaces between the workpiece and the grinding tool are maximized, so that maximum drive torques occur in this state. If a plurality of workpieces are simultaneously machined in the processing area, the maximum drive torque and thus the limit torque increase accordingly.

Further features and advantages of the invention are the subject of the following description and the diagrammatic representation of a preferred embodiment.

Figur 1

eine Draufsicht einer Ausführungsform einer Planschleifmaschine;

Figur 2

eine Seitenansicht der Planschleifmaschine gemäß Figur 1, in welcher eine Antriebseinrichtung und eine Kupplungseinrichtung dargestellt ist; und

Figur 3

eine Seitenansicht der Kupplungseinrichtung gemäß Figur 2.

In the drawings show:

FIG. 1

a plan view of an embodiment of a surface grinding machine;

FIG. 2

a side view of the surface grinding machine according to FIG. 1 in which a drive device and a coupling device is shown; and

FIG. 3

a side view of the coupling device according to FIG. 2 ,

An embodiment of an in FIG. 1 Plane grinding machine designated overall by the reference numeral 10 is designed as a double-surface grinding machine and comprises two grinding wheels, of which in FIG. 1 an upper grinding wheel 12 is indicated in dot-dashed form. The upper grinding wheel 12 and the lower grinding wheel are each rotatably driven about a grinding wheel axis 14.

The surface grinding machine 10 further comprises a disc-shaped workpiece holder 16 which is rotatably driven about a workpiece holder axis 18. The workpiece holder axis 18 and the grinding wheel axis 14 are mutually parallel or inclined by a few degrees, for example up to a maximum of 5 °, relative to each other.

The workpiece holder 16 comprises a plurality of workpiece holders 20, which are preferably identically spaced in the radial direction relative to the workpiece holder axis 18 and are also preferably identically spaced relative to one another as viewed in the circumferential direction. Preferably, the workpiece holder 16 has at least two, in particular at least ten, workpiece holders 20. A workpiece holder 20 can be formed for example by a hole-shaped material recess, which serves to receive a workpiece. In FIG. 1 a workpiece 22 is shown hatched for reasons of clarity.

The surface grinding machine 10 has an assembly area 24, in which unprocessed workpieces 22 can be inserted into a workpiece holder 20. The insertion can be done by hand or by means of a loading device 26, which in particular has a magazine 28 for storing unprocessed workpieces 22.

The surface grinding machine 10 further includes a machining area 30 in which workpieces 22 held on the workpiece holder 16 are in face-grinding engagement with the upper grinding tool 12 and with the lower grinding tool.

Furthermore, the surface grinding machine 10 comprises a removal region 32, in which workpieces 22 can be removed from the workpiece holders 20.

In the processing area 30, the upper grinding tool 12 and the lower grinding tool are spaced apart from each other, so that a grinding gap is formed, in which workpieces 22 are received and supported in relation to the direction of gravity down and up. Outside the processing area 30, the workpieces 22 are supported in the placement area 24 and in the removal area 32 at the bottom with the aid of workpiece supports not shown in the drawing.

The surface grinding machine 10 comprises a measuring device 34, which is arranged in an input region of the removal region 32. With the aid of the measuring device 34, a parallel to the extension direction of the grinding gap applied thickness of a workpiece 22 is measured.

The surface grinding machine 10 has, adjacent to the processing area 30, a first guide device 36 in the region of an inlet of the processing area 30 and a second guide device 38 in the area of an outlet of the processing area 30. The guide devices 36 and 38 each have a plate-shaped guide element 40, 42 which has a guide surface 44 or 46 facing the workpiece holder 16. The guide surfaces 44, 46 are each provided with a boundary 48 or 50.

With the help of the guide member 40 of the first guide means 36 unprocessed workpieces 22 can be pressed down against a workpiece support, not shown, with respect to the direction of gravity, so that a workpiece relative to the direction of gravity exactly aligned relative to the grinding gap between the upper grinding tool 12 and the lower grinding tool can be. In a corresponding manner, a machined workpiece 22 can be guided out of the processing area 30 with the aid of the guide element 42 of the second guide device 38.

The surface grinding machine 10 further has in the removal region 32 on a workpiece removal 52, which is formed in particular in the form of a chute. About the workpiece removal 52 held on the workpiece holder 16, finished machined workpieces 22 downwards removed from the workpiece holders 20 and removed.

For driving the workpiece holder 16 about the workpiece holder axis 18 in a direction of rotation 54, a drive device 56 is provided, which is designed in particular in the form of an electric motor.

The drive device 56 does not act directly on the workpiece holder 16, but with the interposition of a coupling device 58. The coupling device 58 establishes a rotationally fixed connection between the drive device 56 and the workpiece holder 16 in an engaged state. Depending on a predefinable limit torque, the rotationally fixed connection of the coupling device 58 is released.

The limit torque of the clutch device 58 is controlled by means of a control device 60, which preferably also communicates with the drive device 56 for prescribing an energy requirement of the drive device 56.

The coupling device 58 is preferably in the form of an electromagnetic clutch 62, which in FIG. 3 is shown in more detail.

An input torque of the drive device 56 is transmitted to a friction lining carrier 66 by means of an input shaft 64. The Reibbelagträger 66 has a Reibbelagaufnahme 68, in which a particular annular friction lining 70 is received. The friction lining 70 is movable relative to the workpiece holder axis 18 in the axial direction. The friction lining 70 has on its peripheral surface a toothing 72 which has a in Direction of rotation produces a positive connection with a corresponding toothing of the friction lining receptacle 68.

The friction lining 70 is magnetizable, so that it can be attracted by an annular electromagnet 74. The solenoid 74 is rotatably connected to a solenoid holder 76, in which a coil, not shown, is integrated, which can be energized by means of a terminal 78. When energizing the coil, the electromagnet 74 generates a magnetic field, which presses the friction lining 70 against the electromagnet 74, so that a frictional engagement between these partners arises. The strength of the frictional connection is dependent on the energization of the electromagnet 74, which is predetermined by means of the control device 60.

The magnet carrier 76 is non-rotatably connected to an output shaft 80, which is rotatably mounted in a stationary housing 84 via roller bearings 82.

The output shaft 80 is rotatably connected at its end facing away from the coupling device 58 with a Werkstückhalterauflager 86. Furthermore, the said end of the output shaft 80 is connected to a bolt 88, which penetrates a central recess of the workpiece holder 16. This cooperates with a clamping sleeve 90, with which a clamping bell 92 can be pressed from above onto the workpiece holder 16.

Between the Werkstückhalterauflager 86 and the lower side of the workpiece holder 16 annular spacers 94 are arranged, which allow adaptation to different thicknesses of different workpiece holder 16.

The workpiece holder 16 is fixed against rotation between the spacer elements 94 and the clamping bell 92.

To set up the surface grinding machine 10, for example, eight sample workpieces can be used, which are introduced into the processing area 30, so that they are simultaneously in engagement with the upper grinding tool 12 and the lower grinding tool. For a transport of the sample workpieces, a drive torque of the drive device 56 is required, which correlates with the energy requirement of the drive device 56. From this, an actually occurring maximum drive torque can be determined, which is then multiplied by a factor of, for example, between 1.1 and 1.3. This results in a limit torque, which can be adjusted by means of the control device 60 on the coupling device 58 by appropriate energization of the electromagnet 74.

Subsequently, unprocessed workpieces 22 can be fed out of the loading device 28 out of the workpiece holder 16 and introduced into the processing region 30. After processing of the workpieces, these are brought out of the processing area 30 in the direction of rotation 54 by further movement of the workpiece holder 16 so that they can be removed from the workpiece holder 16 in the removal area 32.

It is possible that the workpiece holder 16 is operated stepwise or continuously rotated.

If, during operation of the surface grinding machine 10, a workpiece 22 canted, for example, in the region of the exit of the magazine 28 in the direction of the Workpiece holder 16 or in the region of the boundary 48 of the first guide means 36 or in the region of the boundary 50 of the second guide means 38, this causes an exceeding of the limit torque, whereby the rotationally fixed connection of the coupling means 58 between the drive means 56 and the workpiece holder 16 is released by the Friction lining 70 slips on the electromagnet 74.

The above-described possibility of tilting a workpiece 22 is due not only to the fact that possibly parts of the surface grinding machine 10 were not set up exactly, but also in that workpieces 22 float in the processing area 30 by the use of cooling liquid, so that it with the boundaries 48 , 50 or collide with a boundary of the grinding tools.

In an alternative embodiment, not shown in the drawing, the coupling device 58 is arranged with respect to the workpiece holder 16 on a side facing away from the drive means 56, for example between the clamping sleeve 90 and the clamping bell 92nd

Claims (10)

1. A surface grinder (10) comprising at least one grinding tool (12), a workpiece holder (16) for holding at least one workpiece (22), and a drive unit (56) for driving the workpiece holder (16) in a rotational direction (54), characterized by a clutch device (58) which is constructed in the form of an electromagnetic clutch (62) that provides a rotationally fixed connection between the drive unit (56) and the workpiece holder (16) by frictional engagement of a friction lining (70) and an electromagnet (74), the connection being releasable at a specifiable limit torque by slippage of the friction lining (70) on the electromagnet (74).
2. The surface grinder (10) according to claim 1, characterized by a control unit (60) that sets the limit torque of the clutch device (58) as a function of an actually occurring maximum drive torque.
3. The surface grinder (10) according to one of the preceding claims, characterized in that the surface grinder (10) is constructed as a double surface grinder.
4. A method for setting up a surface grinder (10), wherein the surface grinder (10) comprises at least one grinding tool (12), a workpiece holder (16) for holding at least one workpiece (22) and a drive unit (56) for driving the workpiece holder (16) in a rotational direction, characterized in that during the grinding of at least one sample workpiece an actually occurring maximum drive torque is determined, and in that by means of a clutch device (58) which is constructed in the form of an electromagnetic clutch (62) a rotationally fixed connection is produced between the drive unit (56) and the workpiece holder (16) by frictional engagement of a friction lining (70) and an electromagnet (74), the connection being releasable by slippage of the friction lining (70) on the electromagnet (74) at a limit torque determined as a function of the maximum drive torque.
5. The method according to claim 4, characterized in that the actually occurring maximum drive torque is determined by detecting the energy requirement of the drive unit (56).
6. The method according to claim 4 or 5, characterized in that the actually occurring maximum drive torque is measured with a torque measurement device.
7. The method according to any one of claims 4 to 6, characterized in that the limit torque is equal to the maximum drive torque multiplied by a factor greater than 1.
8. The method according to any one of claims 4 to 7, characterized in that the limit torque is equal to the maximum drive torque multiplied by a factor of less than 1.5.
9. The method according to any one of claims 4 to 8, characterized in that at least one sample workpiece has the same geometry as a non-machined workpiece (22) to be surface-ground by means of the surface grinder.
10. The method according to any one of claims 4 to 9, characterized in that the maximum drive torque is determined when an engagement surface area between the at least one grinding tool (12) and the at least one sample workpiece is at a maximum.

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