DE202013007657U1 - Drilling device for drilling boreholes in a brush body - Google Patents

Abstract

Drilling device (1) for drilling bores (2) intended for tamping into a brush body (3), having a drill holder (7) which can be driven in rotation by means of a drive motor (9) and carries a drill (8), and with a brush body holder (10) which is movable for positioning the brush body (3) relative to the drill (8) in the longitudinal and transverse direction of the brush body (3), wherein the drill holder (7) carrying the drill (8) at an angle to Brush body (3) is movable, characterized in that the drill holder (7) is rotatably mounted and with a shaft (12) in drive connection, on which shaft a gear or a pulley (13) rotatably, but longitudinally displaceable, that the Shaft (12) is designed as Kugelutwelle and the gear or the pulley (13) via a Kugeluthülse (20) on the Kugelutwelle rotationally fixed, but is guided longitudinally displaceable, and that the gear or the pulley (13 ) via a corresponding gear or a drive belt (14) with the drive motor (9) is in drive connection.

Description

The invention relates to a drilling device for drilling, for drilling certain bores in a brush body, with a drill holder, which is rotatably driven by a drive motor and carries a drill, and with a brush body holder, which is for positioning the brush body relative to the drill in Can be moved longitudinally and transversely of the brush body, wherein the drill holder carrying the drill bit is angularly movable to the brush body.

For example, to make household brushes or technical brushes, a brush body is used, in which a plurality of boreholes is incorporated in order to be able to fix a bristle bundle in each of these boreholes by means of a tamping machine. In order to be able to drill the desired number of boreholes in a brush body, various drilling devices have already been developed. Thus, for example, drilling devices have been provided in which the drill required for drilling the boreholes is carried by a rotatably mounted drilling spindle which is in drive connection with a drive motor via a belt drive. Also already known drilling devices, in which the drill spindle is provided directly on the motor shaft of a drive motor. While the drills have belt drive drills with low torque, high torque operation, drills where the drill spindle is seated directly on the motor shaft of the driveline are preferred for high speed drilling. However, such high-speed drilling may result in some plastic brush bodies to heat the plastic and cause undesirable fusing.

Drilling devices in which the drill spindle is in drive connection with the drive motor via a belt drive, can not compete with the high speeds of such drilling devices, in which the drill spindle is arranged directly on the motor shaft, because the spindle bearings in addition to the operating forces the huge inertia forces of the pulley through the Drilling movement itself and beyond even have to withstand the radially attacking Rimenzugkräfte. In order for the spindle bearings to be able to withstand these forces, generally larger spindle bearings are required if a comparable service life is to be achieved; but the larger spindle bearings also result in a reduction of the maximum speed. In addition, the required for driving connection belt at high speeds life problems, occasionally may fall unintentionally due to the high centrifugal forces and is very loud. While drilling devices with a drilling spindle directly on the motor shaft reach speeds of 30,000 revolutions per minute, such drilling devices in which the drilling spindle is drive-connected to the drive motor via a belt drive run at maximum revolutions of 23,000 rpm.

A drill spindle, which runs separately from the drive motor, generally has the advantage that the drive motor does not have to be moved. If the drive motor must be moved, a higher wear of the driving parts, such as levers, bearings or rollers, the result and there is a risk of cable breakage, since just the internal motor cables mitbeschleunigt. The latter is the main cause of a spindle failure with directly driven drill spindles. In addition, depending on the design of the cooling hose of the drill spindle must be moved. Drilling devices in which the drilling spindle is drive-connected to the drive motor via a belt drive offer the further advantage of easier maintenance, since in the event of repair the mechanic only works on the mechanics of the drilling spindle and does not also deal with the electrics or electronics of the mechatronic spindle must, which often leads to an excessive demand and is also very faulty.

From the EP 1 493 354 B1 already known a drilling device of the type mentioned. The previously known drilling device has a drive motor, on the motor shaft, a drill spindle is arranged, which carries a drill. In order to move the drill in the direction of a brush body and to be able to remove after drilling each hole again from the brush body, the drive motor is provided on the carriage of a linear guide. The previously known drilling apparatus has a brush body holder, which is movable in the longitudinal direction for rowwise drilling of the boreholes and can be pivoted in the transverse direction of the brush body. A disadvantage of this known drilling apparatus is that the drive motor placed on the carriage of the linear guide must be moved back and forth, and that the inertial forces caused thereby can impair the sliding speed of the carriage.

There is therefore a particular object to provide a drilling device of the type mentioned above, which is characterized by long service life and maintenance intervals, by comparatively high processing speeds and by a simplified maintenance.

The achievement of this task in the drilling device of the type mentioned in particular is that the drill holder is rotatably mounted and with a shaft in Drive connection is on which shaft a gear or a pulley rotatably, but longitudinally displaceable, that the shaft is formed as a ball and shaft shaft and the pulley on a Kugeluthülse on the ball shaft non-rotatably, but longitudinally displaceably guided, and that the gear or the pulley is in drive connection via a corresponding gear or a drive belt with the drive motor.

The drilling device according to the invention has a drill spindle or the like drill holder, which drill holder is rotatably mounted. The drill holder is drive-connected to a shaft on which shaft a gear or pulley rotatably but longitudinally displaceable. The gear located on the shaft or on the shaft located pulley is connected via a corresponding gear or a drive belt with the drive motor in drive connection. Since the gear or the pulley rotatably but longitudinally displaceable on the shaft, the drill holder for drilling the holes can be moved back and forth without the relatively heavy drive motor must be moved along. Since therefore excessive inertia forces are avoided, comparatively fast sliding movements with the drill holder are possible. Since oversized inertial forces are avoided, smaller drill holder bearings can be used to support the drill holder. Since the drive motor does not support the drill holder directly, the maintenance and repair of these components of the drilling device according to the invention is substantially simplified.

In order to absorb high torsional loads and to further favor the long service life of the drilling device according to the invention, the invention provides that the shaft is designed as a ball spline shaft and that the gear or pulley rotatably on a Kugeluthülse on the ball screw shaft, but is guided longitudinally displaceable.

In order to be able to reciprocate the drill holder at an angle to the brush body to be processed, it is advantageous if the drill holder is displaceably guided via a linear guide.

In order to be able to move the drill holder at high sliding speeds at an angle to the brush body to be machined, it is advantageous if the drill holder can be displaced via an eccentric drive into oscillating sliding movements, which eccentric drive converts the rotary movement of a drill holder drive into the oscillating sliding movements of the drill holder.

In this case, a preferred embodiment according to the invention provides that the drill holder drive carries an eccentric which is connected via a crank with a carriage of the linear guide in drive connection and that on the carriage of the drill holder is rotatably mounted.

It may be advantageous if the drill holder is connected to the shaft via a coupling, which coupling is able to compensate for an axial offset between the drill holder and the shaft.

Further developments according to the invention will become apparent from the drawing in conjunction with the description of the figures and the claims. The invention will be described in more detail below with reference to a preferred embodiment.

In the single figure, a drilling apparatus is shown in a schematic perspective view, which drilling device is intended for drilling boreholes in a brush body, which boreholes are to serve for stuffing with bristles.

In the single figure is a drilling device 1 shown with the drill holes 2 in a brush body 3 can be drilled in which holes 2 then be anchored by means of a stuffing device not shown bristle bundles.

The drilling device shown here 1 , which may also be part of a much more complex brush-making machine, has a base plate 4 on. On the base plate 4 the drilling device 1 is a linear guide 5 with a sledge 6 intended. On the sledge 6 is a drill holder 7 rotatably mounted, a twist drill or the like drill 8th wearing. The one on the sled 6 located drill holder 7 is about the linear guide 5 slidably guided and by means of a drive motor 9 rotatably driven.

The drilling device 1 has a brush body holder 10 on. To a brush body to be machined 3 in the brush body holder 10 to be able to fix, has the brush body holder 10 clinch 11 , between which the brush body to be processed 3 can be clamped. The brush body holder 10 is for positioning the brush body 3 relative to the drill 8th in the longitudinal and in the transverse direction of the brush body 3 movable while holding the drill 8th carrying drill holder 7 angled and in particular at right angles to the brush body 3 can be moved back and forth. While the brush body holder 10 can be moved in the X and Y directions, is the rotatably mounted drill holder 7 movable in Z-direction.

The drill holder 7 stands with a wave 12 in drive connection, on which shaft 12 a first pulley 13 rotatably but longitudinally displaceable. The wave 12 may be formed as a ball groove shaft on which the pulley on a Kugeluthülse 20 is guided longitudinally displaceable. The first pulley 13 is about a drive belt 14 with the drive motor 9 in drive connection. The drive belt 14 runs between the on the shaft 12 located first pulley 13 and a comparatively larger second pulley 15 , which sits on the motor shaft of the drive motor.

Because the first pulley 13 non-rotatable but longitudinally displaceable on the shaft 12 can be arranged, the drill holder 7 for drilling the boreholes 2 be moved back and forth without the comparatively heavy drive motor 9 has to be moved. Therefore, since increased inertial forces are avoided, also comparatively fast sliding movements with the drill holder 7 possible. As the drive motor 9 the drill holder 7 does not bear directly, the maintenance and repair of these components is greatly simplified.

The drill holder 7 is displaceable via an eccentric drive in oscillating sliding movements. The eccentric drive sets the rotational movement of a drill holder drive 16 in the oscillating sliding movements of the drill holder 7 around. The drill holder drive 16 contributes to an eccentric 17 who has a crank 18 with the sledge 6 the linear guide 5 is in drive connection. For a possible misalignment between the drill holder 7 and the wave 12 To compensate, the drill holder can 7 with the wave 12 via a clutch 19 be connected.

LIST OF REFERENCE NUMBERS

1

drilling

2

wells

3

brush body

4

baseplate

5

linear guide

6

carriage

7

drill holder

8th

drill

9

drive motor

10

Brush body holder

11

clip

12

wave

13

first pulley

14

drive belts

15

second pulley

16

Drill holder driving

17

eccentric

18

crank

19

clutch

20

Kugelnuthülse

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 1493354 B1 [0005]

Claims (5)

Drilling device ( 1 ) for drilling drilled boreholes ( 2 ) in a brush body ( 3 ), with a drill holder ( 7 ), which by means of a drive motor ( 9 ) is rotary drivable and a drill ( 8th ) and with a brush body holder ( 10 ) used to position the brush body ( 3 ) relative to the drill ( 8th ) in the longitudinal and in the transverse direction of the brush body ( 3 ) is movable, wherein the drill ( 8th ) carrying drill holder ( 7 ) at an angle to the brush body ( 3 ), characterized in that the drill holder ( 7 ) is rotatably mounted and with a shaft ( 12 ) is in drive connection on which shaft a gear or a pulley ( 13 ), but longitudinally displaceable, that the shaft ( 12 ) is designed as a ball groove shaft and the gear or the pulley ( 13 ) via a ball end sleeve ( 20 ) rotatably on the ball groove shaft, but is guided longitudinally displaceable, and that the gear or the pulley ( 13 ) via a corresponding gear or a drive belt ( 14 ) with the drive motor ( 9 ) is in drive connection. Drilling device according to claim 1, characterized in that the drill holder ( 7 ) via a linear guide ( 5 ) is guided displaceably. Drilling device according to claim 1 or 2, characterized in that the drill holder ( 7 ) is displaceable over an eccentric drive in oscillating sliding movements, which eccentric drive the rotational movement of a drill holder drive ( 16 ) in the oscillating sliding movements of the drill holder ( 7 ). Drilling device according to claim 3, characterized in that the drill holder drive an eccentric ( 17 ), which has a crank ( 18 ) with a carriage ( 6 ) of the linear guide ( 5 ) is in drive connection and that on the carriage ( 6 ) the drill holder ( 7 ) is rotatably mounted. Drilling device according to one of claims 1 to 4, characterized in that the drill holder ( 7 ) with the wave ( 12 ) via a coupling ( 19 ), which coupling ( 19 ) an axial offset between the drill holder ( 7 ) and the wave ( 12 ) compensate.

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