DE102015118906A1 - Positioning device for machining a workpiece by means of a drilling device and / or milling device - Google Patents

Abstract

The invention relates to a positioning device (1) for machining a workpiece by means of a drilling device and / or milling device, comprising a base plate (2) on which a plate designed as a carriage (3) for holding the workpiece is arranged, wherein the carriage plate (3) a linear guide (4) on the base plate (2) slidably mounted and relative to the base plate (2) is positionable. According to the invention, an eccentric shaft (5) and a spindle shaft (6) are provided for aligned positioning of the workpiece on the carriage plate (3) in parallel alignment with the linear guide (4), the lever device (7) being arranged on the base plate (2) Active compound stand.

Description

Technical environment

The invention relates to a positioning device for machining a workpiece by means of a drilling device and / or milling device, comprising a base plate on which a slide designed as a plate for holding the workpiece is arranged, wherein the carriage plate mounted by means of a linear guide on the base plate slidably and positioned relative to the base plate is.

State of the art

From the prior art it is known, for example in a drilling device, that the drill is arranged perpendicular to the working surface of a workpiece. Below the drilling device, a table is provided, on which the workpiece to be machined is fixed. In order to make a precise hole, it is necessary that the table in the horizontal plane must be positioned accordingly to align the drill so that a precise engagement of the drill into the workpiece takes place. For this purpose, it is known that, for example, with an adjusting spindles or with graduations on the carriage plate adjustment can be made so that when repeated drilling into a workpiece, an exactly identical hole can be created.

In these known from the prior art devices for positioning the carriage plate below the drill, it is considered disadvantageous that a precise finely tuned positioning and rapid adjustability of the carriage plate on which the workpiece is mounted, is not given sufficient to here a make exact drill neck on the workpiece.

problem

The invention thus raises the problem of a positioning device for machining a workpiece by means of a drilling device and / or milling device, comprising a base plate on which a carriage plate is slidably mounted to continue to form, in particular the carriage plate relative to the base plate a quick shift and a Fine adjustment allows, which can be made in the hundredth range.

solution

According to the invention the problem is solved with the features of claim 1, advantageous embodiments of the invention will become apparent from the dependent claims.

The advantages achieved with the invention consist in the fact that in particular the slide plate with respect to the fixed base plate leaves a quick shift and a fine-tuning, which can be made in the hundredth millimeter range. For this purpose, an eccentric shaft and a spindle shaft are provided for finely adjusted positioning of the workpiece on the carriage plate parallel to the linear guide, which are operatively connected via a arranged on the base plate lever means. Due to this arrangement of two shafts, which can be brought into operative connection via the lever device here, a finely adjusted positioning can be made. The base plate and carriage plate are connected to two lines. Below the slide plate, an eccentric shaft and a spindle shaft are arranged parallel to each other. On the base plate, a lever is mounted centrally between the eccentric shaft and the spindle shaft, mounted at one end of the lever below the spindle shaft, a ball bearing with a pitch angle rolling radially to the spindle axis, and at the other end of the lever below the eccentric shaft another ball bearing, which axially attached to the eccentric shaft rolling. The eccentric shaft here has an actuating lever, wherein a handwheel is attached to the spindle shaft. Due to this design is now achieved that exercise in the position of the eccentric shaft without pressure on the ball bearing, first a quick coarse adjustment in the direction of carriage plate takes place, which then takes place in the position reached the fine tuning on the spindle shaft, which occurs in operative connection when the Eccentric shaft is pivoted accordingly and exerts pressure on the ball bearing.

With regard to the function according to the invention, the following is made possible, that with the position of the eccentric shaft to the right, the carriage plate can be adjusted easily and quickly by hand. By turning the eccentric shaft down, the eccentric presses on the ball bearing and the lever is pressed down on this side. The ball bearing on the other side of the lever is thereby pressed upwards against the spindle shaft. If the handwheel is rotated on the spindle shaft in this position, the carriage plate can be positioned to within one hundredth of a millimeter. After reaching the exact position in the hundredth of a millimeter range, the eccentric is rotated further to the left until the eccentric abuts a clamping piece on the base plate. The carriage plate and the base plate are fixed together.

The peculiarity of the invention is characterized in that by the combination of the long eccentric shaft and the Rollringprinzips at each table position infinitely by tilting the eccentric lever and rotate the handwheel accurate positioning and fixation can be done. There is no axial displacement when engaging the spindle shaft or fixing the carriage plate. Due to the arrangement of the second ball bearing on the lever only an axial displacement and positioning with the spindle shaft is possible, otherwise an excessive braking effect between the lever and eccentric shaft would occur.

Thus, the invention proposes that for adjusting the positioning of the workpiece on the carriage plate on the carriage plate parallel to the lines, an eccentric shaft and a spindle shaft are provided which are operatively connected via a arranged on the base plate lever means. Here, the lever device is mounted centrally between the eccentric shaft and the spindle shaft pivotally mounted on the base plate. The lever device has ball bearings on each of its legs, which are each in operative connection with the eccentric shaft and the spindle shaft for adjusted positioning. In this case, the ball bearing arranged below the spindle shaft is arranged on the one leg of the lever device at a pitch angle radially to the spindle axis, wherein the ball bearing arranged below the eccentric shaft is arranged on the other leg of the lever device axially to the eccentric shaft.

According to a particularly advantageous embodiment of the invention, the bearing axis of the lever device is mounted at a pitch angle to a bearing block arranged on the base plate. Due to this design results in the radial to the spindle axis fitting ball bearing system. In a further development of the invention, an actuating lever is arranged on the eccentric shaft, with which the eccentric shaft can be pressed against the ball bearing of the one leg, wherein upon actuation of the lever means, the second ball bearing of the other leg presses against the spindle shaft. On the spindle shaft, a handwheel is provided for actuation, with the finely adjusted positioning of the carriage plate is feasible in the pivoted state of the lever means. In a further development, a clamping piece is arranged on the base plate, against which the eccentric shaft can be pressed in the adjusted state of the carriage plate.

The described embodiment of the positioning device is not limited to the linear guide in one direction. It is conceivable that a second positioning device is provided transversely to the first positioning device, so that a longitudinal and transverse positioning in the hundredths of a millimeter range can be carried out in the surface.

Description of the drawings

An embodiment of the invention is shown purely schematically in the drawings and will be described in more detail below. It shows:

1 an end view of the positioning device according to the invention and

2 a sectional plan view of the positioning device according to the 1 ,

embodiments

The 1 and 2 show a positioning device 1 for processing a workpiece not shown by means of a drilling device or a milling device, which is also not shown here in detail. The positioning device 1 this includes a base plate 2 on which a sled formed plate 3 is arranged to hold the workpiece, not shown. The slide plate 3 is here by means of a linear guide 4 at the base plate 2 slidably mounted and opposite the base plate 2 positionable, ie, the carriage plate 3 can be compared to the base plate 2 be held in a fixed position. According to the invention for adjusting the positioning of the workpiece on the carriage plate 3 an eccentric shaft 5 and a spindle shaft 6 provided, which has one at the base plate 2 arranged lever device 7 is in active connection. This is especially clear in the 2 to recognize where from the partially cut view of the 2 the lever device 7 recognizable, the here below the eccentric shaft 5 and the parallel extending spindle shaft 6 is arranged.

The lever device 7 is here in the middle between the eccentric shaft 5 and the spindle shaft 6 pivotable on the base plate 2 stored. How further from the 2 can be seen, the lever means 7 each on their thighs 8th and 9 ball-bearing 10 and 11 on, for the adjusted positioning with the eccentric shaft 5 and spindle shaft 6 in operative connection. As in particular further from the 2 can be seen, is below the spindle shaft 6 the ball bearing 10 arranged, here on the leg 8th the lever device 7 , where the ball bearing 10 here at a pitch angle 12 is arranged radially to the spindle axis. On the other side of the lever device 7 is below the eccentric shaft 5 the ball bearing 11 arranged, which on the leg 9 the lever device 7 axially to the eccentric shaft 5 is arranged. As can be seen in particular, here the leg 9 the lever device 7 an arm on the axis of the eccentric shaft 5 is aligned parallel, so that correspondingly the eccentric shaft 5 here axially to the ball bearing 11 goes.

The bearing axis 13 the lever device 7 is here below the pitch angle 12 to the at the base plate 2 arranged bearing blocks 14.1 and 14.2 stored. Like from the 2 can be seen further, is on the eccentric shaft 5 an operating lever 15 arranged with the eccentric shaft 5 to the ball bearing 11 one thigh 9 is depressible, wherein in operation of the lever device 7 then the second ball bearing 10 the other thigh 8th to the spindle shaft 6 is pressed. This becomes clear in the 1 where in the front view the eccentric shaft 5 was pivoted so that it on the ball bearing 11 and thus on the thigh 9 the lever device 7 presses, in which case over the pivot point of the lever device 7 the other arm with the other ball bearing 10 against the spindle shaft 6 is pressed. Due to the radial arrangement of the ball bearing 10 now there is a possibility that the spindle shaft 6 over the hand wheel 16 can be moved in the plane, so that then with the pivoted state of the lever device 7 here the finely adjusted positioning of the slide plate 3 opposite the base plate 2 over the hand wheel 16 can be carried out. Is then the workpiece in the exact position is by means of the actuating lever 15 the eccentric shaft 5 in the adjusted state of the slide plate 3 to a clamping piece 17 at the base plate 2 pressed, so that then the fixed positioning of the slide plate 2 and thus results for the workpiece.

LIST OF REFERENCE NUMBERS

1

positioning

2

baseplate

3

carriage plate

4

linear guide

5

eccentric shaft

6

spindle shaft

7

lever means

8th

Leg - Spindle shaft

9

Leg - eccentric shaft

10

Ball Bearing - Spindle shaft

11

Ball Bearing - Eccentric shaft

12

lead angle

13

bearing axle

14

bearing block 14.1 and 14.2

15

Operating lever - eccentric shaft

16

Handwheel - spindle shaft

17

clamp

Claims (9)

Positioning device ( 1 ) for machining a workpiece by means of a drilling device and / or milling device, comprising a base plate ( 2 ) on a slide formed plate ( 3 ) is arranged for holding the workpiece, wherein the carriage plate ( 3 ) by means of a linear guide ( 4 ) on the base plate ( 2 ) slidably mounted and opposite the base plate ( 2 ) is positionable, characterized in that for the adjusted positioning of the workpiece on the carriage plate ( 3 ) aligned parallel to the linear guide ( 4 ) an eccentric shaft ( 5 ) and a spindle shaft ( 6 ) are provided, which via a on the base plate ( 2 ) arranged lever device ( 7 ) are in operative connection. Positioning device according to claim 1, characterized in that the lever device ( 7 ) in the middle between the eccentric shaft ( 5 ) and the spindle shaft ( 6 ) pivotable on the base plate ( 2 ) is stored. Positioning device according to claim 1 and 2, characterized in that the lever device ( 7 ) each on their thighs ( 8th ) and ( 9 ) Ball-bearing ( 10 ) and ( 11 ), which for the adjusted positioning with the eccentric shaft ( 5 ) and the spindle shaft ( 6 ) are in operative connection. Positioning device according to claims 1 to 3, characterized in that the below the spindle shaft ( 6 ) arranged ball bearings ( 10 ) on the one leg ( 8th ) of the lever device ( 7 ) at a pitch angle ( 12 ) is arranged radially to the spindle axis. Positioning device according to claims 1 to 4, characterized in that the underneath the eccentric shaft ( 5 ) arranged ball bearings ( 11 ) on the other leg ( 9 ) of the lever device ( 7 ) axially of the eccentric shaft ( 5 ) is arranged. Positioning device according to claims 1 to 5, characterized in that the bearing axis ( 13 ) of the lever device ( 7 ) at the pitch angle ( 12 ) to the at the base plate ( 2 ) arranged bearing blocks ( 14.1 ) and ( 14.2 ) is stored. Positioning device according to claims 1 to 6, characterized in that on the eccentric shaft ( 5 ) an actuating lever ( 15 ) is arranged, with which the eccentric shaft ( 5 ) to the ball bearing ( 11 ) of one leg ( 9 ) is depressible, wherein in operation of the lever device ( 7 ) the second ball bearing ( 8th ) of the other leg ( 10 ) to the spindle shaft ( 6 ) presses. Positioning device according to claims 1 to 7, characterized in that on the spindle shaft ( 6 ) a handwheel ( 16 ) is provided for actuation, with the pivoted state of the Lever device ( 7 ) the finely adjusted positioning of the carriage plate ( 3 ) is feasible. Positioning device according to claims 1 to 8, characterized in that on the base plate ( 2 ) a clamping piece ( 17 ) is arranged, against which the eccentric shaft ( 5 ) in the adjusted state of the carriage plate ( 3 ) is depressible.

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