EP1201370B1 - Electrically actuated workpiece clamping device - Google Patents

Abstract

The clamping mechanism (SM) is operated by a threaded shaft (3) in a housing (5) containing two reversible electric motors (6) positioned diametrically opposite the shaft which they rotate by means of gears (12,15) and internally threaded sleeve (13).

Description

The invention relates to an electrically operable workpiece clamping device according to the preamble of claim 1, from Document EP 0 243 599 A is known.

Such a clamping device is also for example according to the DE 36 38 526 C1 known. With the axial assignment of electric drives to the clamping head are the far more frequently used Pneumatic or hydraulic drives in the form of actuating cylinders be replaced. The problem is the Incorporation of force at electric drives at the expense of width such tensioners goes, since a higher Capacity of the electric drive in the diameter of the Electric motor reflected, which is then inevitably larger as the width of the clamping head. With regard to the use such tensioning devices, for example in the body shop However, basically a narrow width possible desired, but at the required high power input can not be maintained.

Starting from a clamping device of the generic type, the innovation is the object of such a clamping device in terms of their drive to train and to improve that despite its high performance only a comparatively narrow width required and is conveniently accessible when needed.

This object is achieved with a clamping device of the beginning geannten type of the invention by the im Claim 1 mentioned features.

With this inventive design is the demand Fulfills. The alternative statement "directly or indirectly in Active compound standing "will be explained in more detail.

The means for converting the rotary motion into a translatory Movements are made up of the following elements:

Between the engines is a rotatably mounted, with one Geared hollow shaft arranged in the threaded spindle upon return or opening of the clamping device can dive.

On the output shafts of the two motors are with the gear arranged the hollow shaft engaging drive pinion. Between the hollow shaft and the threaded spindle is preferably a with the hollow shaft rotatable and with the threaded spindle in engagement standing transmission element arranged, preferably in the form a ball nut is formed.

The gear and the engaged with this Drive pinions are on arranged lower end portion of the hollow shaft. this part the drive is therefore easily accessible from below if necessary.

Advantageous developments consist in the following:
The distance between the side walls of the housing receiving the two motors to each other is equal to or substantially equal to the width of the chucked on the housing chuck, which means nothing else than that of the respective clamping head predetermined width for the motor housing is fully utilized.

Create these essentially known Einrichtungsbauteile in connection with the installation according to the invention of two motors for the drive of the clamping device, the prerequisite for a compact design as possible and also suitable assembly handling of the drive, and not just in terms of one the smallest possible distance of the side walls of the housing, but also with regard to the smallest possible dimensions in the extension direction the tensioning arm of the tensioning device. So can the aforementioned transmission element in a pot-like extension be arranged at the upper end of the hollow shaft. In connection Thus, the lower, the clamping arm remote end portion of the hollow shaft, the gear and the drive pinion receiving part of Housing this be assigned as a detachable housing part. In order to is a cheap installation created.

A further advantageous embodiment is that the lower end of the hollow shaft the bottom of the housing at least flush with this conclusive and with a Foreign drive connection element is provided. This leaves the Clamping device also operable in case of power failure or engine damage.

The tensioning device according to the invention and further advantageous Embodiments will be described below with reference to the drawings Representation of an embodiment explained in more detail.

Fig. 1

einen Längsschnitt durch die Spannvorrichtung mit ihrem Elektroantrieb;

Fig. 2

in Seitenansicht die Spannvorrichtung gemäß Fig. 1 mit nur hälftig dargestelltem Spannkopfgehäuse und

Fig. 3

schematisch einen Schnitt durch den Antrieb in Höhe der beiden Motoren.

It shows

Fig. 1

a longitudinal section through the clamping device with its electric drive;

Fig. 2

in side view, the clamping device of FIG. 1 with only half illustrated Spannkopfgehäuse and

Fig. 3

schematically a section through the drive at the level of the two motors.

The electrically operated clamping device consists of a on a chuck 1 arranged electric drive 2 for actuation a threaded spindle 3, which arranged with the in the chuck 1 Actuating mechanism SM for the clamping arm 4 in operative connection stands. The chuck 1 with its adjusting mechanism SM and its function requires no special explanation, since well known, quite apart from the fact that such a Chuck or such a fixture also readily with a pneumatic or hydraulic actuating cylinder let operate, with only the threaded spindle 3 through the Push rod of the respective actuating cylinder would be replaced.

For the clamping device according to the invention is now under reference to FIGS. 1 and 3 substantially that in a housing. 5 arranged electric drive 2 of two in their performance adding, synchronously connected motors 6 is formed, the mechanically with means 7 for converting their rotary motion in a translational movement of the with the threaded spindle. 3 related first member of the actuating mechanism SM are coupled. The axles 8 of the motors 6 and the center between the axes 8 extending axis 9 of the threaded spindle 3 are perpendicular to an imaginary line 10 (see FIG. 3) and extending parallel to the straight line 10 side walls 11 of the housing 5 are at a distance A from each other distanced, the slightly larger (by twice the wall thickness of the housing 5) is as the diameter D of the motors 6, for the otherwise commercially advantageous for cost reasons Large series engines come for use.

With reference to FIG. 2, this distance A is dimensioned such that that this is preferably the same or substantially the same Width B of the saddle mounted on the housing 5 clamping head. 1 is.

The means 7 for converting the rotational movement in one In detail, translational movement consists of an inter-relationship the motors 6 rotatably mounted, with a gear 12th provided hollow shaft 13, in which the threaded spindle 3 at Axial adjustment dips. On the output shafts 14 of the two Motors 6 are connected to the gear 12 of the hollow shaft 13 in Engaging drive pinion 15 arranged, whose rotation so that the hollow shaft 13 translated translated accordingly and whose turn turn by preferably as ball nut trained transmission element 16 as translational adjustment the threaded spindle 3 is transmitted.

This transmission element 16 or this ball nut is, as shown in Fig. 1, fixed in a pot-like extension 17 housed at the upper end of the hollow shaft 13, which Extension 17 at the same time and as indicated to the axial and Radial storage of the hollow shaft 13 at the upper end with is exploited. In this embodiment according to FIG. 1 is So the non-rotating threaded spindle 3 in direct connection with the first link of the actuating mechanism.

It is also possible, which is not particularly shown because readily imaginable, a kinematic reversal to that effect, that the hollow shaft 13 is connected to the adjusting mechanism SM is. The extension 17 is directed downward and the then driven by the gears 12, 15 threaded spindle. 3 engages from below into the hollow shaft 13 a. Instead of the Extension 17 comprehensive needle bearing in Fig.1 must then for a non-rotating, but allowing an axial displacement bracket the hollow shaft 13, that is, in such a Embodiment is the threaded spindle 3 with the adjusting mechanism via hollow shaft 13 in indirect operative connection. Prefers However, the embodiment shown in Fig. 1, da this is associated with less effort.

The gear 12 and the meshing with this drive pinion 15 of the two motors 6 are advantageous and Easily accessible at the lower end of the hollow shaft 13, as shown in Fig. 1, placed, the lower, the lower end portion of the hollow shaft 13, the gear 12 and the Drive pinion 15 receiving part of the housing 5 this as detachable housing part 5 'is assigned.

Also shown in FIG. 1 is the advantageous proviso that the lower end 18 of the hollow shaft 13, the bottom 19 of the Housing 5 passes through and with a foreign-drive connection element 20 is provided. In the illustrated embodiment For example, this element is simply um a polygonal blind hole into which a corresponding example Allen key is inserted, so that in case of failure the motor drive by hand an adjustment of the clamping device to be able to make.

At the rear narrow side 21 of the housing 5 is a Control electronics housing 22 attached, which in the chuck 1 in conventionally arranged Endstellungsfühlern 23 in Connection stands.

With regard to the discharge of the engines developed by Heat can the housing 5 in the region of the motors 6 with wall openings Be provided 24 through which a direct heat radiation is possible. Apart from that is through the in particular in the field of engine arrangement thin-walled housing 5 per se at least for adequate heat dissipation taken care of.

As for the housing 6 receiving the motors 6, it may this advantageously be formed of two half-shells 25, the produced in the molding process, for example, die casting can be.

LIST OF REFERENCE NUMBERS

1

clamping head

2

electric drive

3

screw

4

clamping arm

5

casing

5 '

housing part

6

engine

7

Facility

8th

axis of rotation

9

axis

10

Just

11

side walls

12

gear

13

hollow shaft

14

drive shaft

15

pinion

16

transmission element

17

extension

18

The End

19

ground

20

External drive connection element

21

narrow side

22

Control electronics housing

23

Endstellungsgeber

24

Wall openings

25

shells

SM

actuating mechanism

D

diameter

A

distance

Claims (9)

1. An electrically actuatable workpiece clamping device, comprising an electric drive (2) arranged on a clamping head (1) for actuating a threaded spindle (3) which is in operative connection with adjusting mechanics (SM) for a clamping arm (4) provided in the clamping head (1), characterised in that the electric drive (2) arranged in a housing (5) provided with a base (19) and side walls (11) is formed by two motors (6) having a diameter (D), which are additive in power, synchronously switched and have axes of rotation (8), which motors are mechanically coupled to devices (7) for converting their rotary movement into a translatory movement of a first member of the adjusting mechanics (SM) which is optionally directly or indirectly in operative connection with the threaded spindle (3), wherein the devices (7) for converting the rotary movement into a translatory movement are formed from:

   a hollow shaft (13) rotatably mounted between the motors (6), provided with a toothed wheel (12),

   driving pinions (15) positioned on the drive shafts (14) of the two motors (6), in engagement with the toothed wheel (12) of the hollow shaft (13),

   that the axes of rotation (8) of the motors (6) and an axis (9) of the threaded spindle (3) extending centrally between the axes of rotation (8), seen in perpendicular projection, lie on a straight line (10),
   that the side walls (11) of the housing (5) extending parallel to the line (10) are arranged at a distance (A) from one another, which is slightly greater than the diameter (D) of the motors (6) and
   that the toothed wheel (12) and the driving pinion (15) in engagement therewith are arranged at the end region of the hollow shaft (13) remote from the clamping arm.
2. The clamping device according to claim 1,
   characterised in that the spacing (A) of the side walls (1) is the same as or substantially the same as a width (B) of the clamping head (1) mounted on the housing (5).
3. The clamping device according to claim 1 or claim 2,
   characterised in that the devices (7) for converting the rotary movement into a translatory movement are further formed from:

   a transmission element (16) arranged between the hollow shaft (13) and the threaded spindle (3), which is rotatable with said hollow shaft (13) and in engagement with said threaded spindle (3).
4. The clamping device according to claim 3,
   characterised in that the transmission element (16) is constructed in the form of a recirculating ball nut.
5. The clamping device according to claim 4,
   characterised in that the transmission element (16) is arranged in a can-shaped extension (17) at the upper end of the hollow shaft (13).
6. The clamping device according to any one of claims 3 to 5,
   characterised in that the end (18) of the hollow shaft (13) remote from the clamping arm penetrates through the bottom (19) of the housing (5) and is provided with an external-drive connecting element (20).
7. The clamping device according to any one of claims 3 to 6,
   characterised in that the section of the housing (5) remote from the clamping arm, which receives the end (18) of the hollow shaft (13) remote from the clamping arm, the toothed wheel (12) and the driving pinion (15) is associated therewith as a detachable housing section (5').
8. The clamping device according to any one of claims 1 to 7,
   characterised in that a control-electronics housing (22) is arranged on a rearward narrow side (21) of the housing (5) which is in communication with end position indicators (23) arranged in the clamping head (1).
9. The clamping device according to any one of claims 1 to 8,
   characterised in that the housing (5) is provided with wall openings (24) in the area of the motors (6).

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