DRIVE DEVICE FOR A PROTECTIVE HOOD AND METHOD FOR ADJUSTING A PROTECTIVE HOOD

Abstract

A drive device for a protective hood of a machine includes a counterweight, a pulling means connecting the protective hood to the counterweight, a motor, and a freewheel. The freewheel connects the motor to the pulling means and is arranged to block when a weight force of the protective hood is greater than a weight force of the counterweight. The freewheel may be a linear freewheel or the freewheel may operate between two rotatable elements. The freewheel may be a frictionally locking freewheel or a positive locking freewheel.

Claims

1. A drive device for a protective hood of a machine, comprising a motor, which cooperates with a pulling means via a freewheel, which is provided both for loading via the weight force of the protective hood and for loading via a counter weight, wherein the freewheel is designed in such a way that it is blocked by a positive weight force difference between the protective hood and the counter weight.

2. The drive device according to claim 1, wherein the freewheel is designed as a linear freewheel.

3. The drive device according to claim 1, wherein the freewheel is designed as a freewheel effective between two rotatable elements.

4. The drive device according to claim 1, wherein the freewheel is designed as a frictionally locking freewheel, in particular a clamping roller freewheel.

5. The drive device according to claim 1, wherein the freewheel is designed as a positive locking freewheel, in particular a ratchet freewheel.

6. The drive device according claim 1, further comprising a reduction gear connected between the motor and the freewheel.

7. The drive device according to claim 3, wherein the freewheel is arranged concentrically to a deflection wheel over which the pulling means is guided.

8. The drive device according to claim 1, wherein an open toothed belt is provided as the pulling means.

9. A method for the motorized adjustment of a protective hood of a machine which is partially relieved by a counter weight, wherein a freewheel is connected between a motor and the protective hood and both the raising and the lowering of the protective hood are performed with the freewheel blocked.

10. The method according to claim 9, wherein the freewheel opens as soon as the protective hood is stopped by an obstacle during lowering.

11. A drive device for a protective hood of a machine, comprising: a counterweight; a pulling means connecting the protective hood to the counterweight; a motor; and a freewheel connecting the motor to the pulling means and arranged to block when a weight force of the protective hood is greater than a weight force of the counterweight.

12. The drive device of claim 11 wherein the freewheel is a linear freewheel.

13. The drive device of claim 11 wherein the freewheel operates between two rotatable elements.

13. The drive device of claim 11 wherein the freewheel is a frictionally locking freewheel or a positive locking freewheel.

14. The drive device of claim 13 wherein the freewheel is a clamping roller freewheel or a ratchet freewheel.

15. The drive device of claim 11 further comprising a reduction gear that connects the motor to the freewheel.

16. The drive device of claim 11 further comprising a deflection wheel, wherein: the freewheel is arranged concentrically to the deflection wheel; and the pulling means is guided over the deflection wheel.

17. The drive device of claim 11 wherein the pulling means is an open toothed belt.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0019] Below, two exemplary embodiments are explained in more detail by means of a drawing. In the figures:

[0020] FIG. 1 shows a first exemplary embodiment of a drive device for a protective hood of a machine in a perspective view, and

[0021] FIG. 2 shows a second exemplary embodiment of a drive device for a protective hood in a schematic view.

DETAILED DESCRIPTION

[0022] Unless otherwise stated, the following explanations relate to both exemplary embodiments. Parts that correspond to each other or have basically the same effect are marked with the same reference symbols in both figures.

[0023] A machine 1, by means of which a manual workstation is provided, includes a protective hood 2 for protecting the operator of the machine 1. A machine frame of the machine 1 is designated as 4. The protective hood 2 can be adjusted in a motorized manner by means of a drive device 3.

[0024] The drive device 3 includes an electric motor as the motor 5, which interacts with a freewheel 7, which is also to be attributed to the drive device 3, via a gear 6, which is designed as a reduction gear. A drive side element of the freewheel 7 is designated as 8, and a driven side element is designated as 9.

[0025] The motor 5 actuates a pulling means 14, which is an open toothed belt, via the gear 6 and the freewheel 7. The toothed belt 14 is loaded on its one end by the weight force of the protective hood 2 and on its other end by a counter weight 15. The load exerted by the protective hood 2 is greater than the load exerted by the counter weight 15, so that the protective hood 2 would move to its closed position, i.e., lower, without further forces. The resulting force acting on the protective hood 2 is less than half the weight force of the protective hood 2. This is equivalent to the fact that the mass of the protective hood 2 is largely, but not completely, compensated for by the counter weight 15.

[0026] In the exemplary embodiment according to FIG. 1, the gear 6 is designed as a wrap-around gear, namely a belt drive. A closed toothed belt of the belt drive 6 is designated as 18. The freewheel 7 operated via the belt drive 6 has a rotatable element 8, 9 on both the drive side and driven side. The elements 8, 9 of the freewheel 7 are arranged concentrically to a shaft 10, which is mounted in the machine frame 4. Furthermore, a deflection wheel 16, over which the open toothed belt 14 is guided, is arranged concentrically to the elements 8, 9 and thus to the entire freewheel 7. In this case, the freewheel 7 is designed as a clamping roller freewheel, i.e., a frictionally locking freewheel.

[0027] The exemplary embodiment according to FIG. 2 differs from the exemplary embodiment according to FIG. 1 with regard to the design of the freewheel 7: According to FIG. 2, the freewheel 7 is designed as a ratchet freewheel, i.e., a positive locking freewheel. In the present case, the freewheel 7 is a linear freewheel, i.e., a freewheel in which the driving element 8 and the driven element 9 are linearly movable. A blocking pawl 11 loaded by a spring element 13 engages in a blocking contour 12 when the freewheel 7 is blocked.

[0028] Just as in the exemplary embodiment according to FIG. 1, the open toothed belt 14 runs over a deflection wheel 16 in the exemplary embodiment according to FIG. 2, but, exclusively in the configuration according to FIG. 1, a torque can be introduced into the deflection wheel 16. In the arrangement according to FIG. 2, a second deflection wheel 17, over which the pulling means 14 is guided, can be seen.

[0029] In both exemplary embodiments, both raising and lowering of the protective hood 2 is performed with the freewheel 7 blocked. This applies as long as the movement of the protective hood 2 is not disturbed, for example by an obstacle located in the adjustment path. If the protective hood 2 encounters an obstacle during its downward movement, the obstacle represents a relief of the weight force of the protective hood 2. The positive weight force difference between the protective hood 2 and the counter weight 15, which is a prerequisite for blocking the freewheel 7, thus disappears. When the motor 5 continues to run, the freewheel 7 therefore opens, and the protective hood 2 resting on the obstacle only loads it with the weight force difference existing between the protective hood 2 and the counter weight. The protective function of the freewheel 7 is thus implemented in a mechanical manner.

REFERENCE NUMERALS

[0030] 1 Machine

[0031] 2 Protective hood

[0032] 3 Drive device

[0033] 4 Machine frame

[0034] 5 Motor

[0035] 6 Gear

[0036] 7 Freewheel

[0037] 8 Drive side element of the freewheel

[0038] 9 Driven side element of the freewheel

[0039] 10 Shaft

[0040] 11 Blocking pawl

[0041] 12 Blocking contour

[0042] 13 Spring element

[0043] 14 Pulling means, open toothed belt

[0044] 15 Counter weight

[0045] 16 Deflection wheel

[0046] 17 Deflection wheel

[0047] 18 Closed toothed belt