EP0672505A1 - Screw driver - Google Patents

Abstract

The screwdriver has a shaft for coupling with the screws. On this shaft is a pivoted body (1). This has pivoted masses (weights 5,6) on two opposite sides of a hub (2). The hub has two radial diametrically opposite, inward facing projections (8,9). The projections act with two opposite projections (13,14) on the shaft which project outwards into the zone of the hub projections. The shaft may be fixed to a washer with two diametrically opposite projections which the turning body contacts via two side discs, which may be attached by rods to the weights.

Description

The invention relates to a screwdriver for tightening and loosening screws, which has a shaft with a screwdriver head to be coupled with a screw and in which a flywheel with a hub is rotatably mounted on the shaft over less than a full circle, which limits the rotary movement of the Flywheel body has an inward cam which is movable against an outward projection of the shaft.

A screwdriver of the above type is the subject of FR-A-22 42 200. In the known screwdriver, a hub is rotatably mounted on the shaft to a limited extent, which has a tangentially outwardly directed rod with a centrifugal weight as a flywheel on its outer surface. The hub has an inward cam that comes against a corresponding outward cam of the shaft when the centrifugal weight hub is rotated relative to the shaft.

The purpose of the centrifugal weight in screwdrivers of this type is to exert a suddenly effective impact force on the screw to be rotated when the hub rotates with the centrifugal weight so that it can be loosened without the user of the screwdriver having to generate a high torque with his physical strength .

A disadvantage of the known screwdriver is that it is difficult to handle since the unilaterally effective centrifugal weight tends to move the screwdriver out of its position aligned with the screw. Especially at the moment when the hub through the Momentum of the centrifugal weight against the shaft, there is a sudden tilting moment, which can lead to the screwdriver slipping off the screw to be loosened.

The invention is based on the problem of improving a screwdriver of the type mentioned at the outset so that it can be handled as conveniently as possible and without the risk of slipping off the screw or nut to be loosened.

This problem is solved according to the invention in that the flywheel has flywheels evenly distributed on two opposite sides of the hub, that the hub has two radial, inwardly directed cams diametrically opposite and that the shaft diametrically opposite two radially outwards in the flight circle of the two other cam has protruding projections.

In such a screwdriver, the impact forces act symmetrically to one another on two opposite sides. This results in a centric force application, so that tilting moments which can lead to the screwdriver slipping off the screw or nut to be loosened do not occur.

The flywheel could be a flywheel. However, the screwdriver is particularly compact and can therefore be easily accommodated in a motor vehicle if, according to a further development of the invention, the flywheel on its hub has two radially outwardly directed rods, each with a centrifugal weight, facing one another.

A good guidance between the shaft and the hub can be achieved with little effort if according to another Further development of the invention, the cams of the hub for guiding the hub on the outer surface of the shaft and / or the projections of the shaft for guiding the inner outer surface of the hub are formed on the shaft.

Another, structurally very simple embodiment is that the shaft is rotatably connected to a cam disk, which has two radial cams diametrically opposite and that the flywheel with two side disks engages over this cam disk and also diametrically opposite two radially inward into the flight circle of the protruding projections on both cams.

High torques can be achieved without the screwdriver becoming undesirably heavy due to the weight of the flywheel if the two radially outwardly extending rods are fastened to the two side windows, each with one of the flyweights. The main mass of the flywheel is shifted to the outside by the rods, so that large moments of swing arise.

In terms of manufacturing technology, it is advantageous if the cam disk is provided on an insert body which has a continuous square hole with a square cross section for pushing through a corresponding square shaft and a short cylindrical shaft on both sides of the cam disk for rotatably supporting the flywheel body.

The screwdriver can be held particularly conveniently with one hand in a position plugged onto a screw and the flywheel can then be pushed when a rotatable handle is arranged on the shaft at the end of the shaft opposite the screw head.

Fig.1

eine Draufsicht auf einen Schwungkörper des Schraubers nach der Erfindung,

Fig.2

eine Seitenansicht eines Schaftes des Schraubers nach der Erfindung,

Fig.3

eine Ansicht von unten auf den Schaft nach Figur 2,

Fig.4

einen gegenüber den vorangehenden Figuren im Maßstab stark vergrößerte Schnittdarstellung des Verbindungsbereiches zwischen dem Schwungkörper und dem Schaft,

Fig.5

eine Seitenansicht einer zweiten Ausführungsform des erfindungsgemäßen Schraubers,

Fig.6

eine Seitenansicht eines Einsatzkörpers einer zweiten Ausführungsform eines Schraubers,

Fig.7

eine Draufsicht auf den Einsatzkörper.

The invention permits numerous embodiments. To further clarify its basic principle, two of them are shown in the drawing and are described below. They show in her

Fig. 1

a plan view of a flywheel of the screwdriver according to the invention,

Fig. 2

a side view of a shaft of the screwdriver according to the invention,

Fig. 3

3 shows a view from below of the shaft according to FIG. 2,

Fig. 4

FIG. 2 shows a sectional view of the connection area between the flywheel body and the shaft, greatly enlarged in scale compared to the previous figures,

Fig. 5

a side view of a second embodiment of the screwdriver according to the invention,

Fig. 6

2 shows a side view of an insert body of a second embodiment of a screwdriver,

Fig. 7

a top view of the insert body.

FIG. 1 shows a flywheel 1, which has a hub 2, from which two rods 3, 4 lead radially outward on opposite sides, each of which carries a centrifugal weight 5, 6 of the same weight at its outer end. The hub 2 has a bore 7 into which two radial cams 8, 9 protrude.

Figures 2 and 3 show a shaft 10 which is formed at its lower end as a square 11, so that it can be attached to a screwdriver head, not shown. At the upper end, the shaft 10 has a handle 12. In the central region, the shaft 10 is circular in cross section, but there has two projections 13, 14 running opposite it over a longer region.

If you want to use the screwdriver according to the invention, then you push the swing body 1 with its hub 2 from below over the shaft 10 and put a screwdriver head on the square 11. Then you place the screwdriver head with the screwdriver on a screw or nut to be loosened and bring the hub 2 into the position shown in FIG. From it, the hub 2 can be moved counterclockwise with momentum until the cams 8, 9 of the hub 2 come against the projections 13, 14 of the shaft 10 and thereby transmit a moment of inertia to the shaft 10, which is suitable turn the screw, not shown, counterclockwise and thereby loosen it. Of course you can also tighten a screw or nut by reversing the direction of rotation with the device according to the invention.

In the embodiment of a screwdriver shown in FIG. 5, the shaft 10 with the handle 12 has been omitted. This shaft 10, which must have a square cross section for this embodiment, is to be inserted through a square hole 15 of an insert body 16 when the screwdriver is used. The insert body 16 is held between two side disks 17, 18 of the flywheel 1 in such a way that a cam disk 19 is located between these side disks 17, 18 and the side disks 17, 18 are rotatably supported on a shaft 20, 21. From the side windows 17, 18 each rod 3, 4 leads radially outwards, which carries the flyweight 5, 6 at its free end. These rods 3, 4 form the cams 8, 9 which, when the flywheel 1 rotates, come against projections 22, 23, the cam disk 19 and thereby twist the insert body 16 with the shaft 10 inserted into it, not shown in FIG. 5. For this purpose, the cam 9 in FIG. 5 engages over the projection 22 and the cam 8 under the projection 23.

FIG. 6 shows as a single part the insert body 16 with the cam disk 19, which has the two diametrically opposite radial projections 22, 23. The short, cylindrical shaft 20, 21 is provided on each side of the cam disk 19. The square hole 15 with a square cross section leads axially through the insert body 16.

This square hole 15 can be seen from the side in FIG. The two projections 22, 23 in the cam disk 19 and the shaft 10 can also be seen in FIG. 7.

Reference list

1

Flywheel

2nd

hub

3rd

pole

4th

pole

5

Centrifugal weight

6

Centrifugal weight

7

drilling

8th

cam

9

cam

10th

shaft

11

Square

12th

Handle

13

head Start

14

head Start

15

Square hole

16

Insert body

17th

Side window

18th

Side window

19th

Cam disc

20th

shaft

21

shaft

22

head Start

23

head Start

Claims (7)

Screwdriver for tightening and loosening screws, which has a shaft with a screwdriver head to be coupled with a screw and in which a flywheel with a hub is rotatably mounted on the shaft over less than a full circle, which limits one inward to limit the rotational movement of the flywheel has directed cam which is movable against an outward projection of the shaft, characterized in that the flywheel body (1) on two opposite sides of the hub (2) evenly distributed flywheels (flyweights 5, 6) that the hub (2nd ) diametrically opposite two radial, inwardly directed cams (8, 9) and that the shaft (10) has diametrically opposite two radially outwardly projecting into the flight circle of the other two cams (8, 9) projections (13, 14) . Screwdriver according to claim 1, characterized in that the swinging body (1) has on its hub (2) opposite one another two radially outwardly directed rods (3, 4), each with a centrifugal weight (5, 6). Screwdriver according to claims 1 or 2, characterized in that the cams (8, 9) of the hub (2) for guiding the hub (2) on the lateral surface of the shaft (10) and / or the projections (13, 14) of the Shaft (10) for guiding the inner circumferential surface of the hub (2) on the shaft (10) are formed. Screwdriver according to Claim 1, characterized in that the shaft (10) is connected in a rotationally fixed manner to a cam disk (19) which has two radial projections (22, 23) diametrically opposite one another, and in that the flywheel body (1) has two side disks (17, 18) over this cam disc (19) engages and also diametrically opposite has two cams (8, 9) projecting radially inwards into the flight circle of the two projections (22, 23). Screwdriver according to Claim 4, characterized in that the two rods (3, 4) leading radially outwards are fastened to the two side disks (17, 18), each with one of the flyweights (5, 6). Screwdriver according to at least one of the preceding claims, characterized in that the cam disc (19) is provided on an insert body (16) which has a continuous square hole (15) with a square cross section for pushing through a corresponding square shaft and on both sides of the cam disc ( 19) has a short, cylindrical shaft (20, 21) for rotatably supporting the flywheel (1). Screwdriver according to at least one of the preceding claims, characterized in that a rotatable handle (12) is arranged on the shaft (10) at the end of the shaft (10) opposite the screw head.

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