SE515199C2 - Locking device for one shaft - Google Patents

Abstract

A locking device for a shaft (4) arranged in a cylindrical bearing (5.1) in a housing (5), said bearing (5.1) comprising a sleeve with a membrane that communicates with a space (7.4) containing a first pressure medium. The first space (7.4) communicates with a primary piston arrangement (7) via the first pressure medium. The primary piston arrangement (7) is also in mechanical connection with a secondary piston arrangement (8) that in turn communicates with a pressure source for a second pressure medium. The shaft (4) can be locked to prevent turning or axial displacement in relation to the housing (5) when increased pressure is applied to the second pressure medium, which in turn causes increased pressure in the first pressure medium and an elastic decrease in diameter in the membrane of the sleeve (5.1).

Description

5 30 35 515 199 2 the first pressure medium of a liquid and that the second pressure medium consists of air.

The primary piston device comprises at least one piston arranged to move parallel to the longitudinal direction of the shaft, and the secondary piston device comprises at least a first secondary piston which communicates with the primary piston or pistons of the primary piston device. The first secondary piston is fixedly connected to at least one second secondary piston running in a second secondary cylinder, the secondary cylinders being connected to a pressure source via lines.

In a particular embodiment of the invention, two secondary pistons are arranged along one and the same center line and supported by a common piston rod. In another embodiment, however, the secondary cylinders may be annularly arranged on a piston sleeve which runs on the outside of the housing and which has a bottom which supports the hydraulic primary pistons. In this embodiment, the secondary cylinders are formed by a jacket which surrounds the piston sleeve and which comprises a partition wall.

Through the locking device according to the invention, its construction length can be made very small and space-saving and still provide a good locking between shaft and housing, ie between the parts surrounding the locking, eg arms in a screwdriver.

Furthermore, through the piston device included in the invention, the active piston area, which is subjected to the pressure in the pressure medium, can be in a single cylinder, which means that greater forces are made greater than the piston area of a single piston which can be developed within a given cylinder diameter.

Further details and features relating to the invention appear from the description of the figure sheets below and from the claims.

DESCRIPTION OF FIGURE SHEETS The invention is described below in the form of an exemplary embodiment in connection with the accompanying figure sheets.

Figure 1 shows a piston device according to the invention arranged in a hydraulic locking device for locking a joint between two arms. 10 15 20 25 30 35 515 199 3 Figure 2 shows the hydraulic locking device according to figure 1 with the included piston device in a longitudinal section.

Figure 3 shows an alternative embodiment of the locking device according to the invention.

According to Figure 1, a locking device 1 is arranged to lock a joint between a first arm 2 and a second arm 3, which may for instance constitute a supporting arm for a screwdriver or nutrunner, a fixture or the like where the purpose is to keep the arms fixed to each other and arranged to, for example, be able to absorb forces that arise when activating a 3 is constituted by a shaft journal 4 which is fixedly mounted on the other screwdriver or nutrunner. The joint between the arms 2, the arm 3 and around which the first arm 2 can rotate in a cylindrical hole 2.1 arranged therein. The pin 4 is mounted in a housing 5 in the locking device 1, which is fixedly arranged on the first arm 2 via a flange 6, and which has a sliding bearing in the form of a sleeve 5.1 in the housing 5 which at the same time forms a hydraulic diaphragm. .

A piston device 8 for compressed air is arranged to actuate a hydraulic piston device 7 with two hydraulic pistons 7.1 running which run in cylinder holes 7.2 filled with hydraulic fluid and parallel to the longitudinal direction of the shaft journal 4. At the inner part of the respective cylinder holes 7.2 a channel 7.3 is arranged which connects the respective cylinder holes 7.2 with a space 7.4 located between the housing 5 and the membrane in the sleeve 5.1. The piston device 8 for compressed air comprises a first piston 8.1, which runs in a first compressed air cylinder 8.2, and which communicates with the two hydraulic pistons 7.1, which are arranged on the underside of the first piston 8.1. A second piston 8.3 is fixedly connected to the first piston 8.1 and runs in a second compressed air cylinder 8.4. The two compressed air cylinders 8.2, 8.4 have the same cylinder diameter and are located along the same center line as the pin 4 and the sleeve 5.1 and are separated from each other by a partition wall 8.5 having an opening for a piston rod 8.6 connecting the two pistons 8.1, 8.3. The second compressed air cylinder 8.4 is covered by a cylinder head 8.7. The space on the respective piston 8.1, 10 15 20 25 30 35 515 199 4 8.3 underside communicates with the outside air through an evacuation opening, not shown in figure 2. Compressed air is supplied to the cylinders 8.2, 8.3 through lines 8.8, 8.9.

The construction of the piston device 8 for compressed air is shown in Figure 2, where the partition wall 8.5 has a larger diameter than the first cylinder 8.2 and rests against an annular edge at this cylinder. The partition wall 8.5 is held by an annular cylinder sleeve 8.10 with the same outer diameter as the partition wall 8.5 and with the same inner diameter as the first cylinder 8.2. The cylinder head 8.7 rests against the cylinder sleeve 8.10 and is held in place by means of a resilient locking ring 8.11. Both the pistons 8.1, 8.3 and the partition wall 8.5 and the top cover 8.7 have seals 8.12 arranged along the outer edge of the respective members.

When the compressed air cylinders 8.2, 8.4 are not pressurized, the pistons 8.1, 8.3 in them are kept displaced to a rear position by means of springs 9 arranged between the housing 5 and the underside of the first compressed air piston 8.1. When the compressed air cylinders are pressurized, the compressed air pistons 8.1, 8.3 are pressed in a direction towards the sleeve 5.1 with the shaft pin 4 inserted therein, the hydraulic pistons 7.1 pressing hydraulic fluid under high pressure into the space 7.4 at the diaphragm in the sleeve 5.1. By increasing the pressure in the hydraulic fluid, the diaphragm is caused to spring against the shaft journal 4 and lock it in the sleeve 5.1. The joint between the arms 2, 3 is then locked against rotation.

In the locking device 1 shown in figure 3, the piston device 8 for compressed air is arranged annularly surrounding the housing 5 with the diaphragm-provided sleeve 5.1. The pistons 8.1, 8.3 are arranged annularly on a piston sleeve 8.13 which runs on the outside of the housing 5 and which has a bottom 8.14 which supports the hydraulic pistons 7.1. The cylinders 8.2, 8.4 are formed by a jacket 8.15 which surrounds the piston sleeve 8.13 and which comprises a partition wall 8.5. Compressed air is supplied to the two cylinders 8.2, 8.4 through lines 8.8, 8.9 as in the previously described example. The attachment of the housing 5 to the first arm 2 as well as details in the piston sleeve 8.13 and the jacket 8.15 are not shown in figure 3.

Claims (8)

10 15 20 25 30- 35 515 199 PATENT REQUIREMENTS Locking device for a shaft arranged in (4), a cylindrical bearing (5.1) in a housing (5), the bearing (5.1) being constituted by a sleeve having a mem- (7.4) and containing a fire communicating with a space between the housing (5) (5.1) first pressure medium, the space (7.4) being in the connection position and the sleeve part with a primary piston device (7) via the first pressure medium, characterized in that the primary piston device (7) comprises one or more primary cylinders (7.2) with pistons (7.1), that the primary pistons (7.1) in the primary piston device are mechanically connected to a secondary (8), secondary cylinder (8.2) with a first secondary piston (8). .l), (8.2) part with a pressure source for a second pressure medium, the variation (7) piston device comprising at least a first and that the first secondary cylinder is connected through the shaft (4) can be locked against rotation or axial movement. displacement relative to the housing (5) when the second pressure medium is subjected to an elevated pressure, which in its luck causes an elevated pressure in the first pressure medium and a (7) diaphragm. characterized by that elastic diameter reduction in the sleeve Locking device according to claim 1, the first pressure medium is constituted by a liquid and that the second pressure medium is constituted by air. Locking device according to claim 1 or 2, characterized in that the primary piston device (7) comprises one or more (7.1) with the raw pistons of the shaft (4) which are arranged to move parallel longitudinally. Locking device according to one of Claims 1 to 3, characterized in that the secondary piston device (8) comprises at least a first secondary piston (8, 1) which is in mechanical connection with the primary piston or pistons (7, 1) in (7). Locking device according to one of Claims 1 to 4, characterized in that the first secondary piston (8,1) is fixedly connected to at least one second secondary piston (8.3) which runs in a second secondary cylinder (8.4), wherein the secondary 15 515 199 6 (8.2, 8.4) source of the second pressure medium via lines (8.8, 8.9). the cylinders are connected to a pressure Locking device according to Claim 5, characterized in that the two secondary cylinders (8.2, 8.4) are arranged along one and the same center line. Locking device according to claim 5 or 6, characterized (8.2, 8.4) arranged on a piston sleeve (8.l3) which runs on the outside of the secondary cylinders being annularly housed (5) and which has a bottom (8.14) which carries the primary pistons (7.1), and that the secondary cylinders (8.2, 8.4) are formed by a jacket (8.l5) surrounding the piston (8.l3) (8.5). Locking device according to claim 5 or 6, characterized by the sleeve and comprising a partition wall in that the first secondary cylinder (8.2) and the second secondary cylinder (8.4) have substantially the same inner diameters.