SE442665B - TRANSMISSION - Google Patents

Description

8302928-0 '2 The object of the invention is to provide an improved transmission, at which the above inconveniences are eliminated. This has according to the invention achieved by the transmission having obtained the requirements set out in the following claims the characteristics.

By designing the hollow shaft itself as an integral part with an expansion sleeve and thereby forming the pressure chamber with the specified axial extent, and the setting device with the specified location has a transmission according to the finding with a controlled and uncoupled connection of the engagement between the outside of the house hollow shaft and shaft are provided within the same minimum space required for a fixed wedge joints between these parts.

In the case of small outer diameters of the hollow shaft, this can be formed with a free end, which is partially closed and provided with an external recess, in which the device for setting of the annular chamber is located. A small wall thickness of the hollow shaft is thus not an obstacle to the application of the invention. In addition or alternatively this end of the hollow shaft may have a larger outer diameter than the rest of the hollow shaft, which provides ample space for the pressurizing device. At the same time, of course the bearing at this end of the hollow shaft is larger, which need not be a disadvantage.

If the clamping of the hollow shaft on the shaft for some reason would be insufficient for example due to incorrect installation or temporary overload, occur between these parts. If this were to continue for a while, one would arise intersection between the hollow shaft and the shaft and when these are part of a transmission with small games between rotating parts and the housing usually result in the entire transmission cut together and demolished. To prevent this, according to a preferred embodiment, form of the invention, the transmission is designed so that the shaft is provided with an eccentric risk member extending radially outwardly at one end of the hollow shaft and at a relational The movement in the direction of rotation between the shaft and the hollow shaft is designed to act on one device located in the hollow shaft to release the pressurization of the chamber.

To prevent deformations of the hollow shaft due to high pressures in the annular the chamber, it may further be appropriate to limit the axial extent of the chamber to coincide with the axial extent of the gear. In doing so, the hub part to reinforce the circumference of the hollow shaft and prevent its squeezing out. . man ... _. ..._ _: vzzura. ~~ '' - r- - ~ ~ 3 8302928-0 The invention is further elucidated in the following with reference to the appended claims drawing, in which Figs. 1 and 2 schematically in the longitudinal section show two as examples1 selected embodiments of transmissions according to the invention.

Fig. 1 shows a part of a transmission housing 1 belonging to a pin wax. In trans- the mission housing 1 is a hollow axis2 rotatable 1 degree with two layers 3, 4. A gear 5 is rotatably mounted on the axis 1 with a key 6. The axis 2 has a completely open end Za into which a drive pin 7 on a working machine (not shown) extends.

In the wall of the hollow shaft 2 near its inner surface 8 is a coaxial, annular chamber 9 with 1iten radius11 extent arranged. The chamber 9 extends in the axial direction to a piece inside the layers 3, 4 and is of the per se known type shown in Swedish patent specification 425 515 for coupling an axis1 with a device arranged on the axis hub hub while conveying a me11an these elements inserted, thin-walled housing, in which the said chamber is located. As with the known coupling, in the case of The mission according to the invention is provided with the chamber 9 of the axle shaft 2 provided with a device 10 for pressurization of the chamber 9 by means of a pressure fluid due to elastic deformation of the inner surface 8 in the direction of the shaft pin_7 as well as a device 11 for discharging the pressure fluid from the chamber 9 if a release of the shaft 2 from the shaft pin 7 is desired The device 10 comprises a piston 12, which by means of a screw 13 is sealingly displaceable in a bore 14, which communicates via a channel 15 with the chamber 9, and which is located in a partially inclined end 16 of the hollow shaft 2 in the extension of the shaft pin 7. Device The shape 11 has the shape of an axially projecting, hollow pin 17, which is eccentrically fixed in the partially inclined end 16 of the shaft and its interior via a channel 18 communicates with the cam 9, and has a radius 11 arm 19, which via an axis 11 rod 20 is connected to the free end of the shaft pin 7 and is arranged so that at a relative moving in the direction of rotation, slide off the pin 17 and thereby allow the pressure fluid to flow. to flow out of the chamber 9, so that the engagement of the hollow shaft 2 with the shaft pin 7 ceases.

When mounting the pin growth shown, the chamber 9 is pressure-relieved and the arm 19 removed. Then the pin wax is threaded onto the shaft pin 7 with the end of the rod 20 projecting through the center hole in the end 16 of the hollow shaft 2, the arm 19 is mounted rotatably on the rod in such a position in relation to the pin 17 that if the shaft axis 2 during operation should s1ira on the shaft pin 7 the pin 17 is immediately sheared off. With the arm 19 fixed in it In this position, the screw 13 is screwed in one piece so that the piston 12 is displaced and causes one pressurization of the chamber to one of a pressure relief valve (not shown) determined value. The cylindrical wall of the chamber 9 facing the shaft pin is thereby pressed hard against 8302928-0 4 the shaft pin 7. The second, cylindrical wall of the chamber 9 may also be deformed slightly in a radially outward direction outside the gear 5, but by the chamber 9 closing a distance from the bearings 3, 4 no deformations occur which can damage the bearings. The radially outward deformations may be inappropriately large if the outer axis of the hollow shaft diameter for space reasons must be limited. It may then be appropriate to limit the axial extent of the cam 9 to the area of the gear, in which case they radially the outward pressure forces are absorbed by this, which allows the use of much high pressures in the chamber 9.

The arrangement of the chamber 9 does not involve any major technical problems and has been discussed in the previously mentioned Swedish patent. In the embodiment shown in Fig. 1 be able to integrate the devices for pressurization and pressure relief with axis within substantially the outer dimensions of the transmission housing, the embodiment has had to be is limited to a transmission intended to be coupled to a shaft journal. It is however possible to adapt the transmission for mounting on a continuous shaft 7 ', such as shown in Fig. 2. Here, one end 21 of the hollow shaft 20 has been formed with a widened part, in which the device 10 for pressurizing the chamber 9 as well as the device 11 for pressurizing loading of the same are located. One corresponding to the radial arm 19 in Fig. 1 arm 22 is here attached to a ring 23 rotatably connected to the shaft 7 '. an overload protection is thus maintained in the manner previously described at a arising relative movement in the direction of rotation between the arm 22 and the device 11. g '

Claims (1)

5: 8302928-o PATENTKRAV. Transmission comprising a hollow shaft (2) rotatably mounted between two bearings (3, 4) in a housing (1) with a gear (5) or the like mounted on the hollow shaft. and a device for rotatably connecting the hollow shaft to a shaft (7) projecting into the hollow shaft by means of a pressure-acting coupling acting between these shafts, characterized in that the hollow shaft (2) extends substantially inside the outer limiting surfaces of the housing and is provided with a located near the inner wall (8) of the hollow shaft, coaxial annular chamber (9) having a small radial extent extending in the axial direction at most to an area inside the bearings (3, 4), and at at least one end of the hollow shaft a chamber communicating with the chamber device (10) for pressurizing the chamber (9) for effecting a clamping of the hollow shaft (2) in a manner known per se on the shaft (7) through the pressure medium thus formed coupling. Transmission according to claim 1, wherein the hollow shaft (2) is designed to receive a shaft pin (7) extending a distance into the hollow shaft (2), characterized in that the end (loose) of the hollow shaft ( 2) in which the shaft journal (7) does not extend is partially closed and there is provided with an external recess (14) in which the device (10) for pressurizing the annular chamber (9) is located. . Transmission according to Claim 1 or 2, characterized in that the shaft (7) is provided with an eccentric member (19; 22) which extends radially outwards at one end of the hollow shaft (2) and during a relative movement in the direction of rotation between the shaft and the hollow shaft is designed to actuate a device (11) located in the hollow shaft to release the pressurization of the chamber (9). . Transmission according to one of Claims 1 to 3, characterized in that the axial extent of the chamber (9) substantially coincides with the axial extent of the gear.