PL296992A3 - Shaft rotating mechanism in particular for use as a part of mobile crane slewing gear - Google Patents

Claims (3)

SHAFT ROTATION MECHANISM, ESPECIALLY CRANE BASES Patent claims 1. Shaft rotation mechanism, especially of the mobile crane base 1, in which on the part of the shaft placed in the body with a cylindrical chamber, there are two projections located opposite to the axis of the shaft of the chamber, which reach their bottom height to the cover, and its length to the inner wall of the sleeve, the height of which is equal to the height of the cylindrical chamber and on which there are two two-sided projections located opposite to the axis of the sleeve and along its entire height, the internal parts of the two-sided projections adjoining the shaft, and the external parts the side wall of the cylindrical chamber, on which there are also two projections extending from the bottom of the chamber to the cover and to the outer wall of the sleeve, dividing the annular space delimited by the sleeve, the side wall of the chamber, its bottom and the cover, into two equal parts, each with these parts are brought in from outside the body - channels , the outlets of which are located near the projections on the side wall of the chamber, as well as the channels lead from the outside of the body to the annular space delimited by the sleeve, shaft, bottom of the cylindrical chamber and cover, and the outlets of these channels are located near and on both sides of the internal double-sided parts projections on the sleeve at one of its extreme positions, according to the main patent no. 168 454, characterized in that the projections / 3 / on the shaft / 2 / are blades embedded in a through cavity / 4 / made in the shaft, in this hollow between the blades are provided with at least one elastic element (5) which acts to push the blades out. 2. Mechanism according to claim A method as claimed in claim 1, characterized in that the blades and the through-cavity / 4 / in which they are fitted have a rectangular cross-section. 3. The mechanism of claim A device according to claim 1, characterized in that the elastic element (5) is a spring. * * * The subject of the invention is a shaft rotation mechanism, especially of a mobile crane base, the task of which is to exert a torque on another unit, e.g. on a crane base, in order to cause its rotation by a given angle. The shaft rotation mechanism, in particular the base of the mobile crane, is known from the application No. P-296505. In this mechanism, a part of the rotating shaft is placed in a body with a cylindrical chamber. On this part of the shaft, there are two projections located opposite to the shaft axis. The projections have a height equal to the distance from the bottom of the chamber to the cover, and their length extends to the inner wall of the sleeve, the height of which is equal to the height of the cylindrical chamber and on which there are two two-sided projections. The projections are arranged opposite the axis of the sleeve and over its entire height. The inner parts of these projections abut the shaft and the outer parts abut the side wall of the cylindrical chamber. There are also two projections on the chamber sidewall, extending from the bottom of the chamber to the cover and to the outer wall of the sleeve, dividing the annular space, delimited by the sleeve, the chamber sidewall, its bottom and the cover, into two equal parts. To each of these parts there are channels connected from the outside of the body, the inlets of which are located near the projections on the side wall of the chamber. Other passages lead from the outside of the body to an annular space delimited by the sleeve, shaft, bottom of the cylindrical chamber and cover, and their outlets / inlets / are located near and on both sides of the inner parts of the reciprocal projections on the sleeve at one of its extreme positions. During the trial operation of the known mechanism, it turned out that its wear consists in premature loss of tightness between the projections on the shaft and the inner wall of the sleeve, while the tightness between the two-sided projections on the sleeve and the shaft on one side and the side wall of the cylindrical chamber on the other side. as well! between the projections on the side wall of the chamber and the outer wall of the sleeve is retained. The object of the invention is to eliminate the above phenomenon by providing a mechanism in which the tightness between the projections on the shaft and the inner wall of the sleeve will be maintained for a longer period of operation of the mechanism. The essence of the invention consists in the fact that the projections on the shaft are blades, preferably with a rectangular cross-section, embedded in a through hollow made in the shaft, preferably with a rectangular cross-section, and in this hollow, between the blades, there is at least one elastic element that acts to push the blades. on the blades, as a result of which there are no play - leaks between the rubbing surfaces of the blades and the inner wall of the sleeve. The subject of the invention is presented in the embodiment in the drawing, in which fig. 1 shows the mechanism in a section in a plane passing through the shaft axis, and fig. 2 - a cross-section of the mechanism in the plane AA as in fig. 1. The mechanism comprises a body 1 with a cylindrical chamber, in which the stop part of the rotating shaft 2 is located. On this part of the shaft 2 there are two projections in the form of blades 3 with a rectangular cross-section. The blades 3 are embedded in a hollow in the shaft 2 - in a through rectangular groove 4 running along the diameter of the shaft 2 / condition of the projections being opposed to the shaft axis /. In the groove 4, an elastic element in the form of a spring 5 is arranged between the blades 3, which pushes the blades 3 away from each other. The height of the blades 3 is equal to the distance from the bottom 6 of the chamber to the cover 7, and the length of their parts protruding beyond the shaft 2 - protrusions, is equal to the distance from the shaft 2 to the inner wall of the sleeve 8. The height of the sleeve 8 is equal to the height of the cylindrical chamber. There are two two-sided projections on the sleeve 8, positioned opposite to the axis of the sleeve 8 and along its entire height, the inner parts 9 of which adjoin the shaft 2 and the outer parts 10 against the side wall 11 of the cylindrical chamber. On the side wall 11 of the chamber there are also two projections 12 extending from the bottom 6 of the chamber to the cover 7 and to the outer wall of the sleeve 8, dividing the annular space 13, delimited by the sleeve 8, the side wall 11 of the chamber, its bottom 6 and the cover 7, into two equal parts. . To each of these parts there are channels 14 connected from the outside of the body 1, the outlets of which 15 - functionally also inlets - are located near the projections 12 on the side wall 11 of the chamber. Other channels 16 lead from the outside of the body 1 into an annular space 17 delimited by the sleeve 8, shaft 2, bottom 6 of the cylindrical chamber and cover 7, and their outlets 18 - functionally also inlets - are located near and on both sides of the inner parts 9 on both sides protrusions on the sleeve 8 at its extreme position, as in Fig. 2. Between the blades 3 and the internal parts 9 of the two-sided projections and between the external parts 10 of the double-sided projections and the projections 12 on the side wall 11 of the cylindrical chamber there are springs 19 - stops for the movement of the shaft 2 and sleeve 8.