SU396462A1 - PROFESSIONAL SHAFT12 - Google Patents

Description

The invention relates to cellulose liquids, textiles, and chemical and chemical industries, and is used in calenders, super calenders, roller presses, squeezing, sizing, and other similar machines for pressure treatment.

A non-flexible shaft is known, containing a non-iodine core located inside the floating jacket and carrying an obturator forming the hydraulic chamber, the sealing edges of which are ground and pre-springed to the inner surface of the jacket. Moreover, the obturator is made in the form of an elastic element, one end of which is fixed on the core, and the other is spring-loaded contact with the sealing edge.

However, in such a shaft, the obturator is loaded with force from the pressure of the working fluid, which leads to an increase in wear of the rubbing surfaces of the obturator and the inner surface of the jacket, as well as an increase in the energy consumption of the shaft operation. In addition, the installation of the obturator is associated with great complexity.

In order to improve the technology of mounting and unloading the obturator in the shaft proposed, the obturator is made in the form of several pistons placed in the core grooves and moving in them in the direction opposite to the actual load, with the seals of the edges made in the ends of the pistons in the form of projections located along their length.

FIG. 1 presents the proposed shaft free shaft in a longitudinal section; in fig. 2 - the same, top view; pas figs. 3 is a sectional view of .4-A in FIG. one; in fig. 4 shows an arrow B in FIG. 3

The core-free core 1 is hinged in the bed 2 by spherical bearings 3 and face washer 4 and is located inside a floating cylindrical jacket 5 mounted on the core by means of bearings 6 fixed by nuts 7. The bearing assemblies are closed by covers 8 attached to the ends of the floating shirt. In the grooves 9 of the core (see Fig. 3), the pistons 10 are installed, which are obturators, the sealing edges II of which are ground to the inner surface of the jacket, thereby creating sealed hydraulic chambers 12. The pistons can be either cylindrical or elongated (see Fig. I and 2). Hydraulic chambers will also have an appropriate shape.

The springs 13 are intended to create an initial pressure between the sealing edges of the plate and the jacket. To prevent leakage of working fluid into the gaps between the pistons and the walls of the core grooves, piston rings 14 or cuffs 15 are installed. Channels 16 are designed to supply working fluid to hydraulic chambers, and channel 17 is to remove possible leaks from hydraulic chambers from space 18 between the jacket and core. The number, shape and dimensions of the pistons, as well as the pressure of the working fluid in the hydraulic chambers are adjusted so that, with a desired degree of accuracy, the external load specified by the enuru is balanced 19. The hydraulic chambers work, like other unloading devices, by means of the working fluid injected in one way or another into sealed chamber spaces. From the moment the working fluid is injected, the pistons W, calculated as differentially balanced elements, press the sealing edges 11 of the shaft to the workpiece 5 with the calculated equilibrium coefficient value, which is determined from the relationship: where K - is the balance coefficient (normal, 55-0 , 65); / - the area of the contact surfaces; i is the area on which the pressure of the working fluid acts, which presses the sealing edge of the piston to the inner surface of the rotating jacket. The object and the trouble of iH and the Profibel-free shaft containing a fixed core located inside the floating jacket and carrying an obturator forming the hydraulic chamber, sealing edges of which are ground and pre-springed to the inner surface of the jacket, characterized in that in order to improve the technology of mounting and unloading the shutter, the latter is made in the form of several pistons placed in the slots of the core and moving the node in them by the pressure of the working fluid in the direction opposite to the current load , Wherein the sealing edge vypolieny ua ends of the pistons, in the form of protrusions arranged at their contour.

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FIG. one

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