SU1194932A1 - Rotary feeder of digester - Google Patents

Abstract

ROTOR FEEDER OF THE COOKING BOILER, including a housing with a bruise, having connections for supplying and discharging the chip and reagent, a rotor mounted in the housing with through pockets on its working surface and a hammer for dampening water hammer, characterized by that. that, in order to increase the service life of the feeder, the means for dampening hydraulic shocks are made in the form of grooves along the generator of the working surface of the rotor, located directly at the pockets of the rotor in the direction of its vrash. sl; about 4ib WITH CO 1C

Description

The invention relates to mechanical engineering, primarily to equipment for the pulp and paper industry, and can be used for the continuous supply of process chips in continuous cooking installations.

The purpose of the invention is to increase the service life of the feeder.

The drawing shows a rotary feeder digester section. The rotary feeder includes body 1, into which Monel shirt with notches (not shown) is pressed. The housing has two vertical 2 and 3 nozzles for feeding chips and two horizontal nozzles 4 and 5 for removing chips and reagent. The case has a rotor 6 with through pockets 7 on its working surface. The means for damping hydraulic impacts are made in the form of grooves 8 along the generatrix of the working surface of the rotor located directly at the pockets 7 of the rotor in the direction of its rotation. In the horizontal pipes 4 and 5 are located the peaks 9 in the form of corners.

Rotary feeder

works as follows.

During operation, the chips enter through the vertical nozzle 2 into the pocket 7 of the rotor 6. At the same time, the pressure in the pockets 7, when placed vertically, does not exceed P 0.05 MPa, and when the rotor rotates 90 °, when the pocket 7 is horizontal and communicates with the horizontal the high-pressure pipes 2 and 3 Pi 1.2 MPa, the ejection of chips occurs. A gradual increase in pressure from 0.05 to 1.2 MPa is carried out with the help of peaks 9 and grooves 8. As there are no grooves on the shirt, a shirt will be worn much less. As a result, the total wear of the feeder is shifted towards the rotor. The table shows data on the effect of the location of the grooves on the working surface of the rotor on the technical and economic indicators of the known and proposed rotary feeder.

0 Placing on the working surface of the rotor boreholes for damping hydraulic shocks in the pockets of the rotor reduces wear on the working surface of the housing jacket due to the increase (almost twice) of its working

5, resulting in an increase in the service life of not only the jacket, but also the rotary feeder as a whole.

Width of bore in diameter, B, mm Depth of cut, mm Number of cuts, pcs. The length of the working section of the rotor diameter, L, mm The ratio of the width of the notch to the length of the area by diameter, / L,% Service life of the feeder,% The number of reflux body, pcs. Distribution of total wear of the feeder between the rotor and the jacket of the housing, mm /%

The location of the grooves is symmetrically on the working surface of the rotor although it reduces its working surface, but due to the fact that it is possible to weld the surface of the rotor with a wear-resistant material (the jacket of the case is only machined), the overall service life of the rotor does not change. As a result of the introduction of the grooves

On the roooches of the rotor surface, we managed to reduce wear of the housing jacket, shift the total wear of the feeder towards the rotor, as a result of which the life of the feeder as a whole increased 1.5 times, besides, the number of rotor refills increased from 4-5 to 6-7 times.

Claims (1)

A rotary feeder for a boiling boiler, comprising a housing with a jacket, having nozzles for feeding and removing chips and reagent, a rotor installed in the housing with through pockets on its working surface and means for damping water hammers, characterized in that, in order to increase the life of the feeder, means for quenching hydraulic shock is made in the form of grooves along the generatrix of the working surface of the rotor located directly at the pockets of the rotor in the direction of its rotation. with SO FO y>