SU447290A1 - Granulating head - Google Patents

Description

The invention relates to the processing of plastics and can be used in the production of granules from polymers. Granulating heads are known that contain a heated granulating grid with radially arranged inlet and outlet channels with external heat exchangers and external and internal collectors which are made in it to pass the heat transfer medium. However, different parts of the granulating lattice located in the same plane. Heated with both hot and spent steam. In addition, the central area of the grill is heated inefficiently. To ensure uniform heating of the granulating grid, a granulating head is offered, in which the input and output channels of the grid are spaced apart along the axis of the head, and the collectors connecting them are made of boiler, with internal collectors communicating with each other through the central cavity of the grid. The drawing shows a granulating head, a section along the central axis. The granulating head has a housing 1 i with a cavity 2 for supplying a heat transfer medium and flanges 3 for fastening it to an extruder 4 for installing a granulating grid, incl. a lattice housing 5, a flange 6 and a torpedo 7 are attached to the 1st Om. A central j is mounted on the lattice 5 on the sleeve 8, to which a tube 10 is attached through the ring 9. In the lattice case Radial inlets 11 and radial Output channels 12: located in different planes, feathers, pendicular to the axis of the head. The inlet and outlet portions of the radial channels 11 and 12 are connected by outer 13 and 14 and inner 15 and 16 annular manifolds that do not directly communicate with each other. The outer collector 13 connects the radial inlet channel 11 to the inlet ports 17, and the outer collector 14 connects the radial outlet channels 12 to the outlets 18.

In the lattice can be executed on one or several input and output channels.:. ./: ,: -, j. . I Internal collectors (can be obscured "by the central sleeve of the § 7 § Communicated with each other through channels 19; and 2O, executed in the walls of the central sleeve, through the central cavity 21 of the sleeve, cavity 22 of the tube 10, cavity 23 of the torpedo 7 and cavity 24.W

In the outer 13 and 14 and the inner 15 and 16 collectors are installed partition walls; 25; : 26.27 28 with gaps b and;

bg in relation to the walls of the collectors. | In Moving these partitions, you can adjust and thereby change the path-. reservoir cross sections.

 Between radial channels 11 and 12;

i passes forming channels, each of which consists of two channels 29 and 30 | different diameter. The axes of the shapes of the channels are perpendicular to the working surface 31 of the granulating grid. . ,

The end face of the central sleeve is; 05

. ki protected by insulating gasket-rg

which 32, - V

Coolant filed in the input | The holes 17 are evenly distributed by the outer collector 13 around the perimeter of the grid and through the radial supply channels 11, the internal collector 15, the holes 19, the central cavity 21 of the sleeve 8, the cavity 22 of the tube 10, the cavity 23

i torpedoes 7, cavity 24 holes 20 and 35

(the internal collector 16 enters the radial outflow channels 12, and then

through the outer collector 14 - into the outlets 18.

Partitions 25J 26 27 and 28 create an additional resistance, which makes the p uniformly uniform: the distribution of heat carrier. ; .-;,. :; :. . , The presence of perennnaps gaps b and b

compensates for the uneven distribution of the coolant due to the presence of pressure drop in the collector channels.

The location of the radial inlet and top channels in different planes perpendicular to the axis of the head creates conditions for uniform heating of the grid, and the connection of the internal collectors through the cavity of the torpedo ensures its rapid heating.

Item

rete n i

The granulating head, containing a heated granulating grid with radially arranged inlet and outlet channels with external and internal collectors for passage of the coolant, is so that, in order to ensure uniform heating of the granulating grid, the input and output the channels are spaced apart along the axis of the head, and the collectors connecting them are filled with annular ones, with i internal collectors communicating between p. ; fight through the central cavity of the lattice,