SU1057757A1 - Rotating furnace body - Google Patents

Abstract

1. BODY OF ROTATING OVEN, containing a metal cylindrical shell with bandages and a ring gear, lined with annular ledges and intermittent spiral channels directed in opposite directions between adjacent pairs of annular ledges, characterized in that, in order to simplify the manufacture of the lining, the latter is made enclosed outside the metal cage of individual rings of concrete, and the thickness of the ring is equal to the pitch of the annular ledges. 2. A housing according to Claim 1, characterized in that the rings of concrete are made with at least two parallel longitudinal axes of the housing with holes and are equipped with tension rods for connecting into a unit at least two rings. 3. Case on PP. 1 and 2, characterized in that, in order to improve reliability in operation by eliminating the turning of the rings, it is provided with longitudinal plates fixed on the inner surface of the shell and fixed with a longitudinal groove on the metal holders. (L j / s yy lii

Description

The invention relates to chemical engineering, in particular to rotating non-rotating and rotating heat exchangers for bulk material.

A rotary kiln is known, the casing of which is lined with heat-resistant blocks attached to the inner surface of the casing 1.

The execution of the lining from the blocks is time consuming, since it requires adjustment of the individual blocks along the circumference, and it is difficult to mechanize the process of lining itself. Especially the block lining is inconvenient with relatively small diameters of furnaces (1-2.2 m), widely used in chemical production.

The closest in technical essence and the achieved effect to the proposed is the body of the rotary kiln, containing a metal cylindrical shell with bandages and a gear crown, lining with annular ledges and intermittent spiral channels directed in opposite directions between adjacent pairs of annular ledges 2.

However, the lining of the known body is difficult to manufacture.

The purpose of the invention is to simplify the manufacture of the lining.

This goal is achieved by the fact that in the case of a rotary kiln containing a metallic cylindrical shell with bandages and a gear ring, lining with annular ledges and intermittent spiral channels directed in opposite directions between adjacent pairs of annular ledges, the lining is made in the form of individual rings covered outside by a metal yoke of concrete, and the thickness of the ring is equal to the pitch of the annular ledges.

In addition, it is advisable to make rings of concrete with at least two parallel longitudinal axes of the casing and to provide sticks for connecting at least two rings into a block.

In order to improve reliability in operation by eliminating the rotation of the rings, the furnace body is provided with longitudinal plates fixed on the inner surface of the shell and straps fixed on metal holders with a longitudinal groove.

FIG. 1 shows the body, a longitudinal section; in fig. 2 - ring 6 in FIG. one; in fig. 3 - ring 7 in FIG. G, FIG. 4 - scan of the rings on the inner diameter; in fig. 5 shows the node I in FIG. one; in fig. 6 is a section A-A in FIG. 1. The furnace body contains a metal sheath 1 with bandages 2 and 3, with a ring gear 4. Inside the sheath there are rings 5-7, made of heat-resistant concrete.

The rings 5-7 have a metal ring 8 over the outer diameter, and the concrete part 9 of the ring has an annular step 10. The rings 6 are provided with a spiral channel 11 made at high tide 12 to the internal diameter of the ring. The rings 7 have a spiral channel 13 directed in the opposite direction. On the inner surface of the rings 6 and 7 are wedge tides 14 and 15, and in the annular ledges 10 made windows 16 and 17.

In the low-temperature part of the housing can be installed instead of rings 6 and 7

 shell 18 with annular ledges 19, spiral, channels 20 and 21, and guide plates (not shown). Between the shell and the shell 18 is located thermal insulation 22.

For easier mounting of rings 5-7, they

0 can be combined into blocks using tension rods 23, passed through holes in the rings 5-7.

To prevent the rings 5-7 from turning when the furnace is started up, a longitudinal plate 24 can be fixed to the shell 1, and a bar 25 with a longitudinal groove can be attached to the rings 5-7.

The furnace body works as follows.

The furnace body is rotatable.

0 through a ring gear 4. An electric heater is inserted at the end of the furnace. The material to be heat treated is fed inside the body. Along odd rings (from the loading side) and spiral channels in even rings, the material moves to

5 opposite the end of the case where the heater is installed. Having reached the last ring, the heated material through the even rings and spiral channels in the odd rings moves towards the cold end of the body, giving away heat to the newly charged material.

The proposed design makes it possible to drastically simplify the manufacture of the linings of the hull, since the manufacture of rings can be mechanized. The mounting of rings in the shell of the housing can also be mechanized. The ring is inserted into the shell, for example, by a hoist and pushed to its location. With sufficient lifting capacity to speed up the installation, the rings can be pre-assembled

 assembled blocks. Fixing rings from inertial cranking during start-up ensures their reliable operation.

The economic effect of the proposed design is determined by the reduction in labor of manufacturing the body due to the rejection of piece refractory products and the transition to mechanized production of lining from rings.

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Claims (3)

1. CASE OF A ROTATING FURNACE, containing a metal cylindrical shell with bandages and a gear rim, a lining with annular ledges and intermittent spiral channels directed in opposite directions between adjacent pairs of annular ledges, characterized in that, in order to simplify the manufacture of the lining, the latter is made in in the form of individual rings of concrete covered by a metal cage, the thickness of the ring being equal to the step of the ring ledges. 2. Case in accordance with π. 1, characterized in that the rings of concrete are made with at least two holes parallel to the longitudinal axis of the housing and provided with tie rods for connecting at least two rings to the block. 3. The housing according to paragraphs. 1 and 2, characterized in that, in order to improve reliability in operation by eliminating ring rotation, it is equipped with longitudinal plates fixed on the inner surface of the shell and plates with a longitudinal groove fixed on metal ® clips. SU w. 1057757>