SU976273A1 - Installation for removal of technological binding in fluidized bed - Google Patents

Description

The invention relates to heat treatment of various products in a fluidized bed and can be used, in particular, when removing the technological binder from hollow ceramic articles of complex shape obtained by hot casting, and specifically from products that have a shape close to a truncated cone or pyramid, without bottom or having a bottom with holes.

A known method of removing the binder from ceramic semi-finished products is by placing them in a fluidized bed of dispersed material on perforated inserts assembled in cassettes and then heating them il.

 A fluidized bed kiln is known for heat treatment of ceramic products obtained, for example, by hot casting. This furnace is made of at least two working chambers located in a row, equipped with gas distribution grids and upper overflow valves. The chambers contain replaceable cassettes, on the shelves of which the products U2 1 assigned for the heat treatment are installed.

However, when moving hollow articles of complex shape from the chamber to the chamber, they may be destroyed by thermal shock.

The closest to the technical essence and the achieved result to the proposed is an installation for removing technological bonding from ceramic products in the fluidized bed, containing a working chamber, electric heaters, gas distribution grid, 15 precise chamber, a cassette with the product and thermocouple C 33.

However, when removing the binder from ceramic products having a shape close to a truncated cone, a pyro 20 without a bottom or having a bottom with openings in the upper part, to avoid stagnation of the adsorbent on the outer surface of the product, it is necessary to increase the speed of movement of the sorbent. ,

In the inner cavity of the workpiece, due to its narrowing, the speed of the adsorbent increases even more, especially in the high part of the product, which leads to increased adsorbent ablation, an increase in the aerodynamic drag of the product and, consequently, a decrease in the yield of suitable products. There is a need to reduce the speed of movement of the adsorbent in the internal cavity without lowering it from the outside of the product, while maintaining the constant temperature of the entire adsorbent.

The aim of the invention is to increase the yield of sunshine products, to prevent the adsorbent ablation and to reduce the aerodynamic pressure on the workpiece.

This goal is achieved by the fact that the installation for removing the technological connection in the fluidized bed, mainly from hollow ceramic products, contains a working chamber, gas distribution grid and a cassette with the product, electric heaters and thermocouples placed in it, is equipped with a removable plug the product, and the sublattice space is made of two insulated one from the other and located one in the other chambers with independent adjustment of the supply; air, with a removable stand placed in the inner chamber.

In addition, it is advisable that the noiie-river sections of the removable stand and the cassette be performed around the perimeter of the base of the workpiece, and to ensure the same temperature conditions inside and outside the product, install an electric heater and a thermocouple inside the product.

The drawing shows schematically an installation for removing the process fluid in a fluidized bed.

The installation includes a working chamber 1, sub-grid space 2, including chambers 3 and 4, gas distribution grid 5, electric heaters 6 and 7, interchangeable stand 8, guides 9, product 10 which is mounted on the cartridge 11, thermocouple T and T. Flow rate air chambers 3 and 4 are measured with rotameters 12 and 13 and regulated by valves 14 and 15.

The installation works as follows

An adsorbent is loaded into the working chamber 1 of the installation, which leads: to a fluidized state by supplying air under the gas distribution grid 5. The workpiece 10 along the vertical guides 9 on the cassette 11 is installed gas-tight on the stand 8, which, like the chamber 4, has the base configuration of the processed products. Heating of the fluidized bed is carried out respectively by heaters 6 and 7.

The heat mode in the apparatus is controlled and set by thermocouples T and T2. With the help of rotameters 12, 13 and valves 14, 15, the specified liquefaction modes of the adsorbent are set. that inside and outside the product.

After the removal of the technological bond from the product, it is removed from the unit on the cartridge 11,

The proposed sublattice space design with a removable stand allows obtaining different speeds of movement of the fluidized adsorbent inside and outside the product due to supplying different air flow rates to the sublattice chambers, and the presence of a replaceable stand allows processing products with different cross-section configuration, which makes the installation universal. I

The use of the invention will improve the plant performance by reducing the processing cycle of products, since reducing the ash of the small fraction from the adsorbent increases its absorbing capacity, as well as increases the yield of usable products by 5%.

Claims (3)

Invention Formula 1, Installation for removing the technological bond in the fluidized bed, mainly from hollow ceramic products, comprising a working chamber, a gas distribution grid and a cassette with the product, electric heaters and thermocouples located in it, in order to increase the yield of suitable products adsorbent ablation and aerodynamic pressure reduction on the workpiece, it is equipped with a removable stand for mounting the cartridge with the product on it, and the under-grid space is made of two isolates OQ bath from each other and arranged one within the other chambers with independent adjustment of the air supply, wherein the replaceable pad placed in the inner chamber. 2. Installation according to claim 1, characterized in that the cross-sections of the interchangeable stand and cassette are made around the perimeter of the base of the workpiece. 3, Installation according to claim 1, characterized in that, in order to ensure the same temperature conditions inside and outside the product, an electric heater and a thermocouple are installed inside the product. Sources of information taken into account in the examination i. USSR author's certificate 727964, cl. F 27 B 15/00, 1977. 976273 2, USSR Author's Certificate No. 450070, cl. F 27 B 15/00, 1972. 3. Melnikov V.B. et al. Fluid bed binder system. - Glass and ceramics, 1980, - 12, p. 1516 (prototype).