RU2584813C1 - Installation for dehydration of gypsum - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to installation for dehydration of gypsum. Plant includes a housing, a source of heat carrier, a shaft for movement of heat carrier with inhibitors of heat carrier movement, a shaft for roasting material inclined to horizon line, loading and unloading bins. Plant is equipped with partition made from heat-conducting material, for example copper, separating shafts from each other, and a cam mounted on housing with possibility of rotation, equipped with drive and interacting with roller secured to one of shafts, shaft for heat carrier flow is located below shaft for roasting material, wherein both shafts are made of rectangular section, and are fixed with possibility of being moved along their long sides and spring-loaded in direction of motion.

EFFECT: simplified design of installation for dehydration of gypsum.

1 cl, 2 dwg

Description

The invention relates to the building materials industry and can be used for the production of gypsum.

A known installation for dehydration of gypsum according to the patent of Russia No. 133268, adopted for the prototype, containing a heat carrier source, a shaft for firing material, loading and unloading bins, characterized in that the shaft for firing material is made cylindrical and inclined to the horizon, inside it is located with the possibility of rotation a cylindrical shell along which the coolant moves, with coolant motion inhibitors located in it, made in the form of conical surfaces, and the shell itself is equipped with a T-shaped the blades in section, located along the generatrix of the cylinder.

A disadvantage of the known installation is its complexity.

The aim of the invention is to simplify the design of the installation for dehydration of gypsum.

This goal is achieved by the fact that in the installation for dehydration of gypsum containing a housing, a coolant source, a shaft for moving the coolant, with moderators of coolant moving in it, a shaft for firing material, inclined to the horizon, loading and unloading bins, both shafts are made rectangular sections and are separated from each other by a partition of heat-conducting material, such as copper, moreover, the shaft for the movement of the coolant is located below the shaft for firing the material, both shafts are secured with with the possibility of movement along its long sides and spring-loaded in the direction of movement, a cam equipped with a drive, interacting with a stop, which is attached to one of the shafts, is rotatably located on the installation casing.

The essence of the claimed invention is illustrated by graphic materials, in which figure 1 shows a General view of the installation for dehydration of gypsum in section, and figure 2 shows a view of a cam interacting with a roller.

The gypsum dehydration installation contains a heat carrier source 1, which can be used as a gas burner, a shaft for moving heat carrier 2 with coolant motion retardants 3 located therein, a shaft for firing material 4, a loading hopper 5 and an unloading hopper 6, both shafts are separated from each other from each other by a partition 7 of a heat-conducting material, for example copper or aluminum. The shaft for moving the coolant 2 is located below the shaft for firing material 4, both shafts 2 and 4 are fixed with the ability to move along their long sides and spring-loaded in the direction of movement with the help of spring 8. A cam 10 equipped with a drive 11 is located on the housing 9 of the unit for rotation The cam 10 interacts with a roller 12, which is attached to the shaft 2. Shafts 2 and 4 are covered with a layer of thermal insulation 13 and rest on the housing 9 with rollers 14.

Installation for dehydration of gypsum works as follows. Through the feed hopper 5, unbaked gypsum is fed into the shaft for burning material 4. The heat carrier source 1 creates a stream of hot air, which, spreading through the shaft to move the heat carrier 2, heats it. The retardants of the movement of the coolant 3 prevent the rapid flow of hot air through the shaft for the movement of the coolant 2, thereby contributing to the complete transfer of thermal energy to the partition 7 from heat-conducting material, such as copper or aluminum, heating it and, through it, unburnt gypsum in the shaft for burning material 4 The drive 11 evenly rotates the cam 10, which, interacting with the roller 12, slowly moves the shafts 2 and 4 on the rollers 14 along the housing 9, in the direction of the loading hopper 5, deforming the spring 8. When making cam 10 full revolution, the roller 12 reaches a straight section of the profile of the cam 10, on which it quickly moves to the center of the cam. In this case, the shafts 2 and 4, under the action of the spring 8, jerkly move in the direction of the discharge hopper 6, stopping abruptly at the end of the movement, and the unburnt gypsum moves forward by inertia. As a result of such reciprocating movements of the shafts 2 and 4, the gypsum runs along the entire length of the shafts 4, falling into the discharge hopper 6. The inclination of the shafts 2 and 4 to the horizon promotes the movement of unburnt gypsum. When unheated gypsum is heated during its movement along the shaft for burning material 4, it is dehydrated and burnt gypsum enters the hopper 6.

The use of the claimed invention will simplify the design of the installation for dehydration of gypsum.

Claims (1)

Installation for gypsum dehydration, comprising a housing inclined to the horizon, a coolant source, a partition located in the housing with its separation into a shaft for firing material and a shaft for moving the coolant with coolant retarders located in it, loading and unloading bins, characterized in that both shafts are made of rectangular cross section, are fixed with the possibility of movement along their long sides and spring-loaded in the direction of movement, moreover, the shaft for the movement of the coolant races laid below the shaft for firing material, the partition is made of copper, while the installation is equipped with a cam mounted on its housing with the possibility of rotation, equipped with a drive and interacting with a roller fixed to one of the shafts.

Images