CZ200826A3 - Waste disposal method and apparatus for making the same - Google Patents

Abstract

A method of disposing of artificial stone waste containing binders. The waste is heated to the polymerization temperature, typically 60 to 140 degC, and the resulting hard mixture is comminuted, typically to granules which are further sorted. The apparatus for making the method is formed by a working vessel (1) in which a stirrer (2) is placed and at least one grinder (3) and the working vessel (1) are provided with a heating device (11), a outlet (4) and usually also a container ( 8) with a dispenser (9), wherein the actuator (13) of the dispenser (9) is connected to at least one temperature sensor (12) located inside the working container (1) and connected to the actuator (13) of the dispenser (9) and also to starting the power supply to the heater (11).

Description

Waste disposal method and apparatus for carrying out the method

Technical field

BACKGROUND OF THE INVENTION The present invention relates to a process for the disposal of waste containing binders from the manufacture of artificial stone and to an apparatus for carrying out the process.

BACKGROUND OF THE INVENTION

In the manufacture of artificial stone waste is produced in the form of a greasy material containing binders, such as synthetic resins and also aggregates, shards of glass, mirrors, etc. The problem is the subsequent disposal of this waste, which ends mostly in landfills and degrades the environment.

It is therefore an object of the present invention to find a method for disposing of such waste and to provide a device for applying the method.

SUMMARY OF THE INVENTION

The object is achieved by the method according to the invention, which consists in heating the binder-containing artificial stone waste to a binder dopolymerization temperature, usually 60 DEG-140 DEG C., and disintegrating the resulting hard mixture, usually into granules which are further sorted .

The principle of the apparatus for carrying out the method consists of a working vessel in which a stirrer and a pulverizer are located, the working vessel being equipped with a heating device and an outlet, the outlet may be a single opening or the opening is provided with a connecting pipe or neck. Waste from the artificial stone production is poured into the working vessel and heated by means of a heating device to dopolymerize the synthetic resins and at the same time to combine with other waste materials to form a mass which is crushed into granules, which is aided by a agitator. At the same time, the crushed material is conveyed towards the discharge, where it is eventually sorted into the desired fractions.

The working vessel is generally provided with a dispenser container, wherein the dispenser drive is connected to at least one temperature sensor located within the working vessel and connected to the actuator actuation of the dispenser and also to the actuation of the actuator.

-2 ·· * ·· power supply to the heating device. When the temperature drops inside the working vessel, the temperature sensor will apply a signal to the dispenser drive, which is thus stopped and interrupting the feeding of waste material to the working vessel. If the temperature inside the working vessel rises above the set value, the temperature sensor gives an impulse to stop the energy supply to the heating device.

The tank is usually completed with a waste conveyor whose drive is connected to the sensors of the tank filling. The conveyor drive is switched on when the waste level drops below the level of the lower sensor and vice versa is disabled when the level of waste reaches the level of the upper sensor. Thus the operation of the device is prevented without filling the working vessel, while at the same time overfilling of the container is prevented.

In a preferred embodiment, the waste conveyor comprises, for example, a single-cap elevator. The elevator pocket moves from the lower level in the terrain plane to the plane above the container, with the single-cap elevator being equipped with limit switches for the upper and lower dead center of the pocket. This prevents the pocket from overflowing at its top dead center and prevents the pocket from hitting the ground at the bottom dead center.

In the upper part of the working vessel there is a fan, which is used for exhausting gases, which, when combined with air, could form an explosive mixture inside the working vessel. This eliminates the risk of explosion of these gases.

Under the discharge is usually placed vibrating screen, which is used to sort the resulting granules from waste material.

Overview of the drawings

The artificial stone waste disposal device according to the invention is schematically shown in the attached drawing.

An example of an embodiment of the invention

Waste from the artificial stone plant containing paste-like binders, crushed stone, glass and mirror wastes was heated to a dopolymerization temperature of 90 ° C at which it was crushed to granules of 10 to 30 mm in size.

Which have been further classified by size to be determined as an additive in the manufacture of brick masonry and as an additive in a road surface composition.

An exemplary embodiment of the device

The apparatus consists of a cylindrical working vessel 1 attached to the stands 19 attached to the base 20. The working vessel 1 is provided with a heating device 11 which heats both the lower and the upper part of the working vessel 1. Inside the working vessel 1 is a stirrer 2 driven by a shaft 21 to which the torque is transmitted by a belt drive 22 from the electric motor 22. Two grinders 2 extend into the interior of the working vessel 1 and the end of the working vessel 1 is provided with an outlet 4 under which the vibrating screen 5 is located. On the opposite side there is a reservoir 2, which has a dispenser 2 located in the lower part, connected by a dispenser shaft 24 with a dispenser drive 13, which is connected with temperature sensors 12 located inside the working vessel 1. they also interfere with the buffiness valve control 2 Tray 2 is internally provided with sensors 14 fill the tank and connected to the actuator drive 16 of the conveyor 10 the waste. A hopper 25 is disposed above the hopper 2 and the waste conveyor 10 is provided with a rope-pulled pocket 18 and folded into the hopper 22, the pocket 18 being guided in the sides 26 of the waste conveyor 10, where the limit switches 17 12. The ropes for pulling the pocket 12 are wound onto a drum 27 driven from the drive 16 of the waste conveyor 10. The working vessel 1 is provided with an inspection hatch 7.

The artificial stone waste containing synthetic resin in the form of a greasy mass containing admixtures of aggregate, glass and shards of mirrors was conveyed to the pocket 18 of the waste conveyor 10. After filling of the pocket 18, by switching the conveyor drive 16, the pocket 12 was lifted and tipped into the hopper 25 and further into the container 2, from which the greasy material was dosed by the dispenser 2 into the working vessel 1. which allowed it to be comminuted by the pulverizer 2

-4 • 4 44 44 4 4 4 4 4 # 4

4 4 4

444 44 44 444 44 44 and partly also by rotating the agitator 2, which conveyed the hardened and granular comminuted mass to the discharge 4 from which it fell onto a vibrating screen 5, where the granules were sized according to size and transported to transport containers for further use. To ensure safe operation, the evaporative gases from the unpolymerized synthetic resin were exhausted from the working vessel 1 by a fan

9. The temperature sensors 12 placed in the working vessel 1 were set at 100 ° C and, when the temperature dropped below this value, gave an impulse to stop the actuator 13 of the dispenser 3, and when the temperature sensors reached 12 ^p . If the temperature inside the working vessel 1 reaches 100 ° C, the temperature sensors 12 give an impulse to disengage the energy supply to the heating device H. The filling of the reservoir δ is controlled by the sensors 14; the actuator 13 of the metering unit is stopped Sak is switched on again after reaching the level of the upper sensor 14 of the filling of the reservoir δ. Conversely, if the level in the reservoir δ reaches the level of the upper sensor 14, the drive 16 of the waste conveyor 10 stops.

Claims (10)

PATENT CLAIMS CLAIMS 1. A process for the disposal of waste from the production of artificial stone containing binders, characterized in that the waste is heated to the dopolymerization temperature of the binder and the resulting hard mixture is comminuted. Waste disposal method according to claim 1, characterized in that the waste is heated to a dopolymerization temperature of 60 to 140 ° C. Disposal method according to claim 1 or 2, characterized in that the resulting hard mixture is comminuted into granules and subsequently sorted. Device for carrying out the method according to claims 1 to 3, characterized in that it comprises a working vessel (1), in which a stirrer (2) and at least one pulverizer (3) is located, the working vessel (1) being provided with a heating device. device (11) and discharge (4). Device according to claim 4, characterized in that the working vessel (1) is generally provided with a reservoir (8) with a dispenser (9), the actuator (13) of the dispenser (9) being connected to at least one temperature sensor (12), located inside the working vessel (1) and connected to the actuator actuation (13) of the dispenser (9). Device according to claim 5, characterized in that the temperature sensor (12) located inside the working vessel (1) is also connected to the start-up of the energy supply to the heating device (11). Device according to claims 5 and 6, characterized in that the container (8) is supplemented by a waste conveyor (10) whose drive (16) is connected to the filling sensors (14) of the container (8). Apparatus according to claim 7, characterized in that the waste conveyor (10) is a single-cap elevator. Device according to claims 4 to 8, characterized in that the working vessel (1) is provided with a fan (6). • »« «« ·· • »» * 9 • · · • · • • • · · · • · • · « Apparatus according to claims 4 to 9, characterized in that a vibrating screen (5) is located below the outlet (4).