PL236890B1 - Device for producing purified mixes for building products with the possibility for calibration of the given raw materials - Google Patents

Description

Description of the invention

The subject of the invention is a device for the production of refined mixtures for construction products with the possibility of calibrating the given raw materials, especially for the production of wet mixtures.

There is known from the patent description PL 188366 a method for producing a building material mixture and a device for its production. Flue gas desulphurization waste gypsum or other finely powdered synthetic calcium sulphate carrier is mixed with lignite fly ash or other latent hydraulic binder and with calcined gypsum, preferably calcium sulphate hemihydrate. This mixture is fired directly (i.e. without prior drying, briquetting or sintering) in a rotary tubular furnace. To produce mixed hydrates, the mixture is split and partial amounts are fired at different temperatures or time periods. A device is proposed for this method, which consists of a horizontal cylindrical firing furnace (1), with a central, longitudinally arranged burner (2) and a series of rotating tubes (3) arranged around the burner (2), rotating at different speeds, in which the conveying auger is attached to.

There is known from the description of the patented invention P. 406075 a method for the production of loose building mixtures, in which cement, sand and additives are mixed in the main mixer, and then the mixed raw materials are packed into paper bags in a weighing-packing machine. The method is characterized in that the additive is an anti-bacterial filler in an amount of from 1% to 10% by weight of the total weight of the building mix, which is prepared in a mixer (101) in which the following is mixed in a weight ratio of 10: 1 to 100: 1 fly ash with a colloidal solution containing silver nanoparticles in the amount of 1000 to 5000 ppm, zinc oxide nanoparticles in the amount of 1000 to 5000 ppm, organic colloidal silica in the amount of 0.5% to 10% by weight, hydrogen peroxide in the amount of 3% by weight and water to 100%, then the colloidal coated fly ash is dried to a moisture content below 0.2%.

There is known from the patent description PL 220663 a method of industrial production of concrete mix, which consists in compiling the required chemical composition with simultaneous real-time measurement of the amount and humidity. The moisture content of the components is measured on the material layer falling by gravity from the final drum of the collecting conveyor (P), using two sensors (C) for continuous, non-contact on-line measurement. The sensors (C) are directed with the radiation axes at the upper and lower surfaces of the falling layer, respectively, and are shifted along the layer so that their radiation zones do not overlap. On the basis of the obtained data, the total amount of water adsorbed in the components and the necessary amount of mixing water are determined in the software computer of the control system to obtain the required water-cement ratio.

There is known from the patent description P. 365564 a method of producing a concrete mix reinforced with metal fiber and compacted by rolling in a continuous movement concrete plant, and a concrete plant for the implementation of this method. The invention relates to a method for the production in a continuous concrete plant of a concrete mix reinforced with metal fiber and roll compacted, which comprises feeding the vibrating metering means with pre-sized plates of metal fibers fed to a conveyor in a proportion of 20 to 60 kg of fibers per m ^{3 of} dry weight of concrete components, and providing a hydraulic binder material in an amount of from 180 to 400 kg / m ³ dry weight of the ingredients of concrete, the proportion of mixing water is determined in such a way that the mixer provide a continuous process the water content of 90 to 150 Iitrów / m ³ dry weight of the ingredients of concrete without fibers.

There is known from the patent description PL 194151 a set of devices for producing mixtures of loose materials, in which the components of the loose mixture are introduced into the movable mixer along its entire length, mixed with a mixer and a screw, and the mixer is loaded and emptied through one opening. The set of devices includes containers with discharge hoppers above the scales inlets, spaced along the component conveyor, directed to the mixer with an opening in the lid, to which the charging and discharge chambers are attached, and in them and in the mixer a trough with a screw is located along the longitudinal axis of the mixer, which has slats. Moreover, the set is equipped with a mix conveyor, a mix weighing and packing machine, a package conveyor and a two-belt loading table with an extendable belt.

The essence of the invention is a device for the production of refined mixtures for construction products with the possibility of calibrating the given raw materials, consisting of a belt conveyor

PL 236 890 B1 with a trough sliding trough belt conveyor above which is arranged in series: ash-lime dispenser, liquid plasticizer dispenser, aggregate tank and tanks for processing additives, the trough belt conveyor at one end being connected to a hopper by charging, which is connected to a belt-trough conveyor, and at the other end to a hopper with a double-shaft screw conveyor with a mixing function located below.

Preferably, the ash-lime dispenser has a cell feeder.

Preferably, the dispenser for liquid plasticizers has a graduated service vessel and a spray tip.

Preferably, the aggregate tank has a replaceable baffle and a feed regulator.

Preferably, the additive tanks have a transverse partition and a longitudinal partition.

Preferably, the conditioner tanks have two chambers in one row, and also two chambers in the second row, while in the lower part in the chambers in a diagonal line there are three-sectioned cell dispensers, and in the other chambers in a diagonal line, two-part cell dispensers.

Preferably, the trough belt conveyor in extreme positions has a calibration tank for circulation in the ash-lime feeder direction, and a calibration tank for circulation in the discharge direction of the double-shaft screw conveyor. Preferably, the liquid plasticizer dispenser has shutoff valves.

The invention enables the feeding of components in the form of ashes or lime through the ash-lime dispenser (1) and the cell feeder (18), while the liquid plasticizers are dispensed through the dispenser of liquid plasticizers (2), the graduated outgoing vessel (3) and the spraying tip (4) . The aggregate is fed through the aggregate tank (6), a two-part feed regulator (7) with the possible use of a replaceable partition (5). Fine-grained additives are applied through the reservoirs of enriching additives (8) from the chamber (23), chambers (24), chambers (25), and chambers (26) through two-part cell feeders (19) and three-part cell feeders (20). The above-mentioned components are moved to the charging hopper (11) through the trough belt conveyor (10) working in the middle direction, and then by the belt-trough conveyor (13) for further technological operations.

The left-hand trough belt conveyor (10), set in the middle position, transfers the raw materials to the left to the charging hopper (16) and through the double-shaft screw conveyor (15) with the mixing function, moves the mixed raw materials to the discharge (14) on the belt-trough conveyor (13) ) and directs them to further technological operations. The feeds of individual components for both of the above-described directions of operation of the trough belt conveyor (10) result from the recipe and are selected by means of calibrated capacities.

Before starting the preparation of the mixture according to the recipe, adjust the dose of the main aggregate from the aggregate tank (6). On the frame, move the trough belt conveyor (10) to the extreme left position towards the ash-lime dispenser (1) so that the aggregate transported by the conveyor fills the calibration tank (17). At the bottom of the aggregate tank (6) there is a two-way feed regulator (7). Its gradual position increases or decreases the dose of aggregate to the trough belt conveyor (10). By filling the calibration tank (17) with a predetermined volume, we measure the time and determine the efficiency for individual settings of the two-part feed regulator (7). The trough belt conveyor (10) works during this operation to convey the aggregate towards the ash-lime dispenser (1).

Before starting the mixture production according to the recipe, the dose calibration for the ash-lime dispenser (1) of the cell feeder (18) should be performed. The trough belt conveyor (10) should be moved to the extreme left position and thanks to the direction of rotation towards the ash-lime dispenser (1), pour the ingredient from the rotary dispenser (18) into the calibration tank (17). The cell dispenser (18) is controlled by an inverter. The time of filling the calibration tank (17) with a predetermined volume in the individual adjustment settings of the rotary dispenser (18) allows you to adjust the dose to the recipe.

Calibration of the liquid plasticizer from the liquid plasticizer dispenser (2) takes place after gravity displacement into the graduated distribution vessel (3) by means of the shut-off valve (27). We measure the spray dose by controlling the fluid loss on a transparent scale at a specific time, knowing the calibrated dose of the transported aggregates.

PL 236 890 B1

When calibrating fine-grained additives from the additives tank (8), the trough belt conveyor (10) should be moved to the extreme right position so that, working towards the discharge (14), it fills the calibration tank (12) with them. The enriching additive from the chamber (23) of the improvers' container (8) is discharged through the three-sectioned dispenser (20) onto the trough belt conveyor (10). The amount of the dose is regulated by a three-stage work regulator of individual elements of the three-section rotary dispenser (20). The calibration tank (12) with a predetermined volume is filled at the measured time at one of the three temperatures and this enables the dose to be selected according to the recipe. The same method is used to calibrate the remaining chambers (23) (24) (25) (26) of the processing additives tank (8), except that two of the chambers are controlled with three-sectioned cell feeders (20), and two with two-section cell feeders (19).

The invention allows the mines of mineral resources to produce new products based on 0-2 sand.

Advantageous new products are characterized by an improvement in the particle size characteristics through the application of additives improving the continuity of the fractions, preferably fine.

Composition with the possibility of making the designed mixtures: with additives of fine-grained mineral materials, with the possibility of applying liquid plasticizing additives, with the possibility of applying ash additives, with the possibility of using lime plasticizing additives.

Such blends of the device according to the invention may be:

• Input material made in accordance with the recipe or with a defined composition (determination from PN-EN) for further technological process, eg for drying room.

• Independent construction products, eg ash-sand mixture.

• Special mixtures with a specific composition dedicated to a specific construction specialization, eg for making foundations, for mortars with the addition of lime.

Minerals mines subject the extracted spoil to various forms of processing, including segregation and washing. Segregation "arranges" products according to the scale in millimeters: 0-2, 2-4, 8-16, 16-32, 32-64.

Rinsing the finest fraction 0-2 removes unwanted elements such as clays and clays, but also small fractions, e.g. silica.

Diagnosis of 0-2 fraction deficits after wet treatment is carried out in a standard manner according to PN-EN. The method according to the invention consists in adding appropriate amounts of the preferred ingredients. The method according to the invention (inclusive method) is the application of fine-grained mineral additives with a grain size of 0-0.063 mm and 0.063-0.125 mm and 0.125-0.25 mm according to the design.

Advantageous mineral additives, e.g. granite, basalt, silica dust, will be obtained from other mines where they are seemingly useless materials. The main ecological benefit is the minimization of heaps.

The market benefit for the mines is the launch of the production of additional products. The quality benefit is the improvement of the final properties of the construction products resulting from the improvement of the quality of the main component. A field construction of the device, intended to be launched at the dumping site, is advantageous. The solution of calibration and regulation of factor doses through a special scaling system is beneficial because it is effective on various mineral materials.

The subject of the invention has been shown in the drawing, where Fig. 1 shows the device in a side view, Fig. 2 shows the device in a top view, Fig. 3 shows the device in an axonometric view showing the production circuit with the use of a conveyor, Fig. 4 shows the device in isometric view showing the production cycle with the use of the conveyor and mixer, Fig. 5 shows the device in an axonometric view with the calibration circuit for the ash-lime dispenser, Fig. 6 shows the device in an axonometric view with the calibration circuit for the aggregate dispenser, Fig. 7 shows the device in an axonometric view with the shut-off valves shown, Fig. 8 shows the device in an axonometric view with the calibration circuit for the additive dispenser.

PL 236 890 B1

P roduction example I

In an exemplary embodiment, the device for the production of refined mixtures for construction products with the possibility of calibrating the given raw materials consists of a horizontally movable trough belt conveyor 10, above which it has a series of: ash-lime dispenser 1, liquid plasticizer dispenser 2, aggregate container 6 and containers for additives. 8.

The trough belt conveyor 10 at one end is hopper connected to a hopper 11, which is connected to a belt-trough conveyor 13, and at the other end it is hopper connected to a hopper 16 with a twin-shaft screw conveyor 15 with a mixing function located below.

Performance example II

In an exemplary embodiment, the device for the production of refined mixtures for construction products with the possibility of calibrating the given raw materials consists of a horizontally sliding trough belt conveyor 10, above which it has a series of: ash-lime dispenser 1 with a cell feeder 18, a liquid plasticizer dispenser 2 with a graduated outgoing vessel 3 and spray tip 4, aggregate tank 6 with a replaceable partition 5 and feed regulator 7, and additives 8 tanks with a transverse partition 21 and a longitudinal partition 22. The trough belt conveyor 10 at one end is loaded with a charging funnel 11, which is connected to by a belt-trough conveyor 13, while at the other end it is hopper connected with a hopper 16 with a twin-shaft auger 15 with a mixing function located below.

Performance example III

In an exemplary embodiment, the device for the production of refined mixtures for construction products with the possibility of calibrating the given raw materials consists of a horizontally sliding trough belt conveyor 10 above which it has in series: an ash-lime dispenser 1 with a cell feeder 18, a liquid plasticizer dispenser 2 with a graduated vessel service 3 and spray tip 4, and has shut-off valves 27, aggregate tank 6 with replaceable partition 5 and feed regulator 7 and additive tanks 8 with transverse partition 21 and longitudinal partition 22. Additive tanks 8 in one row have a chamber 23 and a chamber 26 and in the second row - a chamber 24 and a chamber 25, in the lower part in the chamber 23 and in the chamber 25 there are three-part chamber dispensers 20, and in the chamber 24 and chamber 26 two-part chamber dispensers 19. The trough belt conveyor 10 at one end is connected with a hopper with the hopper 11, which is connected to by a belt-trough conveyor 13, while at the other end it is hopper connected with a hopper 16 with a twin-shaft auger 15 with a mixing function located below.

P roduction example IV

In an exemplary embodiment, the device for the production of refined mixtures for construction products with the possibility of calibrating the given raw materials consists of a horizontal slide, a trough belt conveyor 10 above which it has a series of: ash-lime dispenser 1 with a cell feeder 18, a liquid plasticizer dispenser 2 with a graduated outgoing vessel 3 and spray tip 4 and has shut-off valves 27, aggregate tank 6 with replaceable partition 5 and feed regulator 7, and additive tanks 8 with transverse partition 21 and longitudinal partition 22. Additive tanks 8 in one row have a chamber 23 and a chamber 26, and in the second row - a chamber 24 and a chamber 25, in the lower part in the chamber 23 and in the chamber 25 there are three-section cell dispensers 20, and in the chamber 24 and the chamber 26 two-part cell dispensers 19. The trough belt conveyor 10 at one end is connected with hopper 11, which is connected to by a belt-trough conveyor 13, while at the other end it is hopper connected with a hopper 16 with a twin-shaft auger 15 with a mixing function located below. The trough belt conveyor 10 in the extreme positions for the circulation towards the ash-lime feeder 1 has a calibration tank 17, and for the circulation towards discharge 14 of the twin shaft screw conveyor 15 it has a calibration tank 12.

Claims (8)

Patent claims 1. A device for the production of refined mixtures for construction products with the possibility of calibrating the given raw materials, consisting of a trough belt conveyor, a double-shaft screw feeder, dosers, tanks, hoppers, cell feeders, characterized by a horizontally sliding, trough belt conveyor (10 ) above which it has: an ash-lime dispenser (1), a liquid plasticizer dispenser (2), an aggregate container (6) and additives tanks (8), with a trough belt conveyor (10) at one end connected with a hopper (11), which is connected to the belt-trough conveyor (13), and at the other end it is connected to a hopper (16) with a double-shaft screw conveyor (15) with a mixing function located below. 2. The device according to claim The method of claim 1, characterized in that the ash-lime dispenser (1) has a cell feeder (18). 3. The device according to claim The apparatus of claim 1, characterized in that the liquid plasticizer dispenser (2) has a graduated service vessel (3) and a spray tip (4). 4. The device according to claim 1 The apparatus of claim 1, characterized in that the aggregate container (6) has a replaceable partition (5) and a feed regulator (7). 5. The device according to claim 1 A device according to claim 1, characterized in that the additive tanks (8) have a transverse partition (21) and a longitudinal partition (22). 6. The device according to claim 1 3. A method according to claim 1, characterized in that the conditioner tanks (8) have a chamber (23) and a chamber (26) in one row, and the chamber in the second row has a chamber (24) and a chamber (25), with the lower part in the chamber (23) ) and the chamber (25) have three-section cell dispensers (20), and in the chamber (24) and the chamber (26) two-section cell dispensers (19). 7. The device according to claim 1 The method of claim 1, characterized in that the trough belt conveyor (10) has a calibration tank (17) in extreme positions for the circulation towards the ash-lime feeder (1), and for the circulation towards the discharge (14) by a double-shaft screw conveyor (15) has a calibration tank (12). 8. The device according to claim 1 The apparatus of claim 1, characterized in that the liquid plasticizer dispenser (2) has shut-off valves (27).