CN110587801A - Novel baking-free brick production line and production process - Google Patents

Abstract

The invention belongs to the technical field of baking-free brick production lines, and particularly relates to a novel baking-free brick production line and a production process, which comprises the steps of preparing raw materials, wherein the raw materials comprise mountain flour, slag and soil, drying the soil by a dryer, conveying the mountain flour, the slag and the dried soil into a PL1200 three-bin batching machine by using a forklift for batching, stirring, conveying cement in a cement bin into a JS750 stirrer through a screw conveyor and a cement scale, exhausting, retreating a skip for receiving materials, descending an upper pressure head of a 1000A type main machine, carrying out inertia stamping on the materials, then carrying out low-medium-high pressure three-section pressure pressing on the materials in a cavity, and carrying out stacking by a fourth step, descending a chuck of a high-position stacker crane for taking blanks. This novel non-burning brick production line and production technology have reached and have not needed the layer board to carry out the effect of stack after non-burning brick machine-shaping to solved behind the machine-shaping, need use the layer board to carry out the stack, increased workman intensity of labour's problem.

Description

Novel baking-free brick production line and production process

Technical Field

The invention relates to the technical field of baking-free brick production lines, in particular to a novel baking-free brick production line and a production process.

Background

The novel wall material which is manufactured by using fly ash, coal cinder, coal gangue, tailing slag, chemical slag or natural sand and tidal marsh mud as main raw materials without high-temperature calcination is called baking-free brick.

The existing baking-free bricks are single in material selection and small in applicability in the pressing process, the upper layer and the lower layer are compacted, gas in the middle layer existing in material gaps cannot be effectively discharged, so that the middle layer is not compacted in pressing, and after the bricks are processed and formed, supporting plates are required to be stacked, so that the labor intensity of workers is increased.

Disclosure of Invention

Based on the technical problems that in the pressing process of the existing baking-free brick, the material selection is single, the applicability is small, and the middle layer cannot be effectively discharged due to gas existing in material gaps and processed and formed, a supporting plate needs to be used for stacking, so that the labor intensity of workers is increased, the invention provides a novel baking-free brick production line and a production process.

The invention provides a novel baking-free brick production line and a production process, which comprises the steps of preparing raw materials, wherein the raw materials comprise mountain flour, slag and soil, drying the soil by a dryer, and conveying the mountain flour, the slag and the dried soil to a PL1200 three-bin batching machine by a forklift for batching;

secondly, stirring, namely conveying the cement in the cement bin into a JS750 stirrer through a spiral conveyor and a cement scale;

step three, exhausting, namely retreating the skip car to receive materials, descending an upper pressure head of the 1000A type host machine to perform inertia stamping on the materials, and then performing low-medium-high pressure three-section pressure pressing on the materials in the die cavity;

and fourthly, stacking, namely descending the chuck of the high stacker crane to take the blanks, moving the chuck of the high stacker crane to the left after ascending, and descending the chuck of the high stacker crane to put the blanks.

Preferably, in the first step, the materials after the batching are conveyed into a vibrating screen for screening, the materials with coarse particles are removed, and the qualified materials are proportioned through a weighing hopper of a batching machine.

Preferably, the material to be proportioned is conveyed into the JS750 stirrer through a third conveying belt, and the iron remover adsorbs iron blocks in the material in the conveying process.

Preferably, in the second step, the cement and the materials are subjected to dry stirring, and the stirred cement and the stirred materials are conveyed to a 3000 type edge runner mill through a second conveying belt.

Preferably, the additive is added into water according to a certain proportion through a water pump, the additive and the water are mixed and then added into a 3000 type wheel mill through a water scale, and the 3000 type wheel mill is used for wet stirring of the material and the cement after the water is added.

Preferably, the material subjected to wet stirring is crushed by the crusher, and the crushed material enters the transition bin through the first conveying belt.

Preferably, in the third step, the air is exhausted for the first time, the main oil cylinder releases pressure, the die frame descends, the upper pressure head, the lower pressure head and the die cavity are displaced relatively, and the air is exhausted from a gap between the upper pressure head and the die cavity and a gap between the lower pressure head and the die cavity to perform medium-pressure pressing on the material in the die cavity.

Preferably, when the air is exhausted for the second time, the main oil cylinder releases the pressure, the die frame descends, the upper pressure head, the lower pressure head and the die cavity are displaced relatively, and the air is effectively exhausted from a gap between the upper pressure head and the die cavity and a gap between the lower pressure head and the die cavity.

Preferably, the material of the die cavity is pressed at high pressure, the main oil cylinder drives the upper pressure head to descend for unloading, the die frame descends for demoulding, the brick holding device clamps the demoulded material, the die frame is lifted, the skip car moves forward, the brick holding device releases the material, the die frame rises, and the green bricks fall into the brick receiving machine;

and in the fourth step, the green bricks fall on a bracket of the pitch conveyor, when the green bricks are stacked to a certain layer number, the pitch conveyor conveys the green bricks, then the green bricks are forked away by a forklift, the chuck of the high stacker crane moves to the right after rising, and the chuck of the high stacker crane descends to a green brick taking waiting position for next use.

Preferably, the production line is: firstly, raw materials are added into a three-bin batching machine by a forklift, the raw materials screened by a vibrating screen in the three-bin batching machine are conveyed to a stirrer by a third conveying belt for stirring, iron removers are fixedly installed on two sides of the third conveying belt, and a cement scale is also matched on the stirrer;

conveying the rough blank raw materials stirred by the stirrer into a wheel mill by a second conveying belt, adding cement into the rough blank raw materials on the second conveying belt by using a cement bin in the conveying process of the second conveying belt, and crushing the rough blank raw materials by a crusher at the bottom of the wheel mill after the rough blank raw materials are milled by the wheel mill, wherein an additive tank is arranged at a discharge port of the crusher;

thirdly, after being crushed by a crusher, the additive is added and then is conveyed into a transition bin by a first conveying belt, and then is gradually guided into a static-pressure brick machine by a skip to be pressed and molded;

and fourthly, connecting the formed bricks pressed by the static pressure brick machine to a high-position stacking machine for stacking through the brick receiving machine, outputting the formed bricks by a pitch conveyor when the formed bricks reach a certain height, and finally forking the formed bricks by using a forklift.

The beneficial effects of the invention are as follows:

1. through setting up raw and other materials and including mountain flour, slay and earth, the drying-machine is dried earth, uses the forklift to transport mountain flour, slay and the earth after drying to three storehouse batching machines of PL1200 and prepares burden, has reached and has carried out the effect of batching to earth, mountain flour and slay to the problem that baking-free brick preparation material is single, the suitability is little has been solved.

2. Through setting up in the step two, carry out the dry stirring to cement and material, cement and material after the stirring transport to 3000 type edge runner mills through the second conveyer belt, wait to add the additive in water according to certain ratio through the water pump, additive and water are mixed the back and are added 3000 type edge runner mills in through the water balance, 3000 type edge runner mills carry out wet the stirring to material and cement after adding water, reached and not needing the layer board to carry out the effect of stacking after the non-burning brick machine-shaping, thereby solved the machine-shaping back, need use the layer board to stack, increase workman intensity of labour's problem.

3. The material to the die cavity is pressed under high pressure through the setting, the main oil cylinder drives the upper pressure head to descend for unloading, the die frame descends for demoulding, the brick holding device clamps the material after demoulding tightly, the die frame is microliter, the skip advances, the brick holding device loosens the material, the die frame rises, and the green brick falls into the brick receiving machine, so that the effect of exhausting the baking-free brick is achieved, and the problem that the gas in the middle layer can not be effectively exhausted due to the material gap is solved.

Drawings

FIG. 1 is a schematic view of a novel baking-free brick production line and a production process provided by the invention;

FIG. 2 is a top view of the novel baking-free brick production line and the production process provided by the invention;

FIG. 3 is a process flow diagram of a novel baking-free brick production line and a production process provided by the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-3, a novel baking-free brick production line and a production process thereof comprise a first step of preparing raw materials, wherein the raw materials comprise mountain flour, slag and soil, a dryer dries the soil, and a forklift is used for conveying the mountain flour, the slag and the dried soil to a PL1200 three-bin batching machine for batching;

step two, stirring, conveying cement in the cement bin into a JS750 stirrer through a screw conveyer and a cement scale, in the step two, dry-stirring the cement and materials, conveying the uniformly stirred cement and materials to a 3000-type wheel mill through a second conveyer belt, adding an additive into water according to a certain proportion through a water pump, mixing the additive and the water, adding the mixture into the 3000-type wheel mill through the water scale, wet-stirring the material and the cement after adding the water through the 3000-type wheel mill, crushing the material after wet-stirring through a crusher, and feeding the crushed material into a transition bin through the first conveyer belt, so that the effect that a supporting plate is not required to be stacked after the baking-free brick is processed and molded is achieved, and the problems that the supporting plate is required to be stacked after processing and molding and the labor intensity of workers is increased are solved;

step three, exhausting, backing the skip car to receive the material, descending an upper pressure head of a 1000A type host machine, carrying out inertia stamping on the material, then carrying out low-medium-high pressure three-section pressure pressing on the material in a die cavity, in the step three, firstly exhausting, releasing pressure by a main oil cylinder, descending a die frame, carrying out relative displacement on the upper pressure head, a lower pressure head and the die cavity, discharging gas from a gap between the upper pressure head and the die cavity and a gap between the lower pressure head and the die cavity, carrying out medium-pressure pressing on the material in the die cavity, releasing pressure by the main oil cylinder after secondary exhaust, descending the die frame, carrying out relative displacement on the upper pressure head, the lower pressure head and the die cavity, effectively discharging the gas from the gap between the upper pressure head and the die cavity and the gap between the lower pressure head and the die cavity, carrying out high-pressure pressing on the material in the die cavity, driving the upper pressure head to descend by the main oil cylinder, the mold frame is lifted, the skip car moves forward, the brick holding device loosens the materials, the mold frame is lifted, and the green bricks fall into the brick receiving machine;

and fourthly, stacking, namely descending the chuck of the high stacker crane to take the green bricks, moving the chuck of the high stacker crane to the left after ascending, descending the chuck of the high stacker crane to put the green bricks, falling the green bricks on a bracket of a pitch conveyor in the fourth step, conveying the green bricks by the pitch conveyor when the green bricks are stacked to a certain layer number, then forking the green bricks by a forklift, moving the chuck of the high stacker crane to the right after ascending, and descending the chuck of the high stacker crane to a green brick taking waiting position to be used next time, so that the effect of exhausting the baking-free bricks is achieved, and the problem that gas in the middle layer cannot be effectively exhausted due to material gaps is solved.

The production line is as follows: firstly, raw materials are added into a three-bin batching machine by a forklift, the raw materials screened by a vibrating screen in the three-bin batching machine are conveyed to a stirrer by a third conveying belt for stirring, iron removers are fixedly installed on two sides of the third conveying belt, and a cement scale is also matched on the stirrer;

conveying the rough blank raw materials stirred by the stirrer into a wheel mill by a second conveying belt, adding cement into the rough blank raw materials on the second conveying belt by using a cement bin in the conveying process of the second conveying belt, and crushing the rough blank raw materials by a crusher at the bottom of the wheel mill after the rough blank raw materials are milled by the wheel mill, wherein an additive tank is arranged at a discharge port of the crusher;

thirdly, after being crushed by a crusher, the additive is added and then is conveyed into a transition bin by a first conveying belt, and then is gradually guided into a static-pressure brick machine by a skip to be pressed and molded;

and fourthly, connecting the formed bricks pressed by the static pressure brick machine to a high-position stacking machine for stacking through the brick receiving machine, outputting the formed bricks by a pitch conveyor when the formed bricks reach a certain height, and finally forking the formed bricks by using a forklift.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. A novel baking-free brick production process is characterized in that: preparing raw materials, wherein the raw materials comprise stone powder, slag and soil, drying the soil by using a dryer, and conveying the stone powder, the slag and the dried soil into a PL1200 three-bin batching machine by using a forklift for batching;

secondly, stirring, namely conveying the cement in the cement bin into a JS750 stirrer through a spiral conveyor and a cement scale;

step three, exhausting, namely retreating the skip car to receive materials, descending an upper pressure head of the 1000A type host machine to perform inertia stamping on the materials, and then performing low-medium-high pressure three-section pressure pressing on the materials in the die cavity;

and fourthly, stacking, namely descending the chuck of the high stacker crane to take the blanks, moving the chuck of the high stacker crane to the left after ascending, and descending the chuck of the high stacker crane to put the blanks.

2. The novel baking-free brick production process according to claim 1, characterized in that: in the first step, the materials after batching are conveyed into a vibrating screen for screening, the materials with coarse particles are removed, and the qualified materials are proportioned through a weighing hopper of a batching machine.

3. The novel baking-free brick production process according to claim 2, characterized in that: and (4) conveying the material to be mixed into the JS750 stirrer through a third conveyer belt, and adsorbing iron blocks in the material by an iron remover in the conveying process.

4. The novel baking-free brick production process according to claim 1, characterized in that: and in the second step, dry stirring the cement and the materials, and conveying the uniformly stirred cement and the uniformly stirred materials to a 3000-type edge runner mill through a second conveying belt.

5. The novel baking-free brick production process according to claim 4, characterized in that: and adding the additive into water according to a certain ratio by a water pump, mixing the additive and the water, adding the mixture into a 3000-type wheel mill by a water scale, and wet-stirring the material and the cement after the water is added by the 3000-type wheel mill.

6. The novel baking-free brick production process according to claim 5, characterized in that: and crushing the material subjected to wet stirring by using the crusher, and enabling the crushed material to enter the transition bin through the first conveying belt.

7. The novel baking-free brick production process according to claim 1, characterized in that: and in the third step, the air is exhausted for the first time, the main oil cylinder releases the pressure, the die frame descends, the upper pressure head, the lower pressure head and the die cavity are displaced relatively, the air is exhausted from a gap between the upper pressure head and the die cavity and a gap between the lower pressure head and the die cavity, and the material in the die cavity is pressed in a medium pressure mode.

8. The novel baking-free brick production process according to claim 7, characterized in that: and when the air is exhausted for the second time, the main oil cylinder releases the pressure, the die frame descends, the upper pressure head, the lower pressure head and the die cavity are displaced relatively, and the air is effectively exhausted from a gap between the upper pressure head and the die cavity and a gap between the lower pressure head and the die cavity.

9. The novel baking-free brick production process according to claim 1, characterized in that: pressing the material in the die cavity at high pressure, driving the upper pressing head to descend by the main oil cylinder for unloading, descending the die frame for demoulding, clamping the demoulded material by the brick holding device, lifting the die frame, and allowing the green bricks to fall into the brick receiving machine;

and in the fourth step, the green bricks fall on a bracket of the pitch conveyor, when the green bricks are stacked to a certain layer number, the pitch conveyor conveys the green bricks, then the green bricks are forked away by a forklift, the chuck of the high stacker crane moves to the right after rising, and the chuck of the high stacker crane descends to a green brick taking waiting position for next use.

10. The production line of the novel baking-free brick production process according to claim 1, which comprises the following steps: firstly, raw materials are added into a three-bin batching machine by a forklift, the raw materials screened by a vibrating screen in the three-bin batching machine are conveyed to a stirrer by a third conveying belt for stirring, iron removers are fixedly installed on two sides of the third conveying belt, and a cement scale is also matched on the stirrer;

conveying the rough blank raw materials stirred by the stirrer into a wheel mill by a second conveying belt, adding cement into the rough blank raw materials on the second conveying belt by using a cement bin in the conveying process of the second conveying belt, and crushing the rough blank raw materials by a crusher at the bottom of the wheel mill after the rough blank raw materials are milled by the wheel mill, wherein an additive tank is arranged at a discharge port of the crusher;

thirdly, after being crushed by a crusher, the additive is added and then is conveyed into a transition bin by a first conveying belt, and then is gradually guided into a static-pressure brick machine by a skip to be pressed and molded;

and fourthly, connecting the formed bricks pressed by the static pressure brick machine to a high-position stacking machine for stacking through the brick receiving machine, outputting the formed bricks by a pitch conveyor when the formed bricks reach a certain height, and finally forking the formed bricks by using a forklift.