CN115805661A - Cement activity enhancement treatment device and treatment method thereof - Google Patents

Abstract

The invention belongs to the technical field of cement activity enhancement, and discloses a cement activity enhancement treatment device which comprises an upper mixing bin, wherein a lower mixing bin is fixedly installed at the bottom of the upper mixing bin, a motor is fixedly installed on one side of the upper mixing bin, and a first transmission rod is fixedly installed at the output end of the motor. The invention achieves the purpose of uniformly mixing cement by arranging the first auger, the stirring fan blades, the second auger and the like, the two second augers respectively convey the injected cement and the granulated blast furnace slag to the left end and the right end, simultaneously the first transmission rod drives the two first augers to rotate, and the cement and the granulated blast furnace slag at the left end and the right end are conveyed and mixed to the middle part through the two first augers, so that the cement and the granulated blast furnace slag are more fully mixed and sequentially circulated, the mixing efficiency of the cement and the granulated blast furnace slag is improved, and simultaneously the cement activity is enhanced, and the effect of uniformly mixing the cement is achieved.

Description

Cement activity enhancement treatment device and treatment method thereof

Technical Field

The invention belongs to the technical field of cement activity enhancement, and particularly relates to a cement activity enhancement treatment device and a treatment method thereof.

Background

Cement is a powdered hydraulic inorganic cementitious material. Adding water and stirring to form slurry which can be hardened in air or water. At present, in order to enhance the activity of cement, active mixture is generally added into cement, the active mixture is mineral material (natural or artificial), the active mixture comprises granulated blast furnace slag, pozzolanic mixed material and fly ash, the invention aims at enhancing the activity of cement by mixing the granulated blast furnace slag with the active mixture in the cement production process, and the granulated blast furnace slag is in powder form.

The utility model discloses a utility model patent of publication number CN202022940040.8 discloses a agitating unit is used in cement active agent production, the repacking is put the problem that will solve and is when using for current agitating unit is used in cement active agent production, mainly stir the cement active agent in the puddler to the cask directly through driving motor, but because cause wearing and tearing to the cask inner wall in order to prevent the outside stirring leaf of puddler, consequently, puddler and stirring leaf can't stir the raw materials that is close to the cask, lead to the raw materials can't be fully stirred, secondly, current agitating unit is used in cement active agent production, because need artifical position to the cask to adjust, the stirring leaf can strike with the inner wall of cask during leading to the stirring, thereby damage the cask, influence the security that agitating unit used, the patent sets up the outer tube through the outside at the drive roller, and will drive the outside a butt joint wheel of roller and the outside No. two butt joint wheels of outer tube, can stir the cement active agent with different stirring directions simultaneously, improve the sufficiency of cement active agent stirring, finally reach the mesh that improves cement active agent stirring.

At present, in order to enhance the activity strength of cement, active mixtures (granulated blast furnace slag, pozzolana mixed material and fly ash) are generally injected into cement in the cement production process, the cement and the active mixtures are required to be stirred and mixed when being injected into the cement, so that the active mixtures are fully mixed with the cement, the existing reinforced cement active mixture stirring device is single in structure, the cement and the active mixtures are mostly mixed through a single stirring rod, the cement and the active mixtures are powdery, the stirring and mixing cannot be fully performed, more dead angles exist, the cement and the active mixtures cannot be fully mixed, and the activity of the cement is reduced.

Disclosure of Invention

In order to solve the problems in the background art, the invention provides a cement activity enhancement processing device and a processing method thereof, cement and granulated blast furnace slag are injected into an upper mixing bin and fall into a lower mixing bin, and the cement and the granulated blast furnace slag at the left end and the right end are conveyed and mixed to the middle part through two first winches, so that the cement and the granulated blast furnace slag are more fully mixed and sequentially circulated, the mixing efficiency of the cement and the granulated blast furnace slag is improved, and the cement activity is enhanced, so that the advantage of uniform cement mixing is achieved.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a cement activity reinforcing processing apparatus, includes the upper mixing bin, the bottom fixed mounting in upper mixing bin has lower mixing bin, one side fixed mounting in upper mixing bin has the motor, the output fixed mounting of motor has first transfer line, keep away from the outside of first transfer line one side fixed mounting of motor has first drive wheel, the drive belt has been cup jointed to the outside of first drive wheel, both ends fixed mounting respectively have first auger about first transfer line is outside, the inside movable mounting in lower mixing bin has the second transfer line, both ends fixed mounting respectively has the second auger about the second transfer line is outside, two are kept away from to the outside of second transfer line the outside of second auger is fixed mounting respectively stirs the flabellum, the bottom fixed mounting in lower mixing bin has the bin outlet, one side fixed mounting of second transfer line has the second drive wheel, the positive fixed mounting in upper mixing bin has control panel.

Among the above-mentioned technical scheme, it is preferred, the top fixed mounting who goes up the mixing bin has the notes feed bin, the sliding tray has been seted up respectively around the front and back at both ends about the notes feed bin inner wall, the inner wall of sliding tray activity joint has the sliding plate respectively, the bottom fixed mounting of sliding plate has the movable block, the bottom fixed mounting of movable block has the second catch bar, the inside of going up the mixing bin is kept away from the top of first auger articulates there is the vibration board, the top fixed mounting of going up the mixing bin inner wall has the breaker plate, the bottom of vibration board articulates there is first catch bar, the equal angle fixed mounting in middle part annular of first catch bar has the puddler, the spacing groove has been seted up respectively at both ends about going up the mixing bin inner wall around, both sides fixed mounting respectively around the vibration board, go up the mixing bin inside upper end and the structure at top above the mixing bin for axis bilateral symmetry.

Among the above-mentioned technical scheme, preferably, two first auger and two the auger direction at both ends is all opposite about the second auger, the right side first auger and right side the auger direction of second auger is opposite, first transfer line with the second transfer line keeps perpendicularly.

Among the above-mentioned technical scheme, preferably, two mix the flabellum and be the arc, two mix the flabellum and be located two respectively the bottom of first hank dragon outer end, both ends are the arc around the inside bottom in lower mixing bin, the motor is positive and negative motor.

In the above technical scheme, preferably, the first driving wheel and the second driving wheel are provided with clamping teeth at the outer portions thereof, the inner wall of the driving belt is provided with a clamping groove, and the top and the bottom of the inner wall of the driving belt are respectively sleeved on the outer portions of the first driving wheel and the second driving wheel.

Among the above-mentioned technical scheme, it is preferred, the inside of annotating the feed bin with the inside of upper mixing bin is linked together, the bottom of annotating the feed bin is located the top of lower mixing bin, the movable block is trapezoidal, the length of side at movable block top is less than annotate the feed bin and the connector of upper mixing bin, the bottom of second catch bar with the top of vibration board is articulated.

Among the above-mentioned technical scheme, it is preferred that the vibration board is high right-hand member, circular hole has been seted up to the surperficial equidistance of vibration board, two the fixed block is movable joint respectively in two the inside of spacing groove.

Among the above-mentioned technical scheme, preferably, the crushing board is the arc, the bottom of crushing board is provided with the lug, the crushing board with the clearance between the vibration board diminishes from a left side to a right side gradually.

In the above technical scheme, preferably, the bottoms of the two first pushing rods are respectively connected with the left end and the right end of the first transmission rod in a non-circular center manner.

The invention also provides a cement activity enhancement treatment method which comprises the following steps:

s1: firstly, cement is poured into the interior of a left-end pouring bin, granulated blast furnace slag is poured into the interior of a right-end pouring bin, at the moment, a starting motor works to drive a first transmission rod to rotate and simultaneously drive two first winches to rotate, the first transmission rod rotates for a circle to respectively push two first push rods upwards, the two first push rods respectively push two vibrating plates, the two vibrating plates respectively slide in a limiting groove through two fixed blocks, when the first transmission rod moves at one end of the vibrating plates, the two second push rods are respectively pushed, the two second push rods upwards push a movable block and a sliding plate, the sliding plate slides in the sliding groove, and the cement in the two pouring bins and the granulated blast furnace slag are respectively extruded in the downward movement process of the sliding plate;

s2: the cement and the granulated blast furnace slag in the two material injection bins respectively move up and down through the movable block, so that the cement and the granulated blast furnace slag quickly fall into the top of the vibrating plate, and the formed cement and the formed granulated blast furnace slag are crushed through the radians of the two vibrating plates and the quick vibration of the two vibrating plates and fall into the upper mixing bin through the round holes in the surfaces of the vibrating plates;

s3: when the two vibrating plates vibrate rapidly and can not crush the agglomerated cement and the agglomerated granulated blast furnace slag, the agglomerated cement and the agglomerated granulated blast furnace slag roll through the radian of the vibrating plates and pass through the bottoms of the two crushing plates, the agglomerated cement and the agglomerated granulated blast furnace slag are extruded by the up-and-down movement of the vibrating plates, and the agglomerated cement and the agglomerated granulated blast furnace slag are crushed into powder under pressure through the bumps at the bottoms of the crushing plates;

s4: cement and granulated blast furnace slag are injected into the upper mixing bin and fall into the lower mixing bin, the cement and the granulated blast furnace slag are mixed through the stirring rod, the first transmission wheel is driven to rotate through the rotation of the first transmission rod, the transmission belt is driven at the same time, the second transmission wheel and the second transmission rod are driven to rotate through the transmission belt, the two second augers are driven to rotate through the second transmission rod respectively, the injected cement and the granulated blast furnace slag are conveyed to the left end and the right end through the two second augers respectively, the cement and the granulated blast furnace slag are conveyed upwards through the two stirring fan blades respectively, the two first auger screws are driven to rotate through the first transmission rod simultaneously, and the cement and the granulated blast furnace slag at the left end and the right end are conveyed to the middle part through the two first auger screws, so that the cement and the granulated blast furnace slag are more fully mixed.

Compared with the prior art, the invention has the following beneficial effects:

the invention achieves the purpose of uniformly mixing cement by arranging the first auger, the stirring fan blades, the second auger and the like, cement and granulated blast furnace slag are injected into the upper mixing bin and fall into the lower mixing bin, the cement and the granulated blast furnace slag are mixed by the stirring rod, the first transmission wheel is driven to rotate by the rotation of the first transmission rod, and simultaneously, the transmission belt is driven to rotate, the second transmission rod drives the second transmission wheel and the second transmission rod to rotate, the second transmission rod respectively drives the two second augers to rotate, the two second augers respectively convey the injected cement and the granulated blast furnace slag to the left end and the right end, simultaneously, the first transmission rod drives the two first augers to rotate, and the cement and the granulated blast furnace slag at the left end and the right end are conveyed and mixed to the middle part by the two first augers, so that the cement and the granulated blast furnace slag are more fully mixed and are sequentially circulated, the mixing efficiency of the cement and the granulated blast furnace slag is improved, and the activity of the cement is enhanced, and the effect of uniformly mixing cement is achieved;

the invention achieves the purpose of crushing cement and granulated blast furnace slag by arranging the vibrating plate, the crushing plate, the first push rod and the like, cement and granulated blast furnace slag in the two feeding bins respectively fall into the top of the vibrating plate, the formed cement and the formed granulated blast furnace slag are crushed by the radian of the two vibrating plates and the quick vibration of the two vibrating plates and fall into the upper mixing bin through the circular hole on the surface of the vibrating plate, meanwhile, the formed cement and the formed granulated blast furnace slag roll by the radian of the vibrating plate and pass through the bottoms of the two crushing plates, the formed cement and the formed granulated blast furnace slag are extruded by the up-and-down movement of the vibrating plate, and the formed cement and the formed blast furnace slag are crushed into powder under pressure through the convex blocks at the bottoms of the crushing plates, so that the effect of crushing the cement and the granulated blast furnace slag is achieved;

the invention achieves the aim of preventing the blocking of cement and granulated blast furnace slag by arranging the material injection bin, the sliding plate, the movable block and the like, cement is injected into the material injection bin at the left end, when granulated blast furnace slag is injected into the material injection bin at the right end, the motor is started to work to drive the first transmission rod to rotate and push the two vibrating plates, when the vibrating plates move at one end, the two second push rods are respectively pushed, the two second push rods upwards push the movable block and the sliding plate, the sliding plate slides in the sliding groove, and the cement and the granulated blast furnace slag in the two material injection bins are respectively extruded in the downward moving process of the sliding plate, so that the blocking of the material injection bin by the agglomerated cement and the agglomerated blast furnace slag is prevented, and the blocking prevention effect of the cement and the granulated blast furnace slag is achieved.

Drawings

FIG. 1 is a schematic overall view of the present invention;

FIG. 2 is a schematic sectional front view of the present invention;

FIG. 3 is an enlarged schematic view of the invention at A in FIG. 2;

FIG. 4 is an enlarged schematic view of the invention at B of FIG. 2;

FIG. 5 is a schematic partial cross-sectional view of the present invention;

FIG. 6 is a schematic cross-sectional view of a feed bin of the present invention;

FIG. 7 is a schematic external view of a vibrating plate according to the present invention;

FIG. 8 is a schematic side cross-sectional view of the present invention.

In the figure: 1. an upper mixing bin; 2. a material filling bin; 3. a control panel; 4. a motor; 5. a transmission belt; 6. a lower mixing bin; 7. a discharge outlet; 8. a first drive lever; 9. a stirring rod; 10. a first push rod; 11. a limiting groove; 12. a breaker plate; 13. a sliding plate; 14. a movable block; 15. a second push rod; 16. a vibrating plate; 17. a first auger; 18. stirring fan blades; 19. a second transmission rod; 20. a second auger; 21. a sliding groove; 22. a first drive pulley; 23. a fixed block; 24. a second transmission wheel.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 8, the invention provides a cement activity enhancing treatment device, which comprises an upper mixing bin 1, wherein a lower mixing bin 6 is fixedly installed at the bottom of the upper mixing bin 1, a motor 4 is fixedly installed at one side of the upper mixing bin 1, a first transmission rod 8 is fixedly installed at the output end of the motor 4, a first transmission wheel 22 is fixedly installed at one side, away from the motor 4, of the outer part of the first transmission rod 8, a transmission belt 5 is sleeved outside the first transmission wheel 22, first winches 17 are fixedly installed at the left end and the right end of the outer part of the first transmission rod 8 respectively, a second transmission rod 19 is movably installed inside the lower mixing bin 6, second winches 20 are fixedly installed at the left end and the right end of the outer part of the second transmission rod 19, stirring fan blades 18 are fixedly installed at the outer sides, away from the two second winches 20, a discharge outlet 7 is fixedly installed at the bottom of the lower mixing bin 6, a second transmission wheel 24 is fixedly installed at one side of the second transmission rod 19, and a control panel 3 is fixedly installed at the front of the upper mixing bin 1;

cement and granulated blast furnace slag are injected into the upper mixing bin 1 and fall into the lower mixing bin 6, the cement and the granulated blast furnace slag are mixed through the stirring rod 9, the first transmission wheel 22 is driven to rotate through the rotation of the first transmission rod 8, the transmission belt 5 is driven at the same time, the second transmission wheel 24 and the second transmission rod 19 are driven to rotate through the transmission belt 5, the two second transmission rods 19 respectively drive the two second augers 20 to rotate, the injected cement and the granulated blast furnace slag are respectively conveyed to the left end and the right end through the two second augers 20, the two first auger 17 is driven to rotate through the first transmission rod 8, and the cement and the granulated blast furnace slag at the left end and the right end are conveyed and mixed to the middle through the two first augers 17, so that the cement and the granulated blast furnace slag are more fully mixed and are sequentially circulated, the mixing efficiency of the cement and the granulated blast furnace slag is improved, and the cement activity is enhanced.

As shown in fig. 2, 4, 5, 6 and 7, the top of the upper mixing bin 1 is fixedly provided with a material injection bin 2, the front and the back of the left and the right ends of the inner wall of the material injection bin 2 are respectively provided with a sliding groove 21, the inner wall of the sliding groove 21 is respectively movably clamped with a sliding plate 13, the bottom of the sliding plate 13 is fixedly provided with a movable block 14, the bottom of the movable block 14 is fixedly provided with a second push rod 15, the top of the inner wall of the upper mixing bin 1, which is far away from the first auger 17, is hinged with a vibrating plate 16, the top of the inner wall of the upper mixing bin 1 is fixedly provided with a crushing plate 12, the bottom of the vibrating plate 16 is hinged with a first push rod 10, the middle part of the first transmission rod 8 is fixedly provided with a stirring rod 9 at equal angles in a ring shape, the left and the right ends of the front and the back of the inner wall of the upper mixing bin 1 are respectively provided with a limiting groove 11, the front and the back sides of the vibrating plate 16 are respectively fixedly provided with a fixed block 23, and the upper end and the top of the inner wall of the upper mixing bin 1 are respectively symmetrical with the structure of the upper mixing bin 1 taking the upper mixing bin 1 as a central axis;

the cement and the granulated blast furnace slag in the two material filling bins 2 respectively move up and down through the movable block 14, so that the cement and the granulated blast furnace slag quickly fall into the tops of the vibrating plates 16, the agglomerated cement and the agglomerated granulated blast furnace slag are crushed through the radians of the two vibrating plates 16 and the quick vibration of the two vibrating plates 16, and the cement and the agglomerated blast furnace slag fall into the upper mixing bin 1 through the circular holes on the surfaces of the vibrating plates 16, when the agglomerated cement and the agglomerated blast furnace slag cannot be crushed through the quick vibration of the two vibrating plates 16, the agglomerated cement and the agglomerated blast furnace slag roll through the radians of the vibrating plates 16 and pass through the bottoms of the two crushing plates 12, the agglomerated cement and the agglomerated blast furnace slag are extruded through the up-down movement of the vibrating plates 16, and the granulated cement and the agglomerated blast furnace slag are extruded into powder through the bumps at the bottoms of the crushing plates 12 under pressure, so that the granulated blast furnace slag and the cement are mixed more uniformly, and the cement activity is stronger.

As shown in fig. 2 and 5, auger directions of the two first augers 17 and auger directions of the two second augers 20 are opposite, auger directions of the right first auger 17 and auger of the right second auger 20 are opposite, the first transmission rod 8 is vertical to the second transmission rod 19, the two stirring fan blades 18 are arc-shaped, the two stirring fan blades 18 are respectively positioned at the bottoms of the outer ends of the two first augers 17, the front end and the rear end of the bottom inside the lower mixing bin 6 are arc-shaped, the motor 4 is a positive and negative motor, the outer parts of the first transmission wheel 22 and the second transmission wheel 24 are respectively provided with a latch, the inner wall of the transmission belt 5 is provided with a slot, and the top and the bottom of the inner wall of the transmission belt 5 are respectively sleeved outside the first transmission wheel 22 and the second transmission wheel 24;

after cement and granulated blast furnace slag are injected into an upper mixing bin 1 and a lower mixing bin 6, a starting motor 4 works to drive a first transmission rod 8 and a first transmission wheel 22 to rotate, the first transmission wheel 22 drives a second transmission wheel 24 and a second transmission rod 19 to rotate through a transmission belt 5, the second transmission rod 19 drives two second augers 20 to rotate, the cement and the granulated blast furnace slag in the lower mixing bin 6 are respectively conveyed to the left end and the right end through the two second augers 20 and are upwards conveyed through stirring fan blades 18, the first transmission rod 8 drives the two first augers 17 to rotate, the two first augers 17 respectively convey and mix the cement and the granulated blast furnace slag which are conveyed upwards to the middle part, the cement and the granulated blast furnace slag are fully mixed and are sequentially and repeatedly mixed and stirred circularly, after the cement and the granulated blast furnace slag are mixed, the starting motor 4 rotates reversely, and at the moment, the cement mixed in the lower mixing bin 6 is conveyed to the middle part through the two second augers 20 and is discharged through a discharge opening 7.

As shown in fig. 1, 2, 4, 5 and 6, the interior of the material injection bin 2 is communicated with the interior of the upper mixing bin 1, the bottom of the material injection bin 2 is positioned at the top of the lower mixing bin 6, the movable block 14 is trapezoidal, the side length of the top of the movable block 14 is smaller than a connecting port between the material injection bin 2 and the upper mixing bin 1, and the bottom of the second push rod 15 is hinged with the top of the vibrating plate 16; through placing cement and granulation blast furnace slay respectively in the inside of two notes feed bins 2, in the inside that falls into respectively and mix storehouse 1, when the connector between cement and the granulation blast furnace slay jam notes feed bin 2 and the last mixing bin 1 of piecemeal, it is rotatory to drive first transfer lever 8 through motor 4, first transfer lever 8 reciprocates driving two first catch bars 10 respectively, promote vibration board 16, reciprocate through vibration board 16 and drive sliding plate 13 and movable block 14 and reciprocate, at the in-process of movable block 14 downstream, the trapezoidal cement and the granulation blast furnace slay of annotating feed bin 2 inside to two through the trapezoidal of movable block 14 bottom extrude, avoid blockking up the intercommunication mouth of annotating feed bin 2 bottom.

As shown in fig. 2, 5 and 7, the vibrating plate 16 is high at the left and low at the right, circular holes are equidistantly formed in the surface of the vibrating plate 16, the two fixing blocks 23 are movably clamped inside the two limiting grooves 11 respectively, the crushing plate 12 is arc-shaped, a bump is arranged at the bottom of the crushing plate 12, the gap between the crushing plate 12 and the vibrating plate 16 is gradually decreased from left to right, and the bottoms of the two first push rods 10 are connected with the left end and the right end of the first transmission rod 8 in a non-circular manner respectively; cement and granulated blast furnace slag are respectively injected into the two material injection bins 2 and respectively fall into the top of the vibrating plate 16, powdered cement and granulated blast furnace slag respectively fall into the upper mixing bin 1 through holes on the surface of the vibrating plate 16, the agglomerated cement and granulated blast furnace slag roll through the radian of the vibrating plate 16 and simultaneously pass through the bottom of the crushing plate 12, and are extruded through the matching of up-down movement of a lug at the bottom of the crushing plate 12 and one end of the vibrating plate 16, and the agglomerated cement and granulated blast furnace slag are subjected to extrusion force to be powdered and fall into the upper mixing bin 1 for stirring and mixing;

what has been described above is that one rotation of the first driving rod 8 will drive the two first pushing rods 10 to move up and down.

The invention also provides a cement activity enhancement treatment method which comprises the following steps:

s1: firstly, cement is injected into the injection bin 2 at the left end, granulated blast furnace slag is injected into the injection bin 2 at the right end, at the moment, the starting motor 4 works to drive the first transmission rod 8 to rotate and simultaneously drive the two first winches 17 to rotate, the first transmission rod 8 rotates for a circle to respectively push the two first push rods 10 upwards, the two first push rods 10 respectively push the two vibrating plates 16, the two vibrating plates 16 respectively slide in the limiting grooves 11 through the two fixing blocks 23, when the vibrating plates 16 move at one end, the two second push rods 15 are respectively pushed, the two second push rods 15 upwards push the movable block 14 and the sliding plate 13, the sliding plate 13 slides in the sliding groove 21, and the cement in the two injection bins 2 and the granulated blast furnace slag are respectively extruded in the downward moving process of the sliding plate 13;

s2: the cement and the granulated blast furnace slag in the two material injection bins 2 respectively move up and down through the movable block 14, so that the cement and the granulated blast furnace slag quickly fall into the top of the vibrating plate 16, the formed cement and the formed granulated blast furnace slag are crushed through the radians of the two vibrating plates 16 and the quick vibration of the two vibrating plates 16, and the formed cement and the formed granulated blast furnace slag fall into the upper mixing bin 1 through the circular holes on the surfaces of the vibrating plates 16;

s3: when the two vibrating plates 16 vibrate rapidly and can not crush the agglomerated cement and agglomerated granulated blast furnace slag, the agglomerated cement and agglomerated granulated blast furnace slag roll through the radian of the vibrating plates 16 and pass through the bottoms of the two crushing plates 12, the agglomerated cement and the agglomerated granulated blast furnace slag are extruded by the up-and-down movement of the vibrating plates 16, and the agglomerated cement and the agglomerated granulated blast furnace slag are crushed into powder under pressure through the bumps at the bottoms of the crushing plates 12;

s4: cement and granulated blast furnace slag are injected into the upper mixing bin 1 and fall into the lower mixing bin 6, the cement and the granulated blast furnace slag are mixed through the stirring rod 9, the first transmission rod 8 rotates to drive the first transmission wheel 22 to rotate and simultaneously drive the transmission belt 5, the transmission belt 5 drives the second transmission wheel 24 and the second transmission rod 19 to rotate, the second transmission rods 19 respectively drive the two second augers 20 to rotate, the injected cement and the granulated blast furnace slag are respectively conveyed to the left end and the right end through the two second augers 20, the cement and the granulated blast furnace slag are respectively conveyed upwards through the two stirring fan blades 18, the first drive rods 8 simultaneously drive the two first augers 17 to rotate, and the cement and the granulated blast furnace slag at the left end and the right end are conveyed to the middle part through the two first auger 17, so that the cement and the granulated blast furnace slag are more fully mixed.

Claims (10)

1. A cement activity enhancement processing apparatus, includes upper mixing storehouse (1), its characterized in that: go up the bottom fixed mounting who mixes storehouse (1) and mix storehouse (6) down, go up one side fixed mounting who mixes storehouse (1) and have motor (4), the output fixed mounting of motor (4) has first transfer lever (8), keep away from outside of first transfer lever (8) one side fixed mounting of motor (4) has first drive wheel (22), drive belt (5) have been cup jointed to the outside of first drive wheel (22), first transfer lever (8) outside left and right sides both ends respectively fixed mounting have first auger (17), the inside movable mounting who mixes storehouse (6) down has second transfer lever (19), second transfer lever (19) outside left and right sides both ends respectively fixed mounting have second auger (20), two are kept away from to the outside of second transfer lever (19) the outside of second auger (20) is fixed mounting respectively has stirring (18), the bottom fixed mounting who mixes storehouse (6) down has bin escape orifice (7), one side fixed mounting of second transfer lever (19) has second drive wheel (24), go up the front fixed mounting who mixes storehouse (1) and has control panel (3).

2. A cement reactivity enhancing treatment apparatus as claimed in claim 1, wherein: go up the top fixed mounting who mixes storehouse (1) and have notes feed bin (2), sliding tray (21) have been seted up respectively around both ends about notes feed bin (2) inner wall, the inner wall of sliding tray (21) activity joint respectively has sliding plate (13), the bottom fixed mounting of sliding plate (13) has movable block (14), the bottom fixed mounting of movable block (14) has second catch bar (15), the inside of going up mixing storehouse (1) is kept away from the top of first auger (17) articulates there is vibration board (16), the top fixed mounting of going up mixing storehouse (1) inner wall has crushing plate (12), the bottom of vibration board (16) articulates there is first catch bar (10), angle fixed mounting such as the middle part annular of first catch bar (8) has puddler (9), go up mixing storehouse (1) inner wall around both ends have seted up spacing groove (11) respectively, both sides are fixed mounting respectively around vibration board (16) has fixed block (23), it is axis bilateral symmetry with structure above the mixing storehouse (1) at top to go up mixing storehouse (1) inside upper end of storehouse (1).

3. A cement reactivity enhancing treatment apparatus as claimed in claim 1, wherein: two first hank dragon (17) and two the auger direction at both ends is all opposite about second auger (20), the right side first hank dragon (17) and right side the auger direction of second auger (20) is opposite, first transfer line (8) with second transfer line (19) keep perpendicularly.

4. A cement reactivity enhancing treatment apparatus as claimed in claim 1, wherein: two it is the arc to mix flabellum (18), two it is located two respectively to mix flabellum (18) the bottom of first auger (17) outer end, both ends are the arc around the inside bottom in lower mixing bin (6), motor (4) are positive and negative motor.

5. A cement reactivity enhancing treatment apparatus as claimed in claim 1, wherein: the outer portions of the first driving wheel (22) and the second driving wheel (24) are provided with clamping teeth, the inner wall of the driving belt (5) is provided with a clamping groove, and the top and the bottom of the inner wall of the driving belt (5) are respectively sleeved on the outer portions of the first driving wheel (22) and the second driving wheel (24).

6. A cement reactivity enhancing treatment apparatus as claimed in claim 2, wherein: the inside of notes feed bin (2) with the inside of upmixing storehouse (1) is linked together, the bottom of notes feed bin (2) is located the top of downmixing storehouse (6), movable block (14) are trapezoidal, the length of side at movable block (14) top is less than the connector of notes feed bin (2) and upmixing storehouse (1), the bottom of second catch bar (15) with the top of vibration board (16) is articulated.

7. A cement activity enhancement treatment unit as claimed in claim 2, wherein: the vibrating plate (16) is high on the left and low on the right, round holes are formed in the surface of the vibrating plate (16) at equal intervals, and the two fixing blocks (23) are movably clamped in the two limiting grooves (11) respectively.

8. A cement reactivity enhancing treatment apparatus as claimed in claim 2, wherein: the crushing plate (12) is arc-shaped, a convex block is arranged at the bottom of the crushing plate (12), and the gap between the crushing plate (12) and the vibrating plate (16) is gradually decreased from left to right.

9. A cement reactivity enhancing treatment apparatus as claimed in claim 2, wherein: the bottoms of the two first push rods (10) are respectively connected with the left end and the right end of the first transmission rod (8) in a non-circle center mode.

10. A cement activity enhancement processing method using a cement activity enhancement processing apparatus according to any one of claims 1 to 9, characterized in that: the method comprises the following steps:

s1: firstly, cement is injected into the left end injection bin (2), granulated blast furnace slag is injected into the right end injection bin (2), at the moment, a starting motor (4) works to drive a first driving rod (8) to rotate, two first twisting screws (17) are driven to rotate at the same time, the first driving rod (8) rotates for a circle, two first pushing rods (10) are respectively pushed upwards, the two first pushing rods (10) respectively push two vibrating plates (16), the two vibrating plates (16) respectively slide in a limiting groove (11) through two fixing blocks (23), when one end of each vibrating plate (16) moves, two second pushing rods (15) are respectively pushed, the two second pushing rods (15) upwards push a movable block (14) and a sliding plate (13), the sliding plate (13) slides in the sliding groove (21), and the cement and the blast furnace slag in the two injection bins (2) are respectively extruded in the downward movement process of the sliding plate (13);

s2: the cement and the granulated blast furnace slag in the two material injection bins (2) respectively move up and down through the movable block (14), so that the cement and the granulated blast furnace slag quickly fall into the top of the vibrating plate (16), the formed cement and the formed granulated blast furnace slag are crushed through the radians of the two vibrating plates (16) and the quick vibration of the two vibrating plates (16), and the formed cement and the formed granulated blast furnace slag fall into the upper mixing bin (1) through the circular holes on the surfaces of the vibrating plates (16);

s3: when the two vibrating plates (16) vibrate rapidly and can not crush the agglomerated cement and agglomerated granulated blast furnace slag, the agglomerated cement and the agglomerated granulated blast furnace slag roll through the radian of the vibrating plates (16) and pass through the bottoms of the two crushing plates (12), the agglomerated cement and the agglomerated granulated blast furnace slag are extruded through the up-and-down movement of the vibrating plates (16), and the agglomerated cement and the agglomerated granulated blast furnace slag are crushed into powder under the pressure of the bumps at the bottoms of the crushing plates (12);

s4: cement and granulated blast furnace slag are injected into an upper mixing bin (1) and fall into a lower mixing bin (6), the cement and the granulated blast furnace slag are mixed through a stirring rod (9), a first transmission wheel (22) is driven to rotate through rotation of a first transmission rod (8), a transmission belt (5) is driven at the same time, the transmission belt (5) drives a second transmission wheel (24) and a second transmission rod (19) to rotate, two second augers (20) are respectively driven to rotate through the second transmission rod (19), the injected cement and the granulated blast furnace slag are respectively conveyed to the left end and the right end through the two second augers (20), the cement and the granulated blast furnace slag are respectively conveyed upwards through two stirring fan blades (18), two first auger screws (17) are driven to rotate through the first transmission rod (8), the cement and the granulated blast furnace slag at the left end and the right end are conveyed to the middle through the two first auger screws (17), and the cement and the granulated blast furnace slag are more fully mixed.

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