CN111298876A

CN111298876A - Limestone pulverizing, crushing, grinding and dispersing system

Info

Publication number: CN111298876A
Application number: CN202010250354.7A
Authority: CN
Inventors: 刘玲玲
Original assignee: 刘玲玲
Current assignee: Heilongjiang Zaiyu calcium Industry Co.,Ltd.
Priority date: 2020-04-01
Filing date: 2020-04-01
Publication date: 2020-06-19
Anticipated expiration: 2040-04-01
Also published as: CN111298876B

Abstract

The invention relates to a limestone powder-making, crushing, grinding and dispersing system which comprises a mounting frame, a crushing device and a crushing device, wherein the mounting frame is connected with a base through a damping mechanism, a material receiving box is arranged on the upper surface of the base, the crushing device is arranged at the top of the mounting frame, the crushing device is arranged at the bottom of the mounting frame through a bolt, the material receiving box is positioned right below the crushing device, the crushing device is positioned right above the crushing device, and the crushing device is connected with the crushing device through a driving mechanism. The invention can solve the problems that most of the existing limestone crushing machines adopt the crushing roller to crush limestone, and the crushing efficiency of the crushing roller is lower; and the lime stone breaker is carrying out preliminary breakage with the lime stone raw materials, and often not abundant and inhomogeneous after the breakage is accomplished, current lime stone breaker can not become the appointed size with the lime stone breakage according to people's requirement.

Description

Limestone pulverizing, crushing, grinding and dispersing system

Technical Field

The invention relates to the field of limestone processing, in particular to a limestone pulverizing, grinding and dispersing system.

Background

Limestone is calcium carbonate rock with calcite (mineral) as a main component, is mainly formed in shallow sea environment, can be directly processed into stone and burnt into quicklime, and the quicklime CaO absorbs moisture or is hydrated to form slaked lime; limestone has a wide range of applications, and in modern industry, limestone is a main raw material for manufacturing cement, lime and calcium carbide, is an indispensable concrete raw material in the building industry, and is also an indispensable flux limestone in the metallurgical industry. Limestone is one of the most widely distributed minerals in the crust. The producing area is all over the country, and provinces and municipal autonomous regions can use local materials near the industrial region. Limestone has wide distribution and multiple purposes, attracts a plurality of mine owners, and further drives the development of the ore crushing industry.

At present, when limestone is used, the limestone needs to be crushed into particles with proper sizes to be applied to the construction industry or other industries, but the following problems exist in the limestone crushing process: firstly, as the original shape of the limestone is a relatively large block shape, many limestone crushing machines mostly adopt a crushing roller to crush the limestone, but the crushing efficiency of the crushing roller is low, the large limestone needs to be crushed from a little point on the outer surface, and the working progress is seriously influenced; secondly, after the lime stone carried out preliminary broken, still need carry out the secondary crushing to it to form the graininess of our required size, and present lime stone crushing machine is carrying out preliminary breakage with the lime stone raw materials, and often not abundant and inhomogeneous after the breakage is accomplished, and present lime stone crusher can not be according to people's requirement with the lime stone breakage to appointed size.

Disclosure of Invention

The invention aims to provide a limestone pulverizing, grinding and dispersing system to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a limestone powder-making crushing, grinding and dispersing system comprises a mounting frame, a crushing device and a crushing device, wherein the mounting frame is connected with a base through a damping mechanism, a material receiving box is arranged on the upper surface of the base, the crushing device is arranged at the top of the mounting frame, the crushing device is arranged at the bottom of the mounting frame through a bolt, the material receiving box is positioned right below the crushing device, the crushing device is positioned right above the crushing device, and the crushing device is connected with the crushing device through a driving mechanism; wherein:

the crushing device comprises a discharging groove, a supporting plate, crushing rods, crushing hammers, shaft rods and rotating wheels, wherein the discharging groove is arranged in the middle of the top of the mounting frame, a plurality of primary discharging ports are formed in the discharging groove, the supporting plate is arranged on one side of the discharging groove, a T-shaped supporting block is arranged in the middle of the supporting plate, the crushing rods are slidably mounted on the T-shaped supporting block, the crushing hammers are mounted at the lower ends of the crushing rods, the shaft rods are symmetrically arranged on two sides of the crushing rods and are connected through gear transmission, the mounting frame is connected with the supporting plate through the shaft rods, the rotating wheels are mounted on the shaft rods, and the;

the crushing device comprises an adjusting mechanism, a reciprocating mechanism and a crushing box body, wherein the adjusting mechanism is installed at the bottom of the mounting frame through a bolt, the reciprocating mechanism is symmetrically installed on the adjusting mechanism through the bolt in a left-right mode, the crushing box body is symmetrically installed between the reciprocating mechanisms, a blanking inclined plate is arranged on the crushing box body, a secondary blanking port is formed in the upper surface of the crushing box body, and a tertiary blanking port is formed in the lower surface of the crushing box body;

the driving mechanism comprises a driving motor, a first belt transmission and a second belt transmission, the driving motor is installed on the edge of the top of the mounting frame, the first belt transmission is installed on an output shaft of the driving motor, and the output shaft of the driving motor is in transmission connection with the second belt through a bevel gear meshing mode;

damping mechanism includes shock attenuation slide, shock attenuation slider, bumper shock absorber and cross movable rod, and the shock attenuation slide is installed to both sides and the control both sides longitudinal symmetry of base about the mounting bracket bottom, and shock attenuation slider is installed to shock attenuation slide both ends symmetry shock attenuation slide, is located to be connected through the bumper shock absorber between two shock attenuation sliders in a shock attenuation slide, rotates through the round pin axle between shock attenuation slider and the cross movable rod to be connected, rotates through the hinge between mounting bracket and the base and the cross movable rod to be connected.

As a further scheme of the invention: the runner includes wheel body, regulation pole, accommodate the lead screw, regulation silk piece, arc and shifting block, evenly installs a plurality of in the wheel body and adjusts pole and accommodate the lead screw, adjusts and is connected through gear engagement between pole and the accommodate the lead screw, installs the regulation silk piece on the accommodate the lead screw, installs the arc on the regulation silk piece, and the arc surface mounting has the shifting block.

As a further scheme of the invention: the adjusting mechanism comprises an adjusting support plate, an adjusting sliding rod, an adjusting support block, a shuttle-shaped plate, an adjusting slider, an adjusting cylinder, an adjusting support plate and a connecting rod, the adjusting support plate is symmetrically installed at the bottom of the left inner wall and the right inner wall of the mounting frame, the adjusting sliding rod is uniformly arranged between the adjusting support plates, the adjusting support block is fixedly installed in the middle of the adjusting sliding rod, the shuttle-shaped plate is rotatably installed in the middle of the adjusting support block through a pin shaft, the adjusting slider is symmetrically installed at two ends of the adjusting sliding rod, the adjusting support plate is connected between the adjusting support block and the adjusting slider through the adjusting cylinder, the adjusting support plate is installed on.

As a further scheme of the invention: the reciprocating mechanism comprises a support, a front rotating rod, a piston sleeve, a piston rod, a rear rotating rod, a swinging rod and a transmission rod, the support is installed on the adjusting supporting plate through bolts, the front rotating rod is installed at the right end of the support through a bearing, the piston sleeve is installed in the middle of the support, the piston rod is installed in the piston sleeve in a sliding mode, the rear rotating rod is installed below the piston sleeve through a bearing, the swinging rod is installed between the front rotating rod and the rear rotating rod in a rotating mode through a pin shaft, the top end of the swinging rod is connected with the rear end of the transmission rod through a spherical connecting piece, and the piston.

As a further scheme of the invention: smash the box including smashing case, crushing roller, crushing spring and crushing board, smash the case front end and evenly install a plurality of and smash the roller, smash incasement portion and install the crushing board through smashing the spring.

As a further scheme of the invention: a belt drive includes a action wheel, a driven wheel and a belt, installs a action wheel on the driving motor output shaft, and a driven wheel is installed to axostylus axostyle one end, and a action wheel is connected through a belt between the driven wheel and a.

As a further scheme of the invention: no. two belt drive include No. two action wheels, No. two from the driving wheel, No. three action wheels, No. two belts, No. three regulating wheels, No. three from driving wheel and No. three belts, the mounting bracket upper surface is provided with the riser, the riser top is provided with the action wheel No. two, the riser below is provided with No. two from driving wheel and No. three action wheels, No. two action wheels and No. two are connected through No. two belts from between the driving wheel, mounting bracket inner wall edge is connected with No. three regulating wheels through the regulating spring telescopic link, last No. three from the driving wheel of installing of reciprocating mechanism, No. three action wheels and No. three regulating wheels and No. three are connected.

Compared with the prior art, the invention has the following advantages:

the limestone pulverizer can solve the problem that limestone needs to be pulverized into particles with proper sizes to be applied to the construction industry or other industries at present, but has the following problems in the process of pulverizing limestone: firstly, as the original shape of the limestone is a relatively large block shape, many limestone crushing machines mostly adopt a crushing roller to crush the limestone, but the crushing efficiency of the crushing roller is low, the large limestone needs to be crushed from a little point on the outer surface, and the working progress is seriously influenced; secondly, after the lime stone carried out preliminary broken, still need carry out the secondary crushing to it to form the graininess of our required size, and present lime stone crushing machine is carrying out preliminary breakage with the lime stone raw materials, and often not abundant and inhomogeneous after the breakage is accomplished, and present lime stone crusher can not be according to people's requirement with the lime stone breakage to appointed size.

When the device is used for crushing limestone raw materials, a pile driving type preliminary crushing mode is adopted, the rotating wheel is driven to rotate by the driving mechanism, then the rotating wheel drives the crushing rod to rise to a certain height through the shifting block and then release, the crushing hammer hammers the limestone blocks into pieces, and the limestone blocks can be hammered into small blocks through repeated hammering, so that the crushing efficiency is high; the limestone blocks hammered by the breaking hammer fall into the crushing device through the one-level blanking port, the crushing device adopts a relative movement mode, so that the crushing rollers rub the limestone blocks, the distance between the crushing rollers is adjusted by controlling the adjusting mechanism, the rubbing of the limestone blocks in different sizes can be realized, and the produced limestone particles are convenient to use.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a schematic side plan view of the present invention;

FIG. 3 is a schematic elevational cross-sectional plan view of the present invention;

FIG. 4 is a side cross-sectional plan view of the present invention;

FIG. 5 is a perspective view of the exterior of the wheel of the present invention;

FIG. 6 is a schematic view of the internal structure of the wheel of the present invention;

FIG. 7 is a schematic perspective view of the adjustment mechanism of the present invention;

FIG. 8 is a perspective view of the reciprocator of the present invention;

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the invention easy to understand, the invention is further explained with reference to fig. 1 to 8.

A limestone powder making, crushing, grinding and dispersing system comprises an installation frame 1, a crushing device 2 and a crushing device 3, wherein the installation frame 1 is connected with a base 11 through a damping mechanism 12, a material receiving box 13 is arranged on the upper surface of the base 11, the crushing device 2 is arranged at the top of the installation frame 1, the crushing device 3 is installed at the bottom of the installation frame 1 through bolts, the material receiving box 13 is positioned under the crushing device 3, the crushing device 2 is positioned over the crushing device 3, and the crushing device 2 is connected with the crushing device 3 through a driving mechanism 14; wherein:

the crushing device 2 comprises a discharging groove 21, a supporting plate 22, a crushing rod 23, a crushing hammer 24, a shaft rod 25 and a rotating wheel 26, the discharging groove 21 is arranged in the middle of the top of the mounting frame 1, a plurality of first-level discharging holes 211 are formed in the discharging groove 21, the supporting plate 22 is arranged on one side of the discharging groove 21, a T-shaped supporting block 221 is arranged in the middle of the supporting plate 22, the crushing rod 23 is slidably mounted on the T-shaped supporting block 221, the crushing hammer 24 is mounted at the lower end of the crushing rod 23, the shaft rods 25 are symmetrically arranged on two sides of the crushing rod 23, the shaft rods 25 are connected through gear transmission, the mounting frame 1 is connected with the supporting plate 22 through the shaft rod 25, the rotating wheel 26 is mounted on; during specific work, put into blowing groove 21 with the lime stone in, start actuating mechanism 14 drives axostylus axostyle 25 and rotates, and axostylus axostyle 25 drives runner 26 and rotates to drive crushing rod 23 and rise, make quartering hammer 24 rise after the take the altitude, release quartering hammer 24 utilizes the gravity of 24 whereabouts of quartering hammer to beat the lime stone in blowing groove 21, makes its breakage, and crushing efficiency is high.

The rotating wheel 26 comprises a wheel body 261, an adjusting rod 262, an adjusting screw rod 263, an adjusting screw block 264, an arc-shaped plate 265 and a shifting block 266, wherein a plurality of adjusting rods 262 and an adjusting screw rod 263 are uniformly arranged in the wheel body 261, the adjusting rods 262 and the adjusting screw rod 263 are connected through gear engagement, the adjusting screw rod 263 is provided with the adjusting screw block 264, the adjusting screw block 264 is provided with the arc-shaped plate 265, and the shifting block 266 is arranged on the outer surface of the arc-shaped plate 265; during specific work, the wheel body 261 rotates under the drive of axostylus axostyle 25, through adjusting the regulation pole 262, will adjust the position of silk piece 264 and change, corresponding change takes place for the position of arc 265, and the area that the shifting block 266 contacted crushing pole 23 like this can change thereupon, can adjust accommodate adjustment screw 262 as required for the crushing effect of quartering hammer 24 to the lime stone changes.

The crushing device 3 comprises an adjusting mechanism 31, a reciprocating mechanism 32 and a crushing box body 33, the adjusting mechanism 31 is installed at the bottom of the mounting frame 1 through bolts, the reciprocating mechanism 32 is symmetrically installed on the adjusting mechanism 31 in a left-right mode through bolts, the crushing box body 33 is symmetrically installed between the reciprocating mechanisms 32, a blanking inclined plate 34 is arranged on the crushing box body 33, a second-stage blanking port 35 is formed in the upper surface of the crushing box body 33, and a third-stage blanking port 36 is formed in the lower surface of the crushing box body 33; during specific work, the distance between the two crushing boxes 33 is changed according to the actual required size through the adjustment of the adjusting mechanism 31, and then the driving mechanism 14 drives the reciprocating mechanism 32 to move, so that the two crushing boxes 33 move relatively to rub the limestone blocks.

The adjusting mechanism 31 comprises an adjusting support plate 311, an adjusting sliding rod 312, an adjusting support block 313, a shuttle-shaped plate 314, an adjusting sliding block 315, an adjusting cylinder 316, an adjusting support plate 317 and a connecting rod 318, the adjusting support plates 311 are symmetrically installed at the bottoms of the left inner wall and the right inner wall of the mounting frame 1, the adjusting sliding rods 312 are uniformly arranged between the adjusting support plates 311, the adjusting support block 313 is fixedly installed in the middle of the adjusting sliding rod 312, the shuttle-shaped plate 314 is rotatably installed in the middle of the adjusting support block 313 through a pin shaft, the adjusting sliding blocks 315 are symmetrically installed at two ends of the adjusting sliding rod 312, the adjusting support block 313 and the adjusting sliding block 315 are connected through the adjusting cylinder 316, the adjusting support plate 317 is installed on the adjusting sliding block 315, and; during specific work, the adjusting cylinder 316 stretches to drive the adjusting slider 315 to slide on the adjusting sliding rod 312, and then the connecting rod 218 drives the shuttle plate 314 on the adjusting support block 313 to rotate, so that the two adjusting support plates 317 rotate in the same direction, and the change of the distance between the crushing boxes 33 is realized.

The reciprocating mechanism 32 comprises a support 321, a front rotating rod 322, a piston sleeve 323, a piston rod 324, a rear rotating rod 325, a swinging rod 326 and a transmission rod 327, the support 321 is installed on the adjusting supporting plate 317 through a bolt, the front rotating rod 322 is installed at the right end of the support 321 through a bearing, the piston sleeve 323 is installed in the middle of the support 321, the piston rod 324 is installed in the piston sleeve 323 in a sliding manner, the rear rotating rod 325 is installed below the piston sleeve 323 through a bearing, the swinging rod 326 is installed between the front rotating rod 322 and the rear rotating rod 325 through a pin shaft in a rotating manner, the top end of the swinging rod 326 is connected with the rear end of the transmission rod 327 through a spherical connecting piece, and the piston; during specific work, the driving mechanism 14 drives the front rotating rod 322 to rotate, so as to drive the rear rotating rod 325 to rotate, and the front rotating rod 322 and the rear rotating rod 325 are twisted, so that the swinging rod 326 moves, the piston rod 324 slides back and forth in the piston sleeve 323, and the two crushing box bodies 33 are pushed to move back and forth to crush lime stones.

The crushing box body 33 comprises a crushing box 331, crushing rollers 332, crushing springs 333 and crushing plates 334, the front end of the crushing box 331 is uniformly provided with a plurality of crushing rollers 332, and the crushing plates 334 are arranged in the crushing box 331 through the crushing springs 333; in the concrete operation, when the two crushing tanks 331 reciprocate alternately, the limestone blocks are crushed between the crushing rollers 332, and the limestone blocks falling between the crushing rollers 332 and the crushing plate 334 are crushed by the crushing rollers 332, the crushing plate 334, and the crushing spring 333 in cooperation.

The damping mechanism 12 comprises damping slideways 121, damping sliding blocks 122, dampers 123 and a cross movable rod 124, the damping slideways 121 are symmetrically arranged at the left side and the right side of the bottom of the mounting rack 1 and the left side and the right side of the base 11 from top to bottom, the damping sliding blocks 122 are symmetrically arranged on the damping slideways 121 at the two ends of the damping slideways 121, the two damping sliding blocks 122 in one damping slideway 121 are connected through the dampers 123, the damping sliding blocks 122 are rotatably connected with the cross movable rod 124 through pin shafts, and the mounting rack 1, the base 11 and the cross movable rod 124 are rotatably connected through hinges; during specific work, when the lime stone is beaten by the breaking hammer 24, great vibration can be generated, the mounting frame 1 transmits the force generated by the vibration to the damping sliding block 122, and the damping sliding block 122 distributes the force to the shock absorber 123 and the cross movable rod 124, so that the force is dispersed to different directions and does not directly act on the ground, thereby not only protecting the field of the lime stone breaking field, but also protecting the effective protection device from being damaged.

The driving mechanism 14 comprises a driving motor 141, a first belt transmission 142 and a second belt transmission 143, the driving motor 141 is installed on the edge of the top of the mounting rack 1, the first belt transmission 142 is installed on an output shaft of the driving motor 141, and the output shaft of the driving motor 141 is connected with the second belt transmission 143 in a bevel gear meshing manner; specifically, the driving motor 141 transmits power to the crushing device 2 via the first belt drive 142 and transmits power to the crushing device via the second belt drive 143.

The first belt transmission 142 comprises a first driving wheel 1421, a first driven wheel 1422 and a first belt 1423, the first driving wheel 1421 is mounted on an output shaft of the driving motor 141, the first driven wheel 1422 is mounted at one end of the shaft rod 25, and the first driving wheel 1421 is connected with the first driven wheel 1422 through the first belt 1423; during specific work, the driving motor 141 drives the first driving wheel 1421 to rotate, so that the first driven wheel 1422 is driven to rotate through the first belt 1423, and power is transmitted to the crushing device 2.

The second belt transmission 143 comprises a second driving wheel 1431, a second driven wheel 1432, a third driving wheel 1433, a second belt 1434, a third adjusting wheel 1435, a third driven wheel 1436 and a third belt 1437, a vertical plate 15 is arranged on the upper surface of the mounting rack 1, the second driving wheel 1431 is arranged above the vertical plate 15, the second driven wheel 1432 and the third driving wheel 1433 are arranged below the vertical plate 15, the second driving wheel 1431 and the second driven wheel 1432 are connected through the second belt 1434, the edge of the inner wall of the mounting rack 1 is connected with the third adjusting wheel 1435 through an adjusting spring telescopic rod 16, the third driven wheel 1436 is arranged on the reciprocating mechanism 32, and the third driving wheel 1433 is connected with the third adjusting wheel 1435 and the third driven wheel 1436 through the third belt 1437; during specific work, the driving motor 141 drives the second driving wheel 1431 to rotate through transmission of the bevel gear, so that the second driven wheel 1432 and the third driving wheel 1433 are driven to rotate through the second belt 1434, the third adjusting wheel 1435 and the third driven wheel 1436 are driven to transmit power to the crushing device 3 through the third belt 1437, and the adjusting spring telescopic rod 16 adjusts tightness of the third belt 1437 when the two crushing box bodies 33 are separated or close to each other.

The working principle of the invention is as follows:

the first step is as follows: putting the limestone blocks into the discharging groove 21, starting the driving mechanism 14 to drive the shaft rod 25 to rotate, driving the rotating wheel 26 to rotate by the shaft rod 25 so as to drive the crushing rod 23 to ascend, releasing the crushing hammer 24 after the crushing hammer 24 ascends to a certain height, and hammering the limestone blocks in the discharging groove 21 by utilizing the gravity of the falling of the crushing hammer 24 so as to crush the limestone blocks;

the second step is that: crushed limestone enters the crushing device 3 through the primary blanking port 211, the distance between the crushing box bodies 33 is changed according to the actual required size through the adjustment of the adjusting mechanism 31, and then the driving mechanism 14 drives the reciprocating mechanism 32 to move, so that the two crushing box bodies 33 move relatively to rub the limestone;

the third step: the grated limestone falls into the receiving box 13 through the tertiary blanking port 36 or directly.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims

1. The utility model provides a broken dispersion system that grinds of lime stone powder process, includes mounting bracket (1), breaker (2) and reducing mechanism (3), its characterized in that: the mounting frame (1) is connected with the base (11) through a damping mechanism (12), a material receiving box (13) is arranged on the upper surface of the base (11), a crushing device (2) is arranged at the top of the mounting frame (1), a crushing device (3) is mounted at the bottom of the mounting frame (1) through a bolt, the material receiving box (13) is located right below the crushing device (3), the crushing device (2) is located right above the crushing device (3), and the crushing device (2) is connected with the crushing device (3) through a driving mechanism (14); wherein:

the crushing device (2) comprises a feeding groove (21), a supporting plate (22), a crushing rod (23), a crushing hammer (24), a shaft lever (25) and a rotating wheel (26), a discharging groove (21) is formed in the middle of the top of the mounting frame (1), a plurality of primary blanking ports (211) are formed in the discharging groove (21), a supporting plate (22) is arranged on one side of the discharging groove (21), a T-shaped supporting block (221) is arranged in the middle of the supporting plate (22), a crushing rod (23) is slidably mounted on the T-shaped supporting block (221), a crushing hammer (24) is mounted at the lower end of the crushing rod (23), shaft levers (25) are symmetrically arranged on two sides of the crushing rod (23), the shaft levers (25) are connected through gear transmission, the mounting frame (1) is connected with the supporting plate (22) through the shaft levers (25), a rotating wheel (26) is mounted on the shaft levers (25), and the side face of the crushing rod (23) is;

the smashing device (3) comprises an adjusting mechanism (31), a reciprocating mechanism (32) and a smashing box body (33), the adjusting mechanism (31) is installed at the bottom of the mounting frame (1) through bolts, the reciprocating mechanism (32) is installed on the adjusting mechanism (31) in a bilateral symmetry mode through bolts, the smashing box body (33) is installed between the reciprocating mechanism (32) in a symmetrical mode, a blanking inclined plate (34) is arranged on the smashing box body (33), a second-level blanking opening (35) is formed in the upper surface of the smashing box body (33), and a third-level blanking opening (36) is formed in the lower surface of the smashing box body (33;

the damping mechanism (12) comprises damping slideways (121), damping sliding blocks (122), dampers (123) and cross movable rods (124), the damping slideways (121) are symmetrically arranged on the left side and the right side of the bottom of the mounting rack (1) and the left side and the right side of the base (11) up and down, the damping sliding blocks (122) are symmetrically arranged on the damping slideways (121) at the two ends of the damping slideways (121), the two damping sliding blocks (122) positioned in one damping slideway (121) are connected through the dampers (123), the damping sliding blocks (122) are rotatably connected with the cross movable rods (124) through pin shafts, and the mounting rack (1), the base (11) and the cross movable rods (124) are rotatably connected through hinges;

the driving mechanism (14) comprises a driving motor (141), a first belt transmission (142) and a second belt transmission (143), the driving motor (141) is installed on the edge of the top of the mounting frame (1), the first belt transmission (142) is installed on an output shaft of the driving motor (141), and the output shaft of the driving motor (141) is connected with the second belt transmission (143) in a bevel gear meshing mode.

2. The limestone pulverizing, crushing, grinding and dispersing system of claim 1, wherein: runner (26) are including wheel body (261), adjust pole (262), accommodate lead screw (263), adjust silk piece (264), arc (265) and shifting block (266), evenly install a plurality of in wheel body (261) and adjust pole (262) and accommodate lead screw (263), adjust and be connected through gear engagement between pole (262) and accommodate lead screw (263), install adjust silk piece (264) on accommodate lead screw (263), install arc (265) on adjusting silk piece (264), arc (265) surface mounting has shifting block (266).

3. The limestone pulverizing, crushing, grinding and dispersing system of claim 1, wherein: the adjusting mechanism (31) comprises an adjusting support plate (311), an adjusting slide rod (312), an adjusting support block (313), a shuttle-shaped plate (314), an adjusting slide block (315), an adjusting cylinder (316), an adjusting support plate (317) and a connecting rod (318), adjusting support plates (311) are symmetrically installed at the bottoms of the left inner wall and the right inner wall of the mounting frame (1), adjusting sliding rods (312) are evenly arranged between the adjusting support plates (311), an adjusting support block (313) is fixedly installed in the middle of the adjusting sliding rods (312), shuttle-shaped plates (314) are installed in the middle of the adjusting support block (313) in a rotating mode through pin shafts, adjusting sliding blocks (315) are symmetrically installed at two ends of the adjusting sliding rods (312), the adjusting support block (313) is connected with the adjusting sliding blocks (315) through adjusting cylinders (316), an adjusting support plate (317) is installed on the adjusting sliding blocks (315), and the shuttle-shaped plates (314) are rotatably connected with the adjusting support plate (317) through connecting rods.

4. The limestone pulverizing, crushing, grinding and dispersing system of claim 1, wherein: reciprocating mechanism (32) are including support (321), preceding bull stick (322), piston cover (323), piston rod (324), back bull stick (325), swinging arms (326) and transfer line (327), install support (321) through the bolt on adjusting supporting plate (317), preceding bull stick (322) are installed through the bearing to support (321) right-hand member, piston cover (323) is installed in support (321) middle, slidable mounting has piston rod (324) in piston cover (323), back bull stick (325) is installed through the bearing in piston cover (323) below, swinging arms (326) are installed through round pin hub rotation between preceding bull stick (322) and back bull stick (325), swinging arms (326) top is connected with transfer line (327) rear end through the ball-type connecting piece, piston rod (324) are connected through the ball-type connecting piece with transfer line (327) front end.

5. The limestone pulverizing, crushing, grinding and dispersing system of claim 1, wherein: smash box (33) including smashing case (331), crushing roller (332), crushing spring (333) and crushing board (334), smash case (331) front end and evenly install a plurality of and smash roller (332), smash case (331) inside and install crushing board (334) through smashing spring (333).

6. The limestone pulverizing, crushing, grinding and dispersing system of claim 1, wherein: the belt transmission (142) comprises a first driving wheel (1421), a first driven wheel (1422) and a first belt (1423), the first driving wheel (1421) is installed on an output shaft of the driving motor (141), the first driven wheel (1422) is installed at one end of the shaft rod (25), and the first driving wheel (1421) and the first driven wheel (1422) are connected through the first belt (1423).

7. The limestone pulverizing, crushing, grinding and dispersing system of claim 1, wherein: the second belt transmission (143) comprises a second driving wheel (1431), a second driven wheel (1432), a third driving wheel (1433), a second belt (1434), a third adjusting wheel (1435), a third driven wheel (1436) and a third belt (1437), mounting bracket (1) upper surface is provided with riser (15), riser (15) top is provided with No. two action wheels (1431), riser (15) below is provided with No. two from driving wheel (1432) and No. three action wheel (1433), No. two action wheel (1431) and No. two are connected through No. two belt (1434) from between driving wheel (1432), mounting bracket (1) inner wall edge is connected with No. three regulating wheel (1435) through adjusting spring telescopic link (16), install No. three on reciprocating mechanism (32) from driving wheel (1436), No. three action wheel (1433) and No. three regulating wheel (1435) and No. three are connected through No. three belt (1437) from between driving wheel (1436).