CN116984096B - Processing technology of raw materials for preparing water-based paint - Google Patents

Abstract

The invention discloses a processing technology of a raw material for preparing a water-based paint, and relates to the technical field of paint processing. The processing technology of the raw materials for preparing the water-based paint comprises three steps of crushing, screening and rolling grinding of the raw materials, wherein the crushing, screening and rolling grinding processes are all processed by an integrated grinding machine, the integrated grinding machine comprises an L-shaped equipment frame, and a crushing mechanism, a screening and grinding mechanism and a rolling and grinding mechanism are sequentially arranged on the outer surface of the L-shaped equipment frame from top to bottom. This water paint preparation raw materials processing technology, repeated flexible through the pneumatic cylinder realizes hammering breakage, screen mill and the roll-in grinding to the material in step, at the output of pneumatic cylinder when stretching at every turn simultaneously, drives the quartering hammer and moves up the process, realizes the rotation of quartering hammer, and the hammering can make uncrushed material scatter to the side of hammering position, and rotates the quartering hammer for quartering hammer position adjustment carries out hammering breakage to uncrushed material, promotes material crushing effect.

Description

Processing technology of raw materials for preparing water-based paint

Technical Field

The invention relates to the technical field of paint processing, in particular to a raw material processing technology for preparing a water-based paint.

Background

The water-based paint is a paint with special purposes, which is formed by mixing other dry powder and colloid materials by taking water as a solvent, wherein the main effect is that the dry powder raw materials need to be thoroughly crushed before being mixed for preparation, so that the granularity of the mixed raw materials can meet the use requirement.

The prior publication number CN115625015A discloses a processing technology of raw materials for preparing water-based paint, which is completed by matching an automatic crushing grinder for preparing the raw materials for preparing the water-based paint, wherein the automatic crushing grinder for preparing the raw materials for preparing the water-based paint comprises a base, a vertical plate, a supporting unit, a tank seat opening, a tank body, a reciprocating unit, a transmission unit and the like;

But in the course of actual operation, the jar body is in quick rotatory process, and the centrifugal force of its production can make the material of great granule be close to jar body lateral wall, is difficult for being hammered, and simultaneously in the grinding process, the material very easily adheres to the inner wall of grinding the container, produces the material hardening, is unfavorable for the unloading more, provides a water paint preparation raw materials processing technology for this purpose in order to solve above-mentioned problem.

Disclosure of Invention

Aiming at the defects of the prior art, the invention discloses a processing technology of a raw material for preparing a water-based paint, which aims to solve the problems in the prior art.

The invention aims at achieving the purposes through the following technical scheme that the processing technology of the raw materials for preparing the water-based paint comprises three steps of crushing, screening and rolling grinding of the raw materials, wherein the crushing, screening and rolling grinding processes are all carried out by an integrated grinding machine, the integrated grinding machine comprises an L-shaped equipment frame, and a crushing mechanism, a screening and grinding mechanism and a rolling and grinding mechanism are sequentially arranged on the outer surface of the L-shaped equipment frame from top to bottom;

the crushing mechanism comprises a crushing cylinder, a feeding hopper is arranged on the outer surface of the crushing cylinder, a plurality of crushing hammers are arranged at the inner top of the crushing cylinder, a screening cylinder is arranged in the screening mechanism, a grinding disc is arranged in the screening cylinder, a grinding roller is arranged in the rolling grinding mechanism, a hydraulic cylinder is arranged on the back surface of the L-shaped equipment frame and is used for synchronously driving the grinding disc and the grinding roller to rotate, and therefore grading treatment of raw materials is achieved;

The output shaft of the hydraulic cylinder stretches out to drive the breaking hammer to move upwards and simultaneously rotate to adjust the hammering position, and the output shaft of the hydraulic cylinder contracts to drive the breaking hammer to move downwards to hammer and crush raw materials.

Preferably, the roll-in grinding mechanism is including setting up the grinding storehouse in the outside, the screen mill storehouse is installed at the top of grinding storehouse, broken section of thick bamboo fixed mounting is at the top of screen mill storehouse, and broken section of thick bamboo, screen mill storehouse and the inside of grinding storehouse are linked together, fine material goes out hopper and coarse material goes out the hopper to install respectively in the surface both sides of grinding storehouse.

Preferably, the top sliding connection of L shape equipment rack has L shape mounting panel, the output fixed mounting of L shape mounting panel and pneumatic cylinder, the lower surface rotation of L shape mounting panel is connected with the carousel, a plurality of loose axles are installed to the bottom of carousel, the interior bottom at the loose axle is installed in the quartering hammer activity grafting, and the top of quartering hammer is provided with protection spring, the top of a crushing section of thick bamboo is provided with rotatory lid, the middle part of rotatory lid is fixed with the access cover through the bolt, the loose axle runs through the access cover.

Preferably, an L-shaped pneumatic cylinder is mounted in the side wall of the L-shaped equipment rack, two ends of the L-shaped pneumatic cylinder are movably connected with piston rods in an inserted mode, one group of piston rods are mounted with driving racks at the ends of the piston rods, a transmission gear is arranged at the top of the rotary table and meshed with the driving racks, the other group of piston rods are movably connected with T-shaped shafts in an inserted mode, and the bottom ends of the T-shaped shafts are fixedly connected to the side wall of the L-shaped equipment rack.

Preferably, the top fixed mounting of carousel has the pawl, the ratchet is installed to transmission gear's bottom, the pawl sets up in the inside of ratchet, the bottom fixedly connected with link of rotatory lid, the surface fixedly connected with holding ring of broken section of thick bamboo, the link rotates the surface of connecting at the holding ring.

Preferably, the coarse-meshed screen plate is installed at the inner bottom of the crushing cylinder, a sliding connecting frame is fixedly installed at the back of the L-shaped supporting plate, a positioning chute is formed in the back of the L-shaped equipment frame, the sliding connecting frame is slidably connected to the inner portion of the positioning chute, and the sliding connecting frame is fixedly installed at the output end of the hydraulic cylinder.

Preferably, the front side of L shape equipment rack is provided with the equipment bin, the inside rotation in equipment bin is connected with the driving disc, the surface rotation of driving disc is connected with eccentric rod, and the top and the L shape mounting panel activity of eccentric rod articulate, the mid-mounting of driving disc has the drive shaft, fixedly connected with rotation main shaft between mill and the roller that rolls, the drive shaft is connected with rotation main shaft transmission.

Preferably, a transmission case is installed between the equipment bin and the grinding bin, a transmission shaft is rotatably connected in the transmission case, bevel gears are installed on the outer surfaces of the transmission shaft and the transmission shaft, two groups of bevel gears are meshed, and a transmission belt is installed between the transmission shaft and the rotary main shaft.

Preferably, the top of rotatory main shaft runs through a sieve grinding section of thick bamboo, and a sieve grinding section of thick bamboo is installed at the interior top in sieve grinding storehouse, the internally mounted in grinding storehouse has secondary sieve, the bottom of rotatory main shaft rotates and connects at the top of secondary sieve, the bottom of secondary sieve has set gradually slope screen cloth and slope stock guide, slope screen cloth is to the slope of coarse fodder play hopper, slope stock guide is to the slope of fine material play hopper.

Preferably, the bottom of L shape equipment rack is provided with L shape supporting seat, the upper surface fixedly connected with reference column of L shape supporting seat, the top activity of reference column is pegged graft in the inside of L shape equipment rack, and the top of reference column is provided with shakes the sieve spring, fixedly connected with spacing slider on the lateral wall of L shape supporting seat, spacing spout has been seted up to the back of L shape equipment rack, spacing slider sliding connection is in the inside of spacing spout.

The invention discloses a processing technology of a raw material for preparing a water-based paint, which has the following beneficial effects:

According to the processing technology of the water-based paint preparation raw material, along with downward movement of the L-shaped support plate, the piston rod at the bottom moves downwards, the pressure inside the L-shaped pneumatic cylinder increases, at the moment, the piston rod at the top moves outwards, the driving rack slides towards the front end, the driving gear rotates clockwise, ratchet pawls are arranged between the driving gear and the rotary table, therefore, when the driving gear rotates clockwise, the rotary table cannot be driven to rotate, then after hammering materials once is completed, the output end of the hydraulic cylinder stretches to drive the breaking hammer to move upwards, at the moment, the L-shaped pneumatic cylinder moves upwards, the pressure inside the L-shaped pneumatic cylinder is reduced, at the moment, the piston rod at the top moves inwards, the driving rack drives the driving gear to rotate anticlockwise, the rotary table is driven to rotate anticlockwise by a certain angle through the ratchet pawls, so that a plurality of breaking hammers rotate, repeated hammering of the unbroken materials can be dispersed to the side of hammering positions, and the breaking hammer is rotated, so that the position of the breaking hammer is adjusted, hammering of the unbroken materials is more beneficial to be carried out, and the material breaking effect is improved.

This water paint preparation raw materials processing technology drives the quartering hammer and carries out repeated hammering material and smashes the in-process at the pneumatic cylinder, along with L shape mounting panel reciprocates, drive the driving disk through eccentric rod and rotate, the drive shaft of driving disk tip passes through two sets of bevel gears and drives the transmission shaft and rotate this moment, the transmission shaft drives rotatory main shaft through the transmission belt and rotates, rotatory main shaft drives the mill and grinds the inside rotation of section of thick bamboo at the sieve, the material that grinds the section of thick bamboo inside is pushed along lateral wall and diapire this moment, thereby grind the material, it is inside to grind the storehouse to fall down, then rotatory main shaft drives the roller and rolls at the top of secondary sieve, carry out the roll grinding to the material, make the material drop to the top of slope screen cloth through secondary sieve downwards, thereby realize the hierarchical processing of material in step.

This water paint preparation raw materials processing technology, when pneumatic cylinder drives the quartering hammer and upwards repeat hammering, can make whole L shape equipment rack take place vibrations from top to bottom, make L shape equipment rack can have certain upper and lower sieve activity that shakes through the sieve spring that shakes of L shape equipment rack bottom this moment, thereby make coarse pore sieve plate, sieve grinding cylinder, secondary sieve plate, slope screen cloth and slope stock guide all receive upper and lower vibration, thereby be convenient for the material to carry out quick sieve and fall, make the material that the part is incomplete smashed discharge through coarse fodder discharge hopper, and the material that smashes completely discharges through the fine material discharge hopper, avoid the material jam.

Drawings

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

FIG. 2 is a schematic view of the overall rear structure of the present invention;

FIG. 3 is a schematic view of the outer surface structure of the crushing mechanism of the present invention;

FIG. 4 shows an L-shaped bracket plate according to the present invention an internal structural cross-section;

FIG. 5 is a cross-sectional view of the internal structure of the crushing mechanism of the present invention;

FIG. 6 is an enlarged view of the portion A of FIG. 4 in accordance with the present invention;

FIG. 7 is a cross-sectional view of the internal structure of the screen mill housing and grinding housing of the present invention;

FIG. 8 is a cross-sectional view of the outer surface structure of the L-shaped equipment rack of the present invention;

Fig. 9 is an exploded view of the bottom structure of the L-shaped equipment rack of the present invention.

The device comprises a 1L-shaped device frame, a 2L-shaped support plate, a3 crushing mechanism, a 31 crushing cylinder, a 32 crushing hopper, a 33 rotary cover, a 34 movable shaft, a 35L-shaped pneumatic cylinder, a 36 piston rod, a 37T-shaped shaft, a 38 driving gear, a 39 driving rack, a 310 ratchet wheel, a 311 rotating disc, a 312, an access cover, a 313, a locating ring, a 314, a hanging ring, a 315, a coarse hole sieve plate, a 316, a breaking hammer, a 317, a protection spring, a 318, a pawl, a4 screening mechanism, a 41 screening bin, a 42 screening cylinder, a 43, a grinding disc, a 5, a rolling grinding mechanism, a 51, a grinding bin, 52, a secondary sieve plate, a 53, an inclined screen, a 54, an inclined guide cylinder, a 55, a coarse material outlet hopper, a 56, a fine material outlet hopper, a 57, a rolling roller, a 6, a hydraulic cylinder, a 7, an L-shaped support seat, an 8, a locating chute, a 9, a limit chute, a 10, a sliding connecting frame, a 11, a rotating main shaft, a 12, a driving belt, a 13, a device bin, a 14, an eccentric rod, a 15, a driving box, a 16, a grinding disc, a 16, a driving disc, a 17, a driving shafts, a 20, a bevel gear shafts, a 20, a driving shafts.

Description of the embodiments

The embodiment of the invention discloses a processing technology of a raw material for preparing a water-based paint, as shown in fig. 1-9, in order to make the purposes, technical schemes and advantages of the embodiment of the invention more clear, the technical schemes of the embodiment of the invention are clearly and completely described below by way of example with reference to the accompanying drawings in the invention.

The processing technology of the water-based paint preparation raw material comprises three steps of crushing, screening and rolling grinding of raw materials, wherein the crushing, screening and rolling grinding processes are all carried out by an integrated grinding machine, the integrated grinding machine comprises an L-shaped equipment frame 1, and a crushing mechanism 3, a screening and grinding mechanism 4 and a rolling and grinding mechanism 5 are sequentially arranged on the outer surface of the L-shaped equipment frame 1 from top to bottom;

The crushing mechanism 3 comprises a crushing cylinder 31, a feeding hopper 32 is arranged on the outer surface of the crushing cylinder 31, a plurality of crushing hammers 316 are arranged at the inner top of the crushing cylinder 31, a screen grinding cylinder 42 is arranged in the screen grinding mechanism 4, a grinding disc 43 is arranged in the screen grinding cylinder 42, a rolling roller 57 is arranged in the rolling grinding mechanism 5, a hydraulic cylinder 6 is arranged on the back surface of the L-shaped equipment frame 1, and the hydraulic cylinder 6 is used for synchronously driving the grinding disc 43 and the rolling roller 57 to rotate, so that the raw materials are classified;

The output shaft of the hydraulic cylinder 6 stretches out to drive the breaking hammer 316 to move upwards and simultaneously rotate to adjust the hammering position, and the output shaft of the hydraulic cylinder 6 contracts to drive the breaking hammer 316 to move downwards to hammer and crush raw materials.

The roll-in grinding mechanism 5 is including setting up the grinding storehouse 51 in the outside, and the screen mill storehouse 41 is installed at the top of grinding storehouse 51, and broken section of thick bamboo 31 fixed mounting is at the top of screen mill storehouse 41, and broken section of thick bamboo 31, screen mill storehouse 41 are linked together with the inside of grinding storehouse 51, and fine material goes out hopper 56 and coarse material goes out hopper 55 are installed respectively to the surface both sides of grinding storehouse 51.

The top sliding connection of L shape equipment rack 1 has L shape mounting panel 2, the output fixed mounting of L shape mounting panel 2 and pneumatic cylinder 6, the lower surface rotation of L shape mounting panel 2 is connected with carousel 311, a plurality of loose axles 34 are installed to the bottom of carousel 311, the movable grafting of quartering hammer 316 is installed in the interior bottom of loose axle 34, and the top of quartering hammer 316 is provided with protection spring 317, the top of crushing section of thick bamboo 31 is provided with rotatory lid 33, the middle part of rotatory lid 33 is fixed with access cover 312 through the bolt, loose axle 34 runs through access cover 312.

An L-shaped pneumatic cylinder 35 is arranged in the side wall of the L-shaped equipment rack 1, piston rods 36 are movably inserted at two ends of the L-shaped pneumatic cylinder 35, a driving rack 39 is arranged at the end part of one group of piston rods 36, a transmission gear 38 is arranged at the top of a turntable 311, the transmission gear 38 is meshed with the driving rack 39, a T-shaped shaft 37 is movably inserted in the other group of piston rods 36, and the bottom end of the T-shaped shaft 37 is fixedly connected to the side wall of the L-shaped equipment rack 1.

The top of carousel 311 is fixed mounting has pawl 318, and ratchet 310 is installed to the bottom of drive gear 38, and pawl 318 sets up in ratchet 310's inside, and rotary cap 33's bottom fixedly connected with link 314, the surface fixedly connected with holding ring 313 of crushing section of thick bamboo 31, link 314 rotate the surface of connecting at holding ring 313.

The coarse-meshed screen plate 315 is installed at the inner bottom of the crushing cylinder 31, the sliding connecting frame 10 is fixedly installed at the back of the L-shaped supporting plate 2, the positioning sliding chute 8 is formed at the back of the L-shaped equipment frame 1, the sliding connecting frame 10 is slidably connected in the positioning sliding chute 8, and the sliding connecting frame 10 is fixedly installed at the output end of the hydraulic cylinder 6.

The front side of L-shaped equipment rack 1 is provided with equipment bin 13, and the inside rotation of equipment bin 13 is connected with driving disk 16, and the surface rotation of driving disk 16 is connected with eccentric rod 14, and the top of eccentric rod 14 and L-shaped mounting plate 2 activity hinge joint, and the mid-mounting of driving disk 16 has drive shaft 17, installs rotatory main shaft 11 between mill 43 and the roller 57 that rolls, and drive shaft 17 is connected with rotatory main shaft 11 transmission, and mill 43 is fixed at rotatory main shaft 11's top, roller 57 that rolls rotates the bottom surface of connecting at rotatory main shaft 11.

A transmission case 15 is installed between the equipment bin 13 and the grinding bin 51, a transmission shaft 18 is rotatably connected in the transmission case 15, bevel gears 19 are installed on the outer surfaces of the driving shaft 17 and the transmission shaft 18, two groups of bevel gears 19 are meshed, and a transmission belt 12 is installed between the transmission shaft 18 and the rotary main shaft 11.

The top of rotatory main shaft 11 runs through sieve grinding section of thick bamboo 42, and sieve grinding section of thick bamboo 42 installs at the interior top of sieve grinding storehouse 41, and the internally mounted of grinding storehouse 51 has secondary screen plate 52, and the bottom of rotatory main shaft 11 rotates the top of connecting at secondary screen plate 52, and the bottom of secondary screen plate 52 has set gradually slope screen cloth 53 and slope stock guide 54, and slope screen cloth 53 inclines towards coarse fodder hopper 55, and slope stock guide 54 inclines towards fine fodder hopper 56.

The bottom of L-shaped equipment rack 1 is provided with L-shaped supporting seat 7, and the upper surface fixedly connected with reference column 21 of L-shaped supporting seat 7, the top activity of reference column 21 is pegged graft in the inside of L-shaped equipment rack 1, and the top of reference column 21 is provided with shakes the sieve spring 22, fixedly connected with spacing slider 20 on the lateral wall of L-shaped supporting seat 7, spacing spout 9 has been seted up at the back of L-shaped equipment rack 1, and spacing slider 20 sliding connection is in the inside of spacing spout 9.

When the device is used, raw materials are poured into the crushing cylinder 31 from the position of the feed hopper 32, then the hydraulic cylinder 6 is started, so that an output shaft of the hydraulic cylinder 6 reciprocates and stretches, when the output end of the hydraulic cylinder 6 contracts, the L-shaped support plate 2 is driven to move downwards by the sliding connecting frame 10, at the moment, the L-shaped support plate 2 drives the movable shafts 34 to move rapidly towards the inner bottom of the crushing cylinder 31 by the turntable 311, so that the crushing hammers 316 hammer the raw materials in the crushing cylinder 31, and meanwhile, the upper and lower movable ranges of the crushing hammers 316 are adaptively adjusted by the arranged protective springs 317, and the hydraulic cylinder 6 continues to output after the crushing hammers 316 touch the bottom when the materials are excessive, so that the hydraulic cylinder 6 and the coarse-hole sieve plate 315 are damaged;

Meanwhile, in the process of the operation, as the L-shaped support plate 2 moves downwards, the piston rod 36 at the bottom moves downwards, at the moment, the T-shaped shaft 37 is completely inserted into the piston rod 36, then the L-shaped support plate 2 continues to move downwards, so that the bottom piston rod 36 is pressed into the L-shaped pneumatic cylinder 35, the pressure in the L-shaped pneumatic cylinder 35 is increased, at the moment, the piston rod 36 at the top end of the L-shaped pneumatic cylinder 35 moves outwards, the driving rack 39 is driven to slide towards the front end, at the moment, the driving rack 39 drives the transmission gear 38 to rotate clockwise, but in the process, the transmission gear 38 and the turntable 311 are provided with the ratchet wheel 310 and the pawl 318, and therefore, the turntable 311 cannot be driven to rotate when the transmission gear 38 rotates clockwise;

Then after the material is hammered once, the output end of the hydraulic cylinder 6 stretches to drive the L-shaped bracket plate 2 to move upwards, the movable shaft 34 drives the plurality of breaking hammers 316 to move upwards, the piston rod 36 at the bottom end slides upwards on the outer surface of the T-shaped shaft 37, then the piston rod 36 cannot move upwards continuously as the L-shaped bracket plate 2 continues to move upwards, the pressure in the L-shaped pneumatic cylinder 35 is reduced, the piston rod 36 at the top moves inwards of the L-shaped pneumatic cylinder 35 at the moment, the driving rack 39 is driven to slide backwards, the driving rack 39 drives the transmission gear 38 to rotate anticlockwise, the transmission gear 38 drives the rotary table 311 to rotate anticlockwise by a certain angle, the plurality of breaking hammers 316 are enabled to rotate, the rotary cover 33 is driven to rotate along the positioning ring 313 at the same time, the next hammering position of the breaking hammers 316 is adjusted, the output shaft of the hydraulic cylinder 6 is contracted, the hammering position of the breaking hammers 316 is enabled to be repeated, the hammering position of the breaking hammers 316 is enabled to be changed every time, the actual operation is carried out, the breaking hammers are scattered, and the breaking position of the breaking hammers 316 is enabled to be not to be adjusted to rotate, and the breaking position of the material is enabled to be more favorable to the breaking side face of the material to be not adjusted;

Simultaneously, in the process of repeatedly hammering materials by the breaking hammer 316 driven by the hydraulic cylinder 6, the transmission disc 16 is driven to rotate by the eccentric rod 14 along with the up-and-down movement of the L-shaped support plate 2, at the moment, the driving shaft 17 at the end part of the transmission disc 16 drives the transmission shaft 18 to rotate by the two groups of bevel gears 19, the transmission shaft 18 drives the rotating main shaft 11 to rotate by the transmission belt 12, at the moment, the rotating main shaft 11 drives the grinding disc 43 to rotate in the screen grinding cylinder 42, the materials in the screen grinding cylinder 42 are pushed along the side wall and the bottom wall, so that the materials are ground and fall into the grinding bin 51, then the rotating main shaft 11 drives the grinding roller 57 to roll at the top of the secondary screen plate 52, and the materials are rolled and ground, so that the materials fall to the top of the inclined screen 53 through the secondary screen plate 52;

meanwhile, when the hydraulic cylinder 6 drives the breaking hammer 316 to repeatedly hammer downwards, the whole L-shaped equipment frame 1 can vibrate vertically, at the moment, the L-shaped equipment frame 1 can have a certain vertical vibrating screen activity through the vibrating screen spring 22 at the bottom of the L-shaped equipment frame 1, so that the coarse screen plate 315, the screen grinding cylinder 42, the secondary screen plate 52, the inclined screen 53 and the inclined guide plate 54 are subjected to vertical vibration, the materials can be conveniently and rapidly sieved, the materials which are not completely crushed partially are discharged through the coarse material discharge hopper 55, the materials which are completely crushed are discharged through the fine material discharge hopper 56, and the blockage of the materials is avoided.

The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The processing technology of the raw materials for preparing the water-based paint comprises the steps of crushing, screening and rolling grinding of the raw materials, wherein the crushing, screening and rolling grinding processes are all processed by an integrated grinding machine, and the processing technology is characterized in that:

The integrated grinding machine comprises an L-shaped equipment frame, wherein the outer surface of the L-shaped equipment frame is sequentially provided with a crushing mechanism, a screening mechanism and a rolling grinding mechanism from top to bottom;

the crushing mechanism comprises a crushing cylinder, a feeding hopper is arranged on the outer surface of the crushing cylinder, a plurality of crushing hammers are arranged at the inner top of the crushing cylinder, a screening and grinding cylinder is arranged in the screening and grinding mechanism, a grinding disc is arranged in the screening and grinding cylinder, a grinding roller is arranged in the rolling and grinding mechanism, a hydraulic cylinder is arranged on the back of the L-shaped equipment frame, and the hydraulic cylinder is used for synchronously driving the grinding disc and the grinding roller to rotate, so that grading treatment of raw materials is realized;

an output shaft of the hydraulic cylinder stretches out to drive the breaking hammer to move upwards and simultaneously rotate to adjust the hammering position, and the output shaft of the hydraulic cylinder contracts to drive the breaking hammer to move downwards to hammer and crush raw materials;

the top of the L-shaped equipment rack is slidably connected with an L-shaped support plate, the L-shaped support plate is fixedly arranged with the output end of the hydraulic cylinder, the lower surface of the L-shaped support plate is rotatably connected with a rotary table, the bottom of the rotary table is provided with a plurality of movable shafts, the breaking hammer is movably inserted and installed at the inner bottom of the movable shafts, the top of the breaking hammer is provided with a protection spring, the top of the breaking barrel is provided with a rotary cover, the middle part of the rotary cover is fixedly provided with an access cover through bolts, and the movable shafts penetrate through the access cover;

an L-shaped pneumatic cylinder is arranged in the side wall of the L-shaped equipment rack, piston rods are movably inserted at two ends of the L-shaped pneumatic cylinder, a driving rack is arranged at the end part of one group of piston rods, a transmission gear is arranged at the top of the turntable and meshed with the driving rack, a T-shaped shaft is movably inserted in the other group of piston rods, and the bottom end of the T-shaped shaft is fixedly connected to the side wall of the L-shaped equipment rack;

The top of the rotary table is fixedly provided with a pawl, the bottom of the transmission gear is provided with a ratchet wheel, the pawl is arranged in the ratchet wheel, the bottom of the rotary cover is fixedly connected with a hanging ring, the outer surface of the crushing cylinder is fixedly connected with a positioning ring, and the hanging ring is rotationally connected to the outer surface of the positioning ring;

The inner bottom of the crushing cylinder is provided with a coarse-hole sieve plate, the back of the L-shaped support plate is fixedly provided with a sliding connecting frame, the back of the L-shaped equipment frame is provided with a positioning chute, the sliding connecting frame is in sliding connection with the inside of the positioning chute, and the sliding connecting frame is fixedly arranged with the output end of the hydraulic cylinder;

The front side of L shape equipment rack is provided with the equipment bin, and the inside rotation of equipment bin is connected with the driving disk, and the surface rotation of driving disk is connected with eccentric rod, and the top and the activity of L shape mounting panel of eccentric rod are articulated, and the mid-mounting of driving disk has the drive shaft, installs rotatory main shaft between mill and the roller that rolls, and the drive shaft is connected with rotatory main shaft transmission.

2. The process for preparing the raw materials for the water-based paint, as set forth in claim 1, wherein the rolling grinding mechanism comprises a grinding bin arranged outside, a screening bin is arranged at the top of the grinding bin, a crushing cylinder is fixedly arranged at the top of the screening bin, the crushing cylinder, the screening bin and the grinding bin are communicated, and a fine material discharging hopper and a coarse material discharging hopper are respectively arranged at two sides of the outer surface of the grinding bin.

3. The process for preparing the raw materials for the water-based paint, as set forth in claim 2, is characterized in that a transmission case is installed between the equipment bin and the grinding bin, a transmission shaft is rotatably connected in the transmission case, bevel gears are installed on the outer surfaces of the transmission shaft and the transmission shaft, the two bevel gears are meshed, and a transmission belt is installed between the transmission shaft and the rotary main shaft.

4. The process for preparing the raw materials for the water-based paint according to claim 3, wherein the top end of the rotary main shaft penetrates through the screen grinding cylinder, the screen grinding cylinder is arranged at the inner top of the screen grinding bin, the secondary screen plate is arranged in the grinding bin, the bottom end of the rotary main shaft is rotationally connected to the top of the secondary screen plate, the bottom of the secondary screen plate is sequentially provided with an inclined screen and an inclined guide plate, the inclined screen is inclined towards the coarse material discharging hopper, and the inclined guide plate is inclined towards the fine material discharging hopper.

5. The water paint preparation raw material processing technology according to claim 4, wherein an L-shaped supporting seat is arranged at the bottom of the L-shaped equipment frame, a positioning column is fixedly connected to the upper surface of the L-shaped supporting seat, the top end of the positioning column is movably inserted into the L-shaped equipment frame, a vibrating screen spring is arranged at the top of the positioning column, a limit sliding block is fixedly connected to the side wall of the L-shaped supporting seat, a limit sliding groove is formed in the back surface of the L-shaped equipment frame, and the limit sliding block is slidably connected into the limit sliding groove.