CN111318350A

CN111318350A - Cement preparation dispersion processing system and method

Info

Publication number: CN111318350A
Application number: CN202010119986.XA
Authority: CN
Inventors: 张赛; 李胜虎
Original assignee: Anqing Mirui Intelligent Technology Co ltd
Current assignee: Handan Sinoma Construction Co., Ltd
Priority date: 2020-02-26
Filing date: 2020-02-26
Publication date: 2020-06-23
Anticipated expiration: 2040-02-26
Also published as: CN111318350B

Abstract

The invention relates to a cement preparation, dispersion, processing and treatment system and a cement preparation, which comprises a bottom plate, a decomposition frame, a screening frame, a feeding port, a crushing device, a grinding device and a material receiving frame, wherein the decomposition frame is arranged at the upper end of the bottom plate through a supporting column, the screening frame is arranged at the rear end of the decomposition frame, and a rectangular groove is formed in the upper end of the decomposition frame. The cement dispersing device can solve the problems that when the existing device disperses agglomerated cement, cement blocks with larger volume after being crushed can not be repeatedly crushed, so that the crushing effect is reduced, the phenomenon of cement jamming is easy to occur, the cement is accumulated, the device is damaged, the production cost is increased, the crushing efficiency is reduced, meanwhile, multi-stage dispersion can not be performed, the cement after being dispersed has larger and uneven volume and low dispersing effect, and the cement remained in the device can not be removed, so that the material waste is caused, the cement dispersing efficiency is reduced, and the like.

Description

Cement preparation dispersion processing system and method

Technical Field

The invention relates to the technical field of cement preparation, in particular to a cement preparation dispersion processing system and a cement preparation dispersion processing method.

Background

The cement is a powdery hydraulic inorganic cementing material, which is added with water and stirred into slurry, can be hardened in the air or in water, can firmly bond sand, stone and other materials together, and can be used for bonding broken stone to prepare concrete, after being hardened, the strength is higher, and the concrete can resist corrosion of fresh water or salt-containing water, so that the cement is used as an important cementing material and is widely applied to the fields of engineering, such as civil construction, water conservancy, national defense and the like.

At present, when dispersing agglomerated cement, the following disadvantages generally exist: 1. when the existing equipment is used for dispersing cement, cement blocks with large volumes after being crushed can not be repeatedly crushed, so that the crushing effect is reduced, and the phenomenon of cement jamming is easy to occur, so that the cement is accumulated, the equipment is damaged, the production cost is increased, and the crushing efficiency is reduced; 2. The existing equipment can not carry out multistage dispersion when dispersing cement, the cement volume after dispersion is large, uneven and the dispersion effect is low, and the cement remained in the equipment can not be removed, thereby causing the waste of materials and reducing the efficiency of cement dispersion.

Disclosure of Invention

Technical problem to be solved

The cement dispersing device can solve the problems that when the existing device disperses agglomerated cement, cement blocks with larger volume after being crushed can not be repeatedly crushed, so that the crushing effect is reduced, the phenomenon of cement jamming is easy to occur, the cement is accumulated, the device is damaged, the production cost is increased, the crushing efficiency is reduced, meanwhile, multi-stage dispersion can not be performed, the cement after being dispersed has larger and uneven volume and low dispersing effect, and the cement remained in the device can not be removed, so that the material waste is caused, the cement dispersing efficiency is reduced, and the like.

(II) technical scheme

In order to achieve the purpose, the invention adopts the following technical scheme that the cement preparation, dispersion and processing system comprises a bottom plate, a decomposition frame, a screening frame, a feeding hole, a crushing device, a grinding device and a receiving frame, wherein the decomposition frame is installed at the upper end of the bottom plate through a support column, the screening frame is installed at the rear end of the decomposition frame, a rectangular groove is formed in the upper end of the decomposition frame, the feeding hole is installed on the side wall of the rectangular groove, the crushing device is arranged at the left end of the feeding hole, the crushing device is installed on the inner wall of the decomposition frame, the grinding device is arranged below the crushing device and is installed on the decomposition frame, the receiving frame is arranged below the decomposition frame, and the receiving frame.

The crushing device comprises a crushing cylinder, a connecting block, a crushing spring, a crushing head, a screening mechanism, a filter plate and a jacking mechanism, wherein the crushing cylinder is arranged on the side wall of the decomposition frame through a cylinder seat, the connecting block is arranged at the top end of the crushing cylinder, the crushing spring is uniformly arranged on the lower end surface of the connecting block, the lower end of the crushing spring is connected with the crushing head which is in sliding connection with the connecting block, the screening mechanism is arranged below the crushing head and is in sliding connection with the decomposition frame, the filter plate is arranged on the right side of the screening mechanism, the filter plate is arranged on the decomposition frame, the jacking mechanism is arranged below the filter plate and is arranged on the grading frame, when the crushing device works, firstly, the crushing cylinder is manually started, the crushing cylinder is reset to drive the feed port to move, the function of feeding cement is realized, thereby realize the function of broken cement, avoid appearing great cement piece, at last, broken cylinder resets and drives the motion of screening mechanism through wire rope, and the screening mechanism pushes away the cement after the breakage to the filter upper end, and cement falls down from the filter to realize the function of screening, the screening mechanism resets and takes back the cement that does not pass through, carries out the breakage once more, thereby has improved broken effect.

The grinding device comprises a driving motor, a rotating rod, a rotating frame, a grinding mechanism, a jacking wheel and a cleaning brush, wherein the driving motor is arranged on the outer end face of the rear wall of the decomposition frame through a motor base, the rotating rod is arranged on an output shaft of the driving motor and connected with the rotating rod of the rear wall of the decomposition frame, the rotating frame is arranged in the middle of the rotating rod, the grinding mechanism is uniformly arranged on the rotating frame and connected with the rotating frame in a sliding fit manner, the jacking wheel is arranged at the inner end of the grinding mechanism and arranged on the inner end face of the front wall of the decomposition frame, the jacking wheel is connected with the front end of the rotating rod through a bearing, the cleaning brush is arranged below the grinding mechanism, the cleaning brush is arranged on the decomposition frame, the driving motor is manually started when the grinding device works, the driving motor drives the grinding mechanism to rotate through the rotating frame, the grinding mechanism is matched with the, thereby realize the function of grinding cement, the cleaning brush can get rid of the cement that glues on grinding the mechanism, has avoided the waste of cement.

The screening mechanism comprises a screening frame, a scraping plate, a connecting spring, a baffle plate, a baffle spring, a transition wheel, a sliding frame, a limiting rod and a limiting spring, wherein the screening frame is of a rectangular hollow structure, the scraping plate is connected inside the lower end of the right side wall of the screening frame in a sliding manner, the connecting spring is arranged at the upper end of the scraping plate, the connecting spring is arranged on the screening frame, the baffle plate is arranged at the upper end of the left side wall of the screening frame and is connected with the left side wall of the decomposition frame in a sliding manner, the baffle plate is of an L-shaped structure, the baffle spring is arranged at the upper end of the baffle plate and is arranged on the outer end face of the left side wall of the decomposition frame, the transition wheel is arranged at the right side of the baffle spring, the transition wheel is arranged on the left side wall of the decomposition frame through a bearing, the chute is arranged at the upper end of the left, the outer surface of the limiting rod is provided with a limiting spring, the limiting spring is arranged on a sliding frame, the left end of the limiting rod is matched with a clamping groove, the right end of the limiting rod is connected with a connecting block through a steel wire rope, the lower end of the sliding frame is connected with the steel wire rope, the steel wire rope passes through a transition wheel and is connected with the left end of a baffle plate, when the concrete work is carried out, firstly, when a crushing cylinder is reset, the crushing cylinder drives the sliding frame to move through the steel wire rope so as to drive the baffle plate to feed, then, the sliding frame brings the limiting rod to the clamping groove, the limiting rod is matched with the clamping groove to avoid continuous movement along with the connecting block, meanwhile, the connecting block opens a feed port, cement falls onto the baffle plate, a screening frame pushes the crushed cement to a filter plate for screening, finally, the crushing cylinder feeds, the screening frame pushes back the, the crushing cylinder is used for crushing the cement.

As a preferred technical scheme of the invention, the screening frame comprises a feeding frame and a coarse filter screen, the feeding frame is arranged on the outer end face of the rear wall of the decomposition frame, the coarse filter screen is arranged on the inner wall of the feeding frame, when the screening frame works, cement is manually poured into the feeding frame, the coarse filter screen screens cement with larger volume, the screened cement with larger volume falls into the feeding port, and the cement with smaller volume falls into the grinding device, so that the grinding efficiency is increased.

As a preferred technical scheme of the invention, the feed inlet comprises an inclined block, a partition plate, a sliding plate and a return spring, the inclined block is arranged on the inner end face of the right side wall of the decomposition frame, the partition plate is arranged on the left side of the upper end face of the inclined block and connected with the decomposition frame, the sliding plate is connected inside the lower end of the partition plate in a sliding mode, the left end of the sliding plate is matched with the connecting block, the return spring is arranged at the upper end of the sliding plate, the return spring is arranged on the partition plate, when the crushing cylinder is reset in specific work, the connecting block drives the sliding plate to move upwards, cement falls onto the partition plate, and therefore the feeding function is realized, when the crushing cylinder feeds, the.

As a preferred technical scheme of the invention, the jacking mechanism comprises an electric push rod, a connecting plate, a supporting plate, a turning spring, a jacking column, a jacking plate and a jacking spring, the electric push rod is arranged inside the decomposition frame, the connecting plate is arranged at the top end of the electric push rod, the supporting plate is connected to the upper end of the connecting plate through a pin shaft, the turning spring is symmetrically arranged on the lower end surface of the supporting plate, the turning spring is arranged on the connecting plate, the jacking columns are uniformly arranged at the upper ends of the supporting plates, the jacking plate is connected to the upper ends of the jacking columns in a sliding manner, the jacking springs are uniformly arranged at the lower ends of the jacking plates, the jacking springs are arranged on the supporting plate, when the screening frame is used for pushing broken cement to the upper ends of the filtering plates, the jacking plate plays a role in guiding, the cement can be conveniently discharged, after the cement screening is finished, the electric, the cement that will block on the filter is ejecting, and later, the screening frame pushes back cement to avoid appearing the phenomenon of cement card shell, improved the efficiency of screening, finally, electric putter drives the jacking plate and resets, closes electric putter.

As a preferred technical scheme of the invention, the grinding mechanism comprises a grinding rod, a roller, an arc-shaped plate and a grinding spring, the grinding rod is connected with the rotating frame in a sliding fit manner, the inner end of the grinding rod is rotatably connected with the roller, the outer end of the grinding rod is provided with the arc-shaped plate, the outer surface of the arc-shaped plate is provided with inclined teeth, the outer surface of the grinding rod is provided with the grinding spring, and the grinding spring is arranged on the rotating frame.

As a preferred technical scheme of the invention, the rear end of the decomposition frame is provided with a rectangular inclined hole, the rectangular inclined hole is communicated with the grinding device, the upper end of the rectangular inclined hole is provided with a rectangular through hole, the rectangular through hole is communicated with the feeding port, the lower end of the decomposition frame is provided with a rectangular hole, when the cement grinding device works, the rectangular inclined hole plays a role in dropping cement into the grinding device, the rectangular inclined hole plays a role in dropping cement into the feeding port, and the rectangular hole is used for blanking.

In addition, the invention also provides a treatment method of the cement preparation dispersion processing treatment system, which comprises the following steps:

s1: firstly, pouring cement into a screening frame manually, then respectively dropping caking cement with different volumes into a feeding port and a grinding device, and finally, manually and sequentially starting a crushing cylinder and a driving motor;

s2: firstly, a crushing cylinder drives a feed port to move, cement falls into a screening mechanism, meanwhile, a driving motor drives a grinding mechanism to grind the cement, the ground cement falls into a material receiving frame, then the crushing cylinder crushes the cement through a crushing head, and finally, the crushing cylinder drives the screening mechanism to move through a steel wire rope;

s3: the screening mechanism pushes the broken cement to the upper end of the filter plate, the cement penetrates through the filter plate and falls into the grinding device, then the jacking mechanism is manually started, the jacking mechanism jacks up the cement which cannot penetrate through the filter plate, the breaking cylinder drives the screening mechanism to reset through a steel wire rope, and finally the jacking mechanism is closed;

s4: and (5) repeating the step (S2) and the step (S3), and after the cement is completely ground, manually closing the crushing cylinder and the driving motor in sequence, and finishing the treatment.

(III) advantageous effects

1. According to the cement preparation, dispersion, processing and treatment system, the adopted crushing device can crush and decompose cement blocks with larger volume, and can push back cement which does not pass through screening and continue to crush the cement blocks, so that the crushing effect is improved, the volume of the cement falling after crushing is uniform, the phenomenon of cement blocking is avoided, and the damage to equipment is reduced;

2. according to the cement preparation dispersing processing treatment system, the adopted grinding device can remove cement adhered to the surface of the cement after grinding the cement, so that the influence on next grinding is avoided, the waste of the cement is reduced, and the production cost is reduced;

3. the cement preparation dispersing processing treatment system provided by the invention adopts a multi-stage treatment mode, and can further disperse the agglomerated cement, so that the dispersing effect of the cement is improved, the dispersed cement is more uniform, and the cement with larger volume is avoided.

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 front view of the present invention;

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

FIG. 4 is a cross-sectional view A-A of FIG. 2 in accordance with the present invention;

FIG. 5 is a cross-sectional view of B-B of FIG. 2 in accordance with the present invention;

FIG. 6 is an enlarged view of the invention taken in the direction of N in FIG. 3;

FIG. 7 is an enlarged view taken in the direction X of FIG. 3 in accordance with the present invention;

FIG. 8 is an enlarged view taken in the direction D of FIG. 3 in accordance with the present invention;

fig. 9 is an enlarged view of the invention taken in direction E of fig. 4.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 9, a cement preparation dispersion processing system, including bottom plate 1, decomposition frame 2, screening frame 3, feed inlet 4, breaker 5, grinder 6 and receipts material frame 7, bottom plate 1 upper end install decomposition frame 2 through the support column, screening frame 3 is installed to decomposition frame 2 rear end, decomposition frame 2 upper end is provided with the rectangle recess, rectangular recess lateral wall installs feed inlet 4, the 4 left ends of feed inlet are provided with breaker 5, breaker 5 installs on 2 inner walls of decomposition frame, breaker 5 below is provided with grinder 6, grinder 6 installs on decomposition frame 2, decomposition frame 2 below is provided with receipts material frame 7, receives material frame 7 and installs on bottom plate 1.

2 rear ends of decomposition frame be provided with the rectangle inclined hole, the rectangle inclined hole communicates with grinder 6, rectangle inclined hole upper end is provided with the rectangle through-hole, the rectangle through-hole communicates with

feed inlet

4, 2 lower extremes of decomposition frame are provided with the rectangular hole, concrete during operation, the rectangle inclined hole plays the effect that falls into cement into grinder 6, the rectangle inclined hole plays the effect that falls into cement into feed inlet 4, the rectangular hole is used for the blanking.

Screening frame 3 include feeding frame 31 and coarse filtration net 32, feeding frame 31 install on the outer terminal surface of decomposition frame 2 back wall, install coarse filtration net 32 on the feeding frame 31 inner wall, concrete during operation, in artifical pouring cement into feeding frame 31, coarse filtration net 32 screens the great cement of volume, the cement after the screening is amasss greatly fall into feed inlet 4 in, small falls into grinder 6 to the efficiency of grinding has been increased.

The feed port 4 comprises an inclined block 41, a partition plate 42, a sliding plate 43 and a return spring 44, wherein the inclined block 41 is installed on the inner end face of the right side wall of the decomposition frame 2, the partition plate 42 is installed on the left side of the upper end face of the inclined block 41, the partition plate 42 is connected with the decomposition frame 2, the sliding plate 43 is connected to the lower end of the partition plate 42 in a sliding mode, the left end of the sliding plate 43 is matched with the connecting block 52, the return spring 44 is arranged at the upper end of the sliding plate 43, the return spring 44 is installed on the partition plate 42, during specific work, when the crushing cylinder 51 is reset, the connecting block 52 drives the sliding plate 43 to move upwards, cement falls onto the partition plate 554, and therefore the feeding function is achieved, when the.

The crushing device 5 comprises a crushing cylinder 51, a connecting block 52, a crushing spring 53, a crushing head 54, a screening mechanism 55, a filter plate 56 and a jacking mechanism 57, wherein the crushing cylinder 51 is arranged on the side wall of the decomposition frame 2 through a cylinder seat, the connecting block 52 is arranged at the top end of the crushing cylinder 51, the crushing spring 53 is uniformly arranged on the lower end surface of the connecting block 52, the lower end of the crushing spring 53 is connected with the crushing head 54, the crushing head 54 is in sliding connection with the connecting block 52, the screening mechanism 55 is arranged below the crushing head 54, the screening mechanism 55 is in sliding connection with the decomposition frame 2, the filter plate 56 is arranged on the right side of the screening mechanism 55, the filter plate 56 is arranged on the decomposition frame 2, the jacking mechanism 57 is arranged below the filter plate 56, the jacking mechanism 57 is arranged on the classification frame, and during the specific work, firstly, the crushing, realize the function of cement material loading, afterwards, broken cylinder 51 feed motion extrudees cement through broken head 54, thereby realize the function of broken cement, avoid appearing great cement piece, finally, broken cylinder 51 resets and drives screening mechanism 55 motion through wire rope, screening mechanism 55 pushes away the cement after the breakage to filter 56 upper end, cement falls down from filter 56, thereby realize the function of screening, screening mechanism 55 resets and takes back the cement that does not pass through, carry out the breakage once more, thereby the broken effect has been improved.

The screening mechanism 55 comprises a screening frame 551, a scraping plate 552, a connecting spring 553, a baffle 554, a baffle spring 555, a transition wheel 556, a sliding frame 557, a limiting rod 558 and a limiting spring 559, wherein the screening frame 551 is of a rectangular hollow structure, the scraping plate 552 is connected inside the lower end of the right side wall of the screening frame 551 in a sliding manner, the connecting spring 553 is arranged at the upper end of the scraping plate 552, the connecting spring 553 is installed on the screening frame 551, the baffle 554 is installed at the upper end of the left side wall of the screening frame 551 and is connected with the left side wall of the decomposition frame 2 in a sliding manner, the baffle 554 is of an L-shaped structure, the baffle spring 555 is arranged at the upper end of the baffle 554, the baffle spring 555 is installed on the outer end face of the left side wall of the decomposition frame 2, the transition wheel 556 is installed on the right side wall of the decomposition frame 2 through a bearing, a chute is arranged at the upper end of the transition wheel 556, a, when the concrete working is carried out, firstly, when the crushing cylinder 51 is reset, the crushing cylinder 51 drives the sliding frame 557 to move through the steel wire rope so as to drive the baffle 554 to feed, then, the sliding frame 557 takes the limiting rod 558 to the clamping groove, the limiting rod 558 pushes the crushed cement to the filtering plate 56 for screening, the limiting rod 558 is matched with the clamping groove, the connecting block 52 prevents the connecting block 52 from continuously moving, meanwhile, the cement falls onto the baffle 554, the screening frame 551 pushes the crushed cement to the filtering plate 56 for screening, finally, the crushing cylinder 51 is fed, the screening frame 551 pushes back the cement which does not fall through the scraping plate 552, the feed port 4 is closed, the cement on the partition 554 falls into the screening frame 551, and the crushing cylinder 51 crushes the cement.

The lifting mechanism 57 comprises an electric push rod 571, a connecting plate 572, a supporting plate 573, a direction-changing spring 574, a lifting column 575, a lifting plate 576 and a lifting spring 577, the electric push rod 571 is installed inside the decomposition frame 2, the top end of the electric push rod 571 is provided with the connecting plate 572, the upper end of the connecting plate 572 is connected with the supporting plate 573 through a pin shaft, the lower end face of the supporting plate 573 is symmetrically provided with the direction-changing spring 574, the direction-changing spring 574 is installed on the connecting plate 572, the lifting column 575 is evenly installed at the upper end of the supporting plate 573, the upper end of the lifting column 575 is slidably connected with the lifting plate 576, the lower end of the lifting plate 576 is evenly provided with the lifting spring 577, the lifting spring 577 is installed on the supporting plate 573, when the screening frame 551 pushes the crushed cement to the upper end of the filtering plate 56, the lifting plate 576 plays a guiding role so as to facilitate, the electric push rod 571 drives the jacking column 575 to be matched with the filter plate 56 through the supporting plate 573, cement clamped on the filter plate 56 is ejected out, then the screening frame 551 pushes the cement back, so that the phenomenon that the cement is clamped is avoided, the screening efficiency is improved, and finally, the electric push rod 571 drives the jacking plate 576 to reset, and the electric push rod 571 is closed.

Grinder 6 include driving motor 61, dwang 62, swivel mount 63, grind mechanism 64, jacking wheel 65 and clearance brush 66, driving motor 61 install on the outer terminal surface of decomposition frame 2 back wall through the motor cabinet, install dwang 62 on driving motor 61's the output shaft, dwang 62 is connected with decomposition frame 2 back wall dwang 62, dwang 62 mid-mounting has swivel mount 63, evenly be provided with grinding mechanism 64 on the swivel mount 63, grinding mechanism 64 is connected with swivel mount 63 through sliding fit's mode, grinding mechanism 64 inner be provided with jacking wheel 65, jacking wheel 65 is installed on the terminal surface in decomposition frame 2 antetheca, jacking wheel 65 passes through the bearing and is connected with dwang 62 front end, grinding mechanism 64 below be provided with clearance brush 66, clearance brush 66 is installed on decomposition frame 2, during concrete work, manual start driving motor 61, driving motor 61 drives through swivel mount 63 and grinds mechanism 64 and rotate, grinds mechanism 64 and jacking wheel 65 cooperation, and the pressure to cement is crescent to the realization grinds the function of cement, and the clearance brush can get rid of the cement that glues on grinding mechanism 64, has avoided the waste of cement.

The grinding mechanism 64 comprises a grinding rod 641, a roller 642, an arc-shaped plate 643 and a grinding spring 644, wherein the grinding rod 641 is connected with the rotating frame 63 in a sliding fit mode, the inner end of the grinding rod 641 is rotatably connected with the roller 642, the arc-shaped plate 643 is installed at the outer end of the grinding rod 641, inclined teeth are arranged on the outer surface of the arc-shaped plate 643, the grinding spring 644 is arranged on the outer surface of the grinding rod 641, and the grinding spring 644 is installed on the rotating frame 63.

s1: firstly, pouring cement into the screening frame 3 manually, then respectively dropping the caking cement with different volumes into the feeding hole 4 and the grinding device 6, and finally, manually and sequentially starting the crushing cylinder 51 and the driving motor 61;

s2: firstly, the crushing cylinder 51 drives the feeding hole 4 to move, cement falls into the screening mechanism 55, meanwhile, the driving motor 61 drives the grinding mechanism 64 to grind the cement, the ground cement falls into the material receiving frame 7, then, the crushing cylinder 51 crushes the cement through the crushing head 54, and finally, the crushing cylinder 51 drives the screening mechanism 55 to move through a steel wire rope;

s3: the screening mechanism 55 pushes the crushed cement to the upper end of the filter plate 56, the cement penetrates through the filter plate 56 and falls into the grinding device 6, then the jacking mechanism 57 is manually started, the jacking mechanism 57 jacks up the cement which cannot penetrate through the filter plate 56, the crushing cylinder 51 drives the screening mechanism 55 to reset through a steel wire rope, and finally the jacking mechanism 57 is closed;

s4: and (5) repeating the step (S2) and the step (S3), and after the cement is completely ground, manually closing the crushing cylinder 51 and the driving motor 61 in sequence, and finishing the treatment.

The foregoing illustrates and describes the principles, general features, and 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, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a cement preparation dispersion processing system, includes bottom plate (1), decomposes frame (2), screening frame (3), feed inlet (4), breaker (5), grinder (6) and receipts material frame (7), its characterized in that: the device is characterized in that a decomposition frame (2) is mounted at the upper end of a bottom plate (1) through a support column, a screening frame (3) is mounted at the rear end of the decomposition frame (2), a rectangular groove is formed in the upper end of the decomposition frame (2), a feed inlet (4) is mounted on the side wall of the rectangular groove, a crushing device (5) is arranged at the left end of the feed inlet (4), the crushing device (5) is mounted on the inner wall of the decomposition frame (2), a grinding device (6) is arranged below the crushing device (5), the grinding device (6) is mounted on the decomposition frame (2), a material receiving frame (7) is arranged below the decomposition frame (2), and the material receiving frame (7) is mounted on the bottom; wherein:

the crushing device (5) comprises a crushing cylinder (51), a connecting block (52), a crushing spring (53), a crushing head (54), a screening mechanism (55), a filter plate (56) and a jacking mechanism (57), wherein the crushing cylinder (51) is arranged on the side wall of the decomposition frame (2) through a cylinder seat, the connecting block (52) is arranged at the top end of the crushing cylinder (51), the crushing spring (53) is uniformly arranged on the lower end surface of the connecting block (52), the lower end of the crushing spring (53) is connected with the crushing head (54), the crushing head (54) is in sliding connection with the connecting block (52), the screening mechanism (55) is arranged below the crushing head (54), the screening mechanism (55) is in sliding connection with the decomposition frame (2), the filter plate (56) is arranged on the right side of the screening mechanism (55), the filter plate (56) is arranged on the decomposition frame (2), the jacking mechanism (57) is arranged below, the jacking mechanism (57) is arranged on the grading frame;

grinding device (6) include driving motor (61), dwang (62), swivel mount (63), grind mechanism (64), jacking wheel (65) and clearance brush (66), driving motor (61) install on decomposing frame (2) back wall outer end face through the motor cabinet, install dwang (62) on driving motor's (61) output shaft, dwang (62) are connected with decomposing frame (2) back wall dwang (62), dwang (62) mid-mounting has swivel mount (63), evenly be provided with on swivel mount (63) and grind mechanism (64), grind mechanism (64) and be connected with swivel mount (63) through sliding fit's mode, grind mechanism (64) inner be provided with jacking wheel (65), jacking wheel (65) are installed on decomposing frame (2) antetheca interior end face, jacking wheel (65) pass through the bearing and are connected with dwang (62) front end, a cleaning brush (66) is arranged below the grinding mechanism (64), and the cleaning brush (66) is arranged on the decomposition frame (2);

the screening mechanism (55) comprises a screening frame (551), a scraping plate (552), a connecting spring (553), a baffle plate (554), a baffle spring (555), a transition wheel (556), a sliding frame (557), a limiting rod (558) and a limiting spring (559), wherein the screening frame (551) is of a rectangular hollow structure, the scraping plate (552) is connected inside the lower end of the right side wall of the screening frame (551) in a sliding manner, the connecting spring (553) is arranged at the upper end of the scraping plate (552), the connecting spring (553) is arranged on the screening frame (551), the baffle plate (554) is arranged at the upper end of the left side wall of the screening frame (551), the baffle plate (554) is connected with the left side wall of the decomposition frame (2) in a sliding manner, the baffle plate (554) is of an L-shaped structure, the baffle spring (555) is arranged at the upper end of the baffle plate (554), the baffle spring (555) is arranged on the outer end surface of the left side wall of the decomposition frame (2), the baffle, transition wheel (556) is installed on the left side wall of decomposition frame (2) through a bearing, a sliding groove is formed in the upper end of transition wheel (556), a clamping groove is formed in the upper end of the left side wall of the sliding groove, a sliding frame (557) is connected inside the sliding groove in a sliding mode, a limiting rod (558) is connected inside the sliding frame (557) in a sliding mode, a limiting spring (559) is arranged on the outer surface of the limiting rod (558), the limiting spring (559) is installed on the sliding frame (557), the left end of the limiting rod (558) is matched with the clamping groove, the right end of the limiting rod (558) is connected with a connecting block (52) through a steel wire rope, the lower end of the sliding frame (557) is connected with the steel wire rope.

2. The cement manufacturing dispersion processing system of claim 1, wherein: screening frame (3) including feeding frame (31) and coarse filtration net (32), feeding frame (31) install on decomposing frame (2) rear wall outer end face, install coarse filtration net (32) on feeding frame (31) inner wall.

3. The cement manufacturing dispersion processing system of claim 1, wherein: the feed inlet (4) include sloping block (41), division board (42), sliding plate (43) and reset spring (44), sloping block (41) install on decomposing frame (2) right side wall inner end face, dividing board (42) are installed to sloping block (41) up end left side, dividing board (42) are connected with decomposition frame (2), division board (42) lower extreme internal sliding connection has sliding plate (43), sliding plate (43) left end and connecting block (52) cooperation, sliding plate (43) upper end is provided with reset spring (44), reset spring (44) are installed on dividing board (42).

4. The cement manufacturing dispersion processing system of claim 1, wherein: the jacking mechanism (57) comprises an electric push rod (571), a connecting plate (572), a supporting plate (573), a direction-changing spring (574), a jacking column (575), a jacking plate (576) and a jacking spring (577), wherein the electric push rod (571) is installed inside the decomposition frame (2), the connecting plate (572) is installed at the top end of the electric push rod (571), the supporting plate (573) is connected to the upper end of the connecting plate (572) through a pin shaft, the direction-changing spring (574) is symmetrically arranged on the lower end face of the supporting plate (573), the direction-changing spring (574) is installed on the connecting plate (572), the jacking column (575) is evenly installed at the upper end of the supporting plate (573), the jacking plate (576) is slidably connected to the upper end of the jacking column (575), the jacking spring (577) is evenly arranged at the lower end of the jacking plate (576), and the.

5. The cement manufacturing dispersion processing system of claim 1, wherein: the grinding mechanism (64) comprises a grinding rod (641), a roller (642), an arc-shaped plate (643) and a grinding spring (644), the grinding rod (641) is connected with the rotating frame (63) in a sliding fit mode, the roller (642) is rotatably connected to the inner end of the grinding rod (641), the arc-shaped plate (643) is installed at the outer end of the grinding rod (641), inclined teeth are arranged on the outer surface of the arc-shaped plate (643), the grinding spring (644) is arranged on the outer surface of the grinding rod (641), and the grinding spring (644) is installed on the rotating frame (63).

6. The cement manufacturing dispersion processing system of claim 1, wherein: the rear end of the decomposition frame (2) is provided with a rectangular inclined hole which is communicated with the grinding device (6), a rectangular through hole is formed in the upper end of the rectangular inclined hole and communicated with the feed inlet (4), and a rectangular hole is formed in the lower end of the decomposition frame (2).

7. The cement manufacturing dispersion processing system of claim 1, wherein: the treatment method of the cement preparation dispersion processing treatment system specifically comprises the following steps:

s1: firstly, lime is poured into the screening frame (3) manually, then, caked lime with different volumes respectively falls into the feeding hole (4) and the grinding device (6), and finally, the crushing cylinder (51) and the driving motor (61) are started manually in sequence;

s2: firstly, a crushing cylinder (51) drives a feeding hole (4) to move, lime falls into a screening mechanism (55), meanwhile, a driving motor (61) drives a grinding mechanism (64) to grind the lime, the ground lime falls into a material receiving frame (7), then the crushing cylinder (51) crushes the lime through a crushing head (54), and finally, the crushing cylinder (51) drives the screening mechanism (55) to move through a steel wire rope;

s3: the screening mechanism (55) pushes the crushed lime to the upper end of the filter plate (56), the lime penetrates through the filter plate (56) and falls into the grinding device (6), then the jacking mechanism (57) is manually started, the jacking mechanism (57) jacks up the lime which cannot penetrate through the filter plate (56), the crushing cylinder (51) drives the screening mechanism (55) to reset through a steel wire rope, and finally the jacking mechanism (57) is closed;

s4: and (5) repeating the step (S2) and the step (S3), and after the lime is completely ground, manually closing the crushing cylinder (51) and the driving motor (61) in sequence to finish the treatment.