CN111389290A

CN111389290A - Diatom ooze coating, processing system and processing method

Info

Publication number: CN111389290A
Application number: CN202010256595.2A
Authority: CN
Inventors: 王立丰
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-04-02
Filing date: 2020-04-02
Publication date: 2020-07-10

Abstract

The invention relates to the field of coating processing, in particular to a diatom ooze coating, a processing system and a processing method. The diatom ooze coating comprises the following raw material components: white cement, ash calcium powder, double-flying powder, quartz powder, rubber powder and water, wherein the mass part ratio of the white cement, the ash calcium powder, the double-flying powder, the quartz powder, the rubber powder and the water is 12-15%: 10%: 20% -23%: 5% -8%: 0.25%: 50 percent. The method comprises the following steps: step 1: adding water into the stirring tank through the water adding pipe, simultaneously rotating the threaded rod and driving the threaded plate to enable the plugging plate to slide out of the feeding pipe; step 2: the stirring shaft drives the stirring plate to stir the liquid, and simultaneously white cement, ash calcium powder, double-flying powder, quartz powder and rubber powder are added into the stirring tank through the feeding pipe; and step 3: after the stirring is completed, the grinding motor drives the grinding shaft to drive the grinding roller to rotate, the paint entering the grinding tank is ground, and then the paint flows out from the discharge pipe for application.

Description

Diatom ooze coating, processing system and processing method

Technical Field

The invention relates to the field of coating processing, in particular to a diatom ooze coating, a processing system and a processing method.

Background

The diatom ooze is an indoor decorative wall material taking diatomite as a main raw material, and has the functions of eliminating formaldehyde, purifying air, adjusting humidity, releasing negative oxygen ions, preventing fire and retarding flame, self-cleaning wall surfaces, sterilizing and deodorizing and the like. The diatom ooze coating is used for replacing wallpaper and latex paint and is suitable for interior wall decoration of villas, apartments, hotels, homes, hospitals and the like, so that the diatom ooze coating is a novel environment-friendly coating, has the functions of eliminating formaldehyde, releasing negative oxygen ions and the like, is called as a breathable environment-friendly functional wall material, is generally in a solid state, and needs to be mixed with water for stirring during construction, and the operation efficiency is reduced.

Disclosure of Invention

The invention aims to provide a diatom ooze coating, a processing system and a processing method, which can be used for processing the diatom ooze coating into a liquid coating and improving the operation efficiency.

The purpose of the invention is realized by the following technical scheme:

a diatom ooze coating processing system comprises a support frame, a lifting threaded rod, a lifting motor, a lifting upper cover, a stirring mechanism, a piston mechanism, a grinding mechanism, a feeding pipe and a feeding plugging mechanism, wherein the lifting threaded rod is rotatably connected to the support frame;

the support frame comprises a support base, a bottom plate, support columns, an upper fixing plate, an agitator tank, a grinding tank, a discharge pipe, a communication pipe I, a piston pipe, a communication pipe II and a discharge pipe, wherein the support base is arranged at four corners of the bottom plate, the support columns are fixedly connected on the bottom plate, the upper fixing plate is fixedly connected at the upper ends of the support columns, the agitator tank, the piston pipe and the grinding tank are sequentially and fixedly connected on the support base, the communication pipe II is connected between the agitator tank and the piston pipe, the communication pipe I is connected between the piston pipe and the grinding tank, one-way valves are respectively arranged on the communication pipe I and the communication pipe II, the discharge pipe is fixedly connected at the upper part of the grinding tank, a plurality of grinding ridges are uniformly arranged in the grinding tank, the discharge pipe is arranged at the lower end of the agitator tank, a valve is arranged on the discharge pipe, a, the feeding pipe is fixedly connected to the upper part of the stirring tank;

the lifting upper cover comprises a cover plate, a threaded seat, a toothed ring and a water adding pipe, the threaded seat is fixedly connected to the rear end of the cover plate, the toothed ring is fixedly connected to the lower end face of the cover plate, the water adding pipe is fixedly connected to the upper end face of the cover plate, the threaded seat is slidably connected into the support column, and the threaded seat is in threaded connection with the lifting threaded rod;

the stirring mechanism comprises a stirring motor, a main shaft, a rotating plate, gears, stirring shafts, stirring plates and spiral plates, wherein the stirring motor is fixedly connected on a cover plate, the main shaft is rotatably connected on the cover plate, the stirring motor is in transmission connection with the main shaft, the rotating plate is fixedly connected on the main shaft, the spiral plates are fixedly connected on the main shaft, the stirring shafts are rotatably connected at two ends of the rotating plate, the gears are fixedly connected at the upper ends of the two stirring shafts, the stirring plates are fixedly connected on the two stirring shafts, and the two gears are in meshing transmission connection with a toothed ring;

the piston mechanism comprises an installation arch plate I, a piston power motor, a rotating wheel, a linkage plate, a fixed plate and a piston, wherein the installation arch plate I is fixedly connected to a bottom plate, the piston power motor is fixedly connected to the installation arch plate I, the rotating wheel is fixedly connected to an output shaft of the piston power motor, the piston is slidably connected in a piston tube, the fixed plate is fixedly connected to the piston, the upper end of the linkage plate is rotatably connected to the eccentric position of the rotating wheel, and the lower end of the linkage plate is rotatably connected to the fixed plate;

the grinding mechanism comprises an installation arch plate II, a grinding motor, a grinding shaft and a grinding roller, the installation arch plate II is fixedly connected to the bottom plate, the grinding motor is fixedly connected to the installation arch plate II, the grinding shaft is rotatably connected to the installation arch plate II, the grinding roller is fixedly connected to the grinding shaft, a plurality of grinding ridges are uniformly arranged on the grinding roller, and the installation arch plate II is fixedly connected to the grinding tank;

the feeding plugging mechanism comprises a plugging plate, a threaded plate and a threaded rod, the threaded plate is fixedly connected to one end of the plugging plate, the threaded rod is connected to the threaded plate through threads, the plugging plate is connected in the feeding pipe in a sliding mode, and the threaded rod is connected to the feeding pipe in a rotating mode;

the coating processed by the diatom ooze coating processing system comprises the following raw material components: white cement (No. 425), sierozem powder, double-flying powder, quartz powder, rubber powder and water, wherein the white cement (No. 425), the sierozem powder, the double-flying powder, the quartz powder, the rubber powder and the water account for 12-15 percent by weight: 10%: 20% -23%: 5% -8%: 0.25%: 50 percent;

the processing method of the diatom ooze coating processing system comprises the following steps:

step 1: adding water into the stirring tank through the water adding pipe, simultaneously rotating the threaded rod and driving the threaded plate to enable the plugging plate to slide out of the feeding pipe;

step 2: starting a stirring motor, driving a main shaft to drive a rotating plate and a spiral plate to rotate, stirring the liquid by the rotating spiral plate, driving a stirring shaft by the rotating plate, driving the stirring shaft to drive the stirring plate to stir the liquid by a gear and a toothed ring, and simultaneously adding white cement (No. 425), ash calcium powder, double-flying powder, quartz powder and rubber powder into a stirring tank through a feeding pipe;

and step 3: after the stirring is accomplished, open the check valve on communicating pipe I and communicating pipe II, start piston motor power and grinding motor, piston motor power drives the runner, the runner drives the interlock board, the interlock board drives the fixed plate and makes the piston in the reciprocal lift activity of piston tube, the piston rises, with stirring jar interior coating suction piston pipe, the coating in the piston tube is impressed into the grinding jar in the piston descends, grinding motor transmission grinding shaft drives the rotation of grinding rotor, grind the coating that gets into in the grinding jar, then flow by discharging pipe department, for the application worker to use.

The invention has the beneficial effects that: the invention provides a diatom ooze coating and a processing system and a processing method, wherein water is added into a stirring tank through a water adding pipe, a plugging plate slides out of a material feeding pipe by rotating a threaded rod so as to reinforce solid raw materials into the stirring tank through the material feeding pipe, a lifting upper cover and a stirring mechanism are lifted out of the stirring tank through a lifting threaded rod and a lifting motor so as to be convenient to inspect, maintain and clean, a mixed liquid is stirred through the stirring mechanism to be dissolved in an accelerating manner, after the stirring is finished, the coating is fed into a grinding tank through a piston mechanism and ground through the grinding mechanism, and the coating quality is improved.

Drawings

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is an overall cross-sectional schematic view of the present invention;

FIG. 4 is a schematic view of the support frame structure of the present invention;

FIG. 5 is a first schematic view of the lifting cover structure of the present invention;

FIG. 6 is a second schematic view of the elevating cover structure of the present invention;

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

FIG. 8 is a schematic view of the piston mechanism of the present invention;

FIG. 9 is a schematic view of the grinding mechanism of the present invention;

fig. 10 is a schematic structural diagram of the feeding plugging mechanism of the invention.

In the figure: a support frame 1; a support base 1-1; a bottom plate 1-2; 1-3 of a support column; an upper fixing plate 1-4; 1-5 parts of a stirring tank; 1-6 parts of a grinding tank; 1-7 parts of a discharge pipe; 1-8 of a communicating pipe; piston tubes 1-9; communicating pipes II 1-10; 1-11 parts of a sewage discharge pipe; a lifting threaded rod 2; a lifting motor 3; the upper cover 4 is lifted; a cover plate 4-1; 4-2 of a threaded seat; 4-3 of a toothed ring; 4-4 of a water adding pipe; a stirring mechanism 5; 5-1 of a stirring motor; 5-2 of a main shaft; a rotating plate 5-3; 5-4 parts of gear; 5-5 of a stirring shaft; 5-6 parts of a stirring plate; 5-7 parts of spiral plate; a piston mechanism 6; installing an arch slab I6-1; a piston power motor 6-2; 6-3 of a rotating wheel; 6-4 of a linkage plate; 6-5 of a fixing plate; 6-6 parts of a piston; a grinding mechanism 7; installing an arch plate II 7-1; a grinding motor 7-2; 7-3 of a grinding shaft; 7-4 of grinding roller; a feed pipe 8; a feeding plugging mechanism 9; a plugging plate 9-1; a thread plate 9-2; threaded rod 9-3.

Detailed Description

The invention is described in further detail below with reference to figures 1-10.

The first embodiment is as follows:

as shown in fig. 1-10, a diatom ooze coating processing system comprises a support frame 1, a lifting threaded rod 2, a lifting motor 3, a lifting upper cover 4, a stirring mechanism 5, a piston mechanism 6, a grinding mechanism 7, a feeding pipe 8 and a feeding plugging mechanism 9, the lifting threaded rod 2 is rotationally connected to the support frame 1, the lifting motor 3 is fixedly connected to the support frame 1, the lifting motor 3 is meshed with the upper end of the lifting threaded rod 2 for transmission, the lifting upper cover 4 is connected on the supporting frame 1 in a sliding way, the lifting upper cover 4 is connected with the lifting threaded rod 2 through threads, the stirring mechanism 5 is connected on the lifting upper cover 4, the piston mechanism 6 and the grinding mechanism 7 are both fixedly connected on the supporting frame 1, the feeding pipe 8 is fixedly connected to the support frame 1, and the feeding plugging mechanism 9 is connected to the feeding pipe 8;

when the device is used, water is added into the stirring tank 1-5 through the water adding pipe 4-4, the plugging plate 9-1 slides out of the feeding pipe 8 by rotating the threaded rod 9-3 so as to reinforce the solid raw materials into the stirring tank 1-5 through the feeding pipe 8, the lifting upper cover 4 and the stirring mechanism 5 are lifted and exposed out of the stirring tank 1-5 through the lifting threaded rod 2 and the lifting motor 3 so as to be convenient to inspect, maintain and clean, the mixed liquid is stirred through the stirring mechanism 5 to be dissolved in an accelerating manner, after the stirring is finished, the paint is sent into the grinding tank 1-6 through the piston mechanism 6, and the paint is ground through the grinding mechanism 7 so as to improve the quality of the paint.

The second embodiment is as follows:

as shown in the figures 1-10, the supporting frame 1 comprises a supporting base 1-1, a bottom plate 1-2, supporting columns 1-3, an upper fixing plate 1-4, a stirring tank 1-5, a grinding tank 1-6, a discharging pipe 1-7, a communicating pipe I1-8, a piston pipe 1-9, a communicating pipe II 1-10 and a sewage discharging pipe 1-11, wherein the supporting base 1-1 is arranged at the four corners of the bottom plate 1-2, the supporting columns 1-3 are fixedly connected on the bottom plate 1-2, the upper fixing plate 1-4 is fixedly connected at the upper ends of the supporting columns 1-3, the stirring tank 1-5, the piston pipe 1-9 and the grinding tank 1-6 are fixedly connected on the supporting base 1-1 in sequence, the communicating pipe II 1-10 is connected between the stirring tank 1-5 and the piston pipe 1-9, a communicating pipe I1-8 is connected between a piston pipe 1-9 and a grinding tank 1-6, one-way valves are arranged on the communicating pipe I1-8 and the communicating pipe II 1-10, a discharging pipe 1-7 is fixedly connected to the upper part of the grinding tank 1-6, a plurality of grinding ridges are uniformly arranged in the grinding tank 1-6, a sewage discharge pipe 1-11 is arranged at the lower end of a stirring tank 1-5, valves are arranged on the sewage discharge pipe 1-11, a lifting threaded rod 2 is rotationally connected to a lifting upper cover 4, a lifting motor 3 is fixedly connected to the lifting upper cover 4, the lifting threaded rod 2 is in meshing transmission connection with the lifting motor 3, and a feeding pipe 8 is fixedly connected to the upper part of the stirring tank 1-5;

the third concrete implementation mode:

as shown in fig. 1-10, the lifting upper cover 4 comprises a cover plate 4-1, a threaded seat 4-2, a toothed ring 4-3 and a water feeding pipe 4-4, the threaded seat 4-2 is fixedly connected to the rear end of the cover plate 4-1, the toothed ring 4-3 is fixedly connected to the lower end face of the cover plate 4-1, the water feeding pipe 4-4 is fixedly connected to the upper end face of the cover plate 4-1, the threaded seat 4-2 is slidably connected in the support column 1-3, and the threaded seat 4-2 is in threaded connection with the lifting threaded rod 2;

the lifting motor 3 is started to drive the lifting threaded rod 2 to rotate, and the lifting threaded rod 2 is in threaded connection with the threaded seat 4-2, so that the threaded seat 4-2 rises in the support column 1-3, and the cover plate 4-1 is driven to rise.

The fourth concrete implementation mode:

as shown in the figure 1-10, the stirring mechanism 5 comprises a stirring motor 5-1, a main shaft 5-2, a rotating plate 5-3, a gear 5-4, a stirring shaft 5-5, a stirring plate 5-6 and a spiral plate 5-7, wherein the stirring motor 5-1 is fixedly connected to a cover plate 4-1, the main shaft 5-2 is rotatably connected to the cover plate 4-1, the stirring motor 5-1 is in transmission connection with the main shaft 5-2, the rotating plate 5-3 is fixedly connected to the main shaft 5-2, the spiral plate 5-7 is fixedly connected to the main shaft 5-2, both ends of the rotating plate 5-3 are rotatably connected with the stirring shaft 5-5, the upper ends of the two stirring shafts 5-5 are fixedly connected with the gear 5-4, and the two stirring shafts 5-5 are fixedly connected with a plurality of stirring plates 5-6, the two gears 5-4 are in meshed transmission connection with the gear ring 4-3;

the stirring motor 5-1 is started, the stirring motor 5-1 drives the transmission main shaft 5-2 to rotate, the transmission main shaft 5-2 drives the rotating plate 5-3 and the spiral plate 5-7 to rotate, the rotating spiral plate 5-7 turns over liquid, the rotating plate 5-3 drives the stirring shaft 5-5, and the stirring shaft 5-5 drives the stirring plate 5-6 to conduct self transmission while rotating around the transmission main shaft 5-2 through the transmission of the gear 5-4 and the toothed ring 4-3, so that the liquid is stirred, and the dissolving efficiency of mixed liquid is improved.

The fifth concrete implementation mode:

as shown in fig. 1-10, the piston mechanism 6 comprises an installation arch plate i 6-1, a piston power motor 6-2 and a rotating wheel 6-3, the device comprises a linkage plate 6-4, a fixed plate 6-5 and a piston 6-6, wherein a mounting arch plate I6-1 is fixedly connected to a base plate 1-2, a piston power motor 6-2 is fixedly connected to the mounting arch plate I6-1, a rotating wheel 6-3 is fixedly connected to an output shaft of the piston power motor 6-2, the piston 6-6 is slidably connected into a piston pipe 1-9, the fixed plate 6-5 is fixedly connected to the piston 6-6, the upper end of the linkage plate 6-4 is rotatably connected to the eccentric position of the rotating wheel 6-3, and the lower end of the linkage plate 6-4 is rotatably connected to the fixed plate 6-5;

the piston power motor 6-2 drives the rotating wheel 6-3, the rotating wheel 6-3 drives the linkage plate 6-4, the linkage plate 6-4 drives the fixing plate 6-5 to enable the piston 6-6 to move up and down in the piston pipe 1-9 in a reciprocating mode, when the piston 6-6 ascends, the one-way valve on the communicating pipe II 1-10 is opened, paint in the stirring tank 1-5 is sucked into the piston pipe 1-9, when the piston 6-6 descends, the one-way valve on the communicating pipe I1-8 is opened, and the paint in the piston pipe 1-9 is pressed into the grinding tank 1-6.

The sixth specific implementation mode:

as shown in fig. 1-10, the grinding mechanism 7 includes a mounting arch plate ii 7-1, a grinding motor 7-2, a grinding shaft 7-3 and a grinding roller 7-4, the mounting arch plate ii 7-1 is fixedly connected to the bottom plate 1-2, the grinding motor 7-2 is fixedly connected to the mounting arch plate ii 7-1, the grinding shaft 7-3 is rotatably connected to the mounting arch plate ii 7-1, the grinding roller 7-4 is fixedly connected to the grinding shaft 7-3, a plurality of grinding ridges are uniformly arranged on the grinding roller 7-4, and the mounting arch plate ii 7-1 is fixedly connected to the grinding tank 1-6;

the grinding motor 7-2 is started, the grinding shaft 7-3 is driven by the grinding motor 7-2 to drive the grinding roller 7-4 to rotate, the paint entering the grinding tank 1-6 is ground, and then the paint flows out from the discharge pipe 1-7 and can be directly used for construction.

The seventh embodiment:

as shown in fig. 1-10, the feeding plugging mechanism 9 comprises a plugging plate 9-1, a threaded plate 9-2 and a threaded rod 9-3, the threaded plate 9-2 is fixedly connected to one end of the plugging plate 9-1, the threaded rod 9-3 is connected to the threaded plate 9-2 through a thread, the plugging plate 9-1 is slidably connected into the feeding pipe 8, and the threaded rod 9-3 is rotatably connected to the feeding pipe 8;

the threaded rod 9-3 is rotated to drive the threaded plate 9-2, so that the plugging plate 9-1 slides out of the feed pipe 8, and raw materials can be conveniently added into the stirring tank 1-5 from the feed pipe 8.

The specific implementation mode is eight:

as shown in fig. 1-10, the coating processed by the diatom ooze coating processing system comprises the following raw material components: white cement (No. 425), sierozem powder, double-flying powder, quartz powder, rubber powder and water, wherein the white cement (No. 425), the sierozem powder, the double-flying powder, the quartz powder, the rubber powder and the water account for 12-15 percent by weight: 10%: 20% -23%: 5% -8%: 0.25%: 50 percent.

The specific implementation method nine:

as shown in fig. 1-10, the method for processing the diatom ooze coating processing system comprises the following steps:

step 1: adding water into the stirring tank 1-5 through a water adding pipe 4-4, simultaneously rotating a threaded rod 9-3, and driving a threaded plate 9-2 to enable a plugging plate 9-1 to slide out of a feeding pipe 8;

step 2: starting a stirring motor 5-1, driving a main shaft 5-2 to drive a rotating plate 5-3 and a spiral plate 5-7 to rotate, turning over the liquid by the rotating spiral plate 5-7, driving a stirring shaft 5-5 by the rotating plate 5-3, and driving the stirring shaft 5-5 and a toothed ring 4-3 through a gear 5-4, so that the stirring shaft 5-5 drives a stirring plate 5-6 to stir the liquid, and simultaneously adding white cement (No. 425), sierozem powder, double-flying powder, quartz powder and rubber powder into a stirring tank 1-5 through a feeding pipe 8;

and step 3: after stirring, opening one-way valves on the communicating pipes I1-8 and II 1-10, starting the piston power motor 6-2 and the grinding motor 7-2, driving the rotating wheel 6-3 by the piston power motor 6-2, driving the linkage plate 6-4 by the rotating wheel 6-3, driving the fixing plate 6-5 by the linkage plate 6-4 to make the piston 6-6 reciprocate in the piston pipe 1-9, lifting the piston 6-6, pumping the paint in the stirring tank 1-5 into the piston pipe 1-9, pressing the paint in the piston pipe 1-9 into the grinding tank 1-6 by the piston 6-6 descending, driving the grinding shaft 7-3 by the grinding motor 7-2 to drive the grinding roller 7-4 to rotate, grinding the paint entering the grinding tank 1-6, then flows out from the discharging pipes 1 to 7 for construction.

The invention relates to a diatom ooze coating, a processing system and a processing method, wherein the using principle is as follows: adding water into the stirring tank 1-5 through a water adding pipe 4-4, simultaneously rotating a threaded rod 9-3, and driving a threaded plate 9-2 to enable a plugging plate 9-1 to slide out of a feeding pipe 8; starting a stirring motor 5-1, driving a main shaft 5-2 to drive a rotating plate 5-3 and a spiral plate 5-7 to rotate, turning over the liquid by the rotating spiral plate 5-7, driving a stirring shaft 5-5 by the rotating plate 5-3, and driving the stirring shaft 5-5 and a toothed ring 4-3 through a gear 5-4, so that the stirring shaft 5-5 drives a stirring plate 5-6 to stir the liquid, and simultaneously adding white cement (No. 425), sierozem powder, double-flying powder, quartz powder and rubber powder into a stirring tank 1-5 through a feeding pipe 8; after stirring, opening one-way valves on the communicating pipes I1-8 and II 1-10, starting the piston power motor 6-2 and the grinding motor 7-2, driving the rotating wheel 6-3 by the piston power motor 6-2, driving the linkage plate 6-4 by the rotating wheel 6-3, driving the fixing plate 6-5 by the linkage plate 6-4 to make the piston 6-6 reciprocate in the piston pipe 1-9, lifting the piston 6-6, pumping the paint in the stirring tank 1-5 into the piston pipe 1-9, pressing the paint in the piston pipe 1-9 into the grinding tank 1-6 by the piston 6-6 descending, driving the grinding shaft 7-3 by the grinding motor 7-2 to drive the grinding roller 7-4 to rotate, grinding the paint entering the grinding tank 1-6, then flows out from the discharging pipes 1 to 7 for construction.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a diatom mud coating processing system, includes support frame (1), lift threaded rod (2), elevator motor (3), lift upper cover (4), rabbling mechanism (5), piston mechanism (6), grinds mechanism (7), inlet pipe (8) and feeding shutoff mechanism (9), its characterized in that: lifting threaded rod (2) rotate to be connected on support frame (1), lifting motor (3) fixed connection on support frame (1), the upper end meshing transmission of lifting motor (3) and lifting threaded rod (2), lifting upper cover (4) sliding connection on support frame (1), lifting upper cover (4) and lifting threaded rod (2) pass through threaded connection, rabbling mechanism (5) connect on lifting upper cover (4), equal fixed connection of piston mechanism (6) and grinding mechanism (7) on support frame (1), inlet pipe (8) fixed connection on support frame (1), feeding shutoff mechanism (9) connect on inlet pipe (8).

2. The diatom ooze coating processing system of claim 1, wherein: the support frame (1) comprises a support base (1-1), a bottom plate (1-2), support columns (1-3), an upper fixing plate (1-4), a stirring tank (1-5), a grinding tank (1-6), a discharge pipe (1-7), a communicating pipe I (1-8), a piston pipe (1-9), a communicating pipe II (1-10) and a sewage discharge pipe (1-11), wherein the support base (1-1) is arranged at the four corners of the bottom plate (1-2), the support columns (1-3) are fixedly connected on the bottom plate (1-2), the upper fixing plate (1-4) is fixedly connected at the upper ends of the support columns (1-3), the stirring tank (1-5), the piston pipe (1-9) and the grinding tank (1-6) are fixedly connected on the support base (1-1) in sequence, a communicating pipe II (1-10) is connected between the stirring tank (1-5) and the piston pipe (1-9), a communicating pipe I (1-8) is connected between the piston pipe (1-9) and the grinding tank (1-6), one-way valves are arranged on the communicating pipe I (1-8) and the communicating pipe II (1-10), a discharging pipe (1-7) is fixedly connected on the upper part of the grinding tank (1-6), a plurality of grinding ridges are uniformly arranged in the grinding tank (1-6), a sewage discharging pipe (1-11) is arranged at the lower end of the stirring tank (1-5), a valve is arranged on the sewage discharging pipe (1-11), a lifting threaded rod (2) is rotatably connected on the lifting upper cover (4), a lifting motor (3) is fixedly connected on the lifting upper cover (4), the lifting threaded rod (2) is in meshing transmission connection with the lifting motor (3), the feeding pipe (8) is fixedly connected with the upper part of the stirring tank (1-5).

3. The diatom ooze coating processing system of claim 2, wherein: the lifting upper cover (4) comprises a cover plate (4-1), a threaded seat (4-2), a toothed ring (4-3) and a water feeding pipe (4-4), the threaded seat (4-2) is fixedly connected to the rear end of the cover plate (4-1), the toothed ring (4-3) is fixedly connected to the lower end face of the cover plate (4-1), the water feeding pipe (4-4) is fixedly connected to the upper end face of the cover plate (4-1), the threaded seat (4-2) is slidably connected into the supporting column (1-3), and the threaded seat (4-2) is in threaded connection with the lifting threaded rod (2).

4. The diatom ooze coating processing system of claim 3, wherein: the stirring mechanism (5) comprises a stirring motor (5-1), a main shaft (5-2), a rotating plate (5-3), gears (5-4), stirring shafts (5-5), a stirring plate (5-6) and a spiral plate (5-7), wherein the stirring motor (5-1) is fixedly connected to the cover plate (4-1), the main shaft (5-2) is rotatably connected to the cover plate (4-1), the stirring motor (5-1) is in transmission connection with the main shaft (5-2), the rotating plate (5-3) is fixedly connected to the main shaft (5-2), the spiral plate (5-7) is fixedly connected to the main shaft (5-2), the two ends of the rotating plate (5-3) are both rotatably connected with the stirring shafts (5-5), the upper ends of the two stirring shafts (5-5) are both fixedly connected with the gears (5-4), a plurality of stirring plates (5-6) are fixedly connected on the two stirring shafts (5-5), and the two gears (5-4) are in meshed transmission connection with the gear rings (4-3).

5. The diatom ooze coating processing system of claim 4, wherein: the piston mechanism (6) comprises an installation arch plate I (6-1), a piston power motor (6-2), a rotating wheel (6-3), a linkage plate (6-4), a fixed plate (6-5) and a piston (6-6), the installation arch plate I (6-1) is fixedly connected to a bottom plate (1-2), the piston power motor (6-2) is fixedly connected to the installation arch plate I (6-1), the rotating wheel (6-3) is fixedly connected to an output shaft of the piston power motor (6-2), the piston (6-6) is slidably connected in a piston pipe (1-9), the fixed plate (6-5) is fixedly connected to the piston (6-6), the upper end of the linkage plate (6-4) is rotatably connected to the eccentric position of the rotating wheel (6-3), the lower end of the linkage plate (6-4) is rotatably connected to the fixed plate (6-5).

6. The diatom ooze coating processing system of claim 5, wherein: the grinding mechanism (7) comprises an installation arch plate II (7-1), a grinding motor (7-2), a grinding shaft (7-3) and a grinding rotating roller (7-4), the installation arch plate II (7-1) is fixedly connected onto a base plate (1-2), the grinding motor (7-2) is fixedly connected onto the installation arch plate II (7-1), the grinding shaft (7-3) is rotatably connected onto the installation arch plate II (7-1), the grinding rotating roller (7-4) is fixedly connected onto the grinding shaft (7-3), a plurality of grinding ridges are uniformly arranged on the grinding rotating roller (7-4), and the installation arch plate II (7-1) is fixedly connected onto a grinding tank (1-6).

7. The diatom ooze coating processing system of claim 6, wherein: feeding plugging mechanism (9) include plugging plate (9-1), screw plate (9-2) and threaded rod (9-3), screw plate (9-2) fixed connection is in the one end of plugging plate (9-1), threaded rod (9-3) pass through threaded connection on screw plate (9-2), plugging plate (9-1) sliding connection is in inlet pipe (8), threaded rod (9-3) rotate to be connected on inlet pipe (8).

8. The diatom ooze coating processing system of claim 7, wherein said coating is processed by: comprises the following raw material components: white cement (No. 425), sierozem powder, double-flying powder, quartz powder, rubber powder and water, wherein the white cement (No. 425), the sierozem powder, the double-flying powder, the quartz powder, the rubber powder and the water account for 12-15 percent by weight: 10%: 20% -23%: 5% -8%: 0.25%: 50 percent.

9. A method of processing using the diatom ooze coating processing system of claim 8, wherein: the method comprises the following steps:

step 1: adding water into the stirring tank (1-5) through a water adding pipe (4-4), simultaneously rotating the threaded rod (9-3) and driving the threaded plate (9-2) to enable the plugging plate (9-1) to slide out of the feeding pipe (8);

step 2: starting a stirring motor (5-1), driving a main shaft (5-2) to drive a rotating plate (5-3) and a spiral plate (5-7) to rotate, turning over the liquid by the rotating spiral plate (5-7), driving a stirring shaft (5-5) by the rotating plate (5-3), driving the stirring shaft (5-5) with a toothed ring (4-3) through a gear (5-4), enabling the stirring shaft (5-5) to drive a stirring plate (5-6) to stir the liquid, and simultaneously adding white cement No. 425, ash calcium powder, double-flying powder, quartz powder and rubber powder into a stirring tank (1-5) through a feeding pipe (8);

and step 3: after stirring, opening one-way valves on the communicating pipes I (1-8) and II (1-10), starting the piston power motor (6-2) and the grinding motor (7-2), driving the rotating wheel (6-3) by the piston power motor (6-2), driving the linkage plate (6-4) by the rotating wheel (6-3), driving the fixing plate (6-5) by the linkage plate (6-4) to enable the piston (6-6) to reciprocate in the piston pipe (1-9), lifting the piston (6-6), pumping the internal coating of the stirring tank (1-5) into the piston pipe (1-9), pressing the coating in the piston pipe (1-9) into the grinding tank (1-6) by the descending of the piston (6-6), driving the grinding shaft (7-3) by the grinding motor (7-2) to drive the grinding rotary roller (7-4) to rotate, the paint entering the grinding tank (1-6) is ground and then flows out from the discharge pipe (1-7) for construction.