CN110732259A

CN110732259A - wear-resistant paint, processing system thereof and processing method of wear-resistant paint

Info

Publication number: CN110732259A
Application number: CN201911014695.8A
Authority: CN
Inventors: 刘洋
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-10-24
Filing date: 2019-10-24
Publication date: 2020-01-31

Abstract

The invention relates to wear-resistant paint, a processing system thereof and a wear-resistant paint processing method, which comprises a processing pool, a dislocation platform, a double spiral arm, a pushing plate, a limiting pushing plate, a mixing mechanism and a multi-purpose device, wherein the wear-resistant paint is prepared from the following raw materials in parts by weight, 50 parts of epoxy resin, 35 parts of diluent, 10 parts of copper chloride, 3 parts of talcum powder, 1 part of solid lubricant and 1 part of defoaming agent.

Description

wear-resistant paint, processing system thereof and processing method of wear-resistant paint

Technical Field

The invention relates to the field of paint preparation, in particular to wear-resistant paints, a processing system thereof and a processing method of the wear-resistant paints.

Background

For example, types of anti-corrosion paint processing equipment for concrete steel structures, disclosed as CN108404725A, comprises a dispersing mechanism, a processing box body, a sampling mechanism, a support, a blanking hopper, an air bag, a conveying belt and a collecting mechanism, wherein all the principles are fully stirred and emulsified through the dispersing mechanism, so that the principles are uniformly dispersed and mixed, the processing box body can be used for processing a container of paint, the sampling mechanism can sample the paint when necessary and observe the processing effect, the support is convenient for supporting the paint, the blanking hopper can facilitate the falling of the processed paint, the air bag can be convenient for pressing to realize the sampling of the paint, and the collecting mechanism can collect the sampled paint.

Disclosure of Invention

The invention aims to provide wear-resistant coatings, a processing system thereof and a processing method thereof, which can fully mix raw materials which are not easy to mix and are convenient for self-cleaning and quick defoaming.

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

wear-resistant paint system of processing, including processing pond, dislocation platform, two spiral arms, support and move push pedal, spacing push pedal, mixing mechanism and multiple-purpose ware, the dislocation platform is connected to the upper end in processing pond, and two spiral arms are connected with the dislocation platform, supports to move push pedal mirror symmetry and is provided with two, and two support to move the push pedal and rotate with the left and right sides of two spiral arms respectively and be connected, and spacing push pedal mirror symmetry is provided with two, and two spacing push pedals rotate with the front and back both sides of two spiral arms respectively and are connected, and every supports around the push pedal both ends respectively with two spacing push pedal sliding connection, and mixing mechanism is connected with the lower extreme at two spiral arm middle parts, and the multiple-purpose ware rigid coupling is at mixing mechanism's.

The processing pond includes case pond, outer tube and telescopic machanism I, four outer tubes of the even rigid coupling of upper end circumference in case pond, the inboard of every outer tube is equipped with telescopic machanisms I of rigid couplings on the case pond.

The dislocation platform comprises a dislocation platform, insertion rods I, an upper placing platform and telescopic mechanisms II, wherein the dislocation platform is in a cross shape, the lower ends of the periphery of the dislocation platform are fixedly connected with insertion rods I respectively, the upper placing platform is fixedly connected to the upper ends of the dislocation platform, the structure of the upper placing platform is the same as that of the dislocation platform and the insertion rods I after combination, the telescopic mechanisms II are fixedly connected to the middle of the lower ends of the dislocation platform, the four insertion rods I are connected to the four outer pipes in a sliding mode respectively, and the upper ends of the movable ends of the four telescopic mechanisms I are fixedly connected with the dislocation.

The double-rotating arm comprises a driving device I, four-way transfer rods, shafts and single transfer rods, wherein the output end of the driving device I drives the four-way transfer rods to rotate around the central axis of the driving device I, the output end of the driving device I is fixedly connected with the four-way transfer rods, the middle parts of the lower ends of the four-way transfer rods are rotatably connected with disc-shaped hard parts, the lower ends of the four-way transfer rods are uniformly and fixedly connected with the four shafts in the circumferential direction, the lower end of each shaft is rotatably connected with ends of single transfer rods, the upper end of the driving device I is fixedly connected with the middle part of the lower end of an upper placing table, and the disc-.

The pushing plate comprises a center pushing plate, a spring frame, connecting members I, side pushing plates and compression springs I, wherein the middle of the left side of the center pushing plate is fixedly connected with spring frames, the left side and the right side of the center pushing plate are respectively connected with side pushing plates in a sliding mode, protruding portions are arranged at the outer ends of the two side pushing plates, the inner ends of the two side pushing plates are connected with the spring frame through the compression springs I, and the upper ends of the two connecting members I are respectively connected with the other ends of the left single transmission rod and the right single transmission rod in a rotating mode.

The limiting push plate comprises a fixed long push plate, a connecting member II, an unfolding frame and a filter screen, a groove is formed in the rear end face of the fixed long push plate, the connecting member II is fixedly connected to the middle of the upper end of the fixed long push plate, the unfolding frame is fixedly connected to the rear end of the lower end of the fixed long push plate, and the filter screen is arranged in the unfolding frame; the upper ends of the two connecting members II are respectively rotatably connected with the single transmission rods positioned at the front end and the rear end, and the protruding part on each side push plate is respectively connected in the groove on the corresponding fixed long push plate in a sliding manner.

The mixing mechanism comprises a connecting table, a stressed member, a driving device II, a stirring shaft and stirring blades, wherein the stressed member is fixedly connected to the upper end of the connecting table, the driving device II is fixedly connected to the middle of the lower end of the connecting table, the output end of the driving device II drives the stirring shaft to rotate around the axis of the driving device II, the output end of the driving device II is fixedly connected with the stirring shaft, and the stirring shaft is provided with the stirring blades; the upper end of the connecting platform is fixedly connected with the movable end of the telescopic mechanism II, and the stress member is connected in the dislocation platform in a sliding mode.

The multipurpose device comprises a connecting part, a flitch, soft strips and inserting rods II, wherein the lower end of the flitch is provided with a plurality of soft strips, the upper end of the flitch is fixedly connected with two inserting rods II, the two inserting rods II are both connected with the connecting part in a sliding manner, the upper ends of the two inserting rods II are both fixedly connected with limiting components, compression springs II are sleeved on the two inserting rods II, and the compression springs II are positioned between the connecting part and the flitch; the middle part of the upper end of the connecting part is fixedly connected with the lower end of the stirring shaft.

The method for processing the wear-resistant paint by adopting the wear-resistant paint processing system comprises the following steps:

step 1: adjusting the abutting push plate and the limiting push plate to be in contact with the bottom of the processing pool, and adjusting the distance between the two limiting push plates to be maximum;

step 2: putting viscous, solid and liquid raw materials into a processing pool and primarily stirring the raw materials by using a mixing mechanism;

and step 3: adjusting the two limiting push plates to enable the two limiting push plates to be in contact with each other and continuously stirring by using a mixing mechanism to obtain a mixed solution;

and 4, step 4: two spacing push pedal of rising make the two bottoms be located the liquid level that is higher than the mixed liquid, utilize the multiple-purpose ware to carry out quick defoaming and handle.

The wear-resistant coating processed by the processing method comprises the following raw materials, by weight, 50 parts of epoxy resin, 35 parts of diluent, 10 parts of copper chloride, 3 parts of talcum powder, 1 part of solid lubricant and 1 part of defoaming agent.

The wear-resistant paint processing systems have the beneficial effects that:

the pushing plate is propped against the limiting pushing plate to be adjusted to generate up-and-down turbulent flow so as to avoid the precipitation phenomenon and increase the stirring efficiency; the raw materials which are not easy to mix can be gathered in the center and are continuously scattered and mixed by the stirring blades; defoaming operation can be carried out after stirring operation; the defoaming filter screen can be independently and intensively cleaned by matching with a mixing mechanism and a multi-purpose device; the use of the matching tank can carry out self-cleaning on all parts participating in contacting the raw materials.

Drawings

The invention is further described in detail in conjunction with the figures and the detailed description.

FIG. 1 is a schematic diagram of the overall construction of an abrasion-resistant paint processing system of the present invention;

FIG. 2 is a schematic view of the processing cell configuration of the present invention;

FIG. 3 is a schematic view of the malposition platform configuration of the present invention;

FIG. 4 is a schematic diagram of the double swivel arm configuration of the present invention;

FIG. 5 is a schematic view of the structure of the push plate of the present invention;

FIG. 6 is a schematic view of a spacing push plate structure of the present invention;

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

FIG. 8 is a schematic view of the multiplexer configuration of the present invention;

fig. 9 is a schematic diagram of the structure of the multiplexer of the present invention.

In the figure: a processing tank 1; a tank pool 101; an outer tube 102; a telescoping mechanism I103; a dislocation platform 2; a malposition table 201; an inserting rod I202; an upper table 203; a telescoping mechanism II 204; a double-swing arm 3; a driving device I301; a four-way transfer lever 302; a shaft 303; a single transfer rod 304; the push plate 4 is propped; a center push plate 401; a spring frame 402; a connecting member I403; a side pusher plate 404; a limiting push plate 5; a fixed length push plate 501; a connecting member II 502; a display frame 503; a screen 504; a mixing mechanism 6; a connecting table 601; a force-receiving member 602; a driving device II 603; a stirring shaft 604; a stirring blade 605; a multiplexer 7; a connecting portion 701; a pasting board 702; a soft strip 703; and inserting a rod II 704.

Detailed Description

The present invention is further described in detail below with reference to the attached figures.

Embodiment :

as shown in figures 1-9, wear-resistant paint processing systems comprise a processing pool 1, a dislocation platform 2, a double-rotary arm 3, two abutting push plates 4, two limiting push plates 5, a mixing mechanism 6 and a multi-purpose device 7, wherein the upper end of the processing pool 1 is connected with the dislocation platform 2, the double-rotary arm 3 is connected with the dislocation platform 2, the abutting push plates 4 are arranged in mirror symmetry, the two abutting push plates 4 are respectively and rotatably connected with the left side and the right side of the double-rotary arm 3, the two limiting push plates 5 are arranged in mirror symmetry, the two limiting push plates 5 are respectively and rotatably connected with the front side and the rear side of the double-rotary arm 3, the front end and the rear end of each abutting push plate 4 are respectively and slidably connected with the two limiting push plates 5, the mixing mechanism 6 is connected with the lower end of the middle of the double-rotary arm 3, the multi-purpose device 7 is fixedly connected with the lower end of the mixing mechanism 6, turbulence generated by the adjustment of the abutting push plates 4 and the limiting push plates 5 can avoid precipitation phenomenon and increase the stirring efficiency, the raw materials can be gathered in the center and directly scattered and mixed by stirring blades, the mixing mechanism 6 and the multi-purpose device 7 can be used for cleaning the filtering net 504 which is matched with the filtering.

The second embodiment is as follows:

as shown in fig. 1-9, the processing tank 1 includes a tank 101, an outer tube 102 and a telescoping mechanism i 103, four outer tubes 102 are uniformly and fixedly connected to the upper end of the tank 101 in the circumferential direction, and telescoping mechanisms i 103 fixedly connected to the tank 101 are disposed on the inner side of each outer tube, the telescoping mechanism i 103 includes an electric telescopic rod, an electric telescopic rod and other telescoping devices, the synchronous four telescoping mechanisms i 103 are started, the telescoping mechanism i 103 can drive a dislocation table 201 to move up and down, the dislocation table 201 drives a placing table 203 and a telescoping mechanism ii 204 to move up and down, wherein the placing table 203 can drive a double-rotary arm 3 to move up and down, the double-rotary arm 3 can drive a pushing plate 4 and a limiting pushing plate 5 to move up and down through a single transmission rod 304, and the telescoping mechanism ii 204 can drive a connecting table 601 to move up and down, so that a mixing mechanism 6 can move up and down, that is, the pushing plate 4.

The third concrete implementation mode:

as shown in fig. 1-9, the dislocation platform 2 includes a dislocation table 201, insertion rods i 202, an upper table 203 and telescopic mechanisms ii 204, the dislocation table 201 is cross-shaped, the lower ends of the periphery of the dislocation table 201 are fixedly connected with insertion rods i 202 respectively, the upper table 203 is fixedly connected to the upper end of the dislocation table 201, the structure of the upper table 203 is the same as the dislocation table 201 and the insertion rods i 202 after combination, the telescopic mechanisms ii 204 are fixedly connected to the middle of the lower end of the dislocation table 201, the four insertion rods i 202 are slidably connected to the four outer tubes 102 respectively, the upper ends of the movable ends of the four telescopic mechanisms i 103 are fixedly connected to the dislocation table 201, the telescopic mechanisms ii 204 include telescopic devices such as electric telescopic rods and electric-hydraulic telescopic rods, the upper table 203 is structured as shown in fig. 3, the upper end is cross-shaped, the periphery extends downwards to form a support part, requirements for the support part, besides supporting weight, the need to be installed in the middle of each extending part of the cross portion of the dislocation table 201 to avoid affecting the reciprocating swing of the double-rotating arms 3, the dislocation table 201 is placed between a single-.

The fourth concrete implementation mode:

as shown in fig. 1-9, the double swing arm 3 includes a driving device i 301, four-way transmission rods 302, shafts 303, and single transmission rods 304, an output end of the driving device i 301 drives the four-way transmission rods 302 to rotate around their central axes, an output end of the driving device i 301 is fixedly connected to the four-way transmission rods 302, a middle portion of a lower end of the four-way transmission rods 302 is rotatably connected to hard disk-shaped parts, a lower end of the four-way transmission rods 302 is circumferentially and uniformly fixedly connected to the four shafts 303, a lower end of each shaft 303 is rotatably connected to ends of single transmission rods 304, an upper end of the driving device i 301 is fixedly connected to a middle portion of a lower end of the upper platform 203, the hard disk-shaped parts are in contact with an upper end surface of the dislocation platform 201, the driving device i 301 may be a driving device such as a motor, the driving device i 301 is started, the driving device i 301 may drive the single transmission rods 304 to swing outward by the shafts 303, or swing inward, and two single transmission rods 304 drive two connecting members 403 connected to approach or move away from each other push plates 4, and further drive the two push plates 5 connected push plates to each other push plates to approach or move away from each other push plates, and further, thereby the push plates can be further driven by two push plates 5 connected to approach or move away from each other push plates 5, and further, thereby the push plates can be matched with the push plates 3 and move away from.

The fifth concrete implementation mode:

as shown in fig. 1-9, the pushing plate 4 includes a central pushing plate 401, spring frames 402, connecting members i 403, side pushing plates 404 and compression springs i, wherein spring frames 402 are fixedly connected to the middle portion of the left side of the central pushing plate 401, side pushing plates 404 are respectively slidably connected to the left and right sides of the central pushing plate 401, protruding portions are respectively disposed at the outer ends of the two side pushing plates 404, the inner ends of the two side pushing plates 404 are connected to the spring frames 402 through the compression springs i, the upper ends of the two connecting members i 403 are respectively rotatably connected to the other ends of the left and right single transmission rods 304, the side pushing plates 404 are connected to the fixed pushing plate 501 through the elastic force provided by the compression springs i and the connection between the protruding portions and the grooves on the fixed pushing plate 501, and can be adaptively changed along with the distance change between the two limiting pushing plates 5.

The sixth specific implementation mode:

as shown in fig. 1-9, the limiting push plate 5 includes a fixed long push plate 501, a connecting member ii 502, an extending frame 503 and a filter screen 504, a groove is arranged on the rear end surface of the fixed long push plate 501, the connecting member ii 502 is fixedly connected to the middle of the upper end of the fixed long push plate 501, the extending frame 503 is fixedly connected to the rear end of the lower end of the fixed long push plate 501, and the filter screen is arranged in the extending frame 503; the upper ends of the two connecting members II 502 are respectively rotatably connected with the single transmission rods 304 at the front end and the rear end, and the convex part on each side push plate 404 is respectively connected in the groove on the corresponding fixed long push plate 501 in a sliding manner. When the two extending frames 503 are contacted with each other, the distance is the closest distance that the two limit push plates 5 are close to each other, and when the two limit push plates 5 are respectively contacted with the inner walls of the box pool 101 in the corresponding directions, the distance is the farthest distance that the two limit push plates 5 are far away from each other. No matter the two limit push plates 5 are close to or far away from each other, the two abutting push plates 4 are in contact with the fixed-length push plate 501 at the corresponding position through the side push plates 404 on the two abutting push plates, that is, the cross-sectional area of the space surrounded by the two abutting push plates 4 and the two limit push plates 5 is square, and the area of the square can be increased or reduced. When the sedimentation raw material is treated, the sedimentation raw material can be supported by the filter screen 504 and directly scattered by the stirring blade 605 or surrounded by the supporting push plate 4 and the limiting push plate 5, so that the scattering and mixing effects of the stirring blade 605 are increased in an auxiliary manner.

The seventh embodiment:

as shown in fig. 1-9, the mixing mechanism 6 includes a connecting table 601, a stressed member 602, a driving device ii 603, a stirring shaft 604 and stirring blades 605, the upper end of the connecting table 601 is fixedly connected with the stressed member 602, the middle part of the lower end of the connecting table 601 is fixedly connected with the driving device ii 603, the output end of the driving device ii 603 drives the stirring shaft 604 to rotate around its own axis, the output end of the driving device ii 603 is fixedly connected with the stirring shaft 604, and the stirring shaft 604 is provided with the stirring blades 605; the upper end of the connecting table 601 is fixedly connected with the movable end of the telescopic mechanism II 204, and the stress member 602 is connected in the dislocation table 201 in a sliding mode. The driving device ii 603 may be a driving device such as a motor, and the start telescopic mechanism ii 204 may independently drive the mixing mechanism 6 to move up and down, that is, the stirring blade 605 may independently move up and down.

The specific implementation mode is eight:

as shown in fig. 1-9, the multi-purpose device 7 includes a connecting portion 701, a pasting board 702, two soft strips 703 and two inserting rods ii 704, the lower end of the pasting board 702 is provided with a plurality of soft strips 703, the upper end of the pasting board 702 is fixedly connected with the two inserting rods ii 704, the two inserting rods ii 704 are both connected with the connecting portion 701 in a sliding manner, the upper ends of the two inserting rods ii 704 are fixedly connected with a limiting member, the two inserting rods ii 704 are sleeved with a compression spring ii, and the compression spring ii is located between the connecting portion 701 and the pasting board 702; the middle part of the upper end of the connecting part 701 is fixedly connected with the lower end of the stirring shaft 604. The driving device II 603 is started, the multi-purpose device 7 synchronously rotates along with the mixing mechanism 6, the soft strips 703 can quickly eliminate the filtered bubbles which cannot be eliminated, and the filter screen 504 can be cleaned.

The specific implementation method nine:

as shown in fig. 1 to 9, the method for processing the wear-resistant paint by using the wear-resistant paint processing system comprises the following steps:

step 1: adjusting the abutting push plate 4 and the limiting push plate 5 to be in contact with the bottom of the processing pool 1, and adjusting the distance between the two limiting push plates 5 to be maximum;

step 2: putting viscous, solid and liquid raw materials into a processing pool 1 and primarily stirring the raw materials by using a mixing mechanism 6;

and step 3: adjusting the two limiting push plates 5 to enable the two limiting push plates to be in contact with each other and continuously stirring by using a mixing mechanism 6 to obtain a mixed solution;

and 4, step 4: two spacing push pedal 5 of rising make the two bottoms be located the liquid level that is higher than the mixed liquid, utilize multiplexer 7 to carry out quick defoaming and handle.

The operation process and sequence limited by the method can improve the stirring efficiency and effect, increase the defoaming efficiency and reduce the cleaning cost and time of the equipment, namely after the processing pool 1 is emptied after the preparation operation is finished, all parts contacting with the raw materials can be cleaned by putting cleaning solution into the processing pool 1, the efficiency of dissolving impurities is accelerated by utilizing the up-and-down vibration of the limiting push plate 5 and the mixing mechanism 6 in the processing pool 1 and the rotation of the stirring blades 605 and the multipurpose device 7, the soft strips 703 can also independently descend to clean the bottom of the tank 101, and the immersed dirt or impurities generated by the precipitation and the gathering of the raw materials are eliminated.

The detailed implementation mode is ten:

as shown in figures 1-8, the wear-resistant coating processed by the processing method is characterized in that: the wear-resistant coating is prepared from 50 parts by weight of epoxy resin, 35 parts by weight of diluent, 10 parts by weight of copper chloride, 3 parts by weight of talcum powder, 1 part by weight of solid lubricant and 1 part by weight of defoaming agent.

The wear-resistant paint processing systems of the invention have the working principle that:

starting the synchronous four telescopic mechanisms I103, the telescopic mechanisms I103 can drive the dislocation table 201 to move up and down, the dislocation table 201 drives the upper table 203 and the telescopic mechanisms II 204 to move up and down, wherein the upper table 203 can drive the double-rotating arm 3 to move up and down, the double-rotating arm 3 can drive the abutting push plate 4 and the limiting push plate 5 to move up and down through the single transmission rod 304, the telescopic mechanisms II 204 can drive the connecting table 601 to move up and down so that the mixing mechanism 6 can move up and down, namely, the abutting push plate 4, the limiting push plate 5 and the mixing mechanism 6 can move up and down, the driving device I301 is started, the driving device I301 can drive the single transmission rod 304 to swing outwards or inwards in a contracting mode, so that the two connecting push plates I403 connected with the two single transmission rods 304 are driven to be close to or far away from each other, the two abutting push plates 4 can be close to or far from each other, the two connecting members II 502 connected with the two single transmission rods 304 are driven to be close to or far from each other, so that the two connecting push plates 5 can be close to or far from each other, the two connecting push plates 5 connected with each other, and the two connecting push plates 5, the filtering liquid surface of the filtering liquid in the filtering box can be close to the filtering liquid surface of the filtering box can be pushed to be pushed.

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

The processing system for wear-resistant coatings comprises a processing pool (1), a dislocation platform (2), a double-spiral arm (3), two abutting push plates (4), two limiting push plates (5), a mixing mechanism (6) and a multi-purpose device (7), and is characterized in that the upper end of the processing pool (1) is connected with the dislocation platform (2), the double-spiral arm (3) is connected with the dislocation platform (2), the abutting push plates (4) are arranged in a mirror symmetry mode, the two abutting push plates (4) are respectively connected with the left side and the right side of the double-spiral arm (3) in a rotating mode, the two limiting push plates (5) are arranged in a mirror symmetry mode, the two limiting push plates (5) are respectively connected with the front side and the rear side of the double-spiral arm (3) in a rotating mode, the front end and the rear end of each abutting push plate (4) are respectively connected with the two limiting push plates (5) in a sliding mode, the mixing mechanism (6) is connected with the lower end of the middle of the double-spiral.
2. The wear-resistant paint processing system according to claim 1, wherein the processing tank (1) comprises a tank (101), four outer pipes (102) and a telescopic mechanism I (103), the four outer pipes (102) are uniformly and fixedly connected to the upper end of the tank (101) in the circumferential direction, and telescopic mechanisms I (103) fixedly connected to the tank (101) are arranged on the inner side of each outer pipe.
3. The wear-resistant paint processing system according to claim 2, wherein the dislocation platform (2) comprises a dislocation platform (201), insertion rods I (202), an upper platform (203) and a telescopic mechanism II (204), the dislocation platform (201) is in a cross shape, insertion rods I (202) are fixedly connected to the lower end of the periphery of the dislocation platform (201) respectively, the upper platform (203) is fixedly connected to the upper end of the dislocation platform (201), the structure of the upper platform (203) is the same as that of the dislocation platform (201) and the insertion rods I (202) after combination, the telescopic mechanism II (204) is fixedly connected to the middle of the lower end of the dislocation platform (201), the four insertion rods I (202) are slidably connected to the four outer pipes (102) respectively, and the upper ends of the movable ends of the four telescopic mechanisms I (103) are fixedly connected to the dislocation platform (201).
4. The wear-resistant paint processing system according to claim 3, wherein the double-swing arm (3) comprises a driving device I (301), a four-way transmission rod (302), a shaft (303) and a single transmission rod (304), the output end of the driving device I (301) drives the four-way transmission rod (302) to rotate around the central axis of the driving device I, the output end of the driving device I (301) is fixedly connected with the four-way transmission rod (302), the middle part of the lower end of the four-way transmission rod (302) is rotatably connected with disc-shaped hard parts, the lower end of the four-way transmission rod (302) is circumferentially and uniformly fixedly connected with the four shafts (303), the lower end of each shaft (303) is rotatably connected with ends of single transmission rods (304), the upper end of the driving device I (301) is fixedly connected with the middle part of the lower end of the upper table (203), and the disc-shaped hard parts are in contact with the upper.
5. The wear-resistant paint processing system according to claim 4, wherein the pushing plate (4) comprises a center pushing plate (401), a spring frame (402), connecting members I (403), side pushing plates (404) and compression springs I, spring frames (402) are fixedly connected to the middle of the left side of the center pushing plate (401), side pushing plates (404) are respectively connected to the left side and the right side of the center pushing plate (401) in a sliding mode, protruding portions are arranged at the outer ends of the two side pushing plates (404), the inner ends of the two side pushing plates (404) are connected with the spring frame (402) through the compression springs I, and the upper ends of the two connecting members I (403) are respectively connected with the other ends of the left single transmission rod (304) and the other ends of the left single transmission rod (304) in a rotating.
6. The abrasion resistant coating processing system of claim 5, wherein: the limiting push plate (5) comprises a fixed long push plate (501), a connecting member II (502), an unfolding frame (503) and a filter screen (504), a groove is formed in the rear end face of the fixed long push plate (501), the connecting member II (502) is fixedly connected to the middle of the upper end of the fixed long push plate (501), the unfolding frame (503) is fixedly connected to the rear end of the lower end of the fixed long push plate (501), and the filter screen is arranged in the unfolding frame (503); the upper ends of the two connecting members II (502) are respectively and rotatably connected with the single transmission rods (304) positioned at the front end and the rear end, and the convex part on each side push plate (404) is respectively and slidably connected in the groove on the fixed long push plate (501) corresponding to the convex part.
7. The abrasion resistant coating processing system of claim 6, wherein: the mixing mechanism (6) comprises a connecting table (601), a stress member (602), a driving device II (603), a stirring shaft (604) and stirring blades (605), the upper end of the connecting table (601) is fixedly connected with the stress member (602), the middle part of the lower end of the connecting table (601) is fixedly connected with the driving device II (603), the output end of the driving device II (603) drives the stirring shaft (604) to rotate around the axis of the driving device II (603), the output end of the driving device II (603) is fixedly connected with the stirring shaft (604), and the stirring shaft (604) is provided with the stirring blades (605); the upper end of the connecting table (601) is fixedly connected with the movable end of the telescopic mechanism II (204), and the stress member (602) is connected in the dislocation table (201) in a sliding manner.
8. The abrasion resistant coating processing system of claim 7, wherein: the multipurpose device (7) comprises a connecting part (701), a pasting plate (702), soft strips (703) and inserting rods II (704), wherein the lower end of the pasting plate (702) is provided with a plurality of soft strips (703), the upper end of the pasting plate (702) is fixedly connected with two inserting rods II (704), the two inserting rods II (704) are both in sliding connection with the connecting part (701), the upper ends of the two inserting rods II (704) are both fixedly connected with a limiting component, compression springs II are sleeved on the two inserting rods II (704), and the compression springs II are located between the connecting part (701) and the pasting plate (702); the middle part of the upper end of the connecting part (701) is fixedly connected with the lower end of the stirring shaft (604).
9. A method of processing an abrasion resistant coating using the abrasion resistant coating processing system of claim 8, comprising the steps of:

step 1: the propping push plate (4) and the limiting push plate (5) are adjusted to be in contact with the bottom of the processing pool (1), and the distance between the two limiting push plates (5) is adjusted to be maximum;

step 2: putting viscous, solid and liquid raw materials into a processing pool (1) and primarily stirring the raw materials by using a mixing mechanism (6);

and step 3: adjusting the two limiting push plates (5) to enable the two limiting push plates to be mutually contacted and continuously stirring by using a mixing mechanism (6) to obtain a mixed solution;

and 4, step 4: two limiting push plates (5) are lifted to enable the bottoms of the two limiting push plates to be higher than the liquid level of the mixed liquid, and a multi-purpose device (7) is utilized to carry out rapid defoaming treatment.
10. The abrasion resistant coating processed by the processing method of claim 9, wherein: the wear-resistant coating is prepared from 50 parts by weight of epoxy resin, 35 parts by weight of diluent, 10 parts by weight of copper chloride, 3 parts by weight of talcum powder, 1 part by weight of solid lubricant and 1 part by weight of defoaming agent.