CN105771744A - Wearable efficient coating dispersion machine - Google Patents

Abstract

The invention discloses a wearable efficient coating dispersion machine which comprises a first base, a second base, a lifting rod, a frame, a stirring shaft, a sealing cylinder, a conveying pump and a raw material barrel, wherein a motor and a rotating shaft are respectively mounted at the two ends of the frame; a guide rod is mounted on the frame; the stirring shaft is mounted under the rotating shaft; a screw blade and a stirring blade are arranged on the stirring shaft; a cooling layer is arranged on the outer side of the sealing cylinder; an opening for the running of the rotating shaft is formed at the center of a cylinder cover; wearable coatings are arranged on the exteriors of the screw blade and the stirring blade. The screw blade and the stirring blade in the wearable efficient coating dispersion machine are excellent in wearing resistance and long in service life; the raw materials are automatically inputted to the sealing cylinder through the conveying pump; the guide rod is arranged for causing the running be more stable and is beneficial to the promotion of dispersion effect of materials; the overall structure design is reasonable; the operation is convenient; the exhaust gas overflow in the dispersion process of the organic raw material is reduced; the cooling layer is additionally arranged for ensuring the coating dispersion and stirring quality.

Description

A kind of wear-resisting efficient coating dispersion machine

Technical field

The present invention relates to a kind of dispersion machine, specifically a kind of wear-resisting efficient coating dispersion machine.

Background technology

Development along with coating industry, the requirement of the fineness of coating products, uniformity and glossiness is improved constantly by user, coating production process is to add filler and pigment in resin and solvent, and ultimately form the suspended dispersed liquid of fine uniform structure, owing to filler, pigment both raw materials can be focused into big particle when transport, stored condition, therefore, the dispersion of raw material is by the steps necessary of coating processing and it needs to be applied to the equipment that can carry out high efficiency dispersion.Coating dispersion machine be primarily directed to the liquid charging stock of different viscosities pulpous state carry out pulverizing, disperse, emulsifying, mixing, by the new and effective mixing plant that dispersion impeller runs up up and down tempestuously, material is carried out the function of strong efficiently shearing, shock, pulverizing, dispersion, refinement, is the solids such as the coating high-efficiency appliance that is stirred, disperses, dissolve.In large-scale production, it is necessary to jumbo dispersing apparatus, if still adopting conventional means, namely centre is inserted vertically into an agitator in a reservoir, then stirring efficiency is very low, and there is stirring dead angle away from the region of central authorities in container.

In prior art, the patent of Authorization Notice No. CN202263542U provides a kind of dispersion machine system, including dispersion machine body and have at least two independent dispersion cylinder being connected with body, described body includes base, base is connected to upper spider by hydraulic press, described upper spider is provided with the agitator that can automatically put in or stretch out dispersion cylinder, this patent can be greatly improved work efficiency and workshop cost is greatly reduced, but it still needs to promote in operation stability and the suitability to multiple coating；In Chinese Patent Application No.: a kind of coating dispersion machine disclosed in 201120276355.5, including stirring container, rotate axle, electric rotating machine, installing plate, elevating lever, vibrating motor；Electric rotating machine is fixed on one end of installing plate, and the top of elevating lever is fixed on the other end of installing plate；The lower end of electric rotating machine is connected with rotating axle；The bottom rotating axle is provided with screw blade；Elevating lever is connected with vibrating motor；The bottom rotating axle is positioned at stirring container.This technical scheme dispersion effect is desirable not enough, is further improved, and can produce amount of heat during dispersion, and impact dispersion, mixing effect are further improved.

It addition, the agitating device in existing dispersion machine system is shorter for service life, it is easy to abrasion.

Summary of the invention

It is an object of the invention to provide a kind of simple in construction, easy to operate wear-resisting efficient coating dispersion machine, with the problem solving to propose in above-mentioned background technology.

For achieving the above object, the present invention provides following technical scheme:

nullA kind of wear-resisting efficient coating dispersion machine，Including the first pedestal、Second pedestal、Elevating lever、Frame、Shaft、Seal cylinder、Delivery pump and Raw material pail，Described elevating lever is arranged on the first pedestal，Described frame is arranged on elevating lever，The two ends of described frame are separately installed with motor and rotating shaft，Frame is also equipped with guide post，It is arranged on the first pedestal by lead ring bottom guide post，Described shaft is arranged on the lower section of rotating shaft，Described shaft is provided with screw blade and paddle，Described screw blade and paddle interval are arranged，Screw blade and paddle are placed in sealing in cylinder，The outside of described sealing cylinder is provided with cooling layer，The bottom of described sealing cylinder is additionally provided with rotary apparatus，Described sealing cylinder includes cylinder body and cylinder cap，The bottom of described cylinder body is connected with delivery pump and Raw material pail by feed pipe，The center of described cylinder cap is provided with mean for the uncovered of rotating shaft operation；The outside of described screw blade and paddle is both provided with wear-resistant coating, and described wear-resistant coating includes according to the raw material of weight portion: aliphatic alcohol polyoxyvinethene phosphate 10-20 part, carborundum 10-15 part, ethyl acetate 5-10 part, zinc stearate 6-8 part, nano-carbon powder 6-8 part, Ludox 4-6 part, sodium tetraborate 3-5 part, amino resins 3-5 part, tea polyphenols 3-5 part, antistatic additive 3-4 part, butyl 2-4 part, hydroxyethyl cellulose 2-4 part, sodium carboxymethyl cellulose 1-2 part.

As the further scheme of the present invention: described wear-resistant coating includes according to the raw material of weight portion: aliphatic alcohol polyoxyvinethene phosphate 12-18 part, carborundum 11-14 part, ethyl acetate 6-9 part, zinc stearate 6.5-7.5 part, nano-carbon powder 6.5-7.5 part, Ludox 4.5-5.5 part, sodium tetraborate 3.5-4.5 part, amino resins 3.5-4.5 part, tea polyphenols 3.5-4.5 part, antistatic additive 3.2-3.8 part, butyl 2.5-3.5 part, hydroxyethyl cellulose 2.5-3.5 part, sodium carboxymethyl cellulose 1.2-1.8 part.

As the further scheme of the present invention: described wear-resistant coating includes according to the raw material of weight portion: aliphatic alcohol polyoxyvinethene phosphate 15 parts, carborundum 12 parts, ethyl acetate 8 parts, zinc stearate 7 parts, nano-carbon powder 7 parts, Ludox 5 parts, sodium tetraborate 4 parts, 4 parts of amino resins, tea polyphenols 4 parts, 3.5 parts of antistatic additive, butyl 3 parts, hydroxyethyl cellulose 3 parts, sodium carboxymethyl cellulose 1.5 parts.

As the further scheme of the present invention: described antistatic additive is anionic antistatic agent or non-ionic antistatic agent.

As the further scheme of the present invention: described motor is rotated by the drive mechanism drive shaft in frame.

As the further scheme of the present invention: the width of described paddle is more than the width of screw blade.

As the present invention further scheme: be provided with coolant in the space between described cooling layer and sealing cylinder.

The preparation method of described wear-resistant coating, specifically comprises the following steps that

1) each raw material is weighed according to weight portion；

2) aliphatic alcohol polyoxyvinethene phosphate, ethyl acetate, zinc stearate, amino resins and tea polyphenols are put into the first stainless steel cauldron and be warming up to 200-250 DEG C, start stirring reaction, a coreaction 3-5h；

3) in step 2) in reacted 1h after, carborundum, nano-carbon powder, Ludox, sodium tetraborate, butyl and sodium carboxymethyl cellulose are put into the second stainless steel cauldron, it is warming up to 200-250 DEG C, starts stirring reaction, a coreaction 2-4h；

4) after having reacted, material in first stainless steel cauldron and in the second stainless steel cauldron is all put in the 3rd stainless steel cauldron, with the programming rate stirring reaction 4-6h of 30-40 DEG C/h, after reacting one hour, add hydroxyethyl cellulose and antistatic additive；

5) after having reacted, material in 3rd stainless steel cauldron is taken out, and shake mixing 20-40min, then pass through double screw extruder extrusion, temperature controls at 90-110 DEG C, extrude rear material left 8-12min, be then placed in pulverizer grinding to 190-225 order obtaining wear-resisting powder；

6) the wear-resisting powder obtained is coated with to screw blade and paddle, obtains wear-resistant coating.

Compared with prior art, the invention has the beneficial effects as follows:

Screw blade and paddle anti-wear performance in the present invention are good, long service life, raw material can be automatically entered to sealing in cylinder by delivery pump, by the setting of guide post, make operation more stable, and contribute to the dispersion effect of improving material, overall construction design is reasonable, easy to operate, decrease Organic Ingredients waste gas in dispersive process excessive, ensure that coating dispersion, mixing quality by increasing cooling layer.

Accompanying drawing explanation

Fig. 1 is the structural representation of the present invention.

Detailed description of the invention

Below in conjunction with detailed description of the invention, the technical scheme of this patent is described in more detail.

nullRefer to Fig. 1，A kind of wear-resisting efficient coating dispersion machine，Including the first pedestal 1、Second pedestal 14、Elevating lever 3、Frame 5、Shaft 7、Seal cylinder 15、Delivery pump 12 and Raw material pail 13，Described elevating lever 3 is arranged on the first pedestal 1，Described frame 5 is arranged on elevating lever 3，The two ends of described frame 5 are separately installed with motor 4 and rotating shaft 6，Described motor 4 is rotated by the drive mechanism drive shaft 6 in frame 5，Frame 5 is also equipped with guide post 2，It is arranged on the first pedestal 1 by lead ring bottom guide post 2，The operation that installation guide post 2 contributes to frame 5 is more stable，Described shaft 7 is arranged on the lower section of rotating shaft 6，Described shaft 5 is provided with screw blade 10 and paddle 16，Described screw blade 10 and paddle 16 interval are arranged，Screw blade 10 and paddle 16 are placed in sealing in cylinder 15，The width of described paddle 16 is more than the width of screw blade 10，The diameter of described screw blade 10 is relatively small，For comparing the material of thickness，No matter how screw blade 10 moves，Screw blade 10 and the sticky material sealed between cylinder 15 will not be disperseed by screw blade 10，Therefore increase paddle 16 and coating is disperseed，Dispersion effect is better；The length of paddle 16 is telescopically adjustable, the length of user's condition paddle 16 as required, in order to better coating disperseed, stir；The outside of described sealing cylinder 15 is provided with cooling layer 17, it is provided with coolant in space between described cooling layer 17 and sealing cylinder 15, coolant can produce amount of heat when the coating sealed in cylinder 15 is disperseed, utilizes cooling layer 17, coolant to lower the temperature, it is ensured that coating dispersion, mixing quality；The bottom of described sealing cylinder 15 is additionally provided with rotary apparatus 18, and band movable sealing cylinder 15 rotates, and further improves dispersion, mixing effect；Described sealing cylinder 15 includes cylinder body 9 and cylinder cap 8, the bottom of described cylinder body 9 is connected with delivery pump 12 and Raw material pail 13 by feed pipe 11, raw material in Raw material pail 13 quickly can be delivered in sealing cylinder by delivery pump 12, described cylinder cap 8 is made up of symmetrically arranged two halves, the cylinder cap junction of two halves seals to fasten, and the center of described cylinder cap 8 is provided with mean for the uncovered of rotating shaft 6 operation；The outside of described screw blade 10 and paddle 16 is both provided with wear-resistant coating.

Embodiment 1

Described wear-resistant coating includes according to the raw material of weight portion: aliphatic alcohol polyoxyvinethene phosphate 10 parts, carborundum 10 parts, ethyl acetate 5 parts, zinc stearate 6 parts, nano-carbon powder 6 parts, Ludox 4 parts, sodium tetraborate 3 parts, 3 parts of amino resins, tea polyphenols 3 parts, 3 parts of antistatic additive, butyl 2 parts, hydroxyethyl cellulose 2 parts, sodium carboxymethyl cellulose 1 part.

The preparation method of described wear-resistant coating, specifically comprises the following steps that

1) each raw material is weighed according to weight portion；

2) aliphatic alcohol polyoxyvinethene phosphate, ethyl acetate, zinc stearate, amino resins and tea polyphenols are put into the first stainless steel cauldron and be warming up to 200 DEG C, start stirring reaction, a coreaction 3h；

3) in step 2) in react 1h after, carborundum, nano-carbon powder, Ludox, sodium tetraborate, butyl and sodium carboxymethyl cellulose are put into the second stainless steel cauldron, are warming up to 200 DEG C, beginning stirring reaction, a coreaction 2h；

4) after having reacted, the material in the first stainless steel cauldron and in the second stainless steel cauldron is all put in the 3rd stainless steel cauldron, with the programming rate stirring reaction 4h of 30 DEG C/h, after reacting one hour, add hydroxyethyl cellulose and antistatic additive；

5) after having reacted, the material in the 3rd stainless steel cauldron is taken out, and shake mixing 20min, then pass through double screw extruder extrusion, temperature controls, at 90 DEG C, to have extruded rear material left 8min, is then placed in pulverizer grinding to 190 orders obtaining wear-resisting powder；

6) the wear-resisting powder obtained is coated with to screw blade 10 and paddle 16, obtains wear-resistant coating.

Embodiment 2

Described wear-resistant coating includes according to the raw material of weight portion: aliphatic alcohol polyoxyvinethene phosphate 12 parts, carborundum 11 parts, ethyl acetate 6 parts, zinc stearate 6.5 parts, nano-carbon powder 6.5 parts, Ludox 4.5 parts, sodium tetraborate 3.5 parts, 3.5 parts of amino resins, tea polyphenols 3.5 parts, 3.2 parts of antistatic additive, butyl 2.5 parts, hydroxyethyl cellulose 2.5 parts, sodium carboxymethyl cellulose 1.2 parts.

The preparation method of described wear-resistant coating, specifically comprises the following steps that

1) each raw material is weighed according to weight portion；

2) aliphatic alcohol polyoxyvinethene phosphate, ethyl acetate, zinc stearate, amino resins and tea polyphenols are put into the first stainless steel cauldron and be warming up to 210 DEG C, start stirring reaction, a coreaction 3.5h；

3) in step 2) in react 1h after, carborundum, nano-carbon powder, Ludox, sodium tetraborate, butyl and sodium carboxymethyl cellulose are put into the second stainless steel cauldron, are warming up to 210 DEG C, beginning stirring reaction, a coreaction 2.5h；

4) after having reacted, material in first stainless steel cauldron and in the second stainless steel cauldron is all put in the 3rd stainless steel cauldron, with the programming rate stirring reaction 4.5h of 32 DEG C/h, after reacting one hour, add hydroxyethyl cellulose and antistatic additive；

5) after having reacted, the material in the 3rd stainless steel cauldron is taken out, and shake mixing 25min, then pass through double screw extruder extrusion, temperature controls, at 95 DEG C, to have extruded rear material left 9min, is then placed in pulverizer grinding to 200 orders obtaining wear-resisting powder；

6) the wear-resisting powder obtained is coated with to screw blade 10 and paddle 16, obtains wear-resistant coating.

Embodiment 3

Described wear-resistant coating includes according to the raw material of weight portion: aliphatic alcohol polyoxyvinethene phosphate 15 parts, carborundum 12 parts, ethyl acetate 8 parts, zinc stearate 7 parts, nano-carbon powder 7 parts, Ludox 5 parts, sodium tetraborate 4 parts, 4 parts of amino resins, tea polyphenols 4 parts, 3.5 parts of antistatic additive, butyl 3 parts, hydroxyethyl cellulose 3 parts, sodium carboxymethyl cellulose 1.5 parts.

The preparation method of described wear-resistant coating, specifically comprises the following steps that

1) each raw material is weighed according to weight portion；

2) aliphatic alcohol polyoxyvinethene phosphate, ethyl acetate, zinc stearate, amino resins and tea polyphenols are put into the first stainless steel cauldron and be warming up to 220 DEG C, start stirring reaction, a coreaction 4h；

3) in step 2) in react 1h after, carborundum, nano-carbon powder, Ludox, sodium tetraborate, butyl and sodium carboxymethyl cellulose are put into the second stainless steel cauldron, are warming up to 220 DEG C, beginning stirring reaction, a coreaction 3h；

4) after having reacted, the material in the first stainless steel cauldron and in the second stainless steel cauldron is all put in the 3rd stainless steel cauldron, with the programming rate stirring reaction 5h of 35 DEG C/h, after reacting one hour, add hydroxyethyl cellulose and antistatic additive；

5) after having reacted, the material in the 3rd stainless steel cauldron is taken out, and shake mixing 30min, then pass through double screw extruder extrusion, temperature controls, at 100 DEG C, to have extruded rear material left 10min, is then placed in pulverizer grinding to 210 orders obtaining wear-resisting powder；

6) the wear-resisting powder obtained is coated with to screw blade 10 and paddle 16, obtains wear-resistant coating.

Embodiment 4

Described wear-resistant coating includes according to the raw material of weight portion: aliphatic alcohol polyoxyvinethene phosphate 18 parts, carborundum 14 parts, ethyl acetate 9 parts, zinc stearate 7.5 parts, nano-carbon powder 7.5 parts, Ludox 5.5 parts, sodium tetraborate 4.5 parts, 4.5 parts of amino resins, tea polyphenols 4.5 parts, 3.8 parts of antistatic additive, butyl 3.5 parts, hydroxyethyl cellulose 3.5 parts, sodium carboxymethyl cellulose 1.8 parts.

The preparation method of described wear-resistant coating, specifically comprises the following steps that

1) each raw material is weighed according to weight portion；

2) aliphatic alcohol polyoxyvinethene phosphate, ethyl acetate, zinc stearate, amino resins and tea polyphenols are put into the first stainless steel cauldron and be warming up to 240 DEG C, start stirring reaction, a coreaction 4.5h；

3) in step 2) in react 1h after, carborundum, nano-carbon powder, Ludox, sodium tetraborate, butyl and sodium carboxymethyl cellulose are put into the second stainless steel cauldron, are warming up to 240 DEG C, beginning stirring reaction, a coreaction 3.5h；

4) after having reacted, material in first stainless steel cauldron and in the second stainless steel cauldron is all put in the 3rd stainless steel cauldron, with the programming rate stirring reaction 5.5h of 38 DEG C/h, after reacting one hour, add hydroxyethyl cellulose and antistatic additive；

5) after having reacted, the material in the 3rd stainless steel cauldron is taken out, and shake mixing 35min, then pass through double screw extruder extrusion, temperature controls, at 105 DEG C, to have extruded rear material left 11min, is then placed in pulverizer grinding to 220 orders obtaining wear-resisting powder；

6) the wear-resisting powder obtained is coated with to screw blade 10 and paddle 16, obtains wear-resistant coating.

Embodiment 5

Described wear-resistant coating includes according to the raw material of weight portion: aliphatic alcohol polyoxyvinethene phosphate 20 parts, carborundum 15 parts, ethyl acetate 10 parts, zinc stearate 8 parts, nano-carbon powder 8 parts, Ludox 6 parts, sodium tetraborate 5 parts, 5 parts of amino resins, tea polyphenols 5 parts, 4 parts of antistatic additive, butyl 4 parts, hydroxyethyl cellulose 4 parts, sodium carboxymethyl cellulose 2 parts.

The preparation method of described wear-resistant coating, specifically comprises the following steps that

1) each raw material is weighed according to weight portion；

2) aliphatic alcohol polyoxyvinethene phosphate, ethyl acetate, zinc stearate, amino resins and tea polyphenols are put into the first stainless steel cauldron and be warming up to 250 DEG C, start stirring reaction, a coreaction 5h；

3) in step 2) in react 1h after, carborundum, nano-carbon powder, Ludox, sodium tetraborate, butyl and sodium carboxymethyl cellulose are put into the second stainless steel cauldron, are warming up to 250 DEG C, beginning stirring reaction, a coreaction 4h；

4) after having reacted, the material in the first stainless steel cauldron and in the second stainless steel cauldron is all put in the 3rd stainless steel cauldron, with the programming rate stirring reaction 6h of 40 DEG C/h, after reacting one hour, add hydroxyethyl cellulose and antistatic additive；

5) after having reacted, the material in the 3rd stainless steel cauldron is taken out, and shake mixing 40min, then pass through double screw extruder extrusion, temperature controls, at 110 DEG C, to have extruded rear material left 12min, is then placed in pulverizer grinding to 225 orders obtaining wear-resisting powder；

6) the wear-resisting powder obtained is coated with to screw blade 10 and paddle 16, obtains wear-resistant coating.

Screw blade and paddle anti-wear performance in the present invention are good, long service life, raw material can be automatically entered to sealing in cylinder 15 by delivery pump 12, by the setting of guide post 2, make operation more stable, and contribute to the dispersion effect of improving material, overall construction design is reasonable, easy to operate, decrease Organic Ingredients waste gas in dispersive process excessive, ensure that coating dispersion, mixing quality by increasing cooling layer 17.

Above the better embodiment of this patent is explained in detail, but this patent is not limited to above-mentioned embodiment, in the ken that one skilled in the relevant art possesses, it is also possible under the premise without departing from this patent objective, make various change.

Claims (8)

1. null1. efficient coating dispersion machine one kind wear-resisting，It is characterized in that，Including the first pedestal (1)、Second pedestal (14)、Elevating lever (3)、Frame (5)、Shaft (7)、Seal cylinder (15)、Delivery pump (12) and Raw material pail (13)，Described elevating lever (3) is arranged on the first pedestal (1)，Described frame (5) is arranged on elevating lever (3)，The two ends of described frame (5) are separately installed with motor (4) and rotating shaft (6)，Frame (5) is also equipped with guide post (2)，Guide post (2) bottom is arranged on the first pedestal (1) by lead ring，Described shaft (7) is arranged on the lower section of rotating shaft (6)，Described shaft (5) is provided with screw blade (10) and paddle (16)，Described screw blade (10) and paddle (16) interval are arranged，Screw blade (10) and paddle (16) are placed in sealing in cylinder (15)，The outside of described sealing cylinder (15) is provided with cooling layer (17)，The bottom of described sealing cylinder (15) is additionally provided with rotary apparatus (18)，Described sealing cylinder (15) includes cylinder body (9) and cylinder cap (8)，The bottom of described cylinder body (9) is connected with delivery pump (12) and Raw material pail (13) by feed pipe (11)，It is uncovered that the center of described cylinder cap (8) is provided with mean for that rotating shaft (6) runs；The outside of described screw blade (10) and paddle (16) is both provided with wear-resistant coating, described wear-resistant coating includes according to the raw material of weight portion: aliphatic alcohol polyoxyvinethene phosphate (10)-(20) part, carborundum (10)-(15) part, ethyl acetate (5)-(10) part, zinc stearate (6)-(8) part, nano-carbon powder (6)-(8) part, Ludox (4)-(6) part, sodium tetraborate (3)-(5) part, amino resins (3)-(5) part, tea polyphenols (3)-(5) part, antistatic additive (3)-(4) part, butyl (2)-(4) part, hydroxyethyl cellulose (2)-(4) part, sodium carboxymethyl cellulose (1)-(2) part.
2. 2. wear-resisting efficient coating dispersion machine according to claim 1, it is characterized in that, described wear-resistant coating includes according to the raw material of weight portion: aliphatic alcohol polyoxyvinethene phosphate 12-18 part, carborundum 11-14 part, ethyl acetate 6-9 part, zinc stearate 6.5-7.5 part, nano-carbon powder 6.5-7.5 part, Ludox 4.5-5.5 part, sodium tetraborate 3.5-4.5 part, amino resins 3.5-4.5 part, tea polyphenols 3.5-4.5 part, antistatic additive 3.2-3.8 part, butyl 2.5-3.5 part, hydroxyethyl cellulose 2.5-3.5 part, sodium carboxymethyl cellulose 1.2-1.8 part.
3. 3. wear-resisting efficient coating dispersion machine according to claim 1, it is characterized in that, described wear-resistant coating includes according to the raw material of weight portion: aliphatic alcohol polyoxyvinethene phosphate 15 parts, carborundum 12 parts, ethyl acetate 8 parts, zinc stearate 7 parts, nano-carbon powder 7 parts, Ludox 5 parts, sodium tetraborate 4 parts, 4 parts of amino resins, tea polyphenols 4 parts, 3.5 parts of antistatic additive, butyl 3 parts, hydroxyethyl cellulose 3 parts, sodium carboxymethyl cellulose 1.5 parts.
4. 4. according to the arbitrary described wear-resisting efficient coating dispersion machine of claim 1-3, it is characterised in that described antistatic additive is anionic antistatic agent or non-ionic antistatic agent.
5. 5. wear-resisting efficient coating dispersion machine according to claim 1, it is characterised in that described motor (4) is rotated by the drive mechanism drive shaft (6) in frame (5).
6. 6. wear-resisting efficient coating dispersion machine according to claim 1, it is characterised in that the width of described paddle (16) is more than the width of screw blade (10).
7. 7. wear-resisting efficient coating dispersion machine according to claim 1, it is characterised in that be provided with coolant in the space between described cooling layer (17) and sealing cylinder (15).
8. 8. one kind as arbitrary in claim 1-3 as described in the preparation method of wear-resistant coating, it is characterised in that specifically comprise the following steps that

   1) each raw material is weighed according to weight portion；

   2) aliphatic alcohol polyoxyvinethene phosphate, ethyl acetate, zinc stearate, amino resins and tea polyphenols are put into the first stainless steel cauldron and be warming up to 200-250 DEG C, start stirring reaction, a coreaction 3-5h；

   3) in step 2) in reacted 1h after, carborundum, nano-carbon powder, Ludox, sodium tetraborate, butyl and sodium carboxymethyl cellulose are put into the second stainless steel cauldron, it is warming up to 200-250 DEG C, starts stirring reaction, a coreaction 2-4h；

   4) after having reacted, material in first stainless steel cauldron and in the second stainless steel cauldron is all put in the 3rd stainless steel cauldron, with the programming rate stirring reaction 4-6h of 30-40 DEG C/h, after reacting one hour, add hydroxyethyl cellulose and antistatic additive；

   5) after having reacted, material in 3rd stainless steel cauldron is taken out, and shake mixing 20-40min, then pass through double screw extruder extrusion, temperature controls at 90-110 DEG C, extrude rear material left 8-12min, be then placed in pulverizer grinding to 190-225 order obtaining wear-resisting powder；

   6) the wear-resisting powder obtained is coated with to screw blade (10) and paddle (16), obtains wear-resistant coating.