CN113304673A

CN113304673A - Preparation facilities of antidetonation cutter protective coating

Info

Publication number: CN113304673A
Application number: CN202110596368.9A
Authority: CN
Inventors: 杨章生
Original assignee: Nanjing Haolong Cutting Tool Manufacturing Co ltd
Current assignee: Nanjing Guantai Roller Industry Co ltd
Priority date: 2021-05-30
Filing date: 2021-05-30
Publication date: 2021-08-27
Anticipated expiration: 2041-05-30
Also published as: CN113304673B

Abstract

The invention relates to the technical field of cutter coating preparation devices, in particular to a preparation device for an anti-seismic cutter protective coating, which comprises a preparation mechanism, wherein the preparation mechanism comprises a control console, one side of the control console is connected with a placing table, the top end of the placing table is connected with a preparation bin body, the top end of the preparation bin body is connected with a sealing cover, the side surface of the preparation bin body is connected with a connecting screw rod, the bottom end of the preparation bin body is connected with a supporting base, and the upper end of the sealing cover is provided with a preparation proportioning structure. The first conveying unit, the second conveying unit, the third conveying unit and the fourth conveying unit are matched with one another, so that different types of materials can be fed, the proportion of the materials can be better controlled during preparation of a coating, after the feeding amount is controlled, the different materials are mixed through random combination of the mixing tank and the material distributing tank body, and the operation is more flexible.

Description

Preparation facilities of antidetonation cutter protective coating

Technical Field

The invention relates to the technical field of cutter coating preparation devices, in particular to a preparation device of an anti-seismic cutter protective coating.

Background

A tool is a tool used for cutting machining in machine manufacturing, and is also called a cutting tool. Most knives are machine, but also hand-held. Since the tools used in machine manufacturing are basically used for cutting metal materials, the protection of the tools is increased by adding a coating in order to enhance the resistance of the tools during the use of the tools, so that the flexibility and the resistance of the tools can enable the tools to obtain good machining effects.

In the prior art, in the preparation and production of a cutter coating, different materials are mixed together according to the proportion, the mixture is prepared through mixing, and then a metal mixed coating is prepared; new electrons fly to the substrate, Ar ions are accelerated to fly to the cathode target under the action of an electric field, and bombard the surface of the target at high energy, so that the target is sputtered. In the sputtering particles, neutral target atoms or molecules are deposited on a substrate to form a film, and generated secondary electrons are subjected to the action of an electric field and a magnetic field to generate directional drift indicated by E (electric field) × B (magnetic field), which is abbreviated as E × B drift, and the motion track of the E × B drift is similar to that of magnetron sputtering. In the previous preparation of the raw materials, the proportioning is completed by mixing, but the arrangement sequence of different materials in the proportioning is single, and the process of adding different materials is relatively complex.

In the prior art, the problems are solved by a preparation device for an anti-vibration cutter protective coating, which is needed to be designed to solve the problems by combining the single arrangement and combination of material mixing, proportioning and proportioning.

Disclosure of Invention

The invention aims to provide a preparation device of an anti-seismic cutter protective coating, which aims to solve the problem of single preparation mixing ratio in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a preparation device of an anti-vibration cutter protective coating comprises a preparation mechanism, wherein the preparation mechanism comprises a control console, one side of the control console is connected with a placing table, the top end of the placing table is connected with a preparation bin body, the top end of the preparation bin body is connected with a sealing cover, the side surface of the preparation bin body is connected with a connecting screw rod, the bottom end of the preparation bin body is connected with a supporting base, the upper end of the sealing cover is provided with a preparation proportioning structure, the preparation proportioning structure comprises a first conveying unit, the upper end of the sealing cover is provided with an installation notch, the inside of the installation notch is connected with a first conveying unit in an embedded manner, one side of the first conveying unit is provided with a second conveying unit, one side of the second conveying unit is provided with a third conveying unit, one side of the third conveying unit is provided with a fourth conveying unit, and the inside, the mixing structure comprises a mixing tank, the inside of the preparation cabin body is embedded and connected with the mixing tank, the inside of the preparation cabin body is embedded and connected with a sealing sleeve, the inside of the sealing sleeve is embedded and connected with a separation blade, the tail end of the separation blade is connected with a top rod, the outer wall of the top rod is connected with a stirring paddle, a connecting port is formed in the inside of the top rod, the bottom end of the preparation cabin body is connected with a push rod, the inside of the push rod is embedded and connected with a tension spring, the top end of the tension spring is connected with a top ball, the inside of the preparation cabin body is provided with a stirring plate, and the outer wall of the stirring plate is connected with a scraping strip.

Preferably, the mounting notches are provided with four groups, four groups of mounting notches are equidistantly arranged on the upper wall of the sealing cover, and a first conveying unit, a second conveying unit, a third conveying unit and a fourth conveying unit are embedded into the mounting notches.

Preferably, the outer wall of the mixing tank is connected with a toothed ring, the bottom end of the mixing tank is connected with a bottom supporting plate, the upper end of the bottom supporting plate is connected with a sealing sheet, and the inner wall of the mixing tank is connected with a separation block.

Preferably, the gasket and the bottom plate are connected through the connecting shaft in a rotating mode, sealing rubber pads are arranged on the outer wall of the gasket and the inside of the bottom plate, the separation blocks are arranged into a cross shape, and the separation blocks divide the mixing tank into four parts.

Preferably, the separation block is embedded and connected with the separation block, the upper end of the separation block is provided with a hollow groove, the hollow groove is embedded and connected with an inner lining sheet, the top end of the inner lining sheet is connected with a sliding rod, and the outer side of the mixing groove is connected with a driving gear.

Preferably, the lining sheet is arranged in a fan shape, the lining sheet is connected with the empty groove in a sliding mode, and the top end of the partition block is provided with an arc-shaped open groove.

Preferably, the bottom of bottom plate is connected with the swivel becket, the bottom of swivel becket is connected with divides the material cell body, swivel becket and bottom plate rotate to be connected, the swivel becket rotates with dividing the material cell body to be connected, divide the inside of material cell body to set up criss-cross division board.

Preferably, the tail end of the push rod is connected with an adjusting structure, the adjusting structure comprises an adjusting rod, the tail end of the push rod is connected with the adjusting rod, the adjusting rod is embedded in the outer sleeve, the outer wall of the outer sleeve is connected with a stirring plate, the inner part of the outer sleeve is embedded and connected with a rack, the inner part of the outer sleeve is embedded and connected with a rotating tooth, and the top end of the rotating tooth is connected with a top plate.

Preferably, one side of the bottom end of the top plate is connected with a hydraulic rod, the upper output end of the hydraulic rod is connected with a pressing plate, the hydraulic rod is movably connected with the pressing plate through an articulated shaft, the pressing plate is arranged into a circular arc shape, and the pressing plate is connected to the upper end of the top plate through the articulated shaft.

Preferably, the tail end of the outer sleeve is connected with the inside of the preparation bin body, the outer sleeve penetrates through the bottom end of the preparation bin body and extends to the inside of the preparation bin body, and the bottom end of the outer sleeve is connected with a driving motor.

Compared with the prior art, the invention has the beneficial effects that:

1. this preparation facilities of antidetonation cutter protective coating is through being provided with first transport unit, the second transport unit, mutually support between third transport unit and the fourth transport unit, can realize carrying out the feeding to different kind of materials, when carrying out the preparation of coating, proportion between each material of control that can be better, what back has been controlled the feed volume, through the mixing tank and divide arbitrary combination between the material cell body, the mixing between to different materials has been realized, it is more nimble in the operation, sixteen different kind's materials can be proportioned in advance, and then can be more convenient in the preparation ratio of coating, and then can promote the efficiency of preparation, can prepare out different kind's coating through the difference of kind.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic side sectional view of the cartridge and seal cover of the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 2 at A according to the present invention;

FIG. 4 is a schematic view of the front cross-sectional structure of the adjusting lever and the rack of the present invention;

FIG. 5 is a schematic front view of the rotary tooth and the wafer of the present invention;

FIG. 6 is a schematic top view of the divider block and mixing tank of the present invention;

FIG. 7 is a schematic view of an exploded view of the sealing plate and bottom bracket plate of the present invention;

fig. 8 is an enlarged view of the structure at B in fig. 7 according to the present invention.

In the figure: 1. a preparation mechanism; 110. a console; 120. a placing table; 130. preparing a bin body; 140. a sealing cover; 150. connecting a screw rod; 160. a support base; 2. preparing a proportioning structure; 210. a first conveying unit; 220. a second conveying unit; 230. a third conveying unit; 240. a fourth conveying unit; 250. installing a notch; 260. a toothed ring; 270. sealing the sheet; 280. a bottom pallet; 290. a separation block; 2110. dividing blocks; 2120. a rotating ring; 2130. a material distributing groove body; 2140. an inner liner; 2150. an empty groove; 2160. a slide bar; 2170. a drive gear; 3. a hybrid structure; 310. a mixing tank; 320. a separator; 330. a stirring paddle; 340. stirring the plate; 350. scraping the strips; 360. a top rod; 370. sealing sleeves; 380. a connecting port; 390. ejecting the ball; 3110. a push rod; 3120. a tension spring; 4. an adjustment structure; 410. adjusting a rod; 420. a rack; 430. a topsheet; 440. a hydraulic lever; 450. rotating the teeth; 460. tabletting; 470. an outer sleeve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, an embodiment of the present invention:

a preparation device of an anti-vibration cutter protective coating comprises a preparation mechanism 1, wherein the preparation mechanism 1 comprises a control console 110, one side of the control console 110 is connected with a placing table 120, the top end of the placing table 120 is connected with a preparation bin 130, the top end of the preparation bin 130 is connected with a sealing cover 140, the side surface of the preparation bin 130 is connected with a connecting screw 150, the bottom end of the preparation bin 130 is connected with a supporting base 160, the upper end of the sealing cover 140 is provided with a preparation proportioning structure 2, the preparation proportioning structure 2 comprises a first conveying unit 210, the upper end of the sealing cover 140 is provided with an installation notch 250, the installation notch 250 is embedded and connected with the first conveying unit 210, one side of the first conveying unit 210 is provided with a second conveying unit 220, one side of the second conveying unit 220 is provided with a third conveying unit 230, one side of the third conveying unit 230 is provided with a fourth conveying unit 240, the, the mixing structure 3 comprises a mixing tank 310, the mixing tank 310 is connected to the inside of the preparation bin 130 in an embedded manner, a sealing sleeve 370 is connected to the inside of the preparation bin 130 in an embedded manner, a separating sheet 320 is connected to the inside of the sealing sleeve 370 in an embedded manner, a top rod 360 is connected to the tail end of the separating sheet 320, a stirring paddle 330 is connected to the outer wall of the top rod 360, a connecting port 380 is formed in the top rod 360, a push rod 3110 is connected to the bottom end of the preparation bin 130, a tension spring 3120 is connected to the inside of the push rod 3110 in an embedded manner, a top ball 390 is connected to the top end of the tension spring 3120, a stirring plate 340 is arranged inside the preparation bin 130, a scraping strip 350 is connected to the outer wall of the stirring plate 340, an adjusting structure 4 is connected to the tail end of the push rod 3110, the adjusting rod 410 is connected to the tail end of the push rod 3110, the raw materials are mixed and prepared, and the raw materials are combined with each other through the mixing tank 310 and the material distributing tank 2130 in the preparation process of the previous stage, the materials of different types can be proportioned, so that the coating preparation is more convenient and fast, and the preparation efficiency is further accelerated.

Further, four sets of mounting notches 250 are arranged, the four sets of mounting notches 250 are equidistantly arranged on the upper wall of the sealing cover 140, the first conveying unit 210, the second conveying unit 220, the third conveying unit 230 and the fourth conveying unit 240 are connected to the mounting notches 250 in an embedded manner, and the first conveying unit 210, the second conveying unit 220, the third conveying unit 230 and the fourth conveying unit 240 are four different types of materials and can be reasonably controlled in dosage when proportioning and mixing are carried out, so that the subsequent processing production is simpler and more convenient.

Further, the outer wall of the mixing tank 310 is connected with a toothed ring 260, the bottom end of the mixing tank 310 is connected with a bottom supporting plate 280, the upper end of the bottom supporting plate 280 is connected with a sealing sheet 270, the inner wall of the mixing tank 310 is connected with a separation block 290, the sealing sheet 270 is rotatably connected with the bottom supporting plate 280 through a connecting shaft, sealing rubber pads are arranged on the outer wall of the sealing sheet 270 and inside of the bottom supporting plate 280, the separation block 290 is arranged in a cross shape, the separation block 290 equally divides the mixing tank 310 into four parts, different types of materials are contained through separation of the separation block 290, one-to-one correspondence is carried out on the materials inside the mixing tank 310 and the materials inside the material distribution tank body 2130, and diversification of proportioning is achieved.

Furthermore, a breaking block 2110 is embedded and connected inside the separating block 290, a hollow groove 2150 is formed at the upper end of the breaking block 2110, an inner lining sheet 2140 is embedded and connected inside the hollow groove 2150, a sliding rod 2160 is connected to the top end of the inner lining sheet 2140, a driving gear 2170 is connected to the outer side of the mixing tank 310, the inner lining sheet 2140 is arranged in a fan shape, the inner lining sheet 2140 is slidably connected with the hollow groove 2150, an arc-shaped groove is formed at the top end of the breaking block 2110, when the inner lining sheet 2140 is unfolded, the inner lining sheet directly covers the upper end of the sealing sheet 270, so that the sealing sheet 270 and the bottom support plate 280 are forced to be kept in a horizontal state, wherein materials loaded inside the mixing tank 310 at the upper end of the breaking block 2110 cannot leak into the dividing tank 2130, when the inner lining sheet 2140 is embedded inside the hollow groove 2150, the sealing sheet 270 starts to deflect under the action of a torsion spring without squeezing, and returns to an initial state, at this time, a gap between the sealing sheet 270 and the bottom support plate 280, the materials at the upper end fall into the material distributing groove 2130, and different types of materials are mixed under different combination conditions.

Further, the bottom end of the bottom supporting plate 280 is connected with a rotating ring 2120, the bottom end of the rotating ring 2120 is connected with a material distribution groove 2130, the rotating ring 2120 is rotatably connected with the bottom supporting plate 280, the rotating ring 2120 is rotatably connected with the material distribution groove 2130, a cross-shaped partition plate is arranged inside the material distribution groove 2130, through the design of the partition plate, the materials inside are partitioned, further more kinds of materials can be loaded, and different kinds of coatings can be prepared when the materials are mixed.

Further, the adjusting rod 410 is embedded in the outer sleeve 470, the outer wall of the outer sleeve 470 is connected with the stirring plate 340, the inner embedded of the outer sleeve 470 is connected with the rack 420, the inner embedded of the outer sleeve 470 is connected with the rotating teeth 450, the top end of the rotating teeth 450 is connected with the top plate 430, the tail end of the outer sleeve 470 is connected with the inside of the preparation bin 130, the outer sleeve 470 penetrates through the bottom end of the preparation bin 130 and extends to the inside of the preparation bin 130, the bottom end of the outer sleeve 470 is connected with the driving motor, through the use of the driving motor, the rotation of the push rod 3110 is driven, when the push rod 3110 is connected with the ejector rod 360, the rotation of the push rod 3110 drives the rotation of the stirring paddle 330, further, the materials are mixed through the stirring paddle 330, and the residue in the preparation bin 130 is scraped through the scraping strip 350.

Further, the hydraulic rod 440 is connected to one side of the bottom end of the top plate 430, the pressing plate 460 is connected to the upper output end of the hydraulic rod 440, the hydraulic rod 440 and the pressing plate 460 are movably connected through an articulated shaft, the pressing plate 460 is arranged in a circular arc shape, the pressing plate 460 is connected to the upper end of the top plate 430 through the articulated shaft, the pressing plate 460 is clamped on the outer wall of the rotating tooth 450 through pushing of the hydraulic rod 440, and then the rotation of the rotating tooth 450 is limited, and a limiting effect is achieved.

The working principle is as follows: magnetron sputtering is one kind of physical vapor deposition, a general sputtering method can be used for preparing various materials such as metal, semiconductor, insulator and the like, and has the advantages of simple equipment, easy control, large coating area, strong adhesive force and the like, the magnetron sputtering method developed in the last 70 th century realizes high speed, low temperature and low damage, because the high-speed sputtering is carried out under low pressure, the ionization rate of gas must be effectively improved, and the magnetron sputtering improves the plasma density by introducing a magnetic field on the surface of a target cathode and utilizing the restraint of the magnetic field on charged particles to increase the sputtering rate.

The working principle of magnetron sputtering is that electrons collide with argon atoms in the process of flying to a substrate under the action of an electric field E, so that the argon atoms are ionized to generate Ar positive ions and new electrons; new electrons fly to the substrate, Ar ions accelerate to fly to a cathode target under the action of an electric field and bombard the surface of the target at high energy to sputter the target, neutral target atoms or molecules in sputtered particles are deposited on the substrate to form a film, generated secondary electrons are subjected to the action of the electric field and the magnetic field to generate direction drift indicated by an E electric field multiplied by B magnetic field, E multiplied by B drift for short, the motion track of the E electric field multiplied by B drift is similar to a cycloid, if the secondary electrons are in a ring magnetic field, the electrons circularly move on the surface of the target in a similar cycloid form, the motion paths of the electrons are not only long, but also bound in a plasma area close to the surface of the target, and a large amount of Ar is ionized in the area to bombard the target, so that the high deposition rate is realized, the energy of the secondary electrons is consumed completely along with the increase of collision times, gradually gets away from the surface of the target and finally deposits on the substrate under the action of the electric field E, since the energy of the electrons is very low, the energy transferred to the substrate is very small, resulting in a low temperature rise of the substrate.

Magnetron sputtering is a process of collision of incident particles with a target, where the incident particles undergo a complex scattering process in the target, and collide with target atoms, transferring part of their momentum to the target atoms, which in turn collide with other target atoms, forming a cascade process. In such a cascade process, certain target atoms near the surface gain enough momentum to move outward, away from the target, to be sputtered.

Before magnetron sputtering operation, raw materials are prepared by the preparation device, during preparation, as the raw materials are mixture and need to be proportioned and mixed, when proportioning is carried out, different types of materials are filled into the preparation cabin body 130 through the first conveying unit 210, the second conveying unit 220, the third conveying unit 230 and the fourth conveying unit 240, when the materials enter the preparation cabin body 130 in advance, falling of the materials is controlled through the separating sheet 320, when the separating sheet 320 is embedded into the sealing sleeve 370, the materials at the upper end can not reach the bottom end of the preparation cabin body 130, when the separating sheet 320 is separated from the sealing sleeve 370, falling of the materials is realized, when the materials enter the mixing groove 310, the materials are separated through the separating block 290 in the mixing groove 310, different materials enter different positions, and mixing between the materials is avoided, the material in the mixing tank 310 falls through the notch at the position of the breaking block 2110 by sliding the inner lining sheet 2140, the material enters the inside of the material distributing tank 2130 through the through hole between the sealing sheet 270 and the bottom supporting plate 280, a group of materials at the upper end of the mixing tank 310 enter the inside of the material distributing tank 2130 and are mixed with a group of materials in the inside of the material distributing tank 2130, the mixture ratio of the coating is completed after the mixture is performed, and the later preparation is more convenient after the mixture ratio is completed in the earlier stage. Through rotating and combining the mixing tank 310 and the material distributing tank 2130 at the lower end, the proportioning of different types of materials is realized, for example, when the first group of materials at the upper end can be mixed with the first group of materials, the second group of materials, the third group of materials and the fourth group of materials at the lower end at will, different material proportioning is realized through a one-to-one correspondence mode.

After the matching between the materials is completed, the rotating teeth 450 are pushed upwards, so that the rotating teeth 450 roll on the rack 420, when the rotating teeth 450 rise, the adjusting rods 410 are driven to rise, when the adjusting rods 410 rise, the push rods 3110 rise, when the push rods 3110 are embedded into the connecting ports 380, the connection between the push rods 3110 and the ejector rods 360 is realized, when the driving motors drive the push rods 3110 to rotate, the stirring plates 340 can be driven to rotate, when the stirring plates 340 rotate, the materials in the stirring plates are mixed, and the inner walls of the stirring plates are cleaned through the scraping strips 350. The neatness of the device preparation operation is improved.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a preparation facilities of antidetonation cutter protective coating, includes preparation mechanism (1), its characterized in that: the preparation mechanism (1) comprises a control console (110), one side of the control console (110) is connected with a placing table (120), the top end of the placing table (120) is connected with a preparation bin body (130), the top end of the preparation bin body (130) is connected with a sealing cover (140), the side surface of the preparation bin body (130) is connected with a connecting screw rod (150), the bottom end of the preparation bin body (130) is connected with a supporting base (160), the upper end of the sealing cover (140) is provided with a preparation proportioning structure (2), the preparation proportioning structure (2) comprises a first conveying unit (210), the upper end of the sealing cover (140) is provided with an installation notch (250), the installation notch (250) is embedded and connected with the first conveying unit (210), one side of the first conveying unit (210) is provided with a second conveying unit (220), one side of the second conveying unit (220) is provided with a third conveying unit (230), a fourth conveying unit (240) is arranged on one side of the third conveying unit (230), a mixing structure (3) is embedded and connected in the preparation bin body (130), the mixing structure (3) comprises a mixing groove (310), the mixing groove (310) is embedded and connected in the preparation bin body (130), a sealing sleeve (370) is embedded and connected in the preparation bin body (130), a separating sheet (320) is embedded and connected in the sealing sleeve (370), the tail end of the separating sheet (320) is connected with a top rod (360), the outer wall of the top rod (360) is connected with a stirring paddle (330), a connecting port (380) is formed in the top rod (360), a push rod (3110) is connected at the bottom end of the preparation bin body (130), a tension spring (3120) is connected in the push rod (3110), and a top ball (390) is connected at the top end of the tension spring (3120), the preparation bin body (130) is internally provided with a stirring plate (340), and the outer wall of the stirring plate (340) is connected with a scraping strip (350).

2. The apparatus for preparing an anti-vibration protective coating for cutting tools according to claim 1, wherein: the mounting notches (250) are provided with four groups, the mounting notches (250) are equidistantly arranged on the upper wall of the sealing cover (140), and a first conveying unit (210), a second conveying unit (220), a third conveying unit (230) and a fourth conveying unit (240) are embedded and connected into the mounting notches (250).

3. The apparatus for preparing an anti-vibration protective coating for cutting tools according to claim 1, wherein: the outer wall of mixing tank (310) is connected with ring gear (260), the bottom of mixing tank (310) is connected with bottom plate (280), the upper end of bottom plate (280) is connected with sealing fin (270), the inner wall of mixing tank (310) is connected with separates piece (290).

4. The apparatus for preparing an anti-vibration protective coating for cutting tools according to claim 3, wherein: the sealing plate (270) and the bottom supporting plate (280) are rotationally connected through a connecting shaft, sealing rubber pads are arranged on the outer wall of the sealing plate (270) and inside of the bottom supporting plate (280), the separating block (290) is arranged into a cross shape, and the separating block (290) equally divides the mixing tank (310) into four parts.

5. The apparatus for preparing an anti-vibration protective coating for cutting tools according to claim 4, wherein: the inside embedding of division piece (290) is connected with and divides piece (2110), the upper end of dividing piece (2110) is seted up empty groove (2150), the inside embedding of empty groove (2150) is connected with lining piece (2140), slide bar (2160) is connected to the top of lining piece (2140), the outside of mixing tank (310) is connected with drive gear (2170).

6. The apparatus for preparing an anti-vibration protective coating for cutting tools according to claim 5, wherein: the inner lining piece (2140) is arranged in a fan shape, the inner lining piece (2140) is connected with the empty groove (2150) in a sliding mode, and the top end of the partition block (2110) is provided with an arc-shaped groove.

7. The apparatus for preparing an anti-vibration protective coating for cutting tools according to claim 3, wherein: the bottom end of the bottom supporting plate (280) is connected with a rotating ring (2120), the bottom end of the rotating ring (2120) is connected with a material distribution groove body (2130), the rotating ring (2120) is rotatably connected with the bottom supporting plate (280), the rotating ring (2120) is rotatably connected with the material distribution groove body (2130), and a cross-shaped partition plate is arranged inside the material distribution groove body (2130).

8. The apparatus for preparing an anti-vibration protective coating for cutting tools according to claim 1, wherein: the utility model discloses a push rod (3110) is characterized in that the end-to-end connection of push rod (3110) has adjusts structure (4), adjust structure (4) including adjusting pole (410), the end-to-end connection of push rod (3110) has regulation pole (410), adjust pole (410) embedding in the inside of outer sleeve (470), the outer wall connection of outer sleeve (470) has stirring board (340), the inside embedding of outer sleeve (470) is connected with rack (420), the inside embedding of outer sleeve (470) is connected with commentaries on classics tooth (450), the top of commentaries on classics tooth (450) is connected with top piece (430).

9. The apparatus for preparing an anti-vibration protective coating for cutting tools according to claim 8, wherein: one side of the bottom end of the top plate (430) is connected with a hydraulic rod (440), the upper output end of the hydraulic rod (440) is connected with a pressing plate (460), the hydraulic rod (440) and the pressing plate (460) are movably connected through a hinged shaft, the pressing plate (460) is arranged in a circular arc shape, and the pressing plate (460) is connected to the upper end of the top plate (430) through a hinged shaft.

10. The apparatus for preparing an anti-vibration protective coating for cutting tools according to claim 8, wherein: the tail end of the outer sleeve (470) is connected with the inside of the preparation cabin body (130), the outer sleeve (470) penetrates through the bottom end of the preparation cabin body (130) and extends to the inside of the preparation cabin body (130), and the bottom end of the outer sleeve (470) is connected with a driving motor.