CN115284157B

CN115284157B - Ball mill for preparing electronic chemicals

Info

Publication number: CN115284157B
Application number: CN202210885760.XA
Authority: CN
Inventors: 石索斯
Original assignee: Henan Hongji Mine Machinery Co ltd
Current assignee: Henan Hongji Mine Machinery Co ltd
Priority date: 2022-07-26
Filing date: 2022-07-26
Publication date: 2024-02-06
Anticipated expiration: 2042-07-26
Also published as: CN115284157A

Abstract

The invention discloses a ball mill for preparing electronic chemicals, which structurally comprises an observation window, a rotating mechanism and a controller, wherein the observation window is embedded in the upper end of the rotating mechanism, the controller is arranged at the upper end of the right side of the rotating mechanism, chemical materials slide clockwise on a guide structure, when the chemical materials slide to the half of the inner side of a sliding ring under the reverse rotating force, the chemical materials are thrown to a stress structure, the buffer structure is impacted by the chemical materials under the deviation force of the chemical material throwing, a stress plate drives a sliding plate to slide outside a rotating shaft when the chemical materials are impacted, and the buffer is carried out under the blocking of an inclined plate, so that the chemical materials are prevented from being damaged due to overlarge impact force, the collision of different electronic chemicals of a regular substitution pin is avoided, the generation of gaps of the chemical materials are prevented, the irregular shape of the chemical materials is flattened under the friction of a friction block, meanwhile, the chemical materials are compressed and rubbed under the guide of the guide structure of the inner side of the sliding ring, and the stress is prevented from being smaller when the chemical materials are polished.

Description

Ball mill for preparing electronic chemicals

Technical Field

The invention relates to the field of electronic chemical preparation, in particular to a ball mill for electronic chemical preparation.

Background

The electronic chemicals refer to special chemicals which are practical in the electronic industry, and solid materials need to be ground into a spherical structure during preparation, so that the chemicals and grinding powder are rubbed and rotated in a rotating mode, and the chemicals repeatedly move in the grinding powder and rub by the aid of inertia force generated by the friction rotation.

Planetary ball mill makes the material grind through striking and friction, utilizes rotatory inertial force to make the material, but the material can strike the inner wall when rotatory grinding, and under the great circumstances of material size difference, rotatory inertial force when grinding can make the material collide each other, and rotatory inertial's effort is great, can produce less breach after the material is collided each other to the impact, influences the material and grinds spherical effect.

Disclosure of Invention

The invention is realized by the following technical scheme: the utility model provides a ball mill is used in electronic chemistry article preparation, its structure includes observation window, slewing mechanism, controller, the observation window is built in inside slewing mechanism upper end, the controller is installed in slewing mechanism right side upper end, slewing mechanism is equipped with revolution mechanic, rolling disc, mechanical box, inductor, grinding case, the revolution mechanic lower extreme is built in rolling disc left side upper end, the rolling disc lower extreme is installed in mechanical case upper end, the mechanical case is installed in grinding case inside lower extreme, the inductor is connected with the machinery case electricity, the inductor block is on grinding case inside right side, the observation window is built in inside grinding case upper end, the controller is installed in grinding case right side upper end, inside rotatable mechanical structure that is equipped with.

As a further improvement of the invention, the rotary structure is provided with a fixer, a rotator and a grinding structure, the lower end of the fixer is attached to the upper surface of the grinding structure, the lower end of the grinding structure is in friction fit with the inner bottom of the rotator, the left side and the right side of the fixer are clamped in the upper end of the rotator, the lower end of the grinding structure is embedded in the left upper end of the rotating disc, and the bottom of the rotator is provided with a rubber material, so that the friction force is high.

As a further improvement of the invention, the grinding structure is provided with a stress structure, a sliding ring, a guiding structure and a fixed disc, the middle of the stress structure is welded in the fixed disc, the outer side of the guiding structure is arranged on the inner side of the sliding ring, the sliding ring and the stress structure are positioned on the same central axis, the bottom end of the fixed disc is in friction fit with the bottom in the rotator, the lower end of the fixer is attached to the upper surface of the sliding ring, and the guiding structure is of a triangular structure and has guiding effect.

As a further improvement of the invention, the stress structure is provided with the extrusion plates, the buffer structure, the rubber blocks and the rotating shafts, the extrusion plates are embedded and fixed on the outer sides of the upper end and the lower end of the buffer structure, the inner sides of the upper end and the lower end of the buffer structure are in sliding fit with the outer sides of the rotating shafts, the outer sides of the rubber blocks are clamped on the inner sides of the left end and the right end of the buffer structure, the inner sides of the rubber blocks are attached on the outer sides of the left end and the right end of the rotating shafts, the middle bottom of the rotating shafts is welded in the fixing disc, the rotating shafts and the stress structure are positioned on the same central axis, the extrusion plates are made of aluminum alloy materials, the characteristics of easy bending and compression are achieved, and the surface of the extrusion plates has a smoother effect.

As a further improvement of the invention, the buffer structure is provided with a stress plate, a compression plate, a sliding plate and an inclined plate, wherein the compression plate is clamped at the upper end of the inside of the stress plate, the sliding plate is fixedly embedded at the upper end of the compression plate, the inclined plate is arranged at the left side and the right side of the upper end of the sliding plate, the extrusion plate is fixedly embedded at the outer side of the lower end of the stress plate, the inner side of the upper end of the compression plate is in sliding fit with the outer side of a rotating shaft, the outer side of a rubber block is clamped at the inner sides of the left end and the right end of the stress plate, and the compression plate is made of rubber material and has the characteristic of easy compression.

As a further improvement of the invention, the guide structure is provided with a sealing plate, a friction structure, a fixed plate and a spring, the right end of the friction structure is embedded and fixed on the inner side of the fixed plate, the lower end of the spring is welded on the inner side of the fixed plate, the upper end of the spring is arranged on the inner side of the lower end of the friction structure, the upper end of the sealing plate is attached to the lower end of the left side of the friction structure, the lower end of the sealing plate is clamped in the fixed plate, the outer side of the fixed plate is arranged on the inner side of the sliding ring, and the sealing plate is made of rubber and has the characteristic of easy deformation and expansion and has certain sealing performance.

As a further improvement of the invention, the friction structure is provided with a friction block, an arc-shaped plate and a bending plate, the friction block is embedded and fixed on the surface of the arc-shaped plate, the arc-shaped plate is arranged on the side surface of the bending plate, the right end of the bending plate is embedded and fixed on the inner side of the fixing plate, the upper end of the spring is arranged on the inner side of the lower end of the bending plate, the upper end of the sealing plate is attached to the lower end of the left side of the bending plate, and the surface of the arc-shaped plate is made of aluminum alloy and is of an arc-shaped structure, so that the friction structure has a smooth surface effect.

Advantageous effects

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

1. the chemical material slides clockwise on the guide structure, when the chemical material slides to the half of the inner side of the slip ring under the reverse rotating force, the chemical material swings to the stress structure, so that the chemical material slides again under the sliding guide of the stress structure, the buffer structure is impacted by the chemical material under the swing offset force of the chemical material, the stress plate drives the sliding plate to slide outside the rotating shaft when the chemical material is impacted, the sliding force is compressed through the compression plate, and meanwhile, the chemical material is buffered under the blocking of the inclined plate, so that the chemical material is prevented from being damaged due to overlarge impact force, the impact between the chemical products is prevented, the electronic chemical products with different regular pins are prevented from being collided, and the chemical products are prevented from being notched.

2. Under the rotation centrifugal force, the chemical material slides and rubs in the guide structure of the sliding ring inner side, so that the friction structure is compressed, the chemical material generates sliding grinding under the elasticity of the spring, under the constant rotation centrifugal force, the chemical material can generate extrusion effect except sliding friction force on the surface of the friction structure, the chemical material ball milling effect is enhanced, the friction block is subjected to sliding friction of the chemical material, the bending plate is driven to bend and extrude the spring, the irregular shape of the chemical material is flattened under the friction of the friction block, and meanwhile, the chemical material is compressed and rubbed under the guide of the guide structure of the sliding ring inner side, so that the stress is small when the chemical material grinding is avoided.

Drawings

FIG. 1 is a schematic structural view of a ball mill for preparing electronic chemicals according to the present invention.

Fig. 2 is a schematic side view of a rotating mechanism according to the present invention.

Fig. 3 is a schematic side view of a rotary structure according to the present invention.

Fig. 4 is a schematic top view of a polishing structure according to the present invention.

Fig. 5 is a schematic top view of a stress structure according to the present invention.

FIG. 6 is a schematic top view of a buffer structure according to the present invention.

Fig. 7 is a schematic top view of a guiding structure according to the present invention.

Fig. 8 is a schematic perspective view of a friction structure according to the present invention.

In the figure: the device comprises an observation window-1, a rotating mechanism-2, a controller-3, a rotating structure-21, a rotating disc-22, a mechanical box-23, an inductor-24, a grinding box-25, a fixer-211, a rotator-212, a grinding structure-213, a stress structure-e 1, a sliding ring-e 2, a guiding structure-e 3, a fixed disc-e 4, a squeeze plate-a 1, a buffer structure-a 2, a rubber block-a 3, a rotating shaft-a 4, a stress plate-a 21, a compression plate-a 22, a sliding plate-a 23, an inclined plate-a 24, a sealing plate-w 1, a friction structure-w 2, a fixed plate-w 3, a spring-w 4, a friction block-w 21, an arc plate-w 22 and a bending plate-w 23.

Detailed Description

The technology of the invention is further described below with reference to the accompanying drawings:

example 1:

as shown in fig. 1-6:

the invention relates to a ball mill for preparing electronic chemicals, which structurally comprises an observation window 1, a rotating mechanism 2 and a controller 3, wherein the observation window 1 is embedded in the upper end of the rotating mechanism 2, the controller 3 is installed at the upper right end of the rotating mechanism 2, the rotating mechanism 2 is provided with a rotating structure 21, a rotating disc 22, a mechanical box 23, an inductor 24 and a grinding box 25, the lower end of the rotating structure 21 is embedded in the upper left end of the rotating disc 22, the lower end of the rotating disc 22 is installed at the upper end of the mechanical box 23, the mechanical box 23 is installed at the lower inner end of the grinding box 25, the inductor 24 is electrically connected with the mechanical box 23, the inductor 24 is clamped at the right side of the grinding box 25, the observation window 1 is embedded in the upper right end of the grinding box 25, the controller 3 is installed at the upper right side of the grinding box 25, the inside of the grinding box 12 is provided with a rotatable mechanical structure, the mechanical box 23 is controlled by the controller 3 under the induction of the inductor 24, the rotating structure 22, the rotating disc 22 is driven to rotate, and the rotating structure 21 is reversely rotated by the rotating structure 21, and the rotating structure 21 is driven to grind the chemical inside the rotating structure.

The rotary structure 21 is provided with a fixer 211, a rotator 212 and a grinding structure 213, the lower end of the fixer 211 is attached to the upper surface of the grinding structure 213, the lower end of the grinding structure 213 is in friction fit with the inner bottom of the rotator 212, the left side and the right side of the fixer 211 are clamped inside the upper end of the rotator 212, the lower end of the grinding structure 213 is embedded in the left side upper end of the rotary disc 22, the bottom of the rotator 212 is provided with a rubber material, and the rotary structure has the characteristic of large friction force, and the grinding structure 213 is fixed inside the rotator 212 through the fixer 211, so that electronic chemicals in the grinding structure 213 are rotationally ground under the rotation of the rotator 212.

The grinding structure 213 is provided with a stress structure e1, a sliding ring e2, a guiding structure e3 and a fixed disc e4, the middle of the stress structure e1 is welded inside the fixed disc e4, the outer side of the guiding structure e3 is installed inside the sliding ring e2, the sliding ring e2 and the stress structure e1 are located on the same central axis, the bottom end of the fixed disc e4 is in friction fit with the inner bottom of the rotator 212, the lower end of the fixer 211 is attached to the upper surface of the sliding ring e2, the guiding structure e3 is of a triangular structure, and has a guiding effect, so that when the sliding ring e2 rotates, a chemical material slides clockwise on the guiding structure e3, and when the chemical material slides to half of the inner side of the sliding ring e2 under the reverse rotating force, the chemical material swings to the stress structure e1, and slides inside the sliding ring e2 again under the sliding guide of the stress structure e1, thereby avoiding irregular chemicals from striking each other during the swing.

The device comprises a stress structure e1, a buffer structure a2, rubber blocks a3 and a rotating shaft a4, wherein the stress structure e1 is provided with the extruding plate a1, the buffer structure a2, the rubber blocks a3 and a rotating shaft a4 are fixedly embedded in the outer sides of the upper end and the lower end of the buffer structure a2, the inner sides of the upper end and the lower end of the buffer structure a2 are in sliding fit with the outer sides of the rotating shaft a4, the outer sides of the rubber blocks a3 are clamped in the left end and the right end of the buffer structure a2, the inner sides of the rubber blocks a3 are attached to the outer sides of the left end and the right end of the rotating shaft a4, the middle bottom of the rotating shaft a4 is welded in a fixed disc e4, the rotating shaft a4 and the stress structure e1 are located on the same central axis, the extruding plate a1 is provided with two extruding plates and is made of aluminum alloy materials, the extruding plate a smooth effect is achieved, the surface of the extruding plate a is easy to bend and compress, the extruding plate a chemical material can swing outside the buffer structure a2, the buffering structure a2 rotates outside the buffer structure a4 under the offset force, the chemical material and the chemical material slides outside the buffer structure a4, the chemical material slides outside the chemical material and the chemical material is prevented from the extruding the chemical material a 2.

The buffer structure a2 is provided with a force bearing plate a21, a compression plate a22, a sliding plate a23 and an inclined plate a24, the compression plate a22 is clamped at the upper end inside the force bearing plate a21, the sliding plate a23 is embedded at the upper end of the compression plate a22, the inclined plate a24 is arranged at the left side and the right side of the upper end of the sliding plate a23, the extrusion plate a1 is embedded at the outer side of the lower end of the force bearing plate a21, the inner side of the upper end of the compression plate a22 is in sliding fit with the outer side of the rotating shaft a4, the outer side of the rubber block a3 is clamped at the inner sides of the left end and the right end of the force bearing plate a21, the compression plate a22 is made of rubber materials, and has the characteristic of easy compression, so that the sliding plate a23 is driven to slide at the outer side of the rotating shaft a4 when the force bearing plate a21 is stressed, the sliding force is compressed through the compression plate a22, meanwhile, the inclined plate a24 is prevented from being damaged due to overlarge impact force, and meanwhile, the chemical material is rubbed with the outer side of the buffer structure a2 under the offset force generated when the chemical material is thrown.

The specific use mode and action of the embodiment are as follows:

according to the invention, under the induction of the inductor 24, the mechanical box 23 is controlled by the controller 3 to drive the rotating disc 22 to rotate, so that the sliding ring e2 rotates, chemical materials slide clockwise on the guide structure e3, when the chemical materials slide to the half of the inner side of the sliding ring e2 under the reverse rotation force, the chemical materials are thrown to the stress structure e1, so that the chemical materials slide again on the inner side of the sliding ring e2 under the sliding guide of the stress structure e1, irregular chemical substances can be prevented from striking each other during the throwing, the chemical substances in the rotating structure 21 are thrown to grind, the buffer structure a2 is impacted by the chemical materials under the offset force, the buffer structure a2 rotates on the outer side of the rotating shaft a4, the stress plate a21 drives the sliding plate a23 to slide on the outer side of the rotating shaft a4 under the impact force, the compression plate a22 compresses the sliding force, the chemical materials are buffered under the blocking of the inclined plate a24, the chemical materials are prevented from being damaged due to overlarge impact force, the chemical materials are simultaneously rubbed on the outer side of the buffer structure a2 under the sliding guide of the stress structure e1, the impact force of the buffer structure a1 and the buffer structure a2 are prevented from being different from striking the chemical materials on the outer side of the buffer structure a2, and the impact of the chemical materials are prevented from being generated on the outer side of the buffer structure a2, and the buffer structure a is prevented from striking the chemical material is prevented from being different from striking the impact structure a 2.

Example 2:

as shown in fig. 7-8:

the guiding structure e3 is provided with a sealing plate w1, a friction structure w2, a fixing plate w3 and a spring w4, the right end of the friction structure w2 is embedded and fixed inside the fixing plate w3, the lower end of the spring w4 is welded inside the fixing plate w3, the upper end of the spring w4 is mounted inside the lower end of the friction structure w2, the upper end of the sealing plate w1 is attached to the lower end of the left side of the friction structure w2, the lower end of the sealing plate w1 is clamped inside the fixing plate w3, the outer side of the fixing plate w3 is mounted inside the sliding ring e2, the sealing plate w1 is made of rubber, has the characteristic of easy deformation and expansion, and has certain sealing performance, so that chemical materials slide and rub in the guiding structure e3 inside the sliding ring e2 under the rotation centrifugal force, the friction structure w2 is compressed, the chemical materials slide and grind under the elasticity of the spring w4, the chemical materials slide and the extrusion effect are generated on the surface of the friction structure w2 under the constant rotation centrifugal force, and the chemical materials ball milling effect is enhanced.

The friction structure w2 is provided with a friction block w21, an arc plate w22 and a bending plate w23, the friction block w21 is fixedly embedded on the surface of the arc plate w22, the arc plate w22 is installed on the side face of the bending plate w23, the right end of the bending plate w23 is fixedly embedded inside a fixed plate w3, the upper end of a spring w4 is installed inside the lower end of the bending plate w23, the upper end of a sealing plate w1 is attached to the lower end of the left side of the bending plate w23, the surface of the arc plate w22 is made of aluminum alloy and is of an arc-shaped structure, the effect of surface smoothness is achieved, the friction block w21 is subjected to sliding friction of chemical materials, the bending plate w23 is driven to bend and squeeze the spring w4, irregular shapes of the chemical materials are flattened under the friction of the friction block w21, meanwhile, the chemical materials are compressed and rubbed under the guidance of a guide structure e3 inside a sliding ring e2, and the chemical materials are prevented from being stressed slightly during grinding.

The specific use mode and action of the embodiment are as follows:

according to the invention, under the rotation centrifugal force, the chemical material slides and rubs in the guide structure e3 at the inner side of the sliding ring e2, so that the friction structure w2 is compressed, the chemical material generates sliding friction under the elasticity of the spring w4, under the constant rotation centrifugal force, the chemical material can generate an extrusion effect on the surface of the friction structure w2 besides the sliding friction force, the chemical material ball milling effect is enhanced, the friction block w21 is subjected to the sliding friction of the chemical material, the bending plate w23 is driven to bend and extrude towards the spring w4, the irregular shape of the chemical material is flattened under the friction of the friction block w21, and meanwhile, the chemical material is compressed and rubbed under the guide of the guide structure e3 at the inner side of the sliding ring e2, so that the chemical material is prevented from being stressed less during grinding.

By using the technical scheme of the invention, or under the inspired by the technical scheme of the invention, a similar technical scheme is designed by a person skilled in the art, so that the technical effects are achieved, and the technical effects fall into the protection scope of the invention.

Claims

1. The utility model provides a ball mill is used in electronic chemistry article preparation, its structure includes observation window (1), slewing mechanism (2), controller (3), inside slewing mechanism (2) upper end is inlayed to observation window (1), controller (3) are installed in slewing mechanism (2) right side upper end, its characterized in that:

the rotary mechanism (2) is provided with a rotary structure (21), a rotary disc (22), a mechanical box (23), an inductor (24) and a grinding box (25), wherein the lower end of the rotary structure (21) is embedded and fixed at the upper left end of the rotary disc (22), the lower end of the rotary disc (22) is arranged at the upper end of the mechanical box (23), the mechanical box (23) is arranged at the lower inner end of the grinding box (25), the inductor (24) is electrically connected with the mechanical box (23), the inductor (24) is clamped on the right side of the inner part of the grinding box (25), the observation window (1) is embedded and fixed in the upper right end of the grinding box (25), and the controller (3) is arranged at the upper right end of the grinding box (25);

the rotary structure (21) is provided with a fixer (211), a rotator (212) and a grinding structure (213), the lower end of the fixer (211) is attached to the upper surface of the grinding structure (213), the lower end of the grinding structure (213) is in friction fit with the inner bottom of the rotator (212), the left side and the right side of the fixer (211) are clamped in the upper end of the rotator (212), and the lower end of the grinding structure (213) is embedded in the left upper end of the rotary disc (22);

the grinding structure (213) is provided with a stress structure (e 1), a sliding ring (e 2), a guide structure (e 3) and a fixed disc (e 4), wherein the middle of the stress structure (e 1) is welded inside the fixed disc (e 4), the guide structure (e 3) is arranged on the inner side of the sliding ring (e 2), the sliding ring (e 2) and the stress structure (e 1) are positioned on the same central axis, the bottom end of the fixed disc (e 4) is in friction fit with the inner bottom of the rotator (212), and the lower end of the fixer (211) is attached to the upper surface of the sliding ring (e 2);

the bearing structure (e 1) is provided with an extrusion plate (a 1), a buffer structure (a 2), a rubber block (a 3) and a rotating shaft (a 4), wherein the extrusion plate (a 1) is fixedly embedded at the outer sides of the upper end and the lower end of the buffer structure (a 2), the inner sides of the upper end and the lower end of the buffer structure (a 2) are in sliding fit with the outer sides of the rotating shaft (a 4), the outer sides of the rubber block (a 3) are clamped at the inner sides of the left end and the right end of the buffer structure (a 2), the inner sides of the rubber block (a 3) are attached to the outer sides of the left end and the right end of the rotating shaft (a 4), the middle bottom of the rotating shaft (a 4) is welded inside the fixed disc (e 4), and the rotating shaft (a 4) and the bearing structure (e 1) are positioned on the same central axis;

the buffer structure (a 2) is provided with a stress plate (a 21), a compression plate (a 22), a sliding plate (a 23) and an inclined plate (a 24), wherein the compression plate (a 22) is clamped at the upper end inside the stress plate (a 21), the sliding plate (a 23) is embedded at the upper end of the compression plate (a 22), the inclined plate (a 24) is arranged at the left side and the right side of the upper end of the sliding plate (a 23), the extrusion plate (a 1) is embedded at the outer side of the lower end of the stress plate (a 21), the inner side of the upper end of the compression plate (a 22) is in sliding fit with the outer side of the rotating shaft (a 4), and the outer side of the rubber block (a 3) is clamped at the inner sides of the left end and the right end of the stress plate (a 21);

the guiding structure (e 3) is provided with a sealing plate (w 1), a friction structure (w 2), a fixed plate (w 3) and a spring (w 4), the right end of the friction structure (w 2) is embedded and fixed inside the fixed plate (w 3), the lower end of the spring (w 4) is welded inside the fixed plate (w 3), the upper end of the spring (w 4) is arranged inside the lower end of the friction structure (w 2), the upper end of the sealing plate (w 1) is attached to the left lower end of the friction structure (w 2), the lower end of the sealing plate (w 1) is clamped inside the fixed plate (w 3), and the outer side of the fixed plate (w 3) is arranged inside the sliding ring (e 2);

the friction structure (w 2) is provided with a friction block (w 21), an arc-shaped plate (w 22) and a bending plate (w 23), the friction block (w 21) is embedded and fixed on the surface of the arc-shaped plate (w 22), the arc-shaped plate (w 22) is installed on the side face of the bending plate (w 23), the right end of the bending plate (w 23) is embedded and fixed on the inner side of a fixed plate (w 3), the upper end of a spring (w 4) is installed on the inner side of the lower end of the bending plate (w 23), and the upper end of a sealing plate (w 1) is attached to the left lower end of the bending plate (w 23);

under the induction of the inductor (24), the mechanical box (23) is controlled by the controller (3) to drive the rotating disc (22) to rotate, so that the sliding ring (e 2) rotates, chemical materials slide clockwise on the guide structure (e 3), when the chemical materials slide to the half of the inner side of the sliding ring (e 2) under the reverse rotation force, the chemical materials swing towards the stressed structure (e 1), so that the chemical materials slide towards the inner side of the sliding ring (e 2) again under the sliding guide of the stressed structure (e 1), irregular chemical materials can collide with each other during swing, chemical materials in the rotating structure (21) are prevented from swinging and grinding, the buffer structure (a 2) is impacted by the chemical materials under the offset force of the buffer structure (a 2), so that the buffer structure (a 2) rotates outside the rotating shaft (a 4), the stressed plate (a 21) drives the sliding plate (a 23) to slide outside the rotating shaft (a 4), the compression plate (a 22) compresses the sliding force under the action of the compression plate, the chemical materials simultaneously buffer the inclined plate (a 24) under the blocking of the sliding force, the chemical materials can be prevented from damaging the chemical materials under the action of the bending force of the inclined plate (a 1), and the chemical materials can be prevented from damaging the buffer structure (a) and the outer side of the buffer structure (a 2) due to the chemical materials under the impact of the impact force of the buffer structure (a 2) and the chemical materials, then, chemicals are guided outside the buffer structure (a 2) and the extrusion plate (a 1), collision between the chemicals is prevented, the chemicals are subjected to sliding friction in the guide structure (e 3) at the inner side of the sliding ring (e 2) under the rotation centrifugal force, the friction structure (w 2) is compressed, the chemicals are subjected to sliding grinding under the elasticity of the spring (w 4), the chemical materials can generate extrusion effect except sliding friction force on the surface of the friction structure (w 2) under the constant rotation centrifugal force, the chemical material ball milling effect is enhanced, the friction block (w 21) is subjected to sliding friction of the chemical materials, the bending plate (w 23) is driven to bend and extrude the spring (w 4), the irregular shape of the chemical materials is flattened under the friction of the friction block (w 21), meanwhile, the chemical materials are subjected to compression friction under the guide structure (e 3) at the inner side of the sliding ring (e 2), and the chemical materials are prevented from being subjected to small stress during chemical material grinding.