CN212237521U - Long-acting anti-fatigue efficient vibration ball mill - Google Patents

Abstract

The utility model discloses a long-term antifatigue high-efficient vibration ball mill, include: the vibration exciter comprises a base, vibration exciters, charging barrels, a damping mechanism, a feeding hole, a discharging hole and a grading partition plate, wherein the base is provided with the damping mechanism, a plurality of damping mechanisms are arranged on the base, the tops of the damping mechanisms are provided with the charging barrels, one end of each charging barrel is provided with the feeding hole, and the other end of each charging barrel is provided with the discharging hole; a grading partition plate is arranged inside the charging bucket and used for partitioning the charging bucket, and through holes are formed in the grading partition plate; the bottom of the charging basket is provided with a vibration exciter; also comprises a dust removing mechanism; on one hand, the problem of fatigue fracture caused by fixed shock absorption is solved through liquid medium shock absorption, the equipment quality is good, and the service life is long; on the other hand, materials are layered, the problem that large-size materials are discharged together during continuous feeding is solved, continuous feeding is realized, and the production efficiency of equipment is improved.

Description

Long-acting anti-fatigue efficient vibration ball mill

Technical Field

The utility model belongs to the surface treatment equipment field, in particular to long-term anti-fatigue high-efficient vibration ball mill.

Background

The grinding process is one of the key points in mineral processing engineering technology, the grinding process which develops the fastest in more than 20 years is a ball milling process, and most of medium and large-sized dressing plants and chemical industry enterprises which need grinding raw materials adopt the process at present. The ball mill is a device which uses steel balls as grinding media, has simple structure, stable performance and large crushing ratio, can be used for dry grinding and wet grinding, can be used for processing various materials, and has strong adaptability. Therefore, in the industrial departments of mineral separation, building materials, chemical industry, metallurgy, materials and the like, the ball mill is the most common and universal grinding equipment, plays an important role in mineral crushing and ultrafine grinding processing, and is favored by enterprises.

The vibration ball mill is used as a high-speed reciprocating motion device, the quality of a damping part of the vibration ball mill is very important, most of the existing ball mills adopt simple spring damping, the damping effect is general, and meanwhile, fatigue is easy to generate; most of the existing ball mills feed materials at one time, and the next batch of materials cannot be processed continuously after the processing is finished, so that the processing efficiency is poor. Therefore, the present application has made innovations and improvements to the ball mill with respect to the above problems.

The existing ball mill mainly has the following problems:

1. most of the existing ball mills adopt simple spring shock absorption, the shock absorption effect is general, and meanwhile fatigue is easy to generate.

2. Most of the existing ball mills feed materials at one time, and the next batch of materials cannot be processed continuously after the processing is finished, so that the processing efficiency is poor.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects, the utility model aims to provide a long-acting anti-fatigue high-efficiency vibration ball mill, on one hand, the problem of fatigue fracture caused by fixed shock absorption is solved through liquid medium shock absorption, the equipment quality is good, and the service life is long; on the other hand, materials are layered, the problem that large-size materials are discharged together during continuous feeding is solved, continuous feeding is realized, and the production efficiency of equipment is improved.

The technical scheme is as follows: in order to achieve the above object, the utility model provides a high-efficient vibration ball mill of long-term antifatigue, include: the vibration exciter comprises a base, vibration exciters, charging barrels, a damping mechanism, a feeding hole, a discharging hole and a grading partition plate, wherein the base is provided with the damping mechanism, a plurality of damping mechanisms are arranged on the base, the tops of the damping mechanisms are provided with the charging barrels, one end of each charging barrel is provided with the feeding hole, and the other end of each charging barrel is provided with the discharging hole; a grading partition plate is arranged inside the charging bucket and used for partitioning the charging bucket, and through holes are formed in the grading partition plate; the bottom of the charging basket is provided with a vibration exciter.

The utility model discloses in hierarchical baffle's setting has carried out the layering with the material, has prevented the problem of the jumbo size material ejection of compact together when lasting the feed, has realized lasting the feed, has improved the production efficiency of equipment.

The damping mechanism in the utility model comprises a first floating hydraulic cylinder, a fixed baffle, a second floating hydraulic cylinder, a first floating oil tank, a second floating oil tank, a first buffer spring and a second buffer spring, one end of the first floating hydraulic cylinder is fixedly arranged on the base, the other end of the first floating hydraulic cylinder is fixedly provided with a fixed clapboard, a second floating hydraulic cylinder is fixedly arranged on the fixed clapboard, one end of the second floating hydraulic cylinder far away from the fixed clapboard is fixedly arranged at the bottom of the charging basket, the first floating hydraulic cylinder is connected with a first floating oil tank which is fixedly arranged on the base, the first floating oil tank is a pressure oil tank, the second floating hydraulic cylinder is connected with a second floating oil tank, the second floating oil tank is fixedly arranged on one side of the first floating oil tank and is a pressure oil tank; a first buffer spring is arranged outside the first floating hydraulic cylinder, one end of the first buffer spring is fixedly arranged on the base, and the other end of the first buffer spring is fixedly arranged on the fixed partition plate; and a second buffer spring is arranged on the outer side of the second floating hydraulic cylinder, one end of the second buffer spring is fixedly arranged on the fixed partition plate, and the other end of the second buffer spring is fixedly arranged at the bottom of the charging bucket.

The utility model discloses in damper's setting, on the one hand through the liquid medium shock attenuation, has solved fixed shock attenuation and has produced fatigue fracture's problem, and equipment is of high quality, long service life.

The utility model discloses in damper still include the pressure regulating pump, the first oil tank and the second oil tank that floats of connecting of pressure regulating pump.

The utility model discloses in damper's setting, it is through setting up multilayer damper to through pressure regulating pump adjustment oil tank pressure, be the alternative most vibration of burden of upper and lower two-layer damper, reduced the possibility of structural damage, equipment practicality is high.

The feed inlet of the utility model comprises a feed box, a feed channel, crushing teeth and a driving motor, wherein the feed channel is arranged at the bottom of the feed box, the crushing teeth are arranged at two sides of the feed channel, and the driving motor is connected and arranged on the crushing teeth; the crushing teeth are arranged in two numbers, the crushing teeth are meshed with each other, and the crushing teeth cut off the feeding channel.

The utility model discloses in the setting of feed inlet, it has realized the function of breakage in advance, has reduced the grinding degree of difficulty of ball mill, has reduced the wearing and tearing of abrasive material, has reduceed the manufacturing cost of equipment, has improved the life of equipment.

The utility model discloses in the discharge gate include discharge gate valve, discharging channel, workbin, magnetic separation conveyer belt and wearing and tearing material storage box, discharge gate valve sets up on the storage bucket, discharge gate valve one side is provided with discharging channel, discharging channel keeps away from the one end connection of discharge gate valve and is provided with the workbin, the discharging channel top is provided with the magnetic separation conveyer belt, magnetic separation conveyer belt one end is provided with wearing and tearing material storage box, the wearing and tearing material storage box sets up on the magnetic separation conveyer belt.

The utility model discloses in the setting of discharge gate, it has increased the magnetic separation function, can select equipment internal surface and abrasive material because of wearing and tearing sneak into piece and the grinding in the material, have improved the purity and the quality of product.

The utility model discloses in discharge passage cross sectional dimension be greater than discharge valve size.

The discharge port is provided with a dust removing mechanism, the dust removing mechanism comprises a baffle, a friction roller, an electronic dust collection screen, an air duct, a dust separation net, an air suction fan and a rotary motor, the baffle is arranged inside the discharge port, the baffle penetrates out of a wall plate of the discharge port, the two ends of the baffle are provided with the friction roller, the outside of the friction roller is provided with the electronic dust collection screen, one end of the baffle, which penetrates out of the discharge port, is provided with the air duct, the air duct is fixedly arranged on the outer surface of the discharge port, the two ends of the air duct are provided with the dust separation net, and the bottom of; one end of the friction roller is provided with a rotary motor which is fixedly arranged in the air duct.

The utility model discloses in dust removal mechanism's setting, it has increased the dust collection ability, can get rid of the dust powder in the material, has improved the purity and the quality of product.

Above-mentioned technical scheme can find out, the utility model discloses following beneficial effect has:

1. the utility model discloses in a long-term antifatigue high-efficient vibration ball mill, carried out the layering with the material, the problem of the jumbo size material ejection of compact together when having prevented to last the feed has realized lasting the feed, has improved the production efficiency of equipment.

2. The utility model discloses in a long-term antifatigue high-efficient vibration ball mill, it passes through the liquid medium shock attenuation, has solved fixed shock attenuation and has produced fatigue fracture's problem, equipment is of high quality, long service life

3. The utility model discloses in a long-term antifatigue high-efficient vibration ball mill, it is through setting up multilayer damper to through pressure regulating pump adjustment oil tank pressure, be the alternative most vibrations of burden of upper and lower two-layer damper, reduced the possibility of structural damage, equipment practicality is high.

4. The utility model discloses in a long-term antifatigue high-efficient vibration ball mill, it has increased the magnetic separation function, can select equipment internal surface and abrasive material because of wearing and tearing sneak into piece and the grinding in the material, improved the purity and the quality of product.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the damping mechanism of the present invention;

FIG. 3 is a schematic structural view of the feed inlet of the present invention;

FIG. 4 is a schematic structural view of the discharge port of the present invention;

FIG. 5 is a schematic structural view of the dust removing mechanism of the present invention;

in the figure: a base-1, a vibration exciter-2, a charging basket-3, a shock-absorbing mechanism-4, a first floating hydraulic cylinder-41, a fixed clapboard-42, a second floating hydraulic cylinder-43, a first floating oil tank-44, a second floating oil tank-45, a first buffer spring-46, a second buffer spring-47, a pressure regulating pump-48, a feeding port-5, a feeding box-51, a feeding channel-52, a crushing tooth-53, a driving motor-54, a discharging port-6, a discharging valve-61, a discharging channel-62, a charging box-63, a magnetic separation conveyer belt-64, a wear material storage box-65, a grading clapboard-7, a dedusting mechanism-8, a baffle-81, a friction roller-82, an electronic dust-absorbing screen-83, an air duct-84, a vibration absorber-41, Dust-proof net-85, suction fan-86, rotary motor-87.

Detailed Description

The invention will be further elucidated with reference to the drawings and the specific embodiments.

Example 1

1-5, a long-term fatigue resistant high efficiency vibratory ball mill, comprising: the vibration exciter comprises a base 1, vibration exciters 2, a plurality of charging barrels 3, a damping mechanism 4, a feeding hole 5, a discharging hole 6 and a grading partition plate 7, wherein the damping mechanism 4 is arranged on the base 1, the charging barrels 3 are arranged at the tops of the damping mechanisms 4, the feeding hole 5 is formed in one end of each charging barrel 3, and the discharging hole 6 is formed in the other end of each charging barrel 3; a grading partition plate 7 is arranged inside the charging bucket 3, the grading partition plate 7 partitions the charging bucket 3, and a through hole is formed in the grading partition plate 7; the bottom of the charging basket 3 is provided with a vibration exciter 2.

The damping mechanism 4 in this embodiment includes a first floating hydraulic cylinder 41, a fixed partition 42, a second floating hydraulic cylinder 43, a first floating oil tank 44, a second floating oil tank 45, a first buffer spring 46 and a second buffer spring 47, wherein one end of the first floating hydraulic cylinder 41 is fixedly disposed on the base 1, the other end of the first floating hydraulic cylinder 41 is fixedly disposed with the fixed partition 42, the second floating hydraulic cylinder 43 is fixedly disposed on the fixed partition 42, one end of the second floating hydraulic cylinder 43 away from the fixed partition 42 is fixedly disposed at the bottom of the charging basket 3, the first floating hydraulic cylinder 41 is connected with the first floating oil tank 44, the first floating oil tank 44 is fixedly disposed on the base 1, the first floating oil tank 44 is a pressure oil tank, the second floating hydraulic cylinder 43 is connected with the second floating oil tank 45, the second floating oil tank 45 is fixedly disposed at one side of the first floating oil tank 44, the second floating oil tank 45 is a pressure oil tank; a first buffer spring 46 is arranged outside the first floating hydraulic cylinder 41, one end of the first buffer spring 46 is fixedly arranged on the base 1, and the other end of the first buffer spring 46 is fixedly arranged on the fixed partition plate 42; a second buffer spring 47 is arranged on the outer side of the second floating hydraulic cylinder 43, one end of the second buffer spring 47 is fixedly arranged on the fixed partition plate 42, and the other end of the second buffer spring 47 is fixedly arranged at the bottom of the charging basket 3.

The damping mechanism 4 in the embodiment further includes a pressure regulating pump 48, and the pressure regulating pump 48 is connected to the first floating oil tank 44 and the second floating oil tank 45.

The feed inlet 5 in this embodiment includes a feed box 51, a feed channel 52, crushing teeth 53 and a driving motor 54, the feed channel 52 is arranged at the bottom of the feed box 51, the crushing teeth 53 are arranged on two sides of the feed channel 52, and the driving motor 54 is connected to the crushing teeth 53; the crushing teeth 53 are provided in two numbers, the crushing teeth 53 are engaged with each other, and the crushing teeth 53 intercept the feeding passage 52.

Discharge gate 6 in this embodiment include discharge gate 61, discharging channel 62, workbin 63, magnetic separation conveyer belt 64 and wearing and tearing material storage tank 65, discharge gate 61 sets up on storage bucket 3, discharge gate 61 one side is provided with discharging channel 62, discharging channel 62 is kept away from the one end connection of discharging gate 61 and is provided with workbin 63, discharging channel 62 top is provided with magnetic separation conveyer belt 64, magnetic separation conveyer belt 64 one end is provided with wearing and tearing material storage tank 65, wearing and tearing material storage tank 65 sets up on magnetic separation conveyer belt 64.

The cross-sectional dimension of the tapping channel 62 in the embodiment described is larger than the dimension of the tapping valve 61.

The discharge port 6 in this embodiment is provided with a dust removing mechanism 8, the dust removing mechanism 8 includes a baffle 81, a friction roller 82, an electronic dust collection screen 83, an air duct 84, a dust separation net 85, an air suction fan 86 and a rotary motor 87, the baffle 81 is arranged inside the discharge port 6, the baffle 81 penetrates through a wall plate of the discharge port 6, the friction roller 82 is arranged at two ends of the baffle 81, the electronic dust collection screen 83 is arranged outside the friction roller 82, the air duct 84 is arranged at one end of the baffle 81 penetrating through the discharge port 6, the air duct 84 is fixedly arranged on the outer surface of the discharge port 6, the dust separation net 85 is arranged at two ends of the air duct 84, and the air suction fan 86 is arranged at the; one end of the friction roller 82 is provided with a rotary motor 87, and the rotary motor 87 is fixedly arranged in the air duct 84.

Example 2

A long-term fatigue resistant high efficiency vibratory ball mill as shown in fig. 1 and 2, comprising: the vibration exciter comprises a base 1, vibration exciters 2, a plurality of charging barrels 3, a damping mechanism 4, a feeding hole 5, a discharging hole 6 and a grading partition plate 7, wherein the damping mechanism 4 is arranged on the base 1, the charging barrels 3 are arranged at the tops of the damping mechanisms 4, the feeding hole 5 is formed in one end of each charging barrel 3, and the discharging hole 6 is formed in the other end of each charging barrel 3; a grading partition plate 7 is arranged inside the charging bucket 3, the grading partition plate 7 partitions the charging bucket 3, and a through hole is formed in the grading partition plate 7; the bottom of the charging basket 3 is provided with a vibration exciter 2.

The damping mechanism 4 in this embodiment includes a first floating hydraulic cylinder 41, a fixed partition 42, a second floating hydraulic cylinder 43, a first floating oil tank 44, a second floating oil tank 45, a first buffer spring 46 and a second buffer spring 47, wherein one end of the first floating hydraulic cylinder 41 is fixedly disposed on the base 1, the other end of the first floating hydraulic cylinder 41 is fixedly disposed with the fixed partition 42, the second floating hydraulic cylinder 43 is fixedly disposed on the fixed partition 42, one end of the second floating hydraulic cylinder 43 away from the fixed partition 42 is fixedly disposed at the bottom of the charging basket 3, the first floating hydraulic cylinder 41 is connected with the first floating oil tank 44, the first floating oil tank 44 is fixedly disposed on the base 1, the first floating oil tank 44 is a pressure oil tank, the second floating hydraulic cylinder 43 is connected with the second floating oil tank 45, the second floating oil tank 45 is fixedly disposed at one side of the first floating oil tank 44, the second floating oil tank 45 is a pressure oil tank; a first buffer spring 46 is arranged outside the first floating hydraulic cylinder 41, one end of the first buffer spring 46 is fixedly arranged on the base 1, and the other end of the first buffer spring 46 is fixedly arranged on the fixed partition plate 42; a second buffer spring 47 is arranged on the outer side of the second floating hydraulic cylinder 43, one end of the second buffer spring 47 is fixedly arranged on the fixed partition plate 42, and the other end of the second buffer spring 47 is fixedly arranged at the bottom of the charging basket 3.

The damping mechanism 4 in the embodiment further includes a pressure regulating pump 48, and the pressure regulating pump 48 is connected to the first floating oil tank 44 and the second floating oil tank 45.

Example 3

A long-term fatigue resistant high efficiency vibratory ball mill as shown in fig. 1 and 3, comprising: the vibration exciter comprises a base 1, vibration exciters 2, a plurality of charging barrels 3, a damping mechanism 4, a feeding hole 5, a discharging hole 6 and a grading partition plate 7, wherein the damping mechanism 4 is arranged on the base 1, the charging barrels 3 are arranged at the tops of the damping mechanisms 4, the feeding hole 5 is formed in one end of each charging barrel 3, and the discharging hole 6 is formed in the other end of each charging barrel 3; a grading partition plate 7 is arranged inside the charging bucket 3, the grading partition plate 7 partitions the charging bucket 3, and a through hole is formed in the grading partition plate 7; the bottom of the charging basket 3 is provided with a vibration exciter 2.

The feed inlet 5 in this embodiment includes a feed box 51, a feed channel 52, crushing teeth 53 and a driving motor 54, the feed channel 52 is arranged at the bottom of the feed box 51, the crushing teeth 53 are arranged on two sides of the feed channel 52, and the driving motor 54 is connected to the crushing teeth 53; the crushing teeth 53 are provided in two numbers, the crushing teeth 53 are engaged with each other, and the crushing teeth 53 intercept the feeding passage 52.

Example 4

A long-term fatigue resistant high efficiency vibratory ball mill as shown in fig. 1 and 4, comprising: the vibration exciter comprises a base 1, vibration exciters 2, a plurality of charging barrels 3, a damping mechanism 4, a feeding hole 5, a discharging hole 6 and a grading partition plate 7, wherein the damping mechanism 4 is arranged on the base 1, the charging barrels 3 are arranged at the tops of the damping mechanisms 4, the feeding hole 5 is formed in one end of each charging barrel 3, and the discharging hole 6 is formed in the other end of each charging barrel 3; a grading partition plate 7 is arranged inside the charging bucket 3, the grading partition plate 7 partitions the charging bucket 3, and a through hole is formed in the grading partition plate 7; the bottom of the charging basket 3 is provided with a vibration exciter 2.

Discharge gate 6 in this embodiment include discharge gate 61, discharging channel 62, workbin 63, magnetic separation conveyer belt 64 and wearing and tearing material storage tank 65, discharge gate 61 sets up on storage bucket 3, discharge gate 61 one side is provided with discharging channel 62, discharging channel 62 is kept away from the one end connection of discharging gate 61 and is provided with workbin 63, discharging channel 62 top is provided with magnetic separation conveyer belt 64, magnetic separation conveyer belt 64 one end is provided with wearing and tearing material storage tank 65, wearing and tearing material storage tank 65 sets up on magnetic separation conveyer belt 64.

The cross-sectional dimension of the tapping channel 62 in the embodiment described is larger than the dimension of the tapping valve 61.

Example 5

A long-term fatigue resistant high efficiency vibratory ball mill as shown in fig. 1 and 5, comprising: the vibration exciter comprises a base 1, vibration exciters 2, a plurality of charging barrels 3, a damping mechanism 4, a feeding hole 5, a discharging hole 6 and a grading partition plate 7, wherein the damping mechanism 4 is arranged on the base 1, the charging barrels 3 are arranged at the tops of the damping mechanisms 4, the feeding hole 5 is formed in one end of each charging barrel 3, and the discharging hole 6 is formed in the other end of each charging barrel 3; a grading partition plate 7 is arranged inside the charging bucket 3, the grading partition plate 7 partitions the charging bucket 3, and a through hole is formed in the grading partition plate 7; the bottom of the charging basket 3 is provided with a vibration exciter 2.

The discharge port 6 in this embodiment is provided with a dust removing mechanism 8, the dust removing mechanism 8 includes a baffle 81, a friction roller 82, an electronic dust collection screen 83, an air duct 84, a dust separation net 85, an air suction fan 86 and a rotary motor 87, the baffle 81 is arranged inside the discharge port 6, the baffle 81 penetrates through a wall plate of the discharge port 6, the friction roller 82 is arranged at two ends of the baffle 81, the electronic dust collection screen 83 is arranged outside the friction roller 82, the air duct 84 is arranged at one end of the baffle 81 penetrating through the discharge port 6, the air duct 84 is fixedly arranged on the outer surface of the discharge port 6, the dust separation net 85 is arranged at two ends of the air duct 84, and the air suction fan 86 is arranged at the; one end of the friction roller 82 is provided with a rotary motor 87, and the rotary motor 87 is fixedly arranged in the air duct 84.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications can be made without departing from the principles of the present invention, and these modifications should also be regarded as the protection scope of the present invention.

Claims (7)

1. The utility model provides a long-term antifatigue high-efficient vibration ball mill which characterized in that: the method comprises the following steps: the vibration exciter comprises a base (1), vibration exciters (2), a plurality of charging barrels (3), a damping mechanism (4), a plurality of feeding holes (5), a discharging hole (6) and a grading partition plate (7), wherein the damping mechanism (4) is arranged on the base (1), the charging barrels (3) are arranged at the tops of the damping mechanisms (4), the feeding holes (5) are formed in one end of each charging barrel (3), and the discharging hole (6) is formed in the other end of each charging barrel (3); a grading partition plate (7) is arranged inside the charging bucket (3), the grading partition plate (7) partitions the charging bucket (3), and a through hole is formed in the grading partition plate (7); the bottom of the charging basket (3) is provided with a vibration exciter (2).

2. The long-acting fatigue-resistant high-efficiency vibrating ball mill according to claim 1, characterized in that: the damping mechanism (4) comprises a first floating hydraulic cylinder (41), a fixed partition plate (42), a second floating hydraulic cylinder (43), a first floating oil tank (44), a second floating oil tank (45), a first buffer spring (46) and a second buffer spring (47), one end of the first floating hydraulic cylinder (41) is fixedly arranged on the base (1), the other end of the first floating hydraulic cylinder (41) is fixedly provided with the fixed partition plate (42), the fixed partition plate (42) is fixedly provided with the second floating hydraulic cylinder (43), one end, far away from the fixed partition plate (42), of the second floating hydraulic cylinder (43) is fixedly arranged at the bottom of the charging basket (3), the first floating hydraulic cylinder (41) is connected with the first floating oil tank (44), the first floating oil tank (44) is fixedly arranged on the base (1), and the first floating oil tank (44) is a pressure oil tank, a second floating oil tank (45) is connected to the second floating hydraulic cylinder (43), the second floating oil tank (45) is fixedly arranged on one side of the first floating oil tank (44), and the second floating oil tank (45) is a pressure oil tank; a first buffer spring (46) is arranged on the outer side of the first floating hydraulic cylinder (41), one end of the first buffer spring (46) is fixedly arranged on the base (1), and the other end of the first buffer spring (46) is fixedly arranged on the fixed partition plate (42); and a second buffer spring (47) is arranged on the outer side of the second floating hydraulic cylinder (43), one end of the second buffer spring (47) is fixedly arranged on the fixed partition plate (42), and the other end of the second buffer spring (47) is fixedly arranged at the bottom of the charging basket (3).

3. The long-acting fatigue-resistant high-efficiency vibrating ball mill according to claim 2, characterized in that: the damping mechanism (4) further comprises a pressure regulating pump (48), and the pressure regulating pump (48) is connected with the first floating oil tank (44) and the second floating oil tank (45).

4. The long-acting fatigue-resistant high-efficiency vibrating ball mill according to claim 1, characterized in that: the feeding port (5) comprises a feeding box (51), a feeding channel (52), crushing teeth (53) and a driving motor (54), the feeding channel (52) is arranged at the bottom of the feeding box (51), the crushing teeth (53) are arranged on two sides of the feeding channel (52), and the driving motor (54) is connected to the crushing teeth (53); the crushing teeth (53) are provided with two, the crushing teeth (53) are meshed with each other, and the crushing teeth (53) cut off the feeding channel (52).

5. The long-acting fatigue-resistant high-efficiency vibrating ball mill according to claim 1, characterized in that: discharge gate (6) including discharge gate (61), discharging channel (62), workbin (63), magnetic separation conveyer belt (64) and wearing and tearing material storage tank (65), discharge gate (61) sets up on storage bucket (3), discharging gate (61) one side is provided with discharging channel (62), discharging channel (62) is kept away from the one end connection of discharging gate (61) and is provided with workbin (63), discharging channel (62) top is provided with magnetic separation conveyer belt (64), magnetic separation conveyer belt (64) one end is provided with wearing and tearing material storage tank (65), wearing and tearing material storage tank (65) set up on magnetic separation conveyer belt (64).

6. The long-acting fatigue-resistant high-efficiency vibrating ball mill according to claim 5, characterized in that: the cross section of the discharging channel (62) is larger than that of the discharging valve (61).

7. The long-acting fatigue-resistant high-efficiency vibrating ball mill according to claim 1, characterized in that: the discharging port (6) is provided with a dust removing mechanism (8), the dust removing mechanism (8) comprises a baffle (81), a friction roller (82), an electronic dust collection screen (83), an air duct (84), a dust separation screen (85), an air suction fan (86) and a rotary motor (87), the baffle (81) is arranged on the inner side of the discharging port (6), the baffle (81) penetrates out of a wall plate of the discharging port (6), the friction roller (82) is arranged at two ends of the baffle (81), the electronic dust collection screen (83) is arranged on the outer side of the friction roller (82), the air duct (84) is arranged at one end of the baffle (81) penetrating out of the discharging port (6), the air duct (84) is fixedly arranged on the outer surface of the discharging port (6), the dust separation screen (85) is arranged at two ends of the air duct (84), and the air suction fan (86; one end of the friction roller (82) is provided with a rotary motor (87), and the rotary motor (87) is fixedly arranged in the air duct (84).

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