CN214599675U

CN214599675U - Cone crusher feeder is used in mine

Info

Publication number: CN214599675U
Application number: CN202120411218.1U
Authority: CN
Inventors: 廖金灵; 周小铮; 李志平; 伍开龙; 黄庭冬
Original assignee: Wuping Zijin Mining Co Ltd
Current assignee: Wuping Zijin Mining Co Ltd
Priority date: 2021-02-24
Filing date: 2021-02-24
Publication date: 2021-11-05
Anticipated expiration: 2031-02-24

Abstract

The utility model discloses a feeding device of a cone crusher for mines, which comprises a cone crushing device, a feed hopper and an ore conveying device; an ore distributing device which enables ores to be uniformly input into the conical crushing device is arranged between the feed hopper and the conical crushing device; the ore distributing device comprises a material conveying channel, a material conveying shaft, material distributing plates and a material conveying motor, wherein the material conveying channel is connected with the feeding hopper and the conical crushing device; the ore conveying device comprises a pair of conveying rollers, a conveying belt sleeved on the conveying rollers, supporting beams arranged at two ends of the conveying rollers and used for supporting the conveying rollers, and a conveying motor fixed on the supporting beams and used for driving the conveying rollers to rotate; two pairs of supporting hydraulic cylinders for supporting the supporting beams are fixed on the lower sides of the supporting beams; and a variable frequency controller for controlling the rotating speeds of the material conveying motor and the conveying motor is arranged on the material conveying channel.

Description

Cone crusher feeder is used in mine

Technical Field

The utility model relates to a cone crusher feed technical field especially relates to a cone crusher feeder is used in mine.

Background

Metal mineral products are I very important to industrial development, our articles for daily use also can not leave the metal, ore dressing after often can smashing the ore in order to improve the ore's ore removal rate at the in-process of mineral products exploitation, consequently, need use the cone crusher, in the cone crusher need be carried the ore to the in-process that uses at the cone crusher, can meet the uneven phenomenon of defeated material often in the in-process of carrying the ore to the cone crusher, cause the crusher card to die when the ore input is too fast and influence ore crushing efficiency.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to solve the technical problem of providing a cone crusher feeding device for mines, which aims to solve the problems.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides a feeding device of a cone crusher for mines, which comprises a cone crushing device, a feed hopper arranged at the top end of the cone crushing device and used for feeding the cone crushing device, and an ore conveying device for conveying ores into the feed hopper; the method is characterized in that: an ore distributing device which enables ores to be uniformly input into the conical crushing device is arranged between the feed hopper and the conical crushing device; the ore distributing device comprises a material conveying channel, a material conveying shaft, material distributing plates and a material conveying motor, wherein the material conveying channel is connected with the feeding hopper and the conical crushing device; the ore conveying device comprises a pair of conveying rollers, a conveying belt sleeved on the conveying rollers, supporting beams arranged at two ends of the conveying rollers and used for supporting the conveying rollers, and a conveying motor fixed on the supporting beams and used for driving the conveying rollers to rotate; two pairs of supporting hydraulic cylinders for supporting the supporting beams are fixed on the lower sides of the supporting beams; and a variable frequency controller for controlling the rotating speeds of the material conveying motor and the conveying motor is arranged on the material conveying channel.

Furthermore, the cone crushing device comprises a crushing plate fixedly connected with the lower end of the material conveying channel, a crushing cone matched with the crushing plate and used for crushing ores, and a crushing motor driving the crushing cone to rotate; a dustproof skirt for preventing ore dust from falling on a crushing motor is fixed at the lower end of the crushing cone; the lower end of the crushing motor is fixed with a plurality of springs for increasing the swing amplitude of the crushing cone; one end of the spring is fixedly connected with the crushing motor, and the other end of the spring is fixedly provided with a supporting plate.

Furthermore, the lower end of the crushing plate is fixedly provided with an adjusting hydraulic cylinder for adjusting the distance between the crushing plate and the crushing cone, and the adjusting hydraulic cylinder is fixedly connected with the supporting plate through a supporting column.

Further, a damping plate for preventing the ore conveying device from damaging the ground is arranged at the lower end of the supporting hydraulic cylinder; and a hinged plate hinged with the supporting hydraulic cylinder is fixed on the damping plate.

Furthermore, the upper end of the supporting hydraulic cylinder is hinged with the supporting beam.

Further, the conveying motor drives the conveying roller to rotate through a conveying belt.

The utility model has the advantages that:

a feeding device of a cone crusher for mines is provided with an ore distributing device between a feeding hopper and a cone crushing device, wherein the ore distributing device is provided with a plurality of material distributing plates uniformly arranged on a material conveying shaft to form a hopper-shaped structure with the same size between the material distributing plates, ores are firstly placed in a hopper formed by the material distributing plates, and then the material conveying shaft is driven by a material conveying motor to rotate so that the ores are uniformly thrown into the cone crushing device, so that the cone crushing device is prevented from being blocked due to the fact that the input ores are too fast;

the frequency converter is arranged on the material conveying channel of the ore distributing device, and the feeding speed can be effectively controlled by controlling the rotating speed of the material conveying motor and the rotating speed of the conveying motor through the frequency converter so as to improve the crushing efficiency.

Drawings

FIG. 1 is a schematic view of the overall structure of a feeding device of a cone crusher for mines according to the present invention;

FIG. 2 is a schematic structural view of a cone crusher of a feeding device of a cone crusher for mines according to the present invention;

FIG. 3 is a schematic structural view of an ore conveying device of a feeding device of a cone crusher for mines according to the present invention;

fig. 4 is the utility model discloses a cone crusher section structure schematic diagram of cone crusher feeder for mine.

Reference numbers in the figures:

1. a cone crusher; 11. a breaker plate; 12. a crushing cone; 13. a crushing motor; 14. a dust skirt; 15. adjusting a hydraulic cylinder; 16. a spring; 17. a support plate; 18. a support pillar; 2. a feed hopper; 21. an ore distributing device; 22. a material conveying channel; 23. a material conveying shaft; 24. a material distributing plate; 25. a material conveying motor; 26. a variable frequency controller; 3. an ore delivery device; 31. a conveying roller; 32. a conveyor belt; 33. a support beam; 34. a transfer motor; 35. a support hydraulic cylinder; 36. a damper plate; 37. a hinge plate; 38. a transmission belt.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1 to 4, the feeding device of the cone crusher for mines provided in the embodiment is characterized in that; comprises a conical crushing device 1, a feed hopper 2 arranged at the top end of the conical crushing device 1 and used for feeding the conical crushing device 1, and an ore conveying device 3 for conveying ores into the feed hopper 2; the method is characterized in that: an ore distributing device 21 which enables ores to be uniformly input into the conical crushing device 1 is arranged between the feed hopper 2 and the conical crushing device 1; the ore distributing device 21 comprises a material conveying channel 22 connecting the feed hopper 2 and the conical crushing device 1, a material conveying shaft 23 penetrating through the material conveying channel 22 and rotatably connected with the material conveying channel 22, material distributing plates 24 uniformly fixed on the material conveying shaft 23, and a material conveying motor 25 fixed on the material conveying channel 22 and driving the material conveying shaft 23 to rotate; the ore conveying device 3 comprises a pair of conveying rollers 31, a conveying belt 32 sleeved on the conveying rollers 31, supporting beams 33 arranged at two ends of the conveying rollers 31 and used for supporting the conveying rollers 31, and a conveying motor 34 fixed on the supporting beams 33 and used for driving the conveying rollers 31 to rotate; two pairs of supporting hydraulic cylinders 35 for supporting the supporting beams 33 are fixed on the lower sides of the supporting beams 33; the conveying channel 22 is provided with a variable frequency controller 26 for controlling the rotating speed of the conveying motor 25 and the conveying motor 34.

Further, the cone crushing device 1 comprises a crushing plate 11 fixedly connected with the lower end of the material conveying channel 22, a crushing cone 12 matched with the crushing plate 11 and used for crushing ores, and a crushing motor 13 driving the crushing cone 12 to rotate; a dust-proof skirt 14 for preventing ore dust from falling on a crushing motor 13 is fixed at the lower end of the crushing cone 12; a plurality of springs 16 for increasing the swing amplitude of the crushing cone 12 are fixed at the lower end of the crushing motor 13; one end of the spring 16 is fixedly connected with the crushing motor 13, and the other end of the spring is fixed with a supporting plate 17; the spring 16 is arranged at the lower end of the crushing motor 13, so that the swing amplitude of the crushing cone 12 can be effectively increased, and the crushing efficiency is improved; the support plate 17 is fixed at the lower end of the spring 16, so that the ground is effectively prevented from being sunk due to severe vibration of the cone crusher 1.

Further, the lower end of the crushing plate 11 is fixed with an adjusting hydraulic cylinder 15 for adjusting the distance between the crushing plate 11 and the crushing cone 12, and the adjusting hydraulic cylinder is fixedly connected with a supporting plate 17 through a supporting column 18; the size of the broken particles can be effectively controlled by adjusting the distance between the crushing plate 11 and the crushing cone 12 through the adjusting hydraulic cylinder 15.

Further, a damping plate 36 for preventing the ore conveying device 3 from damaging the ground is arranged at the lower end of the supporting hydraulic cylinder 35; a hinged plate 37 hinged with the supporting hydraulic cylinder 35 is fixed on the damping plate 36; the support hydraulic cylinders 35 and the damping plates 36 facilitate adjustment of the height and inclination of the ore delivery device 3.

Further, the upper end of the supporting hydraulic cylinder 35 is hinged to the supporting beam 33, so that the height and the inclination angle of the ore conveying device 3 can be adjusted more conveniently.

Further, the conveying motor 34 drives the conveying roller 31 to rotate through a belt 38.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.

Claims

1. A feeding device of a cone crusher for mines comprises a cone crushing device (1), a feed hopper (2) arranged at the top end of the cone crushing device (1) and used for feeding the cone crushing device (1), and an ore conveying device (3) used for conveying ores into the feed hopper (2); the method is characterized in that: an ore distributing device (21) which enables ores to be uniformly input into the conical crushing device (1) is arranged between the feed hopper (2) and the conical crushing device (1); the ore distributing device (21) comprises a material conveying channel (22) connected with the feed hopper (2) and the conical crushing device (1), a material conveying shaft (23) penetrating through the material conveying channel (22) and rotatably connected with the material conveying channel (22), material distributing plates (24) uniformly fixed on the material conveying shaft (23) and a material conveying motor (25) fixed on the material conveying channel (22) and driving the material conveying shaft (23) to rotate; the ore conveying device (3) comprises a pair of conveying rollers (31), a conveying belt (32) sleeved on the conveying rollers (31), supporting beams (33) arranged at two ends of the conveying rollers (31) and used for supporting the conveying rollers (31), and a conveying motor (34) fixed on the supporting beams (33) and used for driving the conveying rollers (31) to rotate; two pairs of supporting hydraulic cylinders (35) for supporting the supporting beam (33) are fixed on the lower side of the supporting beam (33); and a variable frequency controller (26) for controlling the rotating speeds of the material conveying motor (25) and the conveying motor (34) is arranged on the material conveying channel (22).

2. The feeding device of the cone crusher for the mine according to claim 1, characterized in that: the cone crushing device (1) comprises a crushing plate (11) fixedly connected with the lower end of the material conveying channel (22), a crushing cone (12) matched with the crushing plate (11) and used for crushing ores, and a crushing motor (13) driving the crushing cone (12) to rotate; a dustproof skirt (14) for preventing ore dust from falling on a crushing motor (13) is fixed at the lower end of the crushing cone (12); a plurality of springs (16) for increasing the swing amplitude of the crushing cone (12) are fixed at the lower end of the crushing motor (13); one end of the spring (16) is fixedly connected with the crushing motor (13), and the other end of the spring is fixed with a supporting plate (17).

3. The feeding device of the cone crusher for the mine as claimed in claim 2, characterized in that: the lower end of the crushing plate (11) is fixedly provided with an adjusting hydraulic cylinder (15) for adjusting the distance between the crushing plate (11) and the crushing cone (12) and is fixedly connected with a supporting plate (17) through a supporting column (18).

4. The feeding device of the cone crusher for the mine according to claim 1, characterized in that: a damping plate (36) for preventing the ore conveying device (3) from damaging the ground is arranged at the lower end of the supporting hydraulic cylinder (35); and a hinged plate (37) hinged with the supporting hydraulic cylinder (35) is fixed on the damping plate (36).

5. The feeding device of the cone crusher for the mine according to claim 1, characterized in that: the upper end of the supporting hydraulic cylinder (35) is hinged with the supporting beam (33).

6. The feeding device of the cone crusher for the mine according to claim 1, characterized in that: the conveying motor (34) drives the conveying roller (31) to rotate through a conveying belt (38).