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CN-122006857-A - Ball-milling crushing equipment for recycling tungsten oxide waste

CN122006857ACN 122006857 ACN122006857 ACN 122006857ACN-122006857-A

Abstract

The invention discloses ball milling crushing equipment for recycling tungsten oxide waste, which is characterized in that a separation ring is fixed in a ball milling chamber, a plurality of holes are formed through the separation ring, a second guide plate is fixed on the inner wall of the lower side of the ball milling chamber on one side of the separation ring, the second guide plate is arranged from large to small in thickness, tungsten oxide waste and steel balls are added into the ball milling chamber, when the second guide plate rotates to the bottom along with a ball milling cylinder, the tungsten oxide waste and the steel balls on the second guide plate move along the guide plate to the separation ring under the action of gravity, a plurality of holes are formed through the separation ring, and tungsten oxide waste and steel balls on the second guide plate move along the guide plate to the separation ring, and then tungsten oxide waste with qualified sizes can pass through the holes on the separation ring to the ball milling chamber on the other side of the separation ring, so that the separation treatment of tungsten oxide waste with different sizes is realized, ball milling is respectively carried out, the ball milling speed is greatly improved, energy sources required by waste treatment are saved, and the equipment is energy-saving and environment-friendly.

Inventors

  • LUO RONGHUA

Assignees

  • 湖南金雕能源科技有限公司

Dates

Publication Date
20260512
Application Date
20260326

Claims (7)

  1. 1. The ball milling and crushing equipment for recycling tungsten oxide waste comprises a bottom frame (11), wherein two supports (12) are fixed on two sides of the bottom frame (11), a ball milling barrel is rotatably installed between the two supports (12), the ball milling barrel consists of a side barrel (14) and two middle barrels (13), and the middle barrels (13) are fixed with the side barrel (14), and the ball milling barrel is characterized in that the ball milling barrel is driven to rotate by a power assembly; A ball milling chamber (20) is arranged in the ball milling barrel, a separation ring (27) is fixed in the ball milling chamber (20), a plurality of holes (28) are formed through the separation ring (27), and steel balls are placed on two sides of the separation ring (27); A first guide plate (21) is fixed on the inner wall of the upper side of the ball milling chamber (20) at one side of the separation ring (27), and a second guide plate (23) is fixed on the inner wall of the lower side of the ball milling chamber (20) at one side of the separation ring (27); the thickness of the first guide plate (21) is set from small to large, the thickness of the end close to the separation ring (27) is large, and the thickness of the end far away from the separation ring (27) is small; The thickness of the second guide plate (23) is set from large to small, the thickness of the end close to the separation ring (27) is small, and the thickness of the end far away from the separation ring (27) is large; and a plurality of holes (28) are formed in the separating ring (27) in a penetrating way, wherein the sizes of the holes (28) are smaller than the sizes of qualified tungsten oxide waste materials and smaller than the sizes of steel balls.
  2. 2. The ball milling and crushing equipment for recycling tungsten oxide waste according to claim 1, wherein a plurality of ball grooves I (22) are formed in the guide plate I (21), sliding surfaces I (26) are formed among the ball grooves I (22), and the sliding surfaces I (26) are obliquely arranged.
  3. 3. The ball milling and crushing equipment for recycling tungsten oxide waste according to claim 2, wherein a plurality of second ball grooves (24) are formed in the second guide plate (23), sliding surfaces (25) are formed between the second ball grooves (24), and the sliding surfaces (25) are obliquely arranged.
  4. 4. A ball mill pulverizing apparatus for recovering tungsten oxide waste according to claim 3, wherein said intermediate tube (13) penetrates said bracket (12) and is rotatably connected to said bracket (12), and a roller bearing is installed between said intermediate tube (13) and said bracket (12).
  5. 5. The ball milling and crushing equipment for recycling tungsten oxide waste according to claim 4, wherein the power assembly comprises a transmission gear (15) fixed on the side barrel (14), a base (10) is fixed on one side of the bottom frame (11), and a gear seat (17), a gearbox (18) and a motor (19) are sequentially fixed on the base (10).
  6. 6. A ball mill grinding device for recycling tungsten oxide waste according to claim 5, characterized in that a driving gear (16) is rotatably mounted in the gear seat (17), the driving gear (16) is meshed with a transmission gear (15), the driving gear (16) is fixed with an output shaft of a gearbox (18), and a motor shaft of the motor (19) is fixed with an input shaft of the gearbox (18).
  7. 7. The ball milling and crushing equipment for recycling tungsten oxide waste according to claim 6, wherein the side surfaces of the first guide plate (21) and the second guide plate (23) are arc-shaped.

Description

Ball-milling crushing equipment for recycling tungsten oxide waste Technical Field The invention relates to the field of waste recovery, in particular to ball milling and crushing equipment for recovering tungsten oxide waste. Background In the production and processing of tungsten oxide, the recycling and utilization of waste materials are always important problems of concern in the industry. Because tungsten oxide has high value and high production energy consumption of unit products, the recovery of waste materials can save energy and cost, and can provide little help for sustainable development of enterprises. Tungsten oxide waste recovery generally uses a ball mill for pulverization, but conventional ball mills have the following problems in handling tungsten oxide waste. Firstly, the sizes of the tungsten oxide waste materials are greatly different, and when the tungsten oxide waste materials are ball-milled together, the ball-milling efficiency is affected by the tungsten oxide waste materials with small enough size. Secondly, the traditional ball mill only can drive the steel ball and tungsten oxide waste to move in the circumferential direction during working, the movement form is single, and the crushing efficiency is low. Disclosure of Invention The invention aims to provide ball milling and crushing equipment for recycling tungsten oxide waste, which solves the problems. The technical aim of the invention is achieved by the following technical scheme that the ball milling and crushing equipment for recycling tungsten oxide waste comprises a bottom frame, wherein two brackets are fixed on two sides of the bottom frame, a ball milling cylinder is rotatably arranged between the two brackets, the ball milling cylinder consists of a side cylinder and two middle cylinders, and the middle cylinders are fixed with the side cylinders; the ball milling cylinder is driven to rotate by the power component; a ball milling chamber is arranged in the ball milling cylinder, a separation ring is fixed in the ball milling chamber, a plurality of holes are formed through the separation ring, and steel balls are placed on two sides of the separation ring; a first guide plate is fixed on the inner wall of the upper side of the ball milling chamber on one side of the separation ring, and a second guide plate is fixed on the inner wall of the lower side of the ball milling chamber on one side of the separation ring; the thickness of the guide plate I is set from small to large, the thickness of the end close to the separation ring is large, and the thickness of the end far away from the separation ring is small; The second thickness of the guide plate is set from large to small, the thickness of the end close to the separation ring is small, and the thickness of the end far away from the separation ring is large; And a plurality of holes are formed in the separating ring in a penetrating way, and the size of each hole is smaller than that of the qualified tungsten oxide waste and smaller than that of the steel ball. Preferably, a plurality of first ball grooves are formed in the first guide plate, sliding surfaces are formed among the first ball grooves, and the first sliding surfaces are obliquely arranged. Preferably, a plurality of second ball grooves are formed in the second guide plate, sliding surfaces are formed among the second ball grooves, and the second sliding surfaces are obliquely arranged. Preferably, the middle cylinder penetrates through the bracket and is rotatably connected with the bracket, and a roller bearing is arranged between the middle cylinder and the bracket. Preferably, the power assembly comprises a transmission gear fixed on the side barrel, a base is fixed on one side of the underframe, a gear seat, a gearbox and a motor are sequentially fixed on the base, a driving gear is rotatably arranged in the gear seat and meshed with the transmission gear, the driving gear is fixed with an output shaft of the gearbox, and a motor shaft of the motor is fixed with an input shaft of the gearbox. Preferably, the first guide plate and the two side surfaces of the guide plate are arc-shaped. In summary, the invention has the following beneficial effects: 1. The ball milling device comprises a ball milling chamber, a separation ring, a guide plate II, a tungsten oxide waste and steel balls, wherein a plurality of holes are formed in the ball milling chamber in a penetrating mode, steel balls are arranged on two sides of the separation ring, the inner wall of the lower side of the ball milling chamber on one side of the separation ring is fixedly provided with the guide plate II, the thickness of the guide plate II is from large to small, the thickness of the end close to the separation ring is small, the thickness of the end far away from the separation ring is large, tungsten oxide waste and steel balls are added into the ball milling chamber, when the guide plate II rotates to the bottom along with a