CN-224221936-U - Ore dressing device

CN224221936UCN 224221936 UCN224221936 UCN 224221936UCN-224221936-U

Abstract

The utility model discloses a beneficiation device which comprises a bottom plate, a driving motor and an anti-blocking component, wherein fixing plates are fixed at four corners above the bottom plate, first sliding grooves are formed in the surfaces of the fixing plates, a first screening frame is arranged above two groups of fixing plates, a second screening frame is arranged below the first screening frame, a discharging frame is arranged below the second screening frame, fixing rods penetrating through the first sliding grooves are fixed on the front side and the rear side of the left end and the right end of the first screening frame, the second screening frame and the discharging frame, connecting sleeve rods are sleeved and fixed on the fixing rods, supporting plates are fixed on the front side and the rear side of the middle of the bottom plate, and the driving motor is fixed on the surfaces of the supporting plates. This ore dressing device can be through the use of the anti-blocking assembly of first screening frame and second screening frame below installation, can brush the reason to the sieve mesh on sieve surface when the screening, avoids the phenomenon that the sieve mesh appears blocking when selecting separately, improves the result of use of the device.

Inventors

Chai Xinghong
Yao Jianrui
ZHANG YULONG

Assignees

云南文山铝业有限公司

Dates

Publication Date: 20260512
Application Date: 20250519

Claims (9)

1. A mineral separation device comprises a bottom plate (1), a driving motor (10) and an anti-blocking component (20), and is characterized in that fixing plates (2) are fixed at four corners above the bottom plate (1), first sliding grooves (3) are formed in the surfaces of the fixing plates (2), a first screening frame (4) is installed above the fixing plates (2), a second screening frame (5) is arranged below the first screening frame (4), a discharging frame (6) is arranged below the second screening frame (5), fixing rods (7) penetrating through the first sliding grooves (3) are fixed at the front side and the rear side of the left end and the right end of the first screening frame (4), the second screening frame (5) and the discharging frame (6), connecting sleeve rods (8) are sleeved and fixed on the fixing rods (7), supporting plates (9) are fixed at the front side and the rear side of the middle of the bottom plate (1), the driving motor (10) is fixed on the surface of the supporting plates (9), a connecting shaft (11) is fixed at the output end of the driving motor (10), a connecting shaft (11) is fixed on the front side and the rear side of the bottom plate (13) is connected with the movable plate (13), anti-blocking components (20) are arranged below the first screening frame (4) and the second screening frame (5).
2. The beneficiation device is characterized in that a first discharge hole (15) is formed in the right end of the first screening frame (4), a second discharge hole (16) is formed in the left end of the second screening frame (5), a third discharge hole (17) is formed in the right end of the discharge frame (6), and the first discharge hole (15), the second discharge hole (16) and the third discharge hole (17) are arranged in a Z shape.
3. The mineral separation device according to claim 1, wherein the first screening frame (4) consists of a screen plate (401), screen holes (402), baffles (403) and side plates (404), the screen holes (402) are uniformly formed in the surface of the screen plate (401), the baffles (403) are fixed at the left end of the screen plate (401), and the side plates (404) with the lower ends protruding out of the screen plate (401) are fixed at the front end and the rear end of the screen plate (401).
4. The mineral separation device according to claim 1, wherein the first screening frame (4), the second screening frame (5) and the discharging frame (6) are all arranged in an inclined manner, and the inclination directions of two adjacent groups are opposite.
5. A mineral separation device according to claim 1, wherein the mesh (402) on the surface of the screen plate (401) on the first screening frame (4) has a larger diameter than the mesh (402) on the surface of the screen plate (401) on the second screening frame (5).
6. A mineral processing device according to claim 1, characterized in that the upper end face of the cam (12) is attached to the lower end face of the movable cross plate (13), the movable cross plate (13) is connected with the connecting sleeve rod (8) in a welding way, and the two groups of movable cross plates (13) are connected through the connecting rod (19).
7. The concentrating device according to any one of claims 1-6, wherein the dust settling component (18) comprises a water pump (1801), the water pump (1801) is fixedly arranged on one side of the bottom plate (1), one end of the water pump (1801) is connected with an external connecting pipe (1802), the other end of the water pump (1801) is connected with a first connecting pipe (1803), the first connecting pipe (1803) is arranged in a Y shape, and two ends of the first connecting pipe (1803) are communicated and arranged on the first connecting pipes (1804) fixed on two ends above the discharging frame (6).
8. The concentrating device according to claim 7, wherein the right end surface of the first water receiving pipe (1804) is communicated with the second water receiving pipe (1805) fixed at the two ends above the second screening frame (5) through a second connecting pipe (1808), the left end of the second water receiving pipe (1805) is communicated with the third water receiving pipe (1806) fixed at the two ends above the first screening frame (4) through a third connecting pipe (1809), and the atomizing spray heads (1807) are uniformly arranged on the inner surfaces of the first water receiving pipe (1804), the second water receiving pipe (1805) and the third water receiving pipe (1806).
9. The mineral separation device according to claim 1, wherein the anti-blocking assembly (20) comprises a second sliding groove (2001), the second sliding groove (2001) is formed in the inner side below the side plate (404), a servo motor (2002) is fixed at the lower end of the side plate (404), a rotating screw rod (2003) rotationally connected to the inside of the second sliding groove (2001) is fixed at the output end of the servo motor (2002), a sliding block (2005) slidingly connected to the inner side of the second sliding groove (2001) is connected to the rotating screw rod (2003) in a threaded mode, the sliding block (2005) is fixed at two ends of the movable plate (2004), and the upper surface of the movable plate (2004) is attached to an anti-blocking brush net (2006) on the lower end face of the sieve plate (401).

Description

Ore dressing device Technical Field The utility model relates to the technical field related to bauxite geological investigation, in particular to a mineral separation device. Background In the geological investigation process of bauxite, useful minerals and gangue minerals are separated through a mineral separation device, so that the quality and recovery rate of the ores are improved, and the ore is separated into different particle fractions through a screening process, so that the mineral separation efficiency ‌ can be improved; The current ore dressing device can carry out layering screening through the vibration when sieving the ore, but because vibration screening, there is the ore card in the sieve mesh of sieve, influences the screening work of follow-up ore to in screening process, the dust in the ore can splash at vibration in-process, causes the problem of dust splash easily, consequently we propose an ore dressing device, so that solve the problem that above-mentioned in put forward. Disclosure of utility model The utility model aims to provide a mineral separation device, which aims to solve the problems that when the prior mineral separation device is used for separating ores, the ores are separated by layers through vibration, but the ores are blocked in sieve holes of a sieve plate due to vibration separation, the screening work of the subsequent ores is affected, dust in the ores can splash in the vibration process in the screening process, and dust splash are easy to cause in the screening process. In order to achieve the purpose, the mineral processing device comprises a bottom plate, a driving motor and anti-blocking components, wherein fixing plates are fixed at four corners above the bottom plate, first sliding grooves are formed in the surfaces of the fixing plates, first screening frames are arranged above the two groups of fixing plates, second screening frames are arranged below the first screening frames, discharging frames are arranged below the second screening frames, fixing rods penetrating through the first sliding grooves are fixed on the front side and the rear side of the left end and the right end of the first screening frames, the second screening frames and the front side and the rear side of the right end of the discharging frames respectively, connecting sleeve rods are sleeved and fixed on the fixing rods, supporting plates are fixed on the front side and the rear side of the middle of the bottom plate respectively, driving motors are fixed on the surfaces of the supporting plates, connecting shafts are fixed on the front side and the rear side of the surfaces of the connecting shafts respectively, movable transverse plates located on the inner sides of the supporting plates are arranged on the outer sides of the fixing plates, the lower sides of the movable transverse plates are connected with the bottoms of the bottom plate through springs, and the anti-blocking components are arranged below the first screening frames and the second screening frames. Preferably, the right-hand member of first screening frame is installed first bin outlet, the second bin outlet is installed to the left end of second screening frame, the third bin outlet is installed to the right-hand member of row material frame, first bin outlet, second bin outlet and third bin outlet all are "Z" font setting. Preferably, the first screening frame comprises sieve, sieve mesh, baffle and curb plate, the sieve mesh has evenly been seted up on the surface of sieve, and the left end of sieve is fixed with the baffle, the front and back both ends of sieve are fixed with the curb plate of lower extreme outstanding sieve. Preferably, the first screening frame, the second screening frame and the discharging frame are all arranged in an inclined mode, and the inclination directions of two adjacent groups are opposite. Preferably, the sieve pore diameter of the sieve plate surface on the first sieving frame is larger than the sieve pore of the sieve plate surface on the second sieving frame. Preferably, the upper end face of the cam is attached to the lower end face of the movable transverse plate, the movable transverse plate is connected with the connecting sleeve rod in a welded mode, and the two movable transverse plates are connected through the connecting rod. Preferably, the dust fall subassembly includes the water pump, water pump fixed mounting is in one side of bottom plate, and the one end of water pump is connected with the external connection pipe, the other end of water pump is connected with first connecting pipe, first connecting pipe is "Y" font setting, and the both ends intercommunication setting of first connecting pipe is linked together on the first water receiving pipe of fixing in row material frame top both ends. Preferably, the right end surface of the first water receiving pipe is communicated with a second water receiving pipe fixed at two ends above the second screening frame th