CN116393198A

CN116393198A - Ore crushing and screening integrated device for gold ore exploitation and treatment process thereof

Info

Publication number: CN116393198A
Application number: CN202310652710.1A
Authority: CN
Inventors: 王虎; 杨录; 赵波; 郭航; 赵剑华
Original assignee: Hebei Chongli Zijin Mining Co ltd
Current assignee: Hebei Chongli Zijin Mining Co ltd
Priority date: 2023-06-05
Filing date: 2023-06-05
Publication date: 2023-07-07

Abstract

The invention relates to the technical field of ore crushing, in particular to an ore crushing and screening integrated device for gold ore exploitation and a processing technology thereof, which comprises a bearing platform, a crushing mechanism, a dust fall mechanism, a screening mechanism and two gold ore conveying mechanisms positioned on the bearing platform, wherein the bearing platform is fixedly provided with a crushing bearing frame, the crushing mechanism is fixedly arranged on the crushing bearing frame through two bearing rods, and part of the crushing mechanism is positioned at the lower part of the crushing bearing frame.

Description

Ore crushing and screening integrated device for gold ore exploitation and treatment process thereof

Technical Field

The invention relates to the technical field of ore crushing, in particular to an integrated ore crushing and screening device for gold mining and a processing technology thereof.

Background

Gold mining means that the development and the mining process of gold mineral are carried out, the mining methods used by different gold mineral are the same, the concrete mining method is determined according to factors such as mineral deposits, mining environment and the like, along with the development of times and technological progress, gold mining is more and more, in the gold mining process, the volume difference of the mined gold ore is large, the gold ore with large volume is generally required to be crushed, after the gold ore with large volume difference is crushed, the volume of the gold ore still has certain difference, and the gold ore is also required to be screened, in the process, an integrated device for crushing and screening ore is generally used for finishing the processing of the mined gold ore, and the crushed small-particle gold ore and the relatively large gold ore are screened through the device.

The gold mine in the prior art is opened and is used ore breakage screening integrative device, and it is when carrying out breakage and screening to the gold mine after the exploitation, and though most can carry out the breakage of certain degree to the gold mine, when carrying out the breakage to the gold mine, holistic crushing effect is relatively poor, like among the prior art, chinese patent publication No.: the utility model discloses an integrative device of ore crushing screening for gold mining of CN211537891U, the device is when smashing gold ore, firstly extrude gold ore through the pre-crushing device, then smash it through smashing the case, but can find in the in-service use, because gold ore's hardness is great relatively, through simple physical extrusion, it is difficult to carry out crushing with gold ore, and long-term in-process that uses, the life of equipment is inevitably influenced, and the gold ore in the prior art is opened and is adopted ore crushing screening integrative device and is mostly not equipped with dust fall equipment, in the course of the work, often still need external auxiliary equipment to subside the dust that its produced at the during operation, not only easily produce certain influence to surrounding environment, a large amount of resources have been wasted more, to the problem that exists in the prior art, we have proposed an integrative device of ore crushing screening for gold mining.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides the ore crushing and screening integrated device for gold ore mining and the processing technology thereof, which are convenient for crushing gold ores with high hardness when the mined gold ores are processed, and can settle generated dust when the gold ores are crushed, thereby ensuring the surrounding environmental quality, and are convenient for screening and collecting gold ores with different sizes after the gold ores are crushed, so that the gold ore mining device has good use effect.

(II) technical scheme

In order to achieve the aim, the invention provides an integrated device for crushing and screening ores for gold ore mining, which comprises a bearing platform, a crushing mechanism, a dust fall mechanism, a screening mechanism and two gold ore conveying mechanisms positioned on the bearing platform;

the bearing platform is fixedly provided with a crushing bearing frame;

the crushing mechanism is fixedly arranged on the crushing bearing frame through two bearing rods, and part of the crushing mechanism is positioned at the lower part of the crushing bearing frame;

part of the dust fall mechanism is arranged on the crushing bearing frame, and the other part of the dust fall mechanism is arranged on the crushing mechanism;

the screening mechanism is mounted on the bearing platform and is partially positioned below the crushing mechanism;

The two gold ore conveying mechanisms are both arranged on the bearing platform, one part of the gold ore conveying mechanism is positioned under the screening mechanism, the other part of the gold ore conveying mechanism is positioned on one side of the screening mechanism, and the screening mechanism is provided with a flow guide separation plate for separating the gold ores after screening.

According to the ore crushing and screening integrated device for gold ore exploitation, the crushing mechanism comprises a crushing concave shell, an upper hopper, a lower hopper, crushing plates, a special-shaped crushing frame, a crushing driving assembly and an auxiliary crushing assembly, wherein the upper hopper and the lower hopper are detachably arranged on one side of the top end and one side of the bottom end of the crushing concave shell respectively through a plurality of straight piece connecting pieces and a plurality of connecting bolts, the special-shaped crushing frame is fixedly arranged on one side of the crushing concave shell and the crushing bearing frame, and two driving plates are fixedly arranged on the other side of the top end of the crushing concave shell;

the crushing driving assembly comprises a driving rod, an eccentric shaft, a first belt wheel, a second belt wheel, a plurality of belts, a counterweight wheel and a driving motor, wherein small rotating columns are fixedly arranged on one sides of the first belt wheel and the counterweight wheel, parts of the two small rotating columns are respectively and rotatably arranged on two driving plates, the driving rod is fixedly arranged at an eccentric position between the two small rotating columns, the eccentric shaft is rotatably arranged on the driving rod, one end of the crushing plate is fixedly arranged on the eccentric shaft, the driving motor is fixedly arranged on the special-shaped crushing frame, the first belt wheel is fixedly arranged on the output end of the driving motor, a plurality of belt grooves are respectively formed in the first belt wheel and the second belt wheel, and a plurality of belts are respectively and rotatably connected between the first belt wheel and the second belt wheel and are respectively positioned in the corresponding belt grooves;

The auxiliary crushing assembly comprises an auxiliary positioning plate, a limiting plate and two component force positioning pieces, wherein the limiting plate is fixedly arranged on the special-shaped crushing frame, two ends of the auxiliary positioning plate are respectively arranged on one side of the limiting plate and one side of the crushing plate through two rotating bases, the two component force positioning pieces are respectively arranged on two sides of the auxiliary positioning plate, each component force positioning piece comprises a positioning rod, a positioning block and a component force spring, one end of each component force spring is fixedly arranged at the other end of the limiting plate, the other end of each component force spring is fixedly arranged between the corresponding positioning block, one end of each positioning rod is fixedly arranged on the corresponding positioning block, the other end of each positioning rod is rotatably arranged on the corresponding crushing plate through two rotating bases, and component force through holes for movement of the positioning rods are formed in the corresponding positioning rods.

According to the ore crushing and screening integrated device for gold mining, the dust settling mechanism comprises a dust settling water tank, a dust settling water pump, a first water pipe, a second water pipe, a concave pipe and a plurality of atomizing nozzles, wherein the dust settling water tank is arranged on a crushing bearing frame, the dust settling water pump is arranged on a special-shaped crushing frame, the input end of the dust settling water pump is detachably communicated with one end of the first water pipe through a first flange, the other end of the first water pipe extends to the interior of the dust settling water tank, the output end of the dust settling water pump is detachably communicated with one end of the second water pipe through a second flange, the other end of the second water pipe is communicated with the concave pipe, the concave pipe is fixedly arranged on a feeding hopper through a plurality of first stabilizing blocks, a plurality of umbrella-shaped nozzle through holes are formed in the feeding hopper, the atomizing nozzles are all communicated with the concave pipe, and the nozzle ends of the atomizing nozzles are respectively located in the umbrella-shaped nozzle through holes.

According to the ore crushing and screening integrated device for gold ore exploitation, the screening mechanism comprises a plurality of screening bearing legs, a plurality of screening bearing springs, a plurality of screening bearing blocks, a screening frame, a vibrating motor and a screening filter plate, wherein one ends of the screening bearing legs are fixedly arranged on the bearing platform, the flow guide partition plate is fixedly arranged on the upper parts of the screening bearing legs, one ends of the screening bearing springs are respectively and fixedly arranged on the other ends of the screening bearing legs, the screening bearing blocks are respectively and fixedly arranged on the other ends of the screening bearing legs, the screening frame is fixedly arranged on the screening bearing blocks, the vibrating motor is arranged on one end of the screening frame, a carrier plate groove is formed in the screening frame, and part of the screening filter plate is arranged in the carrier plate groove and is detachably arranged on the screening frame through a plurality of replacement bolts.

According to the ore crushing and screening integrated device for gold ore exploitation, the gold ore conveying mechanism comprises two conveying plates, a main conveying shaft, a secondary conveying shaft, a conveying motor, a conveying belt and a plurality of arc-shaped auxiliary bearing shafts, wherein the two conveying plates are fixedly arranged on the bearing platform, the main conveying shaft and the secondary conveying shaft are rotatably arranged between the two conveying plates, the conveying motor is arranged at one end of the conveying plate positioned at one side, the output end of the conveying motor penetrates through the conveying plate positioned at one side and is fixedly arranged at one end of the main conveying shaft, the conveying belt is in transmission connection between the main conveying shaft and the secondary conveying shaft, and the arc-shaped auxiliary bearing shafts used for bearing the conveying belt are arranged between the two conveying plates.

According to the ore crushing and screening integrated device for gold ore exploitation, the dust fall water tank comprises a tank body, a tank cover, a water inlet pipe, a water outlet pipe and a gate valve, wherein the tank body is fixedly arranged on the crushing bearing frame, the tank cover is detachably arranged on the tank body through a flange plate III, the water inlet pipe is communicated with the tank cover, the water outlet pipe is communicated with the tank body, and the gate valve is arranged on the water outlet pipe.

According to the ore crushing and screening integrated device for gold ore exploitation, the protection plate for protecting the concave pipe and the second water pipe is fixedly arranged on the feeding hopper.

According to the ore crushing and screening integrated device for gold ore exploitation, the metal wear-resisting plates are detachably arranged on the inner side wall of three sides of the crushing concave shell and one side of the crushing plate through the crushing bolts, and the metal wear-resisting plates on the crushing plate and the metal wear-resisting plates on the crushing concave shell corresponding to the metal wear-resisting plates are fixedly provided with the metal wear-resisting strips.

An ore crushing and screening integrated device for gold mining and a processing technology thereof, comprising the following steps:

s1, when the ore crushing and screening integrated device for gold ore exploitation crushes exploited gold ore, the device is installed at a designated position, firstly, the exploited gold ore to be crushed is placed into a crushing space between a crushing concave shell and a crushing plate through external feeding equipment, a driving motor is started, the output end of the driving motor drives a belt pulley I to rotate, the belt pulley I drives the belt pulley II to rotate through the transmission of a plurality of belts, the belt pulley II drives a small rotating column connected with the belt pulley II to rotate, the small rotating column drives a driving rod on the other side of the belt pulley II to rotate, the driving rod is installed at the eccentric position of the small rotating column, the driving rod is rotatably installed between the driving rod and the eccentric shaft, and meanwhile, the driving rod is limited by an auxiliary positioning plate to the crushing plate and the eccentric shaft, so that the driving rod performs circular motion between the two small rotating columns, the eccentric shaft is driven by the driving rod to move, the position contacted between the crushing plate and the crushing plate is limited by two rotating bases, and the crushing plate performs arc reciprocating motion, so that the crushing plate performs continuous motion similar to the crushing plate to chew motion, and the metal ore to be crushed is continuously and wear-resistant through the metal strip on the metal concave shell;

S2, when dust generated in the crushing process of gold ores is processed by the ore crushing and screening integrated device for gold ore exploitation, when the dust is generated, a dust falling water pump is started, water in the dust falling water tank is sprayed out from the inside of the atomizing nozzle through a water pipe I, a water pipe II and a concave pipe, dust generated in the crushing space can be settled from the root through the water sprayed out from the inside of the atomizing nozzle, the problem of dust emission can be solved from the root, and after most of water enters the inside of the crushing space, the high temperature generated by mutual friction between the gold ores, the metal wear plates and the metal wear strips can be also used for carrying out evaporation and heat absorption of partial water vapor, so that the temperature in the crushing space is reduced, and the service life of the device can be correspondingly prolonged.

S3, this integrative device of ore crushing screening for gold mining is after carrying out the breakage to the gold ore, the gold ore granule after the breakage can fall to the screening filter of screening frame inside through lower hopper, then start vibrating motor, because only through a plurality of screening bearing springs and a plurality of screening bearing blocks are connected between screening frame and the screening bearing leg, receive the influence of the unstability of screening bearing springs and vibrating motor' S vibration force, the screening frame drives the screening filter and carries out irregular motion, and because the screening filter is the inside that sets up at the screening frame for certain angle, therefore the gold ore granule of big granule that falls to on the screening can fall to the gold ore conveying mechanism of one side along the screening filter, the water conservancy diversion division board, the gold ore granule of granule is less, can fall to the gold ore conveying mechanism of another side along the water conservancy diversion division board through the filtration hole on the screening filter, after the gold ore of big granule gold ore after the screening and small granule fall respectively to two gold ore conveying mechanism on, start the conveying motor on the two gold ore conveying mechanism, the output end drive main conveying axle rotation of conveying motor, through the cooperation from the conveying axle, main conveying axle drives the conveyer belt through a plurality of supporting belts and can concentrate the conveyer belt through the supporting belt on the big carrier belt that corresponds to the big carrier belt.

(III) beneficial effects

Compared with the prior art, the invention provides the ore crushing and screening integrated device for gold mining and the treatment process thereof, and the device has the following beneficial effects:

according to the invention, through the crushing mechanism on the crushing bearing frame, the crushing mechanism moves in a chewing-like manner, gold ore with high hardness is conveniently crushed, dust particles generated during crushing of the gold ore can be settled through the dust falling mechanism, after the gold ore is crushed, the gold ore particles with different sizes are conveniently screened through the cooperation of the screening mechanism, the screened gold ore particles with different sizes are respectively guided to the corresponding gold ore conveying mechanisms through the guide partition plates, and then can be intensively conveyed and collected through the cooperation of the gold ore conveying mechanisms, so that the integrated device for crushing and screening the ore for gold ore mining is convenient for crushing the gold ore with high hardness, simultaneously settling generated dust during crushing of the gold ore, ensuring surrounding environmental quality, and facilitating screening and intensively collecting the gold ore with different sizes after the crushing of the gold ore.

Drawings

FIG. 1 is a schematic perspective view, partially in section, of the whole of the present invention;

FIG. 2 is a schematic perspective view of the whole structure of the present invention;

FIG. 3 is a schematic perspective view of another angle of the whole of the present invention;

FIG. 4 is a schematic view in partial cross-section of a portion of the crushing mechanism of the present invention;

FIG. 5 is a schematic perspective view of the invention showing the cooperation of the deflector separator and the screening mechanism;

FIG. 6 is a schematic view of a partial enlarged structure of the present invention at A in FIG. 1;

FIG. 7 is a schematic view of a partially enlarged structure of the present invention at B in FIG. 1;

fig. 8 is a partially enlarged schematic view of the structure of fig. 3C according to the present invention.

In the figure: 1. a load-bearing platform; 2. crushing the bearing frame; 3. a load-bearing rod; 4. a diversion partition plate; 5. crushing the concave shell; 6. feeding a hopper; 7. discharging a hopper; 8. a breaker plate; 9. a special-shaped crushing frame; 10. a straight piece connecting piece; 11. a driving plate; 12. a driving rod; 13. an eccentric shaft; 14. a belt wheel I; 15. a belt wheel II; 16. a belt; 17. a counterweight wheel; 18. a driving motor; 19. an auxiliary positioning plate; 20. a limiting plate; 21. a positioning rod; 22. a positioning block; 23. a force-dividing spring; 24. a dust fall water tank; 25. dust-settling water pump; 26. a first water pipe; 27. a second water pipe; 28. a concave tube; 29. an atomizing nozzle; 30. screening the bearing legs; 31. screening the bearing spring; 32. screening the bearing blocks; 33. a screening frame; 34. a vibration motor; 35. screening a filter plate; 36. a conveying plate; 37. a main conveying shaft; 38. a slave conveying shaft; 39. a conveying motor; 40. a conveyor belt; 41. an arc-shaped auxiliary bearing shaft; 42. a case; 43. a case cover; 44. a water inlet pipe; 45. a water outlet pipe; 46. a gate valve; 47. a protection plate; 48. a metal wear plate; 101. a crushing mechanism; 102. a dust fall mechanism; 103. a screening mechanism; 104. gold ore conveying mechanism.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples

Referring to fig. 1 to 8, an integrated device for crushing and screening gold ores comprises a bearing platform 1, a crushing mechanism 101, a dust falling mechanism 102, a screening mechanism 103 and two gold ore conveying mechanisms 104 positioned on the bearing platform 1, wherein a crushing bearing frame 2 is fixedly installed on the bearing platform 1, the crushing mechanism 101 is fixedly installed on the crushing bearing frame 2 through two bearing rods 3, and is partially positioned at the lower part of the crushing bearing frame 2, the part of the dust falling mechanism 102 is installed on the crushing bearing frame 2, the other part of the dust falling mechanism is installed on the crushing mechanism 101, and the screening mechanism 103 is installed on the bearing platform 1 and is partially positioned below the crushing mechanism 101, specifically, the crushing mechanism 101 on the crushing bearing frame 2 is used for crushing gold ores with high hardness in a chewing-like motion, dust particles generated during crushing gold ores can also be settled through the dust falling mechanism 102, and gold ore particles with different sizes can be conveniently screened through the cooperation of the screening mechanism 103 after the gold ores are crushed;

Wherein, two gold ore conveying mechanisms 104 are all installed on the bearing platform 1, and one part of gold ore conveying mechanism 104 is located under screening mechanism 103, and another part of gold ore conveying mechanism 104 is located one side of screening mechanism 103, installs on the screening mechanism 103 and is used for screening back gold ore divided water conservancy diversion division board 4, specifically, after screening the gold ore after smashing through the screening mechanism, the gold ore granule of equidimension is water conservancy diversion respectively to corresponding gold ore conveying mechanism 104 through water conservancy diversion division board 4, then through the cooperation of gold ore conveying mechanism 104, can carry out concentrated transport and collection to it.

Wherein, as shown in fig. 4, the crushing mechanism 101 comprises a crushing concave shell 5, a feeding hopper 6, a discharging hopper 7, a crushing plate 8, a special-shaped crushing frame 9, a crushing driving assembly and an auxiliary crushing assembly, wherein the feeding hopper 6 and the discharging hopper 7 are detachably arranged on one side of the top end and the bottom end of the crushing concave shell 5 respectively through a plurality of straight piece connecting pieces 10 and a plurality of connecting bolts, the special-shaped crushing frame 9 is fixedly arranged on one side of the crushing concave shell 5 and the crushing bearing frame 2, two driving plates 11 are fixedly arranged on the other side of the top end of the crushing concave shell 5, and the positions of the feeding hopper 6 and the discharging hopper 7 can be installed and stabilized by disassembling the connecting bolts and the straight piece connecting pieces 10;

The crushing driving assembly comprises a driving rod 12, an eccentric shaft 13, a first belt pulley 14, a second belt pulley 15, a plurality of belts 16, a counterweight wheel 17 and a driving motor 18, wherein small rotary columns are fixedly arranged on one sides of the first belt pulley 15 and the counterweight wheel 17, parts of the two small rotary columns are respectively and rotatably arranged on two driving plates 11, the driving rod 12 is fixedly arranged at an eccentric position between the two small rotary columns, the eccentric shaft 13 is rotatably arranged on the driving rod 12, one end of the crushing plate 8 is fixedly arranged on the eccentric shaft 13, the driving motor 18 is fixedly arranged on the special-shaped crushing frame 9, the first belt pulley 14 is fixedly arranged at the output end of the driving motor 18, a plurality of belt grooves are respectively formed in the first belt pulley 14 and the second belt pulley 15, the plurality of belts 16 are in transmission connection between the first belt pulley 14 and the second belt pulley 15 and are respectively positioned in the corresponding belt grooves, in a specific manner, when the crushing driving motor 18 is used, the output end of the driving motor 18 drives the first belt pulley 14 to rotate, the first belt pulley 14 is driven by the transmission of the plurality of belts 16, the first belt pulley 14 drives the counterweight 15 to rotate, one belt pulley 15 drives the eccentric shaft 15 to rotate, one end of the eccentric shaft 8 drives the small rotary column 12 connected with the eccentric shaft 16 to rotate, the eccentric shaft 12 is driven by the eccentric shaft 12 to rotate, and the second belt pulley 15 is driven by the eccentric shaft 12 to move, and the second belt 15 is used for driving the eccentric shaft 13 and the eccentric shaft is driven by the eccentric shaft 13 to move.

The auxiliary crushing assembly comprises an auxiliary positioning plate 19, a limiting plate 20 and two component force positioning pieces, wherein the limiting plate 20 is fixedly arranged on the special-shaped crushing frame 9, two ends of the auxiliary positioning plate 19 are respectively arranged on one side of the limiting plate 20 and one side of the crushing plate 8 through two rotary seats, two component force positioning pieces are respectively arranged on two sides of the auxiliary positioning plate 19, each component force positioning piece comprises a positioning rod 21, a positioning block 22 and a component force spring 23, one end of the component force spring 23 is fixedly arranged at the other end of the limiting plate 20, the other end of the component force spring 23 is fixedly arranged between the other end of the component force spring 23 and the positioning block 22, one end of the positioning rod 21 is fixedly arranged on the positioning block 22, the other end of the positioning rod 21 is rotatably arranged on the crushing plate 8 through two rotary seats, a component force through hole for the movement of the positioning rod 21 is formed in the limiting plate 20, part of the positioning rod 21 is positioned inside the component force spring 23 and the component force through hole, specifically, through the cooperation of the auxiliary positioning plate 19 and the first rotary seat at two sides, the arc-shaped reciprocating motion of the crushing plate 8 is facilitated, meanwhile, the crushing plate 8 is arranged in the crushing concave shell 5 at a certain angle, the gold mine is conveniently crushed by the motion of the crushing plate 8, the component spring 23 is always in a pressed state, the main use of the auxiliary positioning plate is that the positioning rod 21 always generates a supporting force on the crushing plate 8 through the resilience force of the component spring 23, the excessive pressure applied to the first rotary seat by the crushing plate 8 in the motion work is reduced, the service life of the first rotary seat is prolonged, meanwhile, the component spring 23 can generate a certain degree of vibration when being subjected to the acting force, the vibration force can be transmitted to the crushing plate 8 through the positioning rod 21, the vibration is convenient to fall the gold mine residues on the wear-resistant metal plate and the wear-resistant metal strip at the crushing plate 8, the wear-resistant metal plate and the wear-resistant metal strip can impact the gold ore to a certain extent through vibration force, so that the crushing effect on the gold ore is improved.

The dust settling mechanism 102 comprises a dust settling water tank 24, a dust settling water pump 25, a first water pipe 26, a second water pipe 27, a concave pipe 28 and a plurality of atomizing nozzles 29, wherein the dust settling water tank 24 is arranged on a crushing bearing frame 2, the dust settling water pump 25 is arranged on a special-shaped crushing frame 9, the input end of the dust settling water pump 25 is detachably communicated with one end of the first water pipe 26 through a flange, the other end of the first water pipe 26 extends to the inside of the dust settling water tank 24, the output end of the dust settling water pump 25 is detachably communicated with one end of the second water pipe 27 through the second water pipe, the other end of the second water pipe 27 is communicated with the concave pipe 28, the concave pipe 28 is fixedly arranged on an upper hopper 6 through a plurality of stabilizing blocks, the atomizing nozzles 29 are all communicated with the concave pipe 28, and the nozzle ends of the atomizing nozzles 29 are respectively positioned in the inside of the plurality of the umbrella-shaped nozzle through holes.

Wherein, as shown in fig. 5, screening mechanism 103 includes a plurality of screening carrier legs 30, a plurality of screening carrier springs 31, a plurality of screening carrier blocks 32, screening frame 33, vibrating motor 34 and screening filter 35, the one end of a plurality of screening carrier legs 30 is all fixed on load-bearing platform 1, water conservancy diversion division board 4 fixed mounting is in the upper portion of a plurality of screening carrier legs 30, the one end of a plurality of screening carrier springs 31 is fixed mounting respectively in the other end of a plurality of screening carrier legs 30, a plurality of screening carrier blocks 32 are fixed mounting respectively in the other end of a plurality of screening carrier legs 30, screening frame 33 is fixed mounting on a plurality of screening carrier blocks 32, vibrating motor 34 is mounted in one end of screening frame 33, the inside of screening frame 33 has been seted up carrier groove, the part of screening filter 35 sets up in the inside of carrier groove, and the screening frame 33 is detachably mounted through a plurality of replacement bolts, specifically, after gold ore is crushed, the crushed gold ore particles fall onto the screening filter plate 35 in the screening frame 33 through the blanking hopper 7, then the vibrating motor 34 is started, as the screening frame 33 and the screening bearing legs 30 are connected only through a plurality of screening bearing springs 31 and a plurality of screening bearing blocks 32, the screening frame 33 drives the screening filter plate 35 to perform irregular movement under the influence of the instability of the screening bearing springs 31 and the vibration force of the vibrating motor 34, and as the screening filter plate 35 is arranged in the screening frame 33 at a certain angle, the large-particle gold ore particles falling onto the screening filter plate 35 fall onto the gold ore conveying mechanism 104 on one side along the screening filter plate 35 and the diversion partition plate 4, the small-particle gold ore particles, will fall through the filter holes in the screen plate 35 along the deflector plate 4 onto the gold ore transport mechanism 104 on the other side.

The gold ore conveying mechanism 104 includes two conveying plates 36, a main conveying shaft 37, a secondary conveying shaft 38, a conveying motor 39, a conveying belt 40 and a plurality of arc auxiliary bearing shafts 41, the two conveying plates 36 are fixedly installed on the bearing platform 1, the main conveying shaft 37 and the secondary conveying shaft 38 are rotatably installed between the two conveying plates 36, the conveying motor 39 is installed at one end of the conveying plate 36 located at one side, an output end of the conveying motor 39 penetrates through the conveying plate 36 located at one end of the conveying motor and is fixedly installed at one end of the main conveying shaft 37, the conveying belt 40 is in transmission connection between the main conveying shaft 37 and the secondary conveying shaft 38, a plurality of arc auxiliary bearing shafts 41 for bearing the conveying belt 40 are all arranged between the two conveying plates 36, specifically, after the screened large-particle gold ore and small-particle gold ore fall onto the two gold ore conveying mechanisms 104 respectively, the conveying motor 39 on the two gold ore conveying mechanisms 104 is started, the output end of the conveying motor 39 drives the main conveying shaft 37 to rotate, the main conveying belt 37 is driven by the secondary conveying shaft 38 to drive the conveying belt 40 through the cooperation of the secondary conveying shaft 38, and the plurality of arc auxiliary bearing shafts 41 are correspondingly arranged on the conveying belt 40 to collect the large-particle gold ore.

Wherein, dust fall water tank 24 includes box 42, case lid 43, inlet tube 44, outlet pipe 45 and gate valve 46, box 42 fixed mounting is on broken carrier 2, box lid 43 passes through flange dish three demountable installation on box 42, intercommunication between inlet tube 44 and the case lid 43, intercommunication each other between outlet pipe 45 and the box 42, gate valve 46 installs on outlet pipe 45, specifically, dismantle case lid 43 through flange dish three, can clean the inside of box 42, be convenient for pour into moisture into the inside of box 42 through inlet tube 44 simultaneously, through the cooperation between outlet pipe 45 and the gate valve 46, be convenient for discharge the inside remaining moisture of box 42 after the work is finished, prevent corrosion.

Wherein, fixed mounting has the guard plate 47 that is used for protecting concave type pipe 28 and water pipe two 27 on the material loading hopper 6, specifically, is convenient for protect concave type pipe 28 and water pipe two 27 through guard plate 47, prevents that the outside of gold ore spill material loading hopper 6 from causing the damage to concave type pipe 28 and water pipe two 27 during the material loading.

Wherein, all have metal wear-resisting board 48 through a plurality of crushing bolt demountable installation on the trilateral inside wall of broken concave shell 5 and one side of breaker plate 8, all fixed mounting has many metal wear-resisting bars on the metal wear-resisting board 48 on the breaker plate 8 and the metal wear-resisting board 48 on the broken concave shell 5 that corresponds with it, break gold ore through metal wear-resisting board 48 and metal wear-resisting bar, greatly reduced the risk that breaker plate 8 and broken concave shell 5 damaged, after long-term crushing operation, metal wear-resisting board 48 and metal wear-resisting bar wearing and tearing are comparatively serious after, take off the change through unscrewing crushing bolt to it can.

s1, when the ore crushing and screening integrated device for gold ore exploitation crushes exploited gold ore, the device is installed at a designated position, firstly, the exploited gold ore to be crushed is placed into a crushing space between a crushing concave shell 5 and a crushing plate 8 through external feeding equipment, a driving motor 18 is started, the output end of the driving motor 18 drives a belt pulley I14 to rotate, the belt pulley I14 drives a belt pulley II 15 to rotate through the transmission of a plurality of belts 16, the belt pulley II 15 drives a small rotating column connected with the belt pulley II to rotate, the small rotating column drives a driving rod 12 on the other side of the small rotating column to rotate, and as the driving rod 12 is installed at the eccentric position of the small rotating column, the driving rod 12 is rotationally installed with the eccentric shaft 13 and is limited by an auxiliary positioning plate 19 to the crushing plate 8 and the eccentric shaft 13, the driving rod 12 moves circumferentially between the two small rotating columns, the eccentric shaft 13 is driven by the driving rod 12 to move with the eccentric shaft 13, the position of the eccentric shaft 13 is driven by the driving rod 8 to move with the eccentric shaft, the contact position between the crushing plate 8 and the crushing plate 8 is driven by the driving rod 12 to move with the eccentric shaft, the small rotating column is driven by the small rotating column, and the small rotating column is continuously to move with the crushing plate 8, and the metal plate 48 is continuously in a friction-resistant motion of the metal plate is limited by the grinding plate 48;

S2, when dust generated in the crushing process of the gold mine is processed by the ore crushing and screening integrated device for gold mine exploitation, when the dust is generated, the dust falling water pump 25 is started, moisture in the dust falling water tank 24 is sprayed out of the atomizing nozzle 29 through the first water pipe 26, the second water pipe 27 and the concave pipe 28, dust generated in the crushing space is settled by the moisture sprayed out of the atomizing nozzle 29, the problem of dust emission can be solved from the root, and after most of the moisture enters the inside of the crushing space, the high temperature generated by mutual friction between the gold mine, the metal wear plate 48 and the metal wear strip can be also evaporated and absorbed, the temperature in the crushing space is reduced, and the service life of the device can be correspondingly prolonged.

S3, this integrative device of ore crushing screening for gold mine exploitation is after carrying out the breakage to gold mine, the gold mine granule after the breakage can fall to the inside screening filter 35 of screening frame 33 through hopper 7 down, then start vibrating motor 34, because only through a plurality of screening loading springs 31 and a plurality of screening loading pieces 32 are connected between screening frame 33 and the screening loading leg 30, receive the influence of the unstability of screening loading springs 31 and vibrating motor 34, the screening frame 33 drives screening filter 35 and carries out irregular motion, and because screening filter 35 is the inside that sets up at certain angle, therefore the gold mine granule of big granule that falls to screening filter 35 falls to one side along screening filter 35, the smaller gold mine granule of granule can be through the filtration pore on screening filter 35 along the gold mine conveying mechanism 104 of water conservancy diversion division board 4 to another side, after the gold mine of big granule gold mine after the screening falls to two gold mine conveying mechanism 104 respectively, start the conveying motor conveying shaft 39 on two gold mine conveying mechanism 104 carries out the irregular motion, the conveyer belt 40 is concentrated through the conveyer belt 40 is carried to the main bearing shaft 37 through the main bearing 40, can be concentrated through the conveyer belt 40, it is carried out to the conveyer belt 40.

In summary, when the ore crushing and screening integrated device for gold ore mining is used for crushing the mined gold ore, the device is installed at a designated position, firstly, the mined gold ore to be crushed is placed into a crushing space between a crushing concave shell 5 and a crushing plate 8 through external feeding equipment, a driving motor 18 is started, the output end of the driving motor 18 drives a belt pulley I14 to rotate, the belt pulley I14 drives a belt pulley II 15 to rotate through the transmission of a plurality of belts 16, the belt pulley II 15 drives a small rotating column connected with the belt pulley II to rotate, the small rotating column drives a driving rod 12 on the other side of the small rotating column to rotate, and the driving rod 12 and the eccentric shaft 13 are rotatably installed at the eccentric position of the small rotating column, and meanwhile, the driving rod 12 is limited by an auxiliary positioning plate 19 to the crushing plate 8 and the eccentric shaft 13, so that the driving rod 12 moves circumferentially between the two small rotating columns, the driving rod 12 drives the eccentric shaft 13 to move through the driving rod 13, the contact position between the eccentric shaft 13 and the crushing plate 8 to move in an elliptical manner, the contact position between the crushing plate 8 and the auxiliary positioning plate 19 is driven by the driving rod 12 to move in a reciprocating manner, and the metal crushing plate 8 is continuously and the metal plate to be crushed by the arc-shaped motion of the grinding plate 8, and the metal plate to be crushed is continuously and the metal plate to be chewed by the grinding plate 48;

Further, when dust generated in the process of crushing gold ores is treated, when the dust is generated, the dust falling water pump 25 is started, moisture in the dust falling water tank 24 is sprayed out from the inside of the atomizing nozzle 29 through the first water pipe 26, the second water pipe 27 and the concave pipe 28, the problem of dust emission can be solved from the root part by settling the dust generated in the crushing space through the moisture sprayed out from the inside of the atomizing nozzle 29, and when most of the moisture enters the inside of the crushing space, the high temperature generated by mutual friction between the gold ores, the metal wear plates 48 and the metal wear strips can be also used for carrying out evaporation and heat absorption of part of water vapor, so that the temperature in the crushing space is reduced, and the service life of the device can be correspondingly prolonged;

after the gold ore is crushed, the crushed gold ore particles fall onto the screening filter plate 35 in the screening frame 33 through the blanking hopper 7, then the vibrating motor 34 is started, as the screening frame 33 is connected with the screening bearing legs 30 only through the screening bearing springs 31 and the screening bearing blocks 32, the screening frame 33 drives the screening filter plate 35 to perform irregular movement under the influence of the instability of the screening bearing springs 31 and the vibration force of the vibrating motor 34, and as the screening filter plate 35 is arranged in the screening frame 33 at a certain angle, the large-particle gold ore particles falling onto the screening filter plate 35 fall onto the gold ore conveying mechanism 104 on one side along the screening filter plate 35 and the guide partition plate 4, the small-particle gold ore particles fall onto the gold ore conveying mechanism 104 on the other side along the guide partition plate 4 through the filtering holes in the screening filter plate 35, after the large-particle gold ore and the small-particle gold ore are respectively fallen onto the two gold ore conveying mechanisms 104, the conveying motor 39 on the two gold ore conveying mechanisms 104 is started, the output end of the conveying motor 39 drives the main conveying shaft 37 to rotate, and the main conveying shaft 37 is correspondingly matched with the main conveying shaft 40 to perform concentrated conveying on the main conveying belt 40, and the main conveying shaft 40 can be conveyed by the main conveying belt 40.

It is added that if the size of the crushed gold ore particles is to be adjusted, the adjustment can be completed by selecting auxiliary positioning plates 19 with different lengths, and the principle is that the angle of the crushing plate 8 in the crushing concave shell 5 is adjusted by the auxiliary positioning plates 19 with different lengths, and meanwhile, the minimum distance between the crushing concave shell 5 and the crushing plate 8 can be adjusted, and the adjustment of the minimum distance between the crushing concave shell 5 and the crushing plate 8 can be completed by changing the auxiliary positioning plates 19 with different lengths according to the size of the required gold ore particles.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Ore crushing and screening integrated device for gold mining is characterized by comprising:

the crushing device comprises a bearing platform (1), wherein a crushing bearing frame (2) is fixedly arranged on the bearing platform (1);

the crushing mechanism (101), the crushing mechanism (101) is fixedly installed on the crushing bearing frame (2) through two bearing rods (3) and is partially positioned at the lower part of the crushing bearing frame (2), the crushing mechanism (101) comprises a crushing concave shell (5), an upper hopper (6), a lower hopper (7), a crushing plate (8), a special-shaped crushing frame (9), a crushing driving assembly and an auxiliary crushing assembly, the upper hopper (6) and the lower hopper (7) are detachably installed on one side of the top end and the bottom end of the crushing concave shell (5) through a plurality of straight piece connecting pieces (10) and a plurality of connecting bolts respectively, the special-shaped crushing frame (9) is fixedly installed on one side of the crushing concave shell (5) and the crushing bearing frame (2), and two driving plates (11) are fixedly installed on the other side of the top end of the crushing concave shell (5);

A dust fall mechanism (102), wherein one part of the dust fall mechanism (102) is arranged on the crushing bearing frame (2), and the other part of the dust fall mechanism is arranged on the crushing mechanism (101);

a screening mechanism (103), the screening mechanism (103) being mounted on the load-bearing platform (1) and being partially below the crushing mechanism (101);

the gold ore screening device comprises two gold ore conveying mechanisms (104) located on a bearing platform (1), wherein the two gold ore conveying mechanisms (104) are both installed on the bearing platform (1), one part of each gold ore conveying mechanism (104) is located right below a screening mechanism (103), the other part of each gold ore conveying mechanism (104) is located on one side of the screening mechanism (103), and a flow guide partition plate (4) for separating gold ores after screening is installed on the screening mechanism (103).

2. The ore crushing and screening integrated device for gold ore mining according to claim 1, wherein the crushing and driving assembly comprises a driving rod (12), an eccentric shaft (13), a first belt wheel (14), a second belt wheel (15), a plurality of belts (16), a counterweight wheel (17) and a driving motor (18), wherein small rotating columns are fixedly arranged on one sides of the second belt wheel (15) and the counterweight wheel (17), parts of the two small rotating columns are respectively and rotatably arranged on two driving plates (11), the driving rod (12) is fixedly arranged at an eccentric position between the two small rotating columns, the eccentric shaft (13) is rotatably arranged on the driving rod (12), one end of the crushing plate (8) is fixedly arranged on the eccentric shaft (13), the driving motor (18) is fixedly arranged on the special-shaped crushing frame (9), the first belt wheel (14) is fixedly arranged on an output end of the driving motor (18), a plurality of belts (14) and the second belt wheel (15) are respectively arranged on the driving plates (11), and the first belt wheel (16) and the second belt wheel (14) are correspondingly connected between the belt pulleys (15) in a transmission way;

The auxiliary crushing assembly comprises an auxiliary positioning plate (19), a limiting plate (20) and two component force positioning pieces, wherein the limiting plate (20) is fixedly arranged on the special-shaped crushing frame (9), two ends of the auxiliary positioning plate (19) are respectively rotatably arranged on one side of the limiting plate (20) and one side of the crushing plate (8) through two rotary bases, the two component force positioning pieces are respectively arranged on two sides of the auxiliary positioning plate (19), each component force positioning piece comprises a positioning rod (21), a positioning block (22) and a component force spring (23), one end of each component force spring (23) is fixedly arranged at the other end of the limiting plate (20), the other end of each component force spring (23) is fixedly arranged between the other end of each positioning block (22), one end of each positioning rod (21) is fixedly arranged on the corresponding positioning block (22), the other end of each positioning rod (21) is rotatably arranged on the corresponding crushing plate (8), and a component force for the positioning rod (21) is arranged on the limiting plate (20) and is located in the through hole.

3. The ore crushing and screening integrated device for gold mining according to claim 2, wherein the dust settling mechanism (102) comprises a dust settling water tank (24), a dust settling water pump (25), a water pipe I (26), a water pipe II (27), a concave pipe (28) and a plurality of atomizing nozzles (29);

The utility model discloses a dust fall water tank (24) is installed on broken frame (2), dust fall water pump (25) are installed on broken frame (9) of dysmorphism, the input of dust fall water pump (25) through the ring flange one with the one end of water pipe one (26) is dismantled and is linked together, the other end of water pipe one (26) extends to the inside of dust fall water tank (24), the output of dust fall water pump (25) can dismantle the intercommunication through the ring flange two with the one end of water pipe two (27), the other end of water pipe two (27) communicates between concave pipe (28), concave pipe (28) are in through a plurality of stabilizator fixed mounting on last hopper (6), a plurality of umbrella form shower nozzle through-holes have been seted up on last hopper (6), a plurality of atomizer (29) all communicate on concave pipe (28) to the shower nozzle end of a plurality of atomizer (29) is located the inside of umbrella form shower nozzle through-holes respectively.

4. A gold ore opening ore crushing and screening integrated device according to claim 3, characterized in that the screening mechanism (103) comprises a plurality of screening bearing legs (30), a plurality of screening bearing springs (31), a plurality of screening bearing blocks (32), a screening frame (33), a vibrating motor (34) and a screening filter plate (35);

The screening device comprises a plurality of screening bearing legs (30), a plurality of guide division plates (4), a plurality of screening filter plates (35) and a plurality of screening support blocks (32), wherein one ends of the screening bearing legs (30) are fixedly installed on a bearing platform (1), the guide division plates (4) are fixedly installed on the upper parts of the screening bearing legs (30), one ends of the screening bearing springs (31) are fixedly installed on the other ends of the screening bearing legs (30) respectively, the screening support blocks (32) are fixedly installed on the screening support blocks (33), the vibrating motor (34) is installed at one end of the screening support blocks (33), carrier plate grooves are formed in the interiors of the screening support blocks (33), and parts of the screening filter plates (35) are arranged in the interiors of the carrier plate grooves and are detachably installed on the screening support blocks (33) through a plurality of replacement bolts.

5. The integrated device for ore crushing and screening for gold ore mining according to claim 4, characterized in that the gold ore conveying mechanism (104) comprises two conveying plates (36), a main conveying shaft (37), a secondary conveying shaft (38), a conveying motor (39), a conveying belt (40) and a plurality of arc-shaped auxiliary bearing shafts (41);

Two conveying plates (36) are fixedly mounted on the bearing platform (1), a main conveying shaft (37) and a secondary conveying shaft (38) are rotatably mounted between the two conveying plates (36), a conveying motor (39) is mounted at one end of the conveying plate (36) located at one side, an output end of the conveying motor (39) penetrates through the conveying plate (36) located at one end of the conveying motor and is fixedly mounted with one end of the main conveying shaft (37), a conveying belt (40) is in transmission connection between the main conveying shaft (37) and the secondary conveying shaft (38), and a plurality of arc-shaped auxiliary bearing shafts (41) used for bearing the conveying belt (40) are arranged between the two conveying plates (36).

6. The integrated device for crushing and screening ores for gold mining according to claim 5, wherein the dust-settling water tank (24) comprises a tank body (42), a tank cover (43), a water inlet pipe (44), a water outlet pipe (45) and a gate valve (46);

the box body (42) is fixedly installed on the crushing bearing frame (2), the box cover (43) is detachably installed on the box body (42) through a flange plate III, the water inlet pipe (44) is communicated with the box cover (43), the water outlet pipe (45) is communicated with the box body (42), and the gate valve (46) is installed on the water outlet pipe (45).

7. The ore crushing and screening integrated device for gold ore exploitation according to claim 6, wherein a protection plate (47) for protecting the concave pipe (28) and the second water pipe (27) is fixedly arranged on the feeding hopper (6).

8. The ore crushing and screening integrated device for gold ore exploitation according to claim 7, wherein the metal wear plates (48) are detachably mounted on three inner side walls of the crushing concave shell (5) and one side of the crushing plate (8) through a plurality of crushing bolts, and a plurality of metal wear strips are fixedly mounted on the metal wear plates (48) on the crushing plate (8) and the metal wear plates (48) on the crushing concave shell (5) corresponding to the metal wear plates.

9. The processing technology of the ore crushing and screening integrated device for gold ore exploitation is characterized in that the ore crushing and screening integrated device for gold ore exploitation according to claim 8 is used, and the processing technology comprises the following steps:

s1, when the ore crushing and screening integrated device for gold ore exploitation crushes exploited gold ore, the ore crushing and screening integrated device is installed at a designated position, gold ore to be crushed after exploitation is firstly placed into a crushing space between a crushing concave shell (5) and a crushing plate (8) through external feeding equipment, a driving motor (18) is started, the output end of the driving motor (18) drives a belt pulley I (14) to rotate, the belt pulley I (14) drives a belt pulley II (15) to rotate through the transmission of a plurality of belts (16), the belt pulley II (15) drives a small rotating post connected with the belt pulley II to rotate, the small rotating post drives a driving rod (12) at the other side of the belt pulley II to rotate, and because the driving rod (12) is installed at the eccentric position of the small rotating post, the driving rod (12) is rotatably installed with the eccentric shaft (13) and is limited by an auxiliary positioning plate (19) to the crushing plate (8) and the eccentric shaft (13), so that the driving rod (12) moves circumferentially between the two small rotating posts and the eccentric shaft (13) to make the two small rotating posts move in an elliptical manner, and the small rotating plate (8) moves in a reciprocating manner, and the small rotating plate (8) is limited by the eccentric plate (8) to move in an elliptical manner, the gold ore to be crushed is continuously crushed through the cooperation between the crushing plate (8) and the metal wear-resisting plate (48) and the metal wear-resisting strip on the crushing concave shell (5);

S2, when dust generated in the crushing process of the gold mine is processed by the ore crushing and screening integrated device for gold mine exploitation, when the dust is generated, a dust falling water pump (25) is started, water in the dust falling water tank (24) is sprayed out of an atomization nozzle (29) through a first water pipe (26), a second water pipe (27) and a concave pipe (28), dust generated in a crushing space is settled by the water sprayed out of the atomization nozzle (29), the problem of dust emission can be solved from the root, and when most of the water enters the inside of the crushing space, the high temperature generated by mutual friction between the gold mine, a metal wear plate (48) and a metal wear strip can be evaporated to absorb heat, so that the temperature in the crushing space is reduced, and the service life of the device can be correspondingly prolonged;

s3, after crushing gold ores, the crushed gold ore particles fall onto a screening filter plate (35) in a screening frame (33) through a blanking hopper (7), then a vibrating motor (34) is started, as the screening frame (33) is connected with screening bearing legs (30) only through a plurality of screening bearing springs (31) and a plurality of screening bearing blocks (32), the screening frame (33) drives the screening filter plate (35) to perform irregular movement under the influence of instability of the screening bearing springs (31) and vibration force of the vibrating motor (34), and as the screening filter plate (35) is arranged in the screening frame (33), large-particle gold ore particles falling onto the screening filter plate (35) fall onto a gold ore conveying mechanism (104) on one side along the screening filter plate (35), small-particle gold ore particles fall onto a gold ore conveying mechanism (104) on the other side along the screening guide partition plate (4) through filter holes on the screening filter plate (35), and when the large-particle gold ore particles falling onto the screening filter plate (35) and the gold ore conveying mechanism (104) are matched with each other through a main conveying shaft (39) to drive two gold ore conveying shafts (39) to rotate, and then the gold ore particles falling onto the main conveying mechanism (39) are conveyed, the main conveying shaft (37) drives the conveying belt (40) to drive, and the conveying belt (40) is supported by a plurality of arc auxiliary bearing shafts (41), so that gold ore particles with corresponding sizes on the main conveying shaft can be driven to be conveyed through the conveying belt (40), and then are collected in a concentrated mode.