CN220334904U

CN220334904U - Water recycling system for ore production

Info

Publication number: CN220334904U
Application number: CN202321503377.XU
Authority: CN
Inventors: 曾文涛
Original assignee: Wuxue Mineral Resources Development Co ltd
Current assignee: Wuxue Mineral Resources Development Co ltd
Priority date: 2023-06-13
Filing date: 2023-06-13
Publication date: 2024-01-12
Anticipated expiration: 2033-06-13

Abstract

The utility model relates to a water recycling system for ore production, which comprises a flocculation mechanism, wherein a sedimentation mechanism is arranged at the top of the flocculation mechanism, a cleaning mechanism is arranged at the top of the sedimentation mechanism, a driving mechanism is arranged at the back of the sedimentation mechanism, a discharging mechanism is arranged at the back of the sedimentation mechanism, the discharging mechanism comprises a containing bin, a screw shaft, a third belt pulley, a third driving belt and a drain pipe, and the back of the sedimentation mechanism is communicated with the containing bins with two numbers. This water cyclic utilization system of ore production, through discharge mechanism, precipitation mechanism, clearance mechanism and actuating mechanism's setting, effectively clear up the solid thing that sinks in water in the sewage, simultaneously, also intercept the clearance to the solid thing that floats in water, reduce artifical clearance cost to make the sewage carry out dosing flocculation and catalytic oxidation again and handle, promote sewage cyclic utilization efficiency.

Description

Water recycling system for ore production

Technical Field

The utility model relates to the technical field of wastewater treatment, in particular to a water recycling system for ore production.

Background

The flotation method is a mineral separation method for separating minerals by utilizing the differences of physical and chemical properties of the surfaces of the minerals, and is widely applied to industry.

In the process of realizing the application, the inventor finds that at least the following problems exist in the technology, and the existing ore water circulation system generally comprises the steps of precipitation, separation, catalytic oxidation and the like, wherein in the precipitation step, a great amount of filtered sand and stone can remain in a precipitation tank, and the sediment needs to be cleaned manually by using a tool, so that the cleaning is troublesome, and the ore flotation wastewater circulation and purification efficiency is affected.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a water recycling system for ore production, which has the advantages of convenient cleaning and the like, and solves the problem of poor efficiency of sediment cleaning effect in the existing ore water recycling system.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the water recycling system for ore production comprises a flocculation mechanism, wherein a sedimentation mechanism is arranged at the top of the flocculation mechanism, a cleaning mechanism is arranged at the top of the sedimentation mechanism, a driving mechanism is arranged at the back of the sedimentation mechanism, and a discharge mechanism is arranged at the back of the sedimentation mechanism;

the discharging mechanism comprises a containing bin, a spiral shaft, a third belt pulley, a third driving belt and a drain pipe, wherein the two containing bins are communicated with the back of the precipitating mechanism, the spiral shaft with one end penetrating through and extending to the inside of the precipitating mechanism is rotatably arranged on the back of the containing bin, the third belt pulley is fixedly arranged on the outer portion of the spiral shaft, the third driving belt with one end connected with the third belt pulley on the left side is arranged on the outer portion of the third belt pulley in a transmission mode, and the drain pipe is communicated with the bottom of the containing bin.

Further, flocculation mechanism includes flocculation storehouse, transport fill, conveyer pipe, liquid delivery pipe and support, the right side fixed mounting in flocculation storehouse has the transport fill, the inner wall left side fixed mounting in flocculation storehouse has the quantity to be two and one end runs through the conveyer pipe that flocculation storehouse and extended to the transportation fill inside, the import intercommunication of conveyer pipe has liquid delivery pipe, liquid delivery pipe's outside activity has cup jointed one end and has congealed storehouse fixed connection's support.

Further, the sedimentation mechanism includes sedimentation tank, lower baffle, last baffle, unloading pipe, inlet tube and filter screen plate, the top fixed mounting in flocculation storehouse has the sedimentation tank, the inside fixed mounting in sedimentation tank has the baffle down, the inside of sedimentation tank just is located the right side fixed mounting of baffle down and has the baffle, the interior bottom wall in flocculation storehouse just is located the right side fixed mounting of baffle and has one end to run through and extend to the unloading pipe in flocculation storehouse inside, the left side intercommunication in sedimentation tank has the inlet tube, the right side fixed mounting of baffle has one end and last baffle fixed connection's filter screen plate down.

Further, clearance mechanism includes scraper blade, first belt pulley, first drive belt and adjusting screw, the top rotation of sedimentation tank is installed and is two adjusting screw, adjusting screw's outside fixed mounting has first belt pulley, left side the outside transmission of first belt pulley is installed the first drive belt that one end and the outside transmission of right side first belt pulley are connected, the scraper blade is installed to adjusting screw's external screw thread.

Further, actuating mechanism includes servo motor, pivot, second belt pulley, second drive belt, linkage belt pulley and linkage drive belt, and the back fixed mounting of sedimentation tank has servo motor, servo motor's output fixed mounting has the pivot, the outside of pivot and the outside of left side adjusting screw all fixed mounting have the second belt pulley, the top the outside transmission of second belt pulley installs the second drive belt that one end and below second belt pulley transmission are connected, the outside of pivot and the outside of right side screw axis all fixed mounting have the linkage belt pulley, the right side the outside transmission of linkage belt pulley installs the linkage drive belt that one end and left side linkage belt pulley transmission are connected.

Further, the support contacts with send the liquid pipe, send the pipeline that the liquid pipe is inside cavity top and lose, the outer wall of filter screen board contacts with the inner wall of sedimentation tank, hold storehouse fixed mounting has the back at the sedimentation tank, the left side hold the storehouse and be located between sedimentation tank inner wall left side and the lower baffle, the right side hold the storehouse and be located between baffle and the last baffle down.

Further, the left side the scraper blade is located between sedimentation tank inner wall left side and the lower baffle, the right side the scraper blade is located between lower baffle and the last baffle, the left side the scraper blade bottom contacts with the sedimentation tank, the right side the scraper blade bottom contacts with the filter screen board.

Further, the bottom of the transport bucket is communicated with a connecting pipeline, and an outlet of the transport bucket is communicated with a catalytic oxidation tank.

Compared with the prior art, the technical scheme of the application has the following beneficial effects:

this water cyclic utilization system of ore production, through discharge mechanism, precipitation mechanism, clearance mechanism and actuating mechanism's setting, effectively clear up the solid thing that sinks in water in the sewage, simultaneously, also intercept the clearance to the solid thing that floats in water, reduce artifical clearance cost to make the sewage carry out dosing flocculation and catalytic oxidation again and handle, promote sewage cyclic utilization efficiency.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is an enlarged view of the utility model at A in FIG. 1;

FIG. 3 is a schematic diagram of a rear view structure of a sedimentation tank according to the present utility model;

FIG. 4 is a schematic cross-sectional view of a precipitation mechanism according to the present utility model;

fig. 5 is a top cross-sectional view of the ejection mechanism of the present utility model.

In the figure: 1. a flocculation bin; 2. a transport bucket; 3. a connecting pipe; 4. a catalytic oxidation tank; 5. a delivery tube; 6. a liquid feeding pipe; 7. a bracket; 8. a sedimentation tank; 9. a lower partition plate; 10. an upper partition plate; 11. discharging pipes; 12. a scraper; 13. a first pulley; 14. a first belt; 15. a servo motor; 16. a rotating shaft; 17. a second pulley; 18. a second belt; 19. a receiving bin; 20. a screw shaft; 21. a third pulley; 22. a third belt; 23. a linkage belt pulley; 24. a linkage transmission belt; 25. a blow-down pipe; 26. a water inlet pipe; 27. a filter screen plate; 28. and adjusting the screw.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, a water recycling system for ore production in this embodiment includes a flocculation mechanism, a sedimentation mechanism is disposed at the top of the flocculation mechanism, a cleaning mechanism is disposed at the top of the sedimentation mechanism, a driving mechanism is disposed at the back of the sedimentation mechanism, and a discharge mechanism is disposed at the back of the sedimentation mechanism.

In this embodiment, the discharging mechanism includes holding bin 19, screw shaft 20, third belt pulley 21, third drive belt 22 and blow off pipe 25, and the back intercommunication of deposit mechanism has two to hold bin 19, holds the back rotation of bin 19 and installs the screw shaft 20 that one end runs through and extends to the inside of deposit mechanism, and the outside fixed mounting of screw shaft 20 has third belt pulley 21, and the outside transmission of right side third belt pulley 21 installs the third drive belt 22 that one end and left side third belt pulley 21 transmission are connected, and the bottom intercommunication of holding bin 19 has blow off pipe 25.

Wherein, the drain pipe 25 is provided with the control valve with holding the department of storehouse 19 meeting, and when the solid matter needs to be discharged, can conveniently discharge, and when discharge mechanism operation, the drain pipe 25 can not influence discharge mechanism overall use.

Specifically, the driving mechanism makes the right screw shaft 20 rotate and drives the right third belt pulley 21 to drive the left third belt pulley 21 to rotate through the third transmission belt 22, so that the two screw shafts 20 rotate, and accordingly the cleaning mechanism jointly acts, so that the submerged solids and the floating solids are cleaned conveniently, automatic cleaning and discharging are realized, and the sewage cleaning efficiency is improved.

In this embodiment, flocculation mechanism includes flocculation storehouse 1, transport fill 2, conveyer pipe 5, send liquid pipe 6 and support 7, the right side fixed mounting in flocculation storehouse 1 has transport fill 2, the bottom intercommunication of transport fill 2 has connecting tube 3, the export intercommunication of transport fill 2 has catalytic oxidation jar 4, the inner wall left side fixed mounting in flocculation storehouse 1 has the conveyer pipe 5 that quantity is two and one end runs through flocculation storehouse 1 and extend to the transportation fill 2 inside, the import intercommunication of conveyer pipe 5 has send liquid pipe 6, send the outside activity of liquid pipe 6 to cup joint one end and the support 7 of flocculation storehouse 1 fixed connection, support 7 contacts with send liquid pipe 6, send liquid pipe 6 to be the pipeline that inside cavity top was absent.

It should be noted that, the bottom of flocculation bin 1 is provided with clearance pipeline and exhaust pipe to convenient clearance is formed in its inside flocculation.

Specifically, the flocculation reagent is added into the flocculation bin 1 to react with sewage, then the flocculation is sunk into the bottom of the flocculation bin 1 to precipitate, and the flocculated clean water enters the transport bucket 2 through the liquid feeding pipe 6 and the transport pipe 5, so that the clean water in the flocculation enters the catalytic oxidation tank 4 to react conveniently through the connecting pipe 3, and harmful substances in the waste water are effectively adsorbed and desorbed.

In this embodiment, the precipitation mechanism includes sedimentation tank 8, lower baffle 9, go up baffle 10, unloading pipe 11, inlet tube 26 and filter screen plate 27, sedimentation tank 8 is fixed mounting in the top of flocculation storehouse 1, the inside fixed mounting of sedimentation tank 8 has lower baffle 9, the inside of sedimentation tank 8 just is located the right side fixed mounting of lower baffle 9 and has last baffle 10, the inner bottom wall of flocculation storehouse 1 just is located the unloading pipe 11 that upper baffle 10 right side fixed mounting had one end to run through and extend to flocculation storehouse 1 inside, the left side intercommunication of sedimentation tank 8 has inlet tube 26, the right side fixed mounting of lower baffle 9 has one end and last baffle 10 fixed connection's filter screen plate 27, the outer wall of filter screen plate 27 contacts with sedimentation tank 8's inner wall, hold the back at sedimentation tank 8 in storehouse 19 fixed mounting, left side holds storehouse 19 and is located between sedimentation tank 8 inner wall left side and the lower baffle 9, right side holds storehouse 19 and is located between lower baffle 9 and the upper baffle 10.

The arrangement of the lower partition plate 9, the upper partition plate 10 and the filter screen plate 27 effectively intercepts solids in sewage, and realizes the cleaning of the solids in the sewage, so that the solids enter the flocculation bin 1 cleanly for subsequent purification.

In this embodiment, the cleaning mechanism includes scraper blade 12, first belt pulley 13, first drive belt 14 and adjusting screw 28, the top rotation of sedimentation tank 8 is installed and is two adjusting screw 28, the outside fixed mounting of adjusting screw 28 has first belt pulley 13, the outside transmission of left side first belt pulley 13 is installed one end and the outside transmission of right side first belt pulley 13 is connected first drive belt 14, scraper blade 12 is installed to the external screw thread of adjusting screw 28, left side scraper blade 12 is located between sedimentation tank 8 inner wall left side and the lower baffle 9, right side scraper blade 12 is located between lower baffle 9 and the upper baffle 10, left side scraper blade 12 bottom is contacted with sedimentation tank 8, right side scraper blade 12 bottom is contacted with filter screen plate 27.

Specifically, the driving mechanism makes the left adjusting screw 28 rotate, at this time, the left adjusting screw 28 drives the left first belt pulley 13 to drive the right first belt pulley 13 to rotate through the first driving belt 14, so that the two adjusting screws 28 rotate, since the left scraping plate 12 is located between the left side of the inner wall of the sedimentation tank 8 and the lower partition plate 9, the right scraping plate 12 is located between the lower partition plate 9 and the upper partition plate 10, the moving positions of the two scraping plates 12 are effectively restrained, scraping of the solid matters at the bottom of the sedimentation tank 8 from the filter screen plate 27 by the scraping plates 12 is realized, the solid matters are sent into the discharging mechanism, and automatic discharging of the solid matters is realized.

In this embodiment, the driving mechanism includes a servo motor 15, a rotating shaft 16, a second belt pulley 17, a second driving belt 18, a linkage belt pulley 23 and a linkage driving belt 24, the back of the sedimentation tank 8 is fixedly provided with the servo motor 15, the output end of the servo motor 15 is fixedly provided with the rotating shaft 16, the outer parts of the rotating shaft 16 and the left adjusting screw 28 are fixedly provided with the second belt pulley 17, the outer part of the upper second belt pulley 17 is provided with the second driving belt 18 with one end in driving connection with the lower second belt pulley 17, the outer parts of the rotating shaft 16 and the right screw shaft 20 are fixedly provided with the linkage belt pulley 23, and the outer part of the right linkage belt pulley 23 is provided with the linkage driving belt 24 with one end in driving connection with the left linkage belt pulley 23.

Specifically, the servo motor 15 is started, the rotating shaft 16 drives the lower second belt pulley 17 to rotate, the second belt pulley 17 above is driven to rotate by the second transmission belt 18, so that the cleaning mechanism is driven to operate, meanwhile, the rotating shaft 16 drives the left linkage belt pulley 23 to rotate, and the right linkage belt pulley 23 is driven to rotate by the linkage transmission belt 24, so that the discharging mechanism is driven to operate, and the two mechanisms share one driving mode, so that the energy is saved and the environment is protected.

The working principle of the embodiment is as follows:

in use, the servo motor 15 is started to drive the rotating shaft 16 to rotate the lower second belt pulley 17, the second belt 18 drives the upper second belt pulley 17 to rotate, the left adjusting screw 28 is driven to rotate, at this time, the left adjusting screw 28 drives the left first belt pulley 13 to drive the right first belt pulley 13 to rotate through the first belt 14, the two adjusting screws 28 are both rotated, as the left scraper 12 is positioned between the left side of the inner wall of the sedimentation tank 8 and the lower partition plate 9, the right scraper 12 is positioned between the lower partition plate 9 and the upper partition plate 10, the moving positions of the two scrapers 12 are effectively restrained, meanwhile, the rotating shaft 16 drives the left linkage belt pulley 23 to rotate through the linkage belt 24 to drive the right linkage belt pulley 23 to rotate, the right screw shaft 20 is driven to rotate, and the right third belt pulley 21 is driven to drive the left third belt pulley 21 through the third belt pulley 22 to rotate, and the two screw shafts 20 are driven to rotate, so that in the process that the two scrapers 12 move backward, the filter screen 27 and solid at the bottom of the sedimentation tank 8 are carried backward and effectively discharged, and after the scrapers 12 move backward, the screw shafts 20 do not reverse rotation, the normal discharge mechanism is affected.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present utility model 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 utility model, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The water recycling system for ore production is characterized by comprising a flocculation mechanism, wherein the top of the flocculation mechanism is provided with a sedimentation mechanism, the top of the sedimentation mechanism is provided with a cleaning mechanism, the back of the sedimentation mechanism is provided with a driving mechanism, and the back of the sedimentation mechanism is provided with a discharge mechanism;

the discharging mechanism comprises a containing bin (19), a spiral shaft (20), a third belt pulley (21), a third driving belt (22) and a drain pipe (25), wherein the containing bin (19) with two numbers is communicated with the back of the precipitating mechanism, the spiral shaft (20) with one end penetrating through and extending to the inside of the precipitating mechanism is rotatably arranged on the back of the containing bin (19), the third belt pulley (21) is fixedly arranged on the outer portion of the spiral shaft (20), the third driving belt (22) with one end connected with the third belt pulley (21) on the left is arranged on the outer portion of the third belt pulley (21) in a transmission mode, and the drain pipe (25) is communicated with the bottom of the containing bin (19).

2. A water recycling system for ore production according to claim 1, wherein: the flocculation mechanism comprises a flocculation bin (1), a conveying hopper (2), conveying pipes (5), a liquid conveying pipe (6) and a support (7), wherein the conveying hopper (2) is fixedly installed on the right side of the flocculation bin (1), the conveying pipes (5) which are two in number and are fixedly installed on the left side of the inner wall of the flocculation bin (1) and extend to the inside of the conveying hopper (2) are penetrated through the flocculation bin (1) at one end, the liquid conveying pipe (6) is communicated with the inlet of the conveying pipe (5), and the support (7) with one end fixedly connected with the flocculation bin (1) is movably sleeved on the outside of the liquid conveying pipe (6).

3. A water recycling system for ore production according to claim 2, wherein: the sedimentation mechanism comprises a sedimentation tank (8), a lower baffle (9), an upper baffle (10), a discharging pipe (11), a water inlet pipe (26) and a filter screen plate (27), wherein the sedimentation tank (8) is fixedly arranged at the top of the flocculation bin (1), the lower baffle (9) is fixedly arranged in the sedimentation tank (8), the upper baffle (10) is fixedly arranged in the sedimentation tank (8) and positioned on the right side of the lower baffle (9), one end of the inner bottom wall of the flocculation bin (1) is fixedly arranged on the right side of the upper baffle (10), and the one end of the inner bottom wall of the flocculation bin is penetrated and extends to the discharging pipe (11) in the flocculation bin (1), the water inlet pipe (26) is communicated with the left side of the sedimentation tank (8), and the filter screen plate (27) is fixedly connected with one end of the lower baffle (9) and the upper baffle (10) is fixedly arranged on the right side of the lower baffle (9).

4. A water recycling system for ore production according to claim 3, wherein: the cleaning mechanism comprises a scraping plate (12), a first belt pulley (13), a first driving belt (14) and an adjusting screw (28), wherein the two adjusting screws (28) are rotatably arranged at the top of the sedimentation tank (8), the first belt pulley (13) is fixedly arranged outside the adjusting screw (28), the first driving belt (14) with one end connected with the external driving belt of the first belt pulley (13) on the right side is arranged on the external driving belt of the first belt pulley (13) on the left side, and the scraping plate (12) is arranged on the external threads of the adjusting screw (28).

5. The water recycling system for ore production according to claim 4, wherein: the driving mechanism comprises a servo motor (15), a rotating shaft (16), a second belt pulley (17), a second driving belt (18), a linkage belt pulley (23) and a linkage driving belt (24), wherein the servo motor (15) is fixedly arranged on the back of the sedimentation tank (8), the rotating shaft (16) is fixedly arranged at the output end of the servo motor (15), the second belt pulley (17) is fixedly arranged outside the rotating shaft (16) and outside a left adjusting screw (28), the second driving belt (18) with one end in transmission connection with the second belt pulley (17) below is arranged on the outside of the second belt pulley (17), the linkage belt pulley (23) is fixedly arranged outside the outside of the rotating shaft (16) and outside the right screw shaft (20), and the linkage driving belt (24) with one end in transmission connection with the left belt pulley (23) is arranged on the outside transmission of the linkage belt pulley (23).

6. The water recycling system for ore production according to claim 4, wherein: the support (7) contacts with the liquid conveying pipe (6), the liquid conveying pipe (6) is a pipeline with a hollow top inside missing, the outer wall of the filter screen plate (27) contacts with the inner wall of the sedimentation tank (8), the accommodating bin (19) is fixedly arranged on the back of the sedimentation tank (8), the accommodating bin (19) is positioned between the left side of the inner wall of the sedimentation tank (8) and the lower partition plate (9), and the accommodating bin (19) is positioned between the lower partition plate (9) and the upper partition plate (10).

7. The water recycling system for ore production according to claim 4, wherein: the left scraping plate (12) is positioned between the left side of the inner wall of the sedimentation tank (8) and the lower partition plate (9), the right scraping plate (12) is positioned between the lower partition plate (9) and the upper partition plate (10), the bottom of the left scraping plate (12) is contacted with the sedimentation tank (8), and the bottom of the right scraping plate (12) is contacted with the filter screen plate (27).

8. A water recycling system for ore production according to claim 2, wherein: the bottom of the transport bucket (2) is communicated with a connecting pipeline (3), and the outlet of the transport bucket (2) is communicated with a catalytic oxidation tank (4).