CN118847579B

CN118847579B - Barium sulfate impurity removal device and application method thereof

Info

Publication number: CN118847579B
Application number: CN202411044570.0A
Authority: CN
Inventors: 董清
Original assignee: Yangzhou Yuxin Powder Material Co ltd
Current assignee: Yangzhou Yuxin Powder Material Co ltd
Priority date: 2024-07-31
Filing date: 2024-07-31
Publication date: 2025-02-18
Anticipated expiration: 2044-07-31
Also published as: CN118847579A

Abstract

The invention relates to the technical field of barium sulfate impurity removal, and discloses a barium sulfate impurity removal device and a use method thereof, which solve the problems of the barium sulfate impurity removal device currently on the market. The device comprises a base, and a side support frame is fixedly connected to the top of the base; the filtering effect can be improved by filtering through two layers of screening nets, and the barium sulfate material on the surface of the screening net is scattered by an internal fixed plate, so that the filtering effect of the barium sulfate material on the surface of the screening net is improved, and the filtering efficiency is improved; the effect of cleaning the barium sulfate material can be improved by circulating flushing liquid; the rotating transmission fan will blow the hot air in the side connecting box into the drying box, so that the organic impurities in the powder are volatilized, and the powder is heated, dried and purified, so that the impurity removal and purification effect is improved; the rotation of the heat conducting pipe and the bottom connecting plate will stir, scatter and flatten the accumulated barium sulfate material, so that the effect of hot air purification of the barium sulfate material in the drying box can be improved.

Description

Barium sulfate impurity removal device and application method thereof

Technical Field

The invention belongs to the technical field of barium sulfate impurity removal, and particularly relates to a barium sulfate impurity removal device and a use method thereof.

Background

Barium sulfate, a common inorganic compound, also called barite, is usually in the form of odorless and tasteless white orthorhombic crystals or white amorphous powder, has stable properties, is insoluble in water, acid, alkali or organic solvents, but can be dissolved in hot concentrated sulfuric acid, and the barium sulfate impurity removal equipment is special equipment for removing impurities in the barium sulfate, so that the purity requirement on the barium sulfate is higher and higher along with the wider application of the barium sulfate in various fields, and therefore, the quality of the barium sulfate needs to be improved by using the impurity removal equipment.

In the prior art, a patent application document CN114226049A discloses a barium sulfate impurity removing device, which comprises a barium sulfate reactor, a barium sulfate separator, a drying bin, a crusher, a screening chamber, a grinding modification device and a recovery device, wherein a discharge port is connected with the drying bin through a conveying belt, the drying bin is connected with the crusher through the conveying belt, the crushing machine crushes and primarily screens barium sulfate powder, the crushed and primarily screened barium sulfate powder is transmitted to the screening chamber through the conveying belt for physical impurity removal, the screened barium sulfate powder is transmitted to the grinding modification device through the conveying belt for grinding modification of the barium sulfate powder, and finally the screened barium sulfate powder is transmitted to the recovery device for packaging and recovery. According to the invention, the barium sulfate reactor is used for preparing the barium sulfate solution from the raw materials of barium sulfide solution and sodium sulfate solution through chemical reaction, crushing, screening and purifying through a physical treatment method, and modifying through the chemical treatment method to enable the barium sulfate powder structure to be more stable, so that the barium sulfate powder is beneficial to preservation.

The barium sulfate impurity removing device still has some defects, such as the prior barium sulfate needs to be screened by using a screen mesh and the like in the impurity removing process, the barium sulfate needs to be washed by matching with a solution after screening, the whole equipment is large, different equipment needs to be used for sequential operation in each step, the efficiency of the whole equipment for removing the impurity of the barium sulfate is low, the impurity removing time of the barium sulfate is prolonged, and the impurity removing cost of each different step needs to be increased;

therefore, a barium sulfate impurity removing device and a using method thereof are provided to solve the problems.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides the barium sulfate impurity removing device and the use method thereof, which effectively solve the problems that the whole barium sulfate impurity removing device equipment in the current market is large, different equipment is required to be used for working sequentially in each step, the whole equipment efficiency of barium sulfate impurity removing is lower, the time of barium sulfate impurity removing is prolonged, different equipment is required to be used for impurity removing in each different step, and the cost of impurity removing is increased.

The technical scheme includes that the barium sulfate impurity removing device comprises a base, wherein a side support frame is fixedly connected to the top of the base, a screening barrel is fixedly connected to one side of the side support frame, a screening barrel cover is fixedly connected to the top of the screening barrel, a motor body is fixedly connected to the top of the screening barrel cover, a side transmission rod is fixedly connected to an output shaft of the motor body, a screening net is fixedly connected to the surface of the side transmission rod, an inner fixing plate is fixedly connected to the inner side of the screening barrel cover, a fixing brush is movably connected to one side of the inner fixing plate, a bottom support frame is fixedly connected to the top of the base, a support table is fixedly connected to the top of the support table, a bottom storage barrel is fixedly connected to one side of the bottom storage barrel, and a bottom connection barrel is fixedly connected to the top of the bottom storage barrel.

Preferably, the bottom end of the side transmission rod is fixedly connected with a bottom support plate, two ends of the bottom support plate are fixedly connected with a bottom connecting frame, the surface of the bottom connecting frame is fixedly connected with an outer tooth disc, one side of the outer tooth disc is connected with a small tooth disc in a meshed mode, the top of the small tooth disc is fixedly connected with a first inclined tooth disc, one side of the first inclined tooth disc is connected with a second inclined tooth disc in a meshed mode, one side of the second inclined tooth disc is fixedly connected with a horizontal transmission rod, one end of the horizontal transmission rod is fixedly connected with a third inclined tooth disc, one end of the third inclined tooth disc is fixedly connected with a support rod, one end of the support rod is movably connected with a first bearing disc, one side of the third inclined tooth disc is connected with a fourth inclined tooth disc, the bottom of the fourth inclined tooth disc is fixedly connected with a bottom transmission rod, the bottom of the bottom transmission rod is fixedly connected with a bottom horizontal rod, and two sides of the bottom horizontal rod are fixedly connected with stirring rods.

Preferably, an inclined guide groove is formed in the inner side of the guide frame, a flushing box is arranged on one side of the guide frame, a side communication frame is formed on one side of the flushing box, a flushing top cover is fixedly connected to the top of the flushing box, a bottom fixing ring is fixedly connected to the bottom of the flushing box, an arc-shaped groove is formed in one side of the bottom fixing ring, a sealing circular plate is connected to the inner side of the arc-shaped groove in a sliding mode, a side square plate is fixedly connected to one side of the sealing circular plate, and an electric push rod is fixedly connected to one side of the side square plate.

Preferably, the top communication hole is formed in the top of the flushing tank, the side communication hole is formed in one side of the flushing tank, the liquid adding tank is arranged outside the flushing tank, the liquid inlet pipe is fixedly connected to the bottom of the liquid adding tank, the filter tank is fixedly connected to one side of the liquid adding tank, the top of the liquid adding tank is fixedly connected with the top water pump body, the top transmission pipe is movably connected to one side of the top water pump body, one end of the top transmission pipe is movably connected to the inner side of the filter tank, the bottom of the filter tank is fixedly connected with the bottom water pump body, and the bottom of the bottom water pump body is movably connected with the bottom transmission pipe.

Preferably, the inner side of the filter box is fixedly connected with an inner fixing frame, the inner side of the inner fixing frame is fixedly connected with an inner filter screen, and the number of the inner fixing frame and the number of the inner filter screen are two.

Preferably, the top of the base is fixedly connected with a dryer, one side of the dryer is fixedly connected with a controller, the inner side of the dryer is fixedly connected with a heater, one side of the dryer is fixedly connected with a side sealing plate, one side of the side sealing plate is fixedly connected with a communication square pipe, one side of the communication square pipe is fixedly connected with a side communication box, the top of the side communication box is provided with a communication groove, one side of the side communication box is provided with a drying box, and one side of the drying box is provided with a side frame.

Preferably, one end of the bottom transmission pipe is fixedly connected with a bottom filter screen, one side of the stirring rod is fixedly connected with a bottom connecting block, and one side of the bottom connecting block is movably connected with a side connecting brush.

Preferably, the bottom of the small fluted disc is fixedly connected with a bottom fixing rod, the bottom of the bottom fixing rod is fixedly connected with a fifth inclined fluted disc, one side of the fifth inclined fluted disc is connected with a sixth inclined fluted disc in a meshed manner, one side of the sixth inclined fluted disc is fixedly connected with a bottom movable rod, the surface of the bottom movable rod is fixedly connected with a transmission fan, one end of the bottom movable rod is fixedly connected with a seventh inclined fluted disc, one side of the seventh inclined fluted disc is connected with a eighth inclined fluted disc in a meshed manner, the bottom of the eighth inclined fluted disc is fixedly connected with a side movable rod, two sides of the side movable rod are fixedly connected with bottom connecting plates, and the top of each bottom connecting plate is fixedly connected with a heat conducting pipe.

Preferably, the bottom of the bottom connecting plate is movably connected with a second bearing plate, and the other end of the bottom movable rod is movably connected with a third bearing plate.

The invention also discloses a use method of the barium sulfate impurity removing device, which comprises the following steps:

S1, a motor body is started to drive a side transmission rod to rotate, the two screening nets are driven to synchronously rotate through the rotation of the side transmission rod, at the moment, when a barium sulfate material falls into the surfaces of the screening nets, the barium sulfate material is filtered through the rotation of the screening nets, larger sundries are filtered on the surfaces of the screening nets, the filtering effect can be improved through the filtering of two layers of screening nets, a plurality of fixing brushes are fixed on the inner wall of the screening barrel cover through an inner fixing plate, and two sides of the screening barrel cover are fixedly supported on the surfaces of the base through screening barrel bodies;

S2, barium sulfate materials filtered out along a screening net fall into a bottom storage barrel through a bottom connecting barrel, the bottom of the bottom storage barrel and an inclined guide groove formed in a guide frame are inclined, the barium sulfate materials slide to the inner side of the inclined guide groove along the inner side of the bottom storage barrel, the barium sulfate materials enter a flushing tank along the inclined guide groove through the connection of the guide frame and a side communication frame, flushing liquid is added into the liquid adding tank, and then enters the flushing tank along a liquid inlet pipe through the communication of a top communication hole;

S3, through the connection of the bottom support plates, the bottom connecting frame can be synchronously driven to rotate in the process of rotating the side transmission rods, the rotating bottom connecting frame can drive the outer fluted disc to synchronously rotate, the first inclined fluted disc can be synchronously driven to rotate when the fluted disc rotates through the meshing of the outer fluted disc and the fluted disc, the horizontal transmission rod can be driven to rotate when the second inclined fluted disc rotates through the meshing of the first inclined fluted disc and the second inclined fluted disc, the third inclined fluted disc can be driven to rotate after the horizontal transmission rod rotates through the transmission of the horizontal transmission rod, the third inclined fluted disc and the horizontal transmission rod can be movably connected and supported through the first bearing disc at one end of the support rod in the rotating process, the fourth inclined fluted disc can be synchronously driven to rotate when the third inclined fluted disc rotates, and the rotating fourth inclined fluted disc can drive the bottom transmission rod to rotate;

S4, through the starting of the bottom water pump body, the liquid washed in the washing tank can be pumped into the filter tank along the bottom transmission pipe, and through the blocking of the bottom filter screen, the barium sulfate material can be prevented from entering the bottom transmission pipe, smaller particles after washing are pumped out along the bottom transmission pipe along with the liquid, and meanwhile, the stirring rod can drive the side connecting brush on one side of the bottom connecting block to synchronously rotate when rotating;

S5, after the top transmission pipe is separated from the top water pump body, one end of the top transmission pipe is connected with an external storage container, liquid in the flushing tank is pumped out to the external container after the bottom water pump body is started, flushing liquid in the flushing tank can be completely pumped out, and after the flushing liquid is pumped out, an electric push rod is started, and a sealing circular plate at one side of a side close square plate is driven to horizontally move through the electric push rod, so that the sealing circular plate moves along the inner side of the bottom fixing ring;

S6, controlling a heater in the dryer to start through a controller, generating high temperature after the heater is started, transmitting the high temperature into a side communication box along a communication square pipe on one side of a side sealing plate, synchronously driving a small fluted disc to rotate when the first inclined fluted disc rotates, penetrating through the inner side of a communication groove and driving a bottom fixing rod to rotate, driving a fifth inclined fluted disc to rotate, driving the sixth inclined fluted disc to synchronously rotate when the fifth inclined fluted disc rotates, and driving a bottom movable rod to rotate when the sixth inclined fluted disc rotates, wherein the rotating bottom movable rod is movably supported on the inner wall of the side communication box through a third bearing disc;

S7, the bottom movable rod can drive the seventh helical gear disc to rotate when rotating, the rotating seventh helical gear disc can drive the eighth helical gear disc to synchronously rotate, the rotating eighth helical gear disc can drive the side movable rod to rotate, the rotating side movable rod can be movably supported at the bottom of the drying box through the second bearing disc, and meanwhile, the rotating side movable rod can drive the bottom connecting plate to rotate along the inner side of the drying box, and the rotating bottom connecting plate can drive the plurality of heat conducting pipes to rotate.

Compared with the prior art, the invention has the beneficial effects that:

1) In the operation of the barium sulfate impurity removing device, the barium sulfate material is filtered through the rotation of the screening net, larger impurities are filtered on the surface of the screening net, the filtering effect can be improved through the filtering of the two layers of screening nets, meanwhile, a plurality of fixing brushes are fixed on the inner wall of the screening cylinder cover through the inner fixing plate, the two sides of the screening cylinder cover are fixedly supported on the surface of the base through the screening cylinder body, the barium sulfate material on the surface of the screening net is scattered through the inner fixing plate when the screening net rotates, the filtering effect of the barium sulfate material on the surface of the screening net can be improved, and the filtering efficiency is improved;

2) In the operation of the barium sulfate impurity removal device, flushing liquid enters the flushing tank along the liquid inlet pipe, the flushing liquid entering the flushing tank can clean barium sulfate materials, the rotating bottom transmission rod can drive the stirring rods at the bottom of the bottom horizontal rod to rotate, the two stirring rods symmetrically arranged rotate along the inner side of the flushing tank, flushing liquid in the flushing tank can be uniformly mixed, the generation of precipitation phenomenon is reduced, meanwhile, the mixing effect of the barium sulfate materials and the flushing liquid in the flushing tank can be quickened, and the impurity removal effect of the barium sulfate materials can be improved by cleaning impurities on the surface of the barium sulfate;

3) In the operation of the barium sulfate impurity removal device, the liquid washed in the washing tank can be pumped into the filtering tank along the bottom transmission pipe through the starting of the bottom water pump body, smaller particles after washing are pumped out along the bottom transmission pipe along with the liquid, washing liquid containing impurities can be filtered through the inner filter screen in the inner fixing frame after entering the filtering tank, impurities in washing liquid can be filtered, the filtered washing liquid can flow back into the liquid adding tank along the top transmission pipe through the driving of the top water pump body, and the washing effect on the barium sulfate material can be improved through circulating washing liquid;

4) In the operation of the barium sulfate impurity removing device, the heater in the dryer is controlled to be started by the controller, high temperature is generated after the heater is started, the rotating bottom movable rod can drive the transmission fan to rotate along the inner side of the side communication box, the rotating transmission fan can blow hot air in the side communication box into the drying box, so that organic impurities in powder volatilize, the barium sulfate material piled in the drying box can be heated, dried and purified, and the impurity removing and purifying effects are improved;

5) In this barium sulfate edulcoration device work, rotatory side movable rod can drive end connecting plate along the inboard rotation of stoving case, and rotatory end connecting plate can drive a plurality of heat pipes and rotate, and the rotation of heat pipe and end connecting plate can stir the barium sulfate material of piling up and break up and lay down, and can continuously heat up to higher temperature after the heat pipe is heated, can improve the effect that the barium sulfate material received hot-blast purification in the stoving incasement.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic view of the overall appearance structure of the present invention;

FIG. 2 is a schematic view of the screening cartridge of the present invention;

FIG. 3 is a schematic view of a side support structure according to the present invention;

FIG. 4 is a schematic view of the structure of the bottom support plate of the present invention;

FIG. 5 is a schematic view of a material guiding frame according to the present invention;

FIG. 6 is a schematic view of the structure of an external gear plate according to the present invention;

FIG. 7 is a schematic view of the structure of the liquid adding tank of the present invention;

FIG. 8 is a schematic view of the structure of the flushing tank of the present invention;

FIG. 9 is a schematic view of a flush cap according to the present invention;

FIG. 10 is a schematic view of the structure of the internal fixing frame of the present invention;

FIG. 11 is a schematic view of the bottom drive pipe structure of the present invention;

fig. 12 is a schematic view of a structure of a drying box according to the present invention;

FIG. 13 is a schematic view of a dryer according to the present invention;

fig. 14 is a schematic view of the structure of the bottom connecting plate of the present invention.

In the figure, 1, a base; 2, a side supporting frame; 3, screening a cylinder; a screening cylinder cover, 501, an inner fixing plate, 502, a fixed brush, 503, a motor body, 504, a side transmission rod, 505, a screening net, 506, a bottom support plate, 507, a bottom connection frame, 508, a bottom connection cylinder, 509, a bottom storage cylinder, 5010, a guide frame, 5011, a chute, 5012, a support table, 5013, a bottom support frame, 601, an outer gear disc, 602, a small gear disc, 603, a first helical gear disc, 604, a second helical gear disc, 605, a horizontal transmission rod, 606, a third helical gear disc, 607, a support rod, 608, a first bearing disc, 609, a fourth helical gear disc, 6010, a bottom transmission rod, 6011, a bottom horizontal transmission rod, 6012, a stirring rod, 6013, a bottom connection block, 6014, a side connection brush, 701, a washing tank, 702, a side communication frame, 703, a bottom fixing ring, 704, a curved groove, 705, a sealing, 706, a side sealing square plate, a motor-driven push rod, 708, a top cover, 801, a liquid feeding tank, 802, a first helical gear disc, 604, a second helical gear disc, 605, a horizontal transmission rod, 606, a third helical gear disc, a first helical gear disc, 607, a support plate, a first bearing disc, 609, a fourth helical gear disc, 6011, 6010, a fourth helical gear disc, 6010, a bottom transmission plate, 6011, a bottom transmission plate, 6012, a bottom connection plate, 6012, a stirring tank, a drying fan, a sealing plate, 703, a bottom, a drying box, a bottom plate, a drying box, a.

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.

Example 1

The embodiment, given by fig. 1-14, provides the following technical solutions:

The utility model provides a barium sulfate edulcoration device, including base 1, the top fixedly connected with side support frame 2 of base 1, one side fixedly connected with screening barrel 3 of side support frame 2, the top fixedly connected with screening barrel lid 4 of screening barrel 3, the top fixedly connected with motor body 503 of screening barrel lid 4, the output shaft fixedly connected with side transmission pole 504 of motor body 503, the fixed surface of side transmission pole 504 is connected with screening net 505, the inboard fixedly connected with internal fixation board 501 of screening barrel lid 4, one side swing joint of internal fixation board 501 has fixed brush 502, the top fixedly connected with of base 1 is at the bottom of a strut 5013, the top fixedly connected with brace table 5012 of a strut 5012, the top fixedly connected with end receiver 509 of a strut 5012, one side fixedly connected with guide frame 5010 of end receiver 509, the top fixedly connected with end connecting cylinder 508 of end receiver 509.

It should be noted that, the barium sulfate material filtered along the screening net 505 falls into the bottom storage barrel 509 through the bottom connecting barrel 508, and the bottom of the bottom storage barrel 509 and the inclined guide chute 5011 formed in the guide rack 5010 are inclined surfaces, and the barium sulfate material slides along the inner side of the bottom storage barrel 509 to the inner side of the inclined guide chute 5011.

In this embodiment, the bottom end fixedly connected with end backplate 506 of side transfer line 504, end link 507 of the both ends fixedly connected with of end backplate 506, the fixed surface of end link 507 is connected with external tooth dish 601, one side meshing of external tooth dish 601 is connected with little fluted disc 602, the top fixedly connected with helical tooth dish 603 of little fluted disc 602, one side meshing of helical tooth dish 603 is connected with No. two helical tooth dish 604, one side fixedly connected with horizontal transfer line 605 of No. two helical tooth dishes 604, the one end fixedly connected with No. three helical tooth dish 606 of horizontal transfer line 605, the one end fixedly connected with bracing piece 607 of No. three helical tooth dish 606, the one end swing joint of bracing piece 607 bearing dish 608, one side meshing of No. three helical tooth dish 606 is connected with No. four helical tooth dish 609, the bottom fixedly connected with end transfer line 6010 of No. four helical tooth dish 609, the bottom fixedly connected with bottom horizontal pole 6011 of bottom transfer line 6010, the both sides fixedly connected with puddler 6012 of bottom horizontal pole 6011.

It should be noted that, the rotating bottom driving rod 6010 drives the stirring rod 6012 at the bottom of the bottom horizontal rod 6011 to rotate, and the two stirring rods 6012 symmetrically arranged rotate along the inner side of the flushing tank 701, so that the flushing liquid in the flushing tank 701 can be uniformly mixed, and the generation of precipitation phenomenon is reduced.

In this embodiment, an inclined guide chute 5011 is provided on the inner side of a guide frame 5010, a flushing box 701 is provided on one side of the guide frame 5010, a side communication frame 702 is provided on one side of the flushing box 701, a flushing top cover 708 is fixedly connected to the top of the flushing box 701, a bottom fixing ring 703 is fixedly connected to the bottom of the flushing box 701, an arc groove 704 is provided on one side of the bottom fixing ring 703, a sealing circular plate 705 is slidingly connected to the inner side of the arc groove 704, a side sealing square plate 706 is fixedly connected to one side of the sealing circular plate 705, and an electric push rod 707 is fixedly connected to one side of the side sealing square plate 706.

By activating the electric putter 707, the sealing disk 705 on the side of the side closer plate 706 is driven to move horizontally by the electric putter 707, the sealing disk 705 is moved along the inner side of the bottom fixing ring 703, and the sealing disk 705 slides along the inner side of the arc-shaped groove 704 when moving, so that the stability of the movement of the sealing disk 705 can be improved, and the bottom fixing ring 703 is opened after the movement of the sealing disk 705, whereby barium sulfate after the washing in the washing tank 701 can be dropped into the drying tank 9012 to be deposited.

In this embodiment, the top communication hole 803 is provided at the top of the flushing tank 701, the side communication hole 804 is provided at one side of the flushing tank 701, the liquid adding tank 801 is provided at the outside of the flushing tank 701, the liquid inlet pipe 802 is fixedly connected to the bottom of the liquid adding tank 801, the filter tank 807 is fixedly connected to one side of the liquid adding tank 801, the top of the liquid adding tank 801 is fixedly connected to the top water pump 8011, the top transmission pipe 8010 is movably connected to one side of the top water pump 8011, one end of the top transmission pipe 8010 is movably connected to the inner side of the filter tank 807, the bottom of the filter tank 807 is fixedly connected to the bottom water pump 806, and the bottom of the bottom water pump 806 is movably connected to the bottom transmission pipe 805.

It should be noted that, by starting the bottom water pump body 806, the liquid after washing in the washing tank 701 may be pumped into the filtering tank 807 along the bottom transmission pipe 805, and by driving the top water pump body 8011, the filtered washing liquid may flow back into the liquid adding tank 801 along the top transmission pipe 8010, and the effect of washing the barium sulfate material may be improved by the circulated washing liquid.

In this embodiment, an inner fixing frame 808 is fixedly connected to the inner side of the filter box 807, an inner filter screen 809 is fixedly connected to the inner side of the inner fixing frame 808, and the number of the inner fixing frame 808 and the number of the inner filter screens 809 are two.

After entering the filter tank 807, the rinse liquid containing impurities is filtered by the inner filter screen 809 in the inner holder 808, so that the impurities in the rinse liquid can be filtered.

In this embodiment, the top fixedly connected with dryer 1001 of base 1, one side fixedly connected with controller 1002 of dryer 1001, the inboard fixedly connected with heater 1003 of dryer 1001, one side fixedly connected with side seal board 1004 of dryer 1001, one side fixedly connected with intercommunication square pipe 1005 of side seal board 1004, one side fixedly connected with side intercommunication case 1006 of intercommunication square pipe 1005, the intercommunication groove 1007 has been seted up at the top of side intercommunication case 1006, one side of side intercommunication case 1006 is provided with stoving case 9012, side framework 1008 has been seted up to one side of stoving case 9012.

It should be noted that, the rotating bottom movable rod 9013 is movably supported on the inner wall of the side communicating box 1006 through the bearing disc 9011 No. three, the rotating bottom movable rod 9013 can drive the transmission fan 904 to rotate along the inner side of the side communicating box 1006, the rotating transmission fan 904 can blow hot air in the side communicating box 1006 to the drying box 9012, so that organic impurities in powder volatilize, and the barium sulfate material piled in the drying box 9012 can be heated, dried and purified, thereby improving the effect of impurity removal and purification.

In this embodiment, one end of the bottom transmission tube 805 is fixedly connected with a bottom filter screen 8012, one side of the stirring rod 6012 is fixedly connected with a bottom connection block 6013, and one side of the bottom connection block 6013 is movably connected with a side connection brush 6014.

It should be noted that, when the stirring rod 6012 rotates, the side connecting brush 6014 at one side of the bottom connecting block 6013 is driven to synchronously rotate, and the rotating side connecting brush 6014 can brush the surface of the stirring rod 6012 at intervals, so that the barium sulfate material is prevented from being accumulated at one side of the stirring rod 6012 to form a blockage.

In this embodiment, a bottom fixing rod 901 is fixedly connected to the bottom of the small fluted disc 602, a fifth helical gear disc 902 is fixedly connected to the bottom end of the bottom fixing rod 901, a sixth helical gear disc 903 is connected to one side of the fifth helical gear disc 902 in a meshed manner, a bottom movable rod 9013 is fixedly connected to one side of the sixth helical gear disc 903, a driving fan 904 is fixedly connected to the surface of the bottom movable rod 9013, a seventh helical fluted disc 905 is fixedly connected to one end of the bottom movable rod 9013, an eighth helical gear disc 906 is connected to one side of the seventh helical gear disc 905 in a meshed manner, a side movable rod 907 is fixedly connected to the bottom of the eighth helical gear disc 906, bottom connecting plates 908 are fixedly connected to two sides of the side movable rod 907, and heat conducting pipes 909 are fixedly connected to the top of the bottom connecting plates 908.

It should be noted that, the rotating bottom connection plate 908 will drive the plurality of heat pipes 909 to rotate, and the rotation of the heat pipes 909 and the bottom connection plate 908 will stir, break up and spread the deposited barium sulfate material.

In this embodiment, the bottom of the bottom connecting plate 908 is movably connected to the bearing disk No. two 9010, and the other end of the bottom movable rod 9013 is movably connected to the bearing disk No. three 9011.

It should be noted that, the rotating bottom movable rod 9013 is movably supported on the inner wall of the side communication box 1006 through the bearing disc No. 9011, and the rotating side movable rod 907 is movably supported on the bottom of the drying box 9012 through the bearing disc No. 9010.

Example 2

The embodiment 2 provides a barium sulfate impurity removing device, which is used for better describing the working process or principle of the barium sulfate impurity removing device provided in the embodiment 1, and is specifically as follows:

the application method of the barium sulfate impurity removal device comprises the following steps:

S1, firstly, after barium sulfate particle materials needing to be subjected to impurity removal are placed in a screening cylinder 3, a motor 503 is started and then a side transmission rod 504 is driven to rotate, the rotation of the side transmission rod 504 drives two screening nets 505 to synchronously rotate, when the barium sulfate materials fall into the surface of the screening nets 505, the rotation of the screening nets 505 filters the barium sulfate materials, larger impurities are filtered on the surface of the screening nets 505, the filtering effect can be improved through the filtering of two layers of screening nets 505, meanwhile, a plurality of fixed brushes 502 are fixed on the inner wall of a screening cylinder cover 4 through an inner fixing plate 501, the two sides of the screening cylinder cover 4 are fixedly supported on the surface of a base 1 through the screening cylinder 3, and when the screening nets 505 rotate, the barium sulfate materials on the surface of the screening nets 505 are scattered through the inner fixing plate 501, so that the filtering effect of the barium sulfate materials on the surface of the screening nets 505 can be improved, and the filtering efficiency is improved;

S2, barium sulfate materials filtered out along the screening net 505 fall into the bottom storage barrel 509 through the bottom connecting barrel 508, the bottom of the bottom storage barrel 509 and an inclined guide chute 5011 formed in the guide frame 5010 are inclined, the barium sulfate materials slide to the inner side of the inclined guide chute 5011 along the inner side of the bottom storage barrel 509, the barium sulfate materials enter the flushing box 701 along the inclined guide chute 5011 through the connection of the guide frame 5010 and the side communication frame 702, after flushing liquid is added into the liquid adding box 801, the flushing liquid enters the flushing box 701 along the liquid inlet pipe 802 through the communication of the top communication hole 803, and the flushing liquid entering the flushing box 701 cleans the barium sulfate materials;

S3, through the connection of the bottom support plate 506, the bottom connecting frame 507 can be synchronously driven to rotate in the process of rotating the side transmission rod 504, the rotating bottom connecting frame 507 can drive the outer fluted disc 601 to synchronously rotate, the first helical gear 603 can be synchronously driven to rotate when the fluted disc 602 rotates through the meshing of the outer fluted disc 601 and the fluted disc 602, the horizontal transmission rod 605 can be driven to rotate when the second helical gear 604 rotates through the meshing of the first helical gear 603 and the second helical gear 604, the third helical gear 606 can be driven to rotate after the horizontal transmission rod 605 rotates through the transmission of the horizontal transmission rod 605, the third helical gear 606 and the horizontal transmission rod 605 can be movably connected and supported through the first bearing disc 608 at one end of the support rod 607 in the rotating process, through the meshing of the third helical gear plate 606 and the fourth helical gear plate 609, the fourth helical gear plate 609 can be synchronously driven to rotate when the third helical gear plate 606 rotates, the rotating fourth helical gear plate 609 can drive the bottom transmission rod 6010 to rotate, the rotating bottom transmission rod 6010 can drive the stirring rod 6012 at the bottom of the bottom horizontal rod 6011 to rotate, the two stirring rods 6012 symmetrically arranged rotate along the inner side of the flushing tank 701, flushing liquid in the flushing tank 701 can be uniformly mixed, the generation of precipitation phenomenon is reduced, meanwhile, the mixing effect of barium sulfate materials and flushing liquid in the flushing tank 701 can be quickened, and the impurity removal effect of the barium sulfate materials can be improved by cleaning sundries on the surface of the barium sulfate materials;

S4, in the process of cleaning the barium sulfate material, the liquid after being washed in the washing tank 701 can be pumped into the filter tank 807 along the bottom transmission pipe 805 by starting the bottom water pump 806, the barium sulfate material can be prevented from entering the bottom transmission pipe 805 by blocking the bottom filter screen 8012, smaller particles after being washed are pumped out along the bottom transmission pipe 805 along with the liquid, meanwhile, the side connecting brush 6014 on one side of the bottom connecting block 6013 can be driven to synchronously rotate when the stirring rod 6012 rotates, the rotating side connecting brush 6014 can brush the surface of the stirring rod 6012 at intervals, the phenomenon that the barium sulfate material is accumulated on one side of the stirring rod 6012 to form a plug is avoided, washing liquid containing impurities can be filtered through the inner filter screen 809 in the inner fixing frame 808 after entering the filter tank 807, the impurities in washing liquid can be filtered, the filtered washing liquid can flow back into the liquid adding tank 801 along the top transmission pipe 0 by driving of the top water pump 8011, and the effect of washing the barium sulfate material can be improved by circulation;

S5, after washing barium sulfate by circulating flowing liquid, separating a top transmission tube 8010 from a top water pump body 8011, connecting one end of the top transmission tube 8010 with an external storage container, starting the top transmission tube with a bottom water pump body 806, pumping out liquid in a flushing tank 701 to the external container, pumping out all flushing liquid in the flushing tank 701, starting an electric push rod 707 after pumping out, driving a sealing circular plate 705 on one side of a side square plate 706 to move horizontally by the electric push rod 707, moving the sealing circular plate 705 along the inner side of a bottom fixed ring 703, sliding the sealing circular plate 705 along the inner side of an arc-shaped groove 704 when moving, improving the moving stability of the sealing circular plate 705, opening the bottom fixed ring 703 after moving the sealing circular plate 705, and dropping the barium sulfate after flushing in the flushing tank 701 into a drying tank 9012 for accumulation;

S6, firstly, a heater 1003 in a dryer 1001 is controlled to be started through a controller 1002, high temperature is generated after the heater 1003 is started, the high temperature is transmitted into a side communication box 1006 along a communication square tube 1005 on one side of a side sealing plate 1004, a first helical gear 603 synchronously drives a small fluted disc 602 to rotate when rotating, the rotating small fluted disc 602 penetrates through the inner side of a communication groove 1007 and drives a bottom fixing rod 901 to rotate and drives a fifth helical gear 902 to rotate, the fifth helical gear 902 and the sixth helical gear 903 are meshed, the sixth helical gear 903 can be driven to synchronously rotate when the fifth helical gear 902 rotates, the rotating sixth helical gear 903 can drive a bottom movable rod 9013 to rotate, the rotating bottom movable rod 9013 is movably supported on the inner wall of the side communication box 1006 through a third bearing disc 9011, the rotating bottom movable rod 9013 can drive a transmission fan 904 to rotate along the inner side of the side communication box 1006, the rotating transmission fan 904 can blow hot air in the side communication box 1006 into a drying box 9012, impurities in the drying box 12 can be purified and the drying box 12 can be purified, and the drying effect of the drying device can be improved;

S7, the bottom movable rod 9013 drives the seventh helical gear disc 905 to rotate when rotating, the rotating seventh helical gear disc 905 drives the eighth helical gear disc 906 to synchronously rotate, the rotating eighth helical gear disc 906 drives the side movable rod 907 to rotate, the rotating side movable rod 907 is movably supported at the bottom of the drying box 9012 through the second bearing disc 9010, meanwhile, the rotating side movable rod 907 drives the bottom connecting plate 908 to rotate along the inner side of the drying box 9012, the rotating bottom connecting plate 908 drives the plurality of heat pipes 909 to rotate, the heat pipes 909 and the rotation of the bottom connecting plate 908 stir and scatter and spread the piled barium sulfate materials, and the heat pipes 909 continuously heat up to a higher temperature after being heated, so that the effect of purifying the barium sulfate materials by hot air in the drying box 9012 can be improved;

It should be noted that, in the present invention, the motor 503, the electric push rod 707, the bottom water pump 806, the top water pump 8011, the heater 1003, and the controller 1002 are all of the prior art, and corresponding models can be selected according to actual requirements, and the internal construction and operation principles of the above parts also belong to common general knowledge of those skilled in the art, which will not be described in any more detail.

Finally, it should be noted that the above-mentioned embodiments are only preferred embodiments of the present invention, and the present invention is not limited to the above-mentioned embodiments, but it is possible for those skilled in the art to modify the technical solutions described in the above-mentioned embodiments or to make equivalent substitutions for some of the technical features. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A barium sulfate impurity removal device, comprising a base (1), characterized in that: the top of the base (1) is fixedly connected to a side support frame (2), one side of the side support frame (2) is fixedly connected to a screening cylinder (3), the top of the screening cylinder (3) is fixedly connected to a screening cylinder cover (4), the top of the screening cylinder cover (4) is fixedly connected to a motor body (503), the output shaft of the motor body (503) is fixedly connected to a side transmission rod (504), and the surface of the side transmission rod (504) is fixedly connected to a screening net (505), the inner side of the screening cylinder cover (4) is fixedly connected to an inner fixed plate (501), one side of the inner fixed plate (501) is movably connected to a fixed brush (502), the top of the base (1) is fixedly connected to a bottom support frame (5013), the top of the bottom support frame (5013) is fixedly connected to a support platform (5012), the top of the support platform (5012) is fixedly connected to a bottom storage cylinder (509), one side of the bottom storage cylinder (509) is fixedly connected to a material guide frame (5010), The top of the bottom storage cylinder (509) is fixedly connected to a bottom connecting cylinder (508), the bottom end of the side transmission rod (504) is fixedly connected to a bottom supporting plate (506), both ends of the bottom supporting plate (506) are fixedly connected to a bottom connecting frame (507), the surface of the bottom connecting frame (507) is fixedly connected to an outer toothed disc (601), one side of the outer toothed disc (601) is meshingly connected to a small toothed disc (602), the top of the small toothed disc (602) is fixedly connected to a first helical toothed disc (603), and the first helical toothed disc (603) is fixedly connected to the bottom supporting plate (506). One side of the disk (603) is meshedly connected with a No. 2 beveled tooth disk (604), one side of the No. 2 beveled tooth disk (604) is fixedly connected with a horizontal transmission rod (605), one end of the horizontal transmission rod (605) is fixedly connected with a No. 3 beveled tooth disk (606), one end of the No. 3 beveled tooth disk (606) is fixedly connected with a support rod (607), one end of the support rod (607) is movably connected with a No. 1 bearing disk (608), one side of the No. 3 beveled tooth disk (606) is meshedly connected with a No. 4 beveled tooth disk (609), The bottom of the fourth helical gear disc (609) is fixedly connected to a bottom transmission rod (6010), the bottom of the bottom transmission rod (6010) is fixedly connected to a bottom horizontal rod (6011), both sides of the bottom horizontal rod (6011) are fixedly connected to stirring rods (6012), an inclined material guide trough (5011) is provided on the inner side of the material guide rack (5010), a flushing box (701) is provided on one side of the flushing box (701), a side connecting frame (702) is provided on one side of the flushing box (701), and the flushing box The top of the flushing box (701) is fixedly connected with a flushing top cover (708), the bottom of the flushing box (701) is fixedly connected with a bottom fixing ring (703), one side of the bottom fixing ring (703) is provided with an arc groove (704), the inner side of the arc groove (704) is slidably connected with a sealing circular plate (705), one side of the sealing circular plate (705) is fixedly connected with a side sealing square plate (706), one side of the side sealing square plate (706) is fixedly connected with an electric push rod (707), the top of the flushing box (701) A top communication hole (803) is provided, a side communication hole (804) is provided on one side of the flushing box (701), a liquid adding box (801) is arranged outside the flushing box (701), a liquid inlet pipe (802) is fixedly connected to the bottom of the liquid adding box (801), a filter box (807) is fixedly connected to one side of the liquid adding box (801), a top water pump body (8011) is fixedly connected to the top of the liquid adding box (801), and a top transmission pipe (8010) is movably connected to one side of the top water pump body (8011). ), one end of the top transmission pipe (8010) is movably connected to the inner side of the filter box (807), the bottom of the filter box (807) is fixedly connected to a bottom water pump body (806), the bottom of the bottom water pump body (806) is movably connected to a bottom transmission pipe (805), the inner side of the filter box (807) is fixedly connected to an inner fixing frame (808), the inner side of the inner fixing frame (808) is fixedly connected to an inner filter screen (809), and the number of the inner fixing frame (808) and the number of the inner filter screen (809) are both two.

2. A barium sulfate impurity removal device according to claim 1, characterized in that: a dryer (1001) is fixedly connected to the top of the base (1), a controller (1002) is fixedly connected to one side of the dryer (1001), a heater (1003) is fixedly connected to the inner side of the dryer (1001), a side sealing plate (1004) is fixedly connected to one side of the dryer (1001), a connecting square tube (1005) is fixedly connected to one side of the side sealing plate (1004), a side connecting box (1006) is fixedly connected to one side of the connecting square tube (1005), a connecting groove (1007) is provided on the top of the side connecting box (1006), a drying box (9012) is provided on one side of the side connecting box (1006), and a side frame (1008) is provided on one side of the drying box (9012).

3. A barium sulfate impurity removal device according to claim 2, characterized in that: one end of the bottom transmission tube (805) is fixedly connected to a bottom filter screen (8012), one side of the stirring rod (6012) is fixedly connected to a bottom connecting block (6013), and one side of the bottom connecting block (6013) is movably connected to a side connecting brush (6014).

4. A barium sulfate impurity removal device according to claim 3, characterized in that: the bottom of the small toothed disc (602) is fixedly connected to a bottom fixing rod (901), the bottom end of the bottom fixing rod (901) is fixedly connected to a fifth beveled disc (902), one side of the fifth beveled disc (902) is meshedly connected to a sixth beveled disc (903), one side of the sixth beveled disc (903) is fixedly connected to a bottom movable rod (9013), and the surface of the bottom movable rod (9013) A transmission fan (904) is fixedly connected, one end of the bottom movable rod (9013) is fixedly connected to a seventh bevel gear disc (905), one side of the seventh bevel gear disc (905) is meshingly connected to an eighth bevel gear disc (906), the bottom of the eighth bevel gear disc (906) is fixedly connected to a side movable rod (907), both sides of the side movable rod (907) are fixedly connected to a bottom connecting plate (908), and the top of the bottom connecting plate (908) is fixedly connected to a heat conduction pipe (909).

5. A barium sulfate impurity removal device according to claim 4, characterized in that: the bottom of the bottom connecting plate (908) is movably connected to a No. 2 bearing disk (9010), and the other end of the bottom movable rod (9013) is movably connected to a No. 3 bearing disk (9011).

6. A method for using a barium sulfate impurity removal device, applied to the barium sulfate impurity removal device according to claim 5, characterized in that it comprises the following steps:

S1, after the motor body (503) is started, the side transmission rod (504) is driven to rotate, and the rotation of the side transmission rod (504) drives the two screening nets (505) to rotate synchronously. At this time, when the barium sulfate material falls on the surface of the screening net (505), the rotation of the screening net (505) will filter the barium sulfate material, and filter larger debris on the surface of the screening net (505). The filtering effect is improved by filtering the two layers of screening nets (505). At the same time, the inner wall of the screening cylinder cover (4) is fixed with a plurality of fixed brushes (502) through the inner fixed plate (501), and both sides of the screening cylinder cover (4) are fixedly supported on the surface of the base (1) through the screening cylinder (3);

S2, the barium sulfate material filtered out along the screening net (505) will fall into the bottom receiving cylinder (509) through the bottom connecting cylinder (508), and the bottom of the bottom receiving cylinder (509) and the inclined guide groove (5011) provided in the guide frame (5010) are both inclined surfaces, and the barium sulfate material will slide along the inner side of the bottom receiving cylinder (509) to the inner side of the inclined guide groove (5011), and through the connection between the guide frame (5010) and the side connecting frame (702), the barium sulfate material will enter the flushing box (701) along the inclined guide groove (5011), and after the flushing liquid is added to the liquid adding box (801), the flushing liquid will enter the flushing box (701) along the liquid inlet pipe (802) through the connection of the top connecting hole (803);

S3, through the connection of the bottom support plate (506), the bottom connecting frame (507) is synchronously driven to rotate during the rotation of the side transmission rod (504), and the rotating bottom connecting frame (507) drives the outer gear plate (601) to rotate synchronously, and through the meshing of the outer gear plate (601) and the small gear plate (602), the first bevel gear plate (603) is synchronously driven to rotate when the small gear plate (602) rotates, and through the meshing of the first bevel gear plate (603) and the second bevel gear plate (604), the horizontal transmission rod (605) is driven to rotate when the second bevel gear plate (604) rotates, and through the transmission of the horizontal transmission rod (605), the horizontal transmission rod ( After the third bevel gear plate (605) rotates, it drives the third bevel gear plate (606) to rotate, and the third bevel gear plate (606) and the horizontal transmission rod (605) are movably connected and supported by the first bearing plate (608) at one end of the support rod (607) during the rotation process. Through the meshing of the third bevel gear plate (606) and the fourth bevel gear plate (609), when the third bevel gear plate (606) rotates, the fourth bevel gear plate (609) is synchronously driven to rotate, and the rotating fourth bevel gear plate (609) drives the bottom transmission rod (6010) to rotate, and the rotating bottom transmission rod (6010) drives the stirring rod (6012) at the bottom of the bottom horizontal rod (6011) to rotate;

S4, by starting the bottom water pump body (806), the liquid after flushing in the flushing box (701) is pumped into the filter box (807) along the bottom transmission pipe (805), and the bottom filter screen (8012) is used to block the barium sulfate material from entering the bottom transmission pipe (805), and the smaller particles after flushing are pumped out along the bottom transmission pipe (805) along with the liquid. At the same time, when the stirring rod (6012) rotates, it drives the side connection brush (6014) on one side of the bottom connection block (6013) to rotate synchronously;

S5. After the top transmission pipe (8010) is separated from the top water pump body (8011), one end of the top transmission pipe (8010) is connected to an external storage container, and the liquid in the flushing box (701) is pumped out to the external container after the bottom water pump body (806) is started, and the flushing liquid in the flushing box (701) is completely pumped out. After the pumping out, the electric push rod (707) is started to drive the sealing circular plate (705) on one side of the side sealing square plate (706) to move horizontally, and the sealing circular plate (705) is moved along the inner side of the bottom fixing ring (703);

S6. The heater (1003) in the dryer (1001) is started by the controller (1002). When the heater (1003) is started, a high temperature is generated. The high temperature is transmitted to the side connecting box (1006) along the connecting square tube (1005) on one side of the side sealing plate (1004). When the first bevel gear plate (603) rotates, it will synchronously drive the small gear plate (602) to rotate. The rotating small gear plate (602) will penetrate the inner side of the connecting groove (1007) and drive the bottom solid The fixed rod (901) rotates and drives the fifth bevel gear plate (902) to rotate. Through the meshing of the fifth bevel gear plate (902) and the sixth bevel gear plate (903), the sixth bevel gear plate (903) is driven to rotate synchronously when the fifth bevel gear plate (902) rotates. The rotating sixth bevel gear plate (903) drives the bottom movable rod (9013) to rotate. The rotating bottom movable rod (9013) is movably supported on the inner wall of the side connecting box (1006) through the third bearing plate (9011);

S7, when the bottom movable rod (9013) rotates, it will drive the seventh bevel gear disc (905) to rotate, the rotating seventh bevel gear disc (905) will drive the eighth bevel gear disc (906) to rotate synchronously, the rotating eighth bevel gear disc (906) will drive the side movable rod (907) to rotate, the rotating side movable rod (907) will be movably supported on the bottom of the drying box (9012) through the second bearing disc (9010), and at the same time, the rotating side movable rod (907) will drive the bottom connecting plate (908) to rotate along the inner side of the drying box (9012), and the rotating bottom connecting plate (908) will drive the multiple heat conduction pipes (909) to rotate.