CN118142285B

CN118142285B - Spray dust remover for spherical graphite drying and use method

Info

Publication number: CN118142285B
Application number: CN202410576296.5A
Authority: CN
Inventors: 赵亮; 陈平慧; 吴恩明; 仇鹏举; 陈虎; 高博; 狄方纯; 韩龙海; 赵文臣
Original assignee: Heilongjiang Baoquanling Nongken Yixiang New Energy Materials Co ltd
Current assignee: Heilongjiang Baoquanling Nongken Yixiang New Energy Materials Co ltd
Priority date: 2024-05-10
Filing date: 2024-05-10
Publication date: 2024-07-12
Anticipated expiration: 2044-05-10
Also published as: CN118142285A

Abstract

The invention relates to the field of graphite spraying dust fall. The invention discloses a spray dust-settling device for drying spherical graphite and a use method thereof, and aims to solve the problem that impurities generated after spraying can be attached to the inner wall of a dust-settling barrel when the graphite is used for carrying out dust-settling treatment on gas generated by the graphite, and the subsequent filtering effect of the gas is influenced by impurity accumulation after long time. According to the invention, when the bearing frame moves downwards through the spraying assembly, the rotating chuck can be driven to rotate, so that the spray head can effectively clean the inner wall of the dust fall barrel, and meanwhile, the soft scraping frame is contacted with the inner wall of the dust fall barrel, so that impurities adhered to the inner wall of the dust fall barrel can be scraped.

Description

Spray dust remover for spherical graphite drying and use method

Technical Field

The invention relates to the field of graphite spraying dust fall, in particular to a spraying dust fall device for spherical graphite drying and a use method thereof.

Background

The spherical graphite is a graphite product which is produced by modifying the surface of graphite by adopting an advanced processing technology and has different fineness and is similar to an elliptic sphere, has the characteristics of low porosity, good oxidation resistance, uniform and fine structure, small void defect, moderate elasticity and easy molding, is used as an important part of a lithium ion battery cathode material, is chemically purified, reacts with strong acid substances at high temperature, takes away impurities by washing after the reaction, and dries the washed spherical graphite to obtain a final product.

The prior patent (publication number: CN 116459608B) discloses a spraying dust fall device for spherical graphite drying, which comprises a box body and an air inlet pipeline, wherein the air inlet pipeline is in a circular arrangement and is communicated with the box body, a cleaning component is arranged in the box body, the cleaning component comprises a reciprocating screw rod, a filter plate, a movable plate, a first spring and a scraping plate, the filter plate is fixedly connected to the inner side wall of the box body, the reciprocating screw rod is rotationally connected between two opposite inner side walls of the box body, the movable plate is in threaded connection with the reciprocating screw rod, the scraping plate is fixedly connected to the movable plate through the first spring, one end of the scraping plate, which is far away from the first spring, is in sliding connection with the filter plate, and when external air enters the box body through the air inlet pipeline, the air and dust fall on the corrugated plate, so that the falling speed of the air can be slowed down, the water sprayed by a drainage cylinder can be fully cleaned, and the purpose of separating the air from the water is achieved. In the process of realizing the invention, the inventor finds that at least the following problems in the prior art are not solved: when the graphite carries out dust fall treatment on the generated gas, impurities generated after spraying can be attached to the inner wall of the dust fall barrel, and after long time, the impurities are accumulated to influence the subsequent filtering effect of the gas.

Disclosure of Invention

The invention aims to provide a spray dust collector for drying spherical graphite and a use method thereof, which are used for solving the problems in the background technology. In order to achieve the above purpose, the present invention provides the following technical solutions: a spray dust fall ware for spherical graphite is dried, including being the dust fall section of thick bamboo of level placement in ground, be provided with actuating device on the dust fall section of thick bamboo, actuating device is including the fixed drive electric jar that sets up in dust fall section of thick bamboo top, the flexible end of drive electric jar is fixed to be provided with the mounting panel, fixed the gag lever post that sets up relatively on the mounting panel, two sets of gag lever post and the top sliding fit of dust fall section of thick bamboo, two sets of the fixed carrier that is provided with in bottom of gag lever post, be provided with spray assembly on the carrier, be provided with air intake and air outlet on the outer wall of dust fall section of thick bamboo respectively, and the bottom of dust fall section of thick bamboo still is provided with the filter tip.

Preferably, the spray assembly comprises a rotary rod which is arranged on a bearing frame in a rotating mode, a rotary gear is fixedly arranged at one end of the rotary rod, a limiting rack is fixedly arranged on the inner wall of the dust fall barrel, the rotary gear is meshed with the limiting rack, a first bevel gear is arranged at the other end of the rotary rod, a first driving rod and a second driving rod are further arranged on the bearing frame in a rotating mode, the first driving rod and the second driving rod are oppositely arranged, and a second bevel gear meshed with the first bevel gear is fixedly arranged at the end portion of the first driving rod.

Preferably, the first driving rod and the second driving rod are respectively connected with a first clamping sleeve and a second clamping sleeve in a clamping mode, annular grooves are formed in the outer walls of the first clamping sleeve and the second clamping sleeve, butt-joint helical teeth are further arranged on the first clamping sleeve and the second clamping sleeve, a first connecting rod and a second connecting rod are further arranged on the bearing frame in a rotating mode, and clamping helical teeth meshed with the butt-joint helical teeth on the first clamping sleeve and the second clamping sleeve are fixedly arranged at one ends of the first connecting rod and the second connecting rod respectively.

Preferably, the bottom of head rod is fixed and is provided with the ring gear, it is provided with the rotation chuck to bear the rotation on the frame, the inner circle of rotation chuck is provided with the outer ring gear with ring gear engaged with, be provided with on the rotation chuck and spray the piece, and spray the piece and set up in the dust fall section of thick bamboo, constitute the dust fall cavity between the below of rotation chuck and the dust fall section of thick bamboo, laid the filter screen in the inner wall of the dust fall cavity that constitutes between rotation chuck and the dust fall section of thick bamboo.

Preferably, the clamping frame is rotatably arranged on the bearing frame, the limiting frame is rotatably arranged on the bearing frame, a tension spring is arranged between the clamping frame and the limiting frame, sliding grooves are formed in two sides of the clamping frame, annular blocks are rotatably arranged in annular grooves of the first clamping sleeve and the second clamping sleeve, positioning rods are fixedly arranged at one ends of the two groups of annular blocks, the two groups of positioning rods are respectively arranged in the sliding grooves in two sides of the clamping frame, a contact supporting rod is further slidably arranged on the bearing frame, a contact supporting wheel is rotatably arranged at one end of the contact supporting rod, the contact supporting wheel is in contact with the outer wall of the clamping frame, an elastic spring is sleeved on the contact supporting rod, two ends of the elastic spring are respectively connected with the contact supporting rod and the bearing frame, elastic telescopic rods are arranged at positions, opposite to the contact supporting rods, at the ends of the elastic telescopic rods are in contact with the clamping frame, fixing blocks are fixedly arranged on one sides of the contact supporting rods, wedge grooves are formed in the fixing blocks, and wedge grooves are formed in the inner walls of the dust falling cylinders.

Preferably, the rotating frame is further fixedly sleeved on the first driving rod, the moving groove is formed in the rotating frame, the moving block is arranged in the moving groove in a sliding mode, the pressing rod is fixedly arranged on the moving block, the pressing rod is sleeved with the abutting spring, two ends of the abutting spring are respectively connected with the moving block and the rotating frame, the telescopic block is further arranged on the outer wall of the moving block, the abutting inclined block is arranged on the rotating frame and located beside the telescopic block, the rotating gear is further arranged on the bearing frame in a rotating mode, the contact frame is fixedly arranged on the end face of the rotating gear, the contact frame is in contact with the telescopic block on the moving block, the contact frame is sleeved on the first driving rod, a torsion spring is arranged between the contact frame and the bearing frame, the first contact frame is further provided with a touch disc, the touch disc is in contact with the bottom of the pressing rod, and the transmission gear meshed with the rotating gear is fixedly arranged on the second driving rod.

Preferably, the second connecting rod rotates and sets up on rotating chuck, spray the piece and set up the regulating disk on the second connecting rod including fixed, the regulating disk is the rectangle setting, set up the inside groove that two pairs of opposite settings on the rotating chuck, every group all slide in the inside groove and be provided with the alignment jig, every group the alignment jig is connected through the articulated frame with being the end bight that the rectangle set up the regulating disk, is provided with the pulling force expansion bracket between the alignment jig that one set of set up relatively, still fixedly on every group alignment jig is provided with the shower nozzle, and still is provided with soft system on the alignment jig.

Preferably, the application method of the spraying dust collector for drying the spherical graphite comprises the following steps:

S1: when waste gas generated in graphite is sprayed, the waste gas is discharged into the dust fall barrel through an air inlet arranged on the dust fall barrel, the dust fall is sprayed on impurities in the waste gas through a spraying piece arranged on the rotary chuck, so that the dust-falling gas can be discharged through an air outlet arranged on the dust fall barrel, after a large amount of waste gas is subjected to dust fall treatment, particles in the waste gas can remain to a filter screen and a filtering opening on the inner wall of the dust fall barrel, at the moment, a bearing frame positioned in the dust fall barrel is moved downwards through a driving cylinder arranged at the moment, when the bearing frame is moved downwards, a rotary gear is in contact with a limiting rack on the inner wall of the dust fall barrel, then a first bevel gear is driven to rotate by the rotary rod, when the first bevel gear drives a second bevel gear to rotate, a second bevel gear is driven to rotate by the first driving rod, and then the first connecting rod rotates by the rotary bevel gear, the inner gear is driven by the rotary ring, and then the particles can be sprayed on the inner wall of the dust fall barrel to clean the inner wall of the dust fall barrel;

S2: when the bearing frame moves to the bottom of the dust fall barrel under the drive of the driving electric cylinder, the wedge-shaped block arranged on the inner wall of the dust fall barrel is contacted with the wedge-shaped groove on the fixed block, at the moment, the fixed block can drive the abutting rod to move, so that the abutting wheel on the abutting rod is not contacted with the outer wall of the clamping frame any more, the elastic telescopic rod can drive the clamping frame to deflect on the bearing frame, and simultaneously, the clamping frame can be driven by the tension spring between the clamping frame and the limiting frame to drive the two groups of positioning rods to move through the sliding groove, at the moment, the positioning rods can enable the ring block to drive the first clamping sleeve and the second clamping sleeve to move, the abutting bevel gear on the first clamping sleeve is enabled to be separated from the abutting bevel gear on the first connecting rod, at the same time, the abutting bevel gear on the second clamping sleeve is enabled to abut against the abutting bevel gear on the second connecting rod, the abutting bevel gear on the second clamping sleeve is enabled to realize the switching of the abutting bevel gear, the abutting bevel gear when the first driving rod rotates, the first driving rod is not driven to rotate any more, and when the first driving rod rotates, the rotating frame on the first driving rod can rotate around the circle center of the first driving rod, and simultaneously, the clamping frame can enable the clamping frame to drive the two groups of positioning rods to continuously rotate through the sliding grooves under the driving of the sliding grooves, at the moment, the sliding sleeve can continuously contact with the sliding sleeve, the rolling disc can continuously, and then contact the rolling frame continuously rotates, and then contact with the rolling frame, and then rotate contact with the rolling frame, and continuously, and then rotate the rolling frame continuously rotates the rolling frame, the butt-joint helical teeth of the second clamping sleeve on the second driving rod and the clamping helical teeth on the second connecting rod are in a contact state at the moment, so that the second connecting rod can be driven to rotate, the contact frame is continuously stressed through the rotation of the first driving rod in the process of downwards moving the bearing frame through the arrangement, and the kinetic energy stored by the contact frame can be released when the kinetic energy reaches the bottom of the dust fall barrel, so that the follow-up spraying piece can treat impurities accumulated at the bottom of the dust fall barrel;

S3: when the bearing frame drives the spraying piece on the rotating chuck to be positioned below the dust fall barrel, the second connecting rod can drive the adjusting plate to rotate along with the rotation of the second connecting rod, the adjusting plate rotates to pull the hinged frame to enable the adjusting frame to move in the inner groove of the rotating chuck, the soft scraping frame arranged on the adjusting frame can scrape and stack impurities on the inner wall of the dust fall barrel towards the direction of the filtering port, then the impurities in the dust fall barrel can be removed, the rotating chuck can be driven to rotate when the bearing frame moves downwards through the arrangement, the spray head can clean the inner wall of the dust fall barrel, meanwhile, the soft scraping frame can scrape the impurities adhered to the inner wall of the dust fall barrel when the bearing frame is positioned at the bottom of the dust fall barrel, the soft scraping frame can stack the impurities positioned at the bottom of the dust fall barrel towards the filtering port through the release of kinetic energy, and then operators can conveniently open the filtering port to remove the residual impurities.

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

According to the invention, when waste gas generated in graphite is sprayed, the waste gas is discharged into the dust fall barrel through the air inlet arranged on the dust fall barrel, the dust fall is carried out on impurities in the waste gas through the spraying piece arranged on the rotary chuck, so that the dust-reduced gas can be discharged through the air outlet arranged on the dust fall barrel, after a large amount of waste gas is subjected to dust fall treatment, particles in the waste gas can remain on a filter screen and a filtering opening on the inner wall of the dust fall barrel, at the moment, the rotary rack moves downwards through the limiting rod driven by the driving electric cylinder, the rotary gear is in contact with the limiting rack on the inner wall of the dust fall barrel, then the rotary rod is driven to rotate, the first bevel gear drives the second bevel gear to rotate, the butt joint bevel gear arranged on the first driving rod is in contact with the clamping bevel gear arranged on the first connecting rod, the first connecting rod rotates, the ring gear rotates, the rotary chuck is driven by the inner gear to rotate, the rotary chuck is driven by the inner gear to move downwards on the dust fall barrel, and the particles can be sprayed on the bottom of the rotary rack, and the dust can be sprayed on the inner wall of the dust fall barrel conveniently.

In the invention, when the bearing frame is driven by the driving electric cylinder to move to the bottom of the dust fall barrel, the wedge-shaped block arranged on the inner wall of the dust fall barrel is contacted with the wedge-shaped groove on the fixed block, the fixed block drives the abutting rod to move, the abutting wheel on the abutting rod is not contacted with the outer wall of the clamping frame any more, the elastic telescopic rod drives the clamping frame to deflect on the bearing frame, meanwhile, the clamping frame can drive the two groups of positioning rods to move through the sliding groove under the driving of the tension spring between the clamping frame and the limiting frame, the positioning rod drives the ring block to drive the first clamping sleeve and the second clamping sleeve to move, the abutting bevel gear on the first clamping sleeve is separated from the abutting bevel gear on the first connecting rod, the abutting bevel gear on the second clamping sleeve is abutted with the abutting bevel gear on the second connecting rod, the switching of the abutting rod and the abutting bevel gear is realized, the first driving rod is not driven to rotate any more, when the first driving rod rotates, the rotating frame on the first driving rod continuously rotates around the circle center of the first driving rod, the telescopic block arranged on the moving block continuously contacts with the contact frame to drive the contact frame to continuously rotate, when the contact frame continuously rotates, the contact frame is continuously in a stressed state under the tension of the torsion spring, when the clamping frame deflects to enable the first clamping sleeve to move upwards, the touch pad on the first clamping sleeve is contacted with the bottom of the pressing rod to further enable the abutting inclined block to contact with the telescopic block to enable the telescopic block to shrink, the contact of the telescopic block to the contact frame is released after the telescopic block shrinks, the contact frame is driven by the torsion spring to rotate and reset, the contact frame resets to drive the rotating gear to rotate, the rotating gear rotates to drive the transmission gear to rotate, the transmission gear rotates to drive the second driving rod to rotate, the butt joint helical tooth of second cutting ferrule on the second actuating lever is in contact state with the joint helical tooth on the second connecting rod this moment, and then can drive the second connecting rod rotation, makes the in-process that bears the weight of the frame and moves down through this setting make the contact frame continuously atress through the rotation of first actuating lever, can release the kinetic energy that the contact frame was saved when reaching the bottom of dust fall section of thick bamboo, makes follow-up spray can handle the accumulational impurity in dust fall section of thick bamboo bottom.

According to the invention, when the bearing frame drives the spraying piece on the rotating chuck to be positioned below the dust fall barrel, the second connecting rod drives the adjusting plate to rotate along with the rotation of the second connecting rod, the adjusting plate rotates to pull the hinged frame to enable the adjusting frame to move in the inner groove of the rotating chuck, the soft scraping frame arranged on the adjusting frame can scrape and stack impurities on the inner wall of the dust fall barrel towards the direction of the filtering opening, so that the impurities in the dust fall barrel can be removed, the rotating chuck can be driven to rotate when the bearing frame moves downwards, the spray head can clean the inner wall of the dust fall barrel, meanwhile, the soft scraping frame is contacted with the inner wall of the dust fall barrel to scrape impurities adhered to the inner wall of the dust fall barrel, when the bearing frame is positioned at the bottom of the dust fall barrel, the soft scraping frame can stack the impurities positioned at the bottom of the dust fall barrel towards the filtering opening through the release of kinetic energy, and further, operators can conveniently open the filtering opening to remove the residual impurities.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

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

FIG. 3 is a schematic view of a partial perspective view of a spray assembly according to the present invention;

FIG. 4 is a schematic view of a spray assembly according to a second embodiment of the present invention;

FIG. 5 is a schematic view of a spray assembly of the present invention in a partial perspective view;

FIG. 6 is a schematic diagram of a partial perspective view of the present invention;

fig. 7 is a schematic perspective view of a spray member according to the present invention.

In the figure: 1. a dust fall tube; 11. an air inlet; 12. an air outlet; 13. a filtering port; 2. a driving device; 21. driving the electric cylinder; 22. a mounting plate; 23. a limit rod; 24. a carrier; 3. a spray assembly; 31. a rotating rod; 32. a rotary gear; 33. a limit rack; 34. a first bevel gear; 35. a second bevel gear; 36. a first driving lever; 37. a second driving lever; 38. a first ferrule; 39. a second ferrule; 391. butting helical teeth; 392. a first connecting rod; 393. a second connecting rod; 394. clamping oblique teeth; 4. an inner gear ring; 41. rotating the chuck; 42. an outer ring gear; 43. a clamping frame; 44. a limiting frame; 45. a tension spring; 46. a chute; 47. a ring block; 48. a positioning rod; 49. a touch-up rod; 491. a contact wheel; 492. an elastic spring; 493. an elastic telescopic rod; 494. a fixed block; 495. wedge-shaped blocks; 5. a rotating frame; 51. a moving block; 52. a compression bar; 53. a contact spring; 54. a telescopic block; 55. the inclined block is abutted against; 56. rotating the gear; 57. a contact rack; 58. a torsion spring; 59. a touch pad; 591. a transmission gear; 6. a spray member; 61. an adjusting plate; 62. an adjusting frame; 63. a hinge bracket; 64. a tension expansion bracket; 65. a spray head; 66. soft scraping frame.

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 are obtained by a worker of ordinary skill in the art without creative efforts, are within the protection scope of the present invention based on the embodiments of the present invention.

Referring to fig. 1 to 7, the present invention provides a technical solution: the utility model provides a spray dust fall ware for spherical graphite is dried, is including being the dust fall section of thick bamboo 1 of horizontal placement in ground, be provided with driving equipment 2 on the dust fall section of thick bamboo 1, driving equipment 2 is including the fixed drive electric jar 21 that sets up at dust fall section of thick bamboo 1 top, the flexible end of drive electric jar 21 is fixed to be provided with mounting panel 22, the fixed gag lever post 23 that sets up relatively on the mounting panel 22, two sets of gag lever post 23 and the top sliding fit of dust fall section of thick bamboo 1, two sets of the fixed carrier 24 that is provided with in bottom of gag lever post 23, be provided with on the carrier 24 and spray the subassembly 3, be provided with air intake 11 and air outlet 12 on the outer wall of dust fall section of thick bamboo 1 respectively, and the bottom of dust fall section of thick bamboo 1 still is provided with filter port 13.

In this embodiment, as shown in fig. 1, 2,3 and 4, the spray assembly 3 includes a rotary rod 31 rotatably disposed on the carrier 24, one end of the rotary rod 31 is fixedly provided with a rotary gear 32, a limiting rack 33 is fixedly disposed on an inner wall of the dust fall barrel 1, the rotary gear 32 is meshed with the limiting rack 33, a first bevel gear 34 is disposed at the other end of the rotary rod 31, a first driving rod 36 and a second driving rod 37 are further rotatably disposed on the carrier 24, the first driving rod 36 and the second driving rod 37 are disposed opposite to each other, and a second bevel gear 35 meshed with the first bevel gear 34 is fixedly disposed at an end of the first driving rod 36;

The first driving rod 36 and the second driving rod 37 are respectively connected with a first clamping sleeve 38 and a second clamping sleeve 39 in a clamping manner, annular grooves are formed in the outer walls of the first clamping sleeve 38 and the second clamping sleeve 39, butt-joint inclined teeth 391 are further arranged on the first clamping sleeve 38 and the second clamping sleeve 39, a first connecting rod 392 and a second connecting rod 393 are further arranged on the bearing frame 24 in a rotating manner, and clamping inclined teeth 394 which are respectively meshed with the butt-joint inclined teeth 391 on the first clamping sleeve 38 and the second clamping sleeve 39 are fixedly arranged at one ends of the first connecting rod 392 and the second connecting rod 393;

The bottom of the first connecting rod 392 is fixedly provided with an annular gear 4, the bearing frame 24 is rotatably provided with a rotating chuck 41, the inner ring of the rotating chuck 41 is provided with an outer ring gear 42 meshed with the annular gear 4, the rotating chuck 41 is provided with a spraying piece 6, the spraying piece 6 faces the dust fall barrel 1, a dust fall cavity is formed between the lower part of the rotating chuck 41 and the dust fall barrel 1, and a filter screen is arranged in the inner wall of the dust fall cavity formed between the rotating chuck 41 and the dust fall barrel 1;

When spraying the waste gas that produces in the graphite and handling, in discharging waste gas to the dust fall section of thick bamboo 1 through the air intake 11 that sets up on the dust fall section of thick bamboo 1, spray 6 through setting up on the rotating chuck 41 and carry out the dust fall spraying to the impurity in its waste gas, make the gas after the dust fall can be discharged through the air outlet 12 on the dust fall section of thick bamboo 1, and after a large amount of waste gas carry out the dust fall handling, particulate matter in the waste gas then can remain to filter screen and the filter tip 13 department on the inner wall of the dust fall section of thick bamboo 1, drive the gag lever post 23 through the drive jar 21 that sets up makes the carrier 24 that is located in the dust fall section of thick bamboo 1 move down this moment, when carrier 24 moves down, the contact of rotatory gear 32 and the spacing rack 33 on the inner wall of dust fall section of thick bamboo 1 then can take place to rotate, and then drive rotary rod 31 makes first bevel gear 34 rotate, when first bevel gear 34 drives second bevel gear 35 rotate, second bevel gear 35 then can make first actuating lever 36 rotate, and the butt joint helical gear 391 that sets up on the first actuating lever 36 then can contact with the helical gear 394 that sets up on the inner wall of the head rod 1, thereby make the inner gear 392 rotate, the carrier 24 can rotate the inner gear 4 and spray the particulate matter can rotate down, when the inner gear 1 can rotate down, and the inner gear 4 rotates the inner gear 4, and the carrier 4 can rotate the inner gear 4 rotates, and the rotary handle 4 can rotate, and the dust carrier 4 can rotate.

In this embodiment, as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, and fig. 6, a clamping frame 43 is rotatably disposed on the carrier 24, a limiting frame 44 is rotatably disposed on the carrier 24, a tension spring 45 is disposed between the clamping frame 43 and the limiting frame 44, sliding grooves 46 are provided on both sides of the clamping frame 43, annular blocks 47 are rotatably disposed in the annular grooves of the first clamping sleeve 38 and the second clamping sleeve 39, positioning rods 48 are fixedly disposed at one ends of the two sets of annular blocks 47, the two sets of positioning rods 48 are respectively disposed in the sliding grooves 46 on both sides of the clamping frame 43, an abutting rod 49 is slidably disposed on the carrier 24, an abutting wheel 491 is rotatably disposed at one end of the abutting rod 49 and contacts with the outer wall of the clamping frame 43, elastic springs 492 are sleeved on the abutting rod 49, both ends of the elastic springs 492 are respectively connected with the abutting rod 49 and the carrier 24, elastic rods 493 are disposed on the carrier 24 and opposite to the abutting rod 49, a fixing groove 494 is disposed on one side of the wedge 49 and contacts with the fixing groove 494;

The first driving rod 36 is fixedly sleeved with a rotating frame 5, the rotating frame 5 is provided with a moving groove, a moving block 51 is arranged in the moving groove in a sliding mode, the moving block 51 is fixedly provided with a pressing rod 52, the pressing rod 52 is sleeved with a supporting spring 53, two ends of the supporting spring 53 are respectively connected with the moving block 51 and the rotating frame 5, the outer wall of the moving block 51 is further provided with a telescopic block 54, the rotating frame 5 is positioned beside the telescopic block 54 and is provided with a supporting inclined block 55, the bearing frame 24 is further rotatably provided with a rotating gear 56, the end face of the rotating gear 56 is fixedly provided with a contact frame 57, the contact frame 57 is in contact with the telescopic block 54 on the moving block 51, the contact frame 57 is sleeved on the first driving rod 36, a torsion spring 58 is arranged between the contact frame 57 and the bearing frame 24, the first driving rod 38 is further provided with a touching disc 59, the touching disc 59 is in contact with the bottom of the pressing rod 52, and the second driving rod 37 is fixedly provided with a transmission gear 591 meshed with the rotating gear 56;

When the bearing frame 24 moves to the bottom of the dust fall barrel 1 under the driving of the driving electric cylinder 21, the wedge-shaped block 495 arranged on the inner wall of the dust fall barrel 1 contacts with the wedge-shaped groove on the fixed block 494, at the moment, the fixed block 494 drives the abutting rod 49 to move, the abutting wheel 491 on the abutting rod 49 is no longer in contact with the outer wall of the clamping frame 43, the elastic telescopic rod 493 drives the clamping frame 43 to deflect on the bearing frame 24, meanwhile, the clamping frame 43 can drive the two groups of positioning rods 48 to move through the sliding groove 46 under the driving of the tension spring 45 between the clamping frame 43 and the limiting frame 44, at the moment, the positioning rod 48 drives the ring block 47 to move the first clamping sleeve 38 and the second clamping sleeve 39, the abutting bevel 391 on the first clamping sleeve 38 is separated from the abutting bevel 394 on the first connecting rod 392, at the same time, the abutting bevel 391 on the second clamping rod 393 is abutted with the abutting bevel 394 on the second connecting rod 393, the first driving rod 36 can not drive the first connecting rod 392 to rotate any more when the first driving rod 36 rotates, the rotating frame 5 on the first driving rod 36 can continuously rotate around the circle center of the first driving rod 36 when the first driving rod 36 rotates, the telescopic block 54 arranged on the moving block 51 can continuously contact with the contact frame 57 to further drive the contact frame 57 to continuously rotate, when the contact frame 57 continuously rotates, the contact frame 57 can continuously be in a stressed state under the tension of the torsion spring 58, when the clamping frame 43 deflects to enable the first clamping sleeve 38 to move upwards, the touch pad 59 on the first clamping sleeve 38 can contact with the bottom of the pressing rod 52 to further enable the abutting inclined block 55 to contact with the telescopic block 54 to enable the telescopic block 54 to shrink, the contact of the telescopic block 54 to the contact frame 57 is released after the telescopic block 54 shrinks, the contact frame 57 can rotate to reset under the driving of the torsion spring 58, the contact frame 57 resets to drive the rotating gear 56 to rotate, the rotation of the rotating gear 56 drives the transmission gear 591 to rotate, the rotation of the transmission gear 591 drives the second driving rod 37 to rotate, the butt inclined teeth 391 of the second clamping sleeve 39 on the second driving rod 37 and the clamping inclined teeth 394 on the second connecting rod 393 are in contact at the moment, and then the second connecting rod 393 can be driven to rotate, the contact frame 57 is continuously stressed through the rotation of the first driving rod 36 in the process of downwards moving the bearing frame 24 through the arrangement, and when reaching the bottom of the dust fall barrel 1, the kinetic energy stored by the contact frame 57 can be released, so that the subsequent spraying piece 6 can treat impurities accumulated at the bottom of the dust fall barrel 1.

In this embodiment, as shown in fig. 1,2,3 and 7, the second connecting rod 393 is rotatably disposed on the rotating chuck 41, the spraying member 6 includes an adjusting disc 61 fixedly disposed on the second connecting rod 393, the adjusting disc 61 is rectangular, the rotating chuck 41 is provided with inner grooves disposed in two pairs, each group of inner grooves is slidably provided with an adjusting frame 62, each group of adjusting frames 62 is connected with an end corner portion of the adjusting disc 61 disposed in a rectangular shape through a hinge frame 63, a tensile expansion frame 64 is disposed between one group of adjusting frames 62 disposed in opposite directions, a spray head 65 is fixedly disposed on each group of adjusting frames 62, and a soft scraping frame 66 is disposed on each group of adjusting frames 62;

When the carrier frame 24 drives the spray piece 6 on the rotating chuck 41 to be positioned below the dust fall barrel 1, along with the rotation of the second connecting rod 393, the second connecting rod 393 can drive the adjusting disk 61 to rotate, the adjusting disk 61 rotates to pull the hinged frame 63 to enable the adjusting frame 62 to move in the inner groove of the rotating chuck 41, the soft scraping frame 66 arranged on the adjusting frame 62 can scrape and stack impurities on the inner wall of the dust fall barrel 1 towards the direction of the filter opening 13, then the impurities in the dust fall barrel 1 can be removed, the rotating chuck 41 can be driven to rotate when the carrier frame 24 moves downwards through the arrangement, the spray head 65 can clean the inner wall of the dust fall barrel 1, meanwhile, the soft scraping frame 66 can scrape the impurities adhered to the inner wall of the dust fall barrel 1 when the carrier frame 24is positioned at the bottom of the dust fall barrel 1, the soft scraping frame 66 can stack the impurities positioned at the bottom of the dust fall barrel 1 towards the filter opening 13 through the release of kinetic energy, and then the operator can conveniently open the filter opening 13 to remove the residual impurities.

The application method and the advantages of the invention are as follows: the application method of the spraying dust remover for drying spherical graphite comprises the following working processes:

as shown in fig. 1,2, 3, 4, 5, 6 and 7:

S1: when waste gas generated in graphite is sprayed, the waste gas is discharged into the dust fall barrel 1 through an air inlet 11 arranged on the dust fall barrel 1, the dust fall spraying is carried out on impurities in the waste gas through a spraying piece 6 arranged on a rotary chuck 41, so that the dust-reduced gas can be discharged through an air outlet 12 on the dust fall barrel 1, after a large amount of waste gas is subjected to dust fall treatment, particles in the waste gas can remain on a filter screen and a filter opening 13 on the inner wall of the dust fall barrel 1, at the moment, a limit rod 23 is driven by a driving electric cylinder 21 arranged at the moment to enable a bearing frame 24 positioned in the dust fall barrel 1 to move downwards, when the bearing frame 24 moves downwards, a rotary gear 32 is in contact with a limit rack 33 on the inner wall of the dust fall barrel 1, and then a rotary rod 31 is driven to enable a first bevel gear 34 to rotate, when the first bevel gear 34 drives a second bevel gear 35 to rotate, a first driving rod 36 is enabled to rotate, and docking bevel gear 391 arranged on the first driving rod 36 is enabled to be in contact with a clamping bevel gear 394 arranged on the inner wall of the dust fall barrel 1, so that particles can be conveniently sprayed on the inner wall of the dust fall barrel 1, and the inner ring gear 392 can be enabled to rotate, and the inner ring gear 392 can be enabled to rotate, and the inner gear 392 can be rotated to rotate, and the inner ring gear 392 can be enabled to rotate and the inner gear 4 can be rotated to rotate, and then the inner ring gear plate 4 can be sprayed to rotate and the inner ring handle 4 can be conveniently and the inner ring handle is enabled to rotate and the inner ring handle 4 to rotate and the dust can be sprayed;

S2: when the bearing frame 24 moves to the bottom of the dust fall barrel 1 under the driving of the driving electric cylinder 21, the wedge-shaped block 495 arranged on the inner wall of the dust fall barrel 1 contacts with the wedge-shaped groove on the fixed block 494, at the moment, the fixed block 494 drives the abutting rod 49 to move, the abutting wheel 491 on the abutting rod 49 is no longer in contact with the outer wall of the clamping frame 43, the elastic telescopic rod 493 drives the clamping frame 43 to deflect on the bearing frame 24, meanwhile, the clamping frame 43 can drive the two groups of positioning rods 48 to move through the sliding groove 46 under the driving of the tension spring 45 between the clamping frame 43 and the limiting frame 44, at the moment, the positioning rod 48 drives the ring block 47 to move the first clamping sleeve 38 and the second clamping sleeve 39, the abutting bevel 391 on the first clamping sleeve 38 is separated from the abutting bevel 394 on the first connecting rod 392, at the same time, the abutting bevel 391 on the second clamping rod 393 is abutted with the abutting bevel 394 on the second connecting rod 393, the first driving rod 36 can not drive the first connecting rod 392 to rotate any more when the first driving rod 36 rotates, the rotating frame 5 on the first driving rod 36 can continuously rotate around the circle center of the first driving rod 36 when the first driving rod 36 rotates, the telescopic block 54 arranged on the moving block 51 can continuously contact with the contact frame 57 to further drive the contact frame 57 to continuously rotate, when the contact frame 57 continuously rotates, the contact frame 57 can continuously be in a stressed state under the tension of the torsion spring 58, when the clamping frame 43 deflects to enable the first clamping sleeve 38 to move upwards, the touch pad 59 on the first clamping sleeve 38 can contact with the bottom of the pressing rod 52 to further enable the abutting inclined block 55 to contact with the telescopic block 54 to enable the telescopic block 54 to shrink, the contact of the telescopic block 54 to the contact frame 57 is released after the telescopic block 54 shrinks, the contact frame 57 can rotate to reset under the driving of the torsion spring 58, the contact frame 57 resets to drive the rotating gear 56 to rotate, the rotation of the rotating gear 56 drives the transmission gear 591 to rotate, the rotation of the transmission gear 591 drives the second driving rod 37 to rotate, the butt inclined teeth 391 of the second clamping sleeve 39 on the second driving rod 37 and the clamping inclined teeth 394 on the second connecting rod 393 are in contact at the moment, and then the second connecting rod 393 can be driven to rotate, the contact frame 57 is continuously stressed through the rotation of the first driving rod 36 in the process of downwards moving the bearing frame 24 through the arrangement, and when reaching the bottom of the dust fall barrel 1, the kinetic energy stored by the contact frame 57 can be released, so that the subsequent spraying piece 6 can treat impurities accumulated at the bottom of the dust fall barrel 1;

S3: when the carrier frame 24 drives the spray piece 6 on the rotating chuck 41 to be positioned below the dust fall barrel 1, along with the rotation of the second connecting rod 393, the second connecting rod 393 can drive the adjusting disk 61 to rotate, the adjusting disk 61 rotates to pull the hinged frame 63 to enable the adjusting frame 62 to move in the inner groove of the rotating chuck 41, the soft scraping frame 66 arranged on the adjusting frame 62 can scrape and stack impurities on the inner wall of the dust fall barrel 1 towards the direction of the filter opening 13, then the impurities in the dust fall barrel 1 can be removed, the rotating chuck 41 can be driven to rotate when the carrier frame 24 moves downwards through the arrangement, the spray head 65 can clean the inner wall of the dust fall barrel 1, meanwhile, the soft scraping frame 66 can scrape the impurities adhered to the inner wall of the dust fall barrel 1 when the carrier frame 24 is positioned at the bottom of the dust fall barrel 1, the soft scraping frame 66 can stack the impurities positioned at the bottom of the dust fall barrel 1 towards the filter opening 13 through the release of kinetic energy, and then the operator can conveniently open the filter opening 13 to remove the residual impurities.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A spray dust fall ware for spherical graphite is dried, its characterized in that: the dust settling device comprises a dust settling barrel (1) horizontally placed on the ground, wherein driving equipment (2) is arranged on the dust settling barrel (1), the driving equipment (2) comprises a driving electric cylinder (21) fixedly arranged at the top of the dust settling barrel (1), a mounting plate (22) is fixedly arranged at the telescopic end of the driving electric cylinder (21), limiting rods (23) which are oppositely arranged are fixedly arranged on the mounting plate (22), two groups of limiting rods (23) are in sliding fit with the top of the dust settling barrel (1), a bearing frame (24) is fixedly arranged at the bottom of the limiting rods (23), a spraying assembly (3) is arranged on the bearing frame (24), an air inlet (11) and an air outlet (12) are respectively arranged on the outer wall of the dust settling barrel (1), and a filtering port (13) is further formed in the bottom of the dust settling barrel (1);

The spraying assembly (3) comprises a rotating rod (31) which is rotatably arranged on a bearing frame (24), a rotating gear (32) is fixedly arranged at one end of the rotating rod (31), a limiting rack (33) is fixedly arranged on the inner wall of the dust fall barrel (1), the rotating gear (32) is meshed with the limiting rack (33), a first bevel gear (34) is arranged at the other end of the rotating rod (31), a first driving rod (36) and a second driving rod (37) are further rotatably arranged on the bearing frame (24), the first driving rod (36) and the second driving rod (37) are oppositely arranged, and a second bevel gear (35) meshed with the first bevel gear (34) is fixedly arranged at the end part of the first driving rod (36);

The novel lifting device is characterized in that a first clamping sleeve (38) and a second clamping sleeve (39) are respectively clamped on the first driving rod (36) and the second driving rod (37), annular grooves are formed in the outer walls of the first clamping sleeve (38) and the second clamping sleeve (39), butt-joint helical teeth (391) are further arranged on the first clamping sleeve (38) and the second clamping sleeve (39), a first connecting rod (392) and a second connecting rod (393) are further rotatably arranged on the bearing frame (24), and clamping helical teeth (394) which are respectively meshed with the butt-joint helical teeth (391) on the first clamping sleeve (38) and the second clamping sleeve (39) are fixedly arranged at one ends of the first connecting rod (392) and the second connecting rod (393);

The bottom of the first connecting rod (392) is fixedly provided with an annular gear (4), the bearing frame (24) is rotatably provided with a rotating chuck (41), the inner ring of the rotating chuck (41) is provided with an outer ring (42) meshed with the annular gear (4), the rotating chuck (41) is provided with a spraying piece (6), the spraying piece (6) faces the dust fall barrel (1), a dust fall cavity is formed between the lower part of the rotating chuck (41) and the dust fall barrel (1), and a filter screen is arranged in the inner wall of the dust fall cavity formed between the rotating chuck (41) and the dust fall barrel (1);

The bearing frame (24) is rotatably provided with a clamping frame (43), the bearing frame (24) is rotatably provided with a limiting frame (44), tension springs (45) are arranged between the clamping frame (43) and the limiting frame (44), sliding grooves (46) are formed in two sides of the clamping frame (43), annular grooves of the first clamping sleeve (38) and the second clamping sleeve (39) are rotatably provided with annular blocks (47), one ends of the two groups of annular blocks (47) are fixedly provided with positioning rods (48), the two groups of positioning rods (48) are respectively located in the sliding grooves (46) in the two sides of the clamping frame (43), the bearing frame (24) is also slidably provided with a supporting contact rod (49), one end of the supporting rod (49) is rotatably provided with a supporting contact wheel (491), the supporting wheel (491) is in contact with the outer wall of the clamping frame (43), elastic springs (492) are sleeved on the supporting rod (49), two ends of each elastic spring (492) are respectively connected with the supporting rod (49) and the sliding groove (46) in the two sides of the clamping frame (43), the supporting rod (24) is fixedly connected with the supporting rod (49), one side of the supporting rod (49) is fixedly connected with the supporting rod (49) in a telescopic rod (49), the fixed block (494) is provided with a wedge-shaped groove, and the inner wall of the dust fall barrel (1) is provided with a wedge-shaped block (495) contacted with the wedge-shaped groove;

The first driving rod (36) is fixedly sleeved with a rotating frame (5), the rotating frame (5) is provided with a moving groove, the moving groove is internally provided with a moving block (51), the moving block (51) is fixedly provided with a pressing rod (52), the pressing rod (52) is sleeved with a supporting spring (53), two ends of the supporting spring (53) are respectively connected with the moving block (51) and the rotating frame (5), the outer wall of the moving block (51) is further provided with a telescopic block (54), the rotating frame (5) is positioned beside the telescopic block (54) and is provided with a supporting inclined block (55), the bearing frame (24) is further provided with a rotating gear (56), the end face of the rotating gear (56) is fixedly provided with a contact frame (57), the contact frame (57) is contacted with the telescopic block (54) on the moving block (51), the contact frame (57) is sleeved on the first driving rod (36), a contact disc (59) is arranged between the contact frame (57) and the bearing frame (24), and the contact disc (59) is further arranged on the first disc (59), a transmission gear (591) meshed with the rotating gear (56) is fixedly arranged on the second driving rod (37);

The second connecting rod (393) rotates and sets up on rotating chuck (41), spray piece (6) including fixed adjustment disk (61) that set up on second connecting rod (393), adjustment disk (61) are the rectangle setting, set up the inside groove of two double-phase opposite settings on rotating chuck (41), every group all slide in the inside groove and be provided with alignment jig (62), every group alignment jig (62) are connected through articulated frame (63) with being the end bight that the rectangle set up adjustment disk (61), are provided with tensile expansion bracket (64) between alignment jig (62) that one set of set up relatively, still fixedly are provided with shower nozzle (65) on every group alignment jig (62), and still be provided with on alignment jig (62) and make in soft and scrape frame (66).

2. The method for using the spray dust collector for drying spherical graphite according to claim 1, wherein the method comprises the following steps: the method comprises the following steps:

S1: when waste gas generated in graphite is sprayed, waste gas is discharged into the dust fall barrel (1) through an air inlet (11) arranged on the dust fall barrel (1), dust fall spraying is carried out on impurities in the waste gas through a spraying piece (6) arranged on a rotating chuck (41), the dust-reduced gas can be discharged through an air outlet (12) on the dust fall barrel (1), when a large amount of waste gas is subjected to dust fall treatment, particles in the waste gas can remain on a filter screen and a filter opening (13) on the inner wall of the dust fall barrel (1), at the moment, a limit rod (23) is driven by a driving electric cylinder (21) to enable a bearing frame (24) positioned in the dust fall barrel (1) to move downwards, when the bearing frame (24) moves downwards, a limit rack (33) on the inner wall of the dust fall barrel (1) is contacted with a rotating gear (32), and then a rotating rod (31) is driven to enable a first bevel gear (34) to rotate, when a large amount of waste gas is subjected to dust fall treatment, particles in the waste gas can remain on the filter screen and a filter opening (13) on the inner wall of the dust fall barrel, at the time, the first bevel gear (35) can be driven by the second bevel gear (35) to rotate, and then the first bevel gear (35) rotates to enable the first bevel gear (36) to rotate, and the first bevel gear (392) rotates, and the first bevel gear (392) is rotatably and the first bevel gear (392) rotates, the inner gear ring (4) drives the rotating chuck (41) to rotate in the dust fall barrel (1), so that when the bearing frame (24) moves downwards, the spraying piece (6) arranged at the bottom of the rotating chuck (41) can rotationally spray particles on the inner wall of the dust fall chamber, and the particles on the filter screen can be sprayed to the bottom of the dust fall barrel (1), thereby facilitating the subsequent cleaning operation;

S2: when the bearing frame (24) is driven by the driving electric cylinder (21) to move to the bottom of the dust fall barrel (1), the wedge-shaped block (495) arranged on the inner wall of the dust fall barrel (1) is contacted with the wedge-shaped groove on the fixed block (494), at the moment, the fixed block (494) can drive the abutting rod (49) to move, the abutting wheel (491) on the abutting rod (49) is not contacted with the outer wall of the clamping frame (43), the elastic telescopic rod (493) can drive the clamping frame (43) to deflect on the bearing frame (24), and simultaneously, the clamping frame (43) can be driven by the tension spring (45) between the clamping frame (43) and the limiting frame (44) to drive the two groups of positioning rods (48) to move through the sliding groove (46), at the moment, the positioning rods (48) can drive the first clamping sleeve (38) and the second clamping sleeve (39) to move, the abutting bevel gear (391) on the first clamping sleeve (38) is not contacted with the outer wall of the clamping frame (43), the first clamping rod (392) can be driven by the first clamping sleeve (39) to rotate, and at the same time, the first clamping sleeve (392) is driven by the bevel gear (392) to rotate, and the second clamping sleeve (392) is not contacted with the bevel gear (394) to rotate, and the first clamping sleeve (392) is driven to rotate, and the bevel gear (392) is not contacted with the second clamping sleeve (39) to rotate, the rotating frame (5) on the first driving rod (36) continuously rotates around the circle center of the first driving rod (36), the telescopic block (54) arranged on the moving block (51) continuously contacts with the contact frame (57) to further drive the contact frame (57) to continuously rotate, when the contact frame (57) continuously rotates, the contact frame (57) is continuously in a stressed state under the tension of the torsion spring (58), when the clamping frame (43) deflects to enable the first clamping sleeve (38) to move upwards, the touch disc (59) on the first clamping sleeve (38) is contacted with the bottom of the pressing rod (52), the abutting inclined block (55) can be contacted with the telescopic block (54) to enable the telescopic block (54) to shrink, the contact of the telescopic block (54) to the contact frame (57) is released after the telescopic block (54) shrinks, the contact frame (57) is driven by the torsion spring (58) to rotate and reset, the rotating gear (56) is driven by the reset driving gear (56) to rotate, the transmission gear (591) is driven by the rotation of the rotating gear (591) to drive the second clamping rod (37) to rotate, and then the second clamping rod (37) is driven by the second clamping rod (393) to rotate, and the second clamping rod (393) can rotate, and the second clamping rod (393) is enabled to rotate, by the arrangement, the contact frame (57) is continuously stressed through the rotation of the first driving rod (36) in the process of downwards moving the bearing frame (24), and the kinetic energy stored by the contact frame (57) can be released when reaching the bottom of the dust fall barrel (1), so that the subsequent spraying piece (6) can treat impurities accumulated at the bottom of the dust fall barrel (1);

S3: when carrier frame (24) drive spray piece (6) on rotating chuck (41) are in the below in dust fall section of thick bamboo (1), along with the rotation of second connecting rod (393), second connecting rod (393) then can drive adjustment dish (61) and rotate, the rotatory pulling articulated frame (63) of adjustment dish (61) makes adjustment frame (62) remove in the inside groove of rotating chuck (41), soft system of setting on adjustment frame (62) is scraped and is piled up impurity on dust fall section of thick bamboo (1) inner wall to the direction of filtration mouth (13), and then can get rid of impurity in dust fall section of thick bamboo (1), can drive rotating chuck (41) rotation when making carrier frame (24) move down through this setting and make shower nozzle (65) clean the inner wall of dust fall section of thick bamboo (1), soft system is scraped impurity that contacts in the inner wall of dust fall section of thick bamboo (1) and can be scraped and is scraped the impurity of adhesion in its inner wall simultaneously, when carrier frame (62) are in the bottom of dust fall section of thick bamboo (1), then can be with the filtration mouth (13) is scraped to the direction of filtration mouth (13) of filtration mouth that can be followed by the release messenger's frame (1) and is in the operation of removing the dust fall mouth and then is piled up the personnel.