CN111036374A - Refractory material powder process equipment - Google Patents

Abstract

The invention discloses refractory material pulverizing equipment, which belongs to the technical field of refractory material production and comprises a crushing box, a crushing assembly, a filter plate, a scraping assembly, a containing box, a grinding assembly, a screening box, a supporting assembly, a screening assembly and a material conveying assembly, wherein the crushing box and the grinding box are sequentially arranged on the ground, the supporting assembly is arranged beside the grinding box, the screening box is arranged on the supporting assembly, a feed inlet is formed in the top end of the crushing box, the crushing assembly is arranged in the crushing box, the filter plate is fixedly connected with the inner wall of the crushing box, a plurality of filter holes are formed in the filter plate, the scraping assembly is arranged in the crushing box, the grinding assembly is arranged in the grinding box, the screening assembly is arranged in the screening box, and the material conveying assembly is arranged between the grinding box and the screening box. The invention solves the problems that the sizes of particles of the raw materials ground into powder are different, the powder cannot be classified according to the particle sizes, and the later use is influenced.

Description

Refractory material powder process equipment

Technical Field

The invention relates to the technical field of refractory material production, in particular to refractory material pulverizing equipment.

Background

The refractory material is an inorganic non-metallic material with refractoriness not lower than 1580 ℃. Refractoriness is the degree centigrade at which a sample of the refractory cone resists high temperatures without softening and melting down without loading. However, the definition of refractoriness alone does not fully describe the refractory material, and 1580 ℃ is not absolute. Materials that are now defined as materials whose physicochemical properties allow them to be used in high temperature environments are referred to as refractory materials. The refractory material is widely used in the industrial fields of metallurgy, chemical industry, petroleum, mechanical manufacturing, silicate, power and the like, and the use amount is the largest in the metallurgical industry, and accounts for 50-60% of the total output. One type of refractory materials is refractory powder, the refractory powder is refractory ore mill powder, and the refractory powder can be classified into various types according to different purposes, and the highest refractoriness can reach more than two thousand degrees. Refractory powders require the grinding of refractory ores during production. The particle size that current powder process equipment ground the raw materials into powder is not uniform, can't classify according to the particle size to the powder, influences the later stage and uses.

Disclosure of Invention

The invention aims to provide a refractory material pulverizing device to solve the technical problems that in the prior art, the particles obtained by pulverizing raw materials are different in size, the powder cannot be classified according to the particle size, and later-stage use is affected.

In order to solve the technical problems, the invention provides the following technical scheme: a refractory material pulverizing device comprises a crushing box, a crushing assembly, a filter plate, a scraping assembly, a containing box, a grinding assembly, a screening box, a supporting assembly, a screening assembly and a material conveying assembly, wherein the crushing box and the grinding box are sequentially arranged on the ground, the supporting assembly is arranged beside the grinding box, the screening box is arranged on the supporting assembly, a feed inlet is formed in the top end of the crushing box, the crushing assembly is arranged in the crushing box, the filter plate is fixedly connected with the inner wall of the crushing box and is positioned below the crushing assembly, a plurality of filter holes are formed in the filter plate, the scraping assembly is arranged in the crushing box, the bottom end of the scraping assembly is abutted against the top end of the filter plate, the containing box is arranged at the inner bottom end of the crushing box, the grinding assembly is arranged in the grinding box, the screening assembly is arranged in the screening box, the material conveying assembly is arranged between the grinding box and the screening box.

Furthermore, crushing subassembly includes crushing motor, driving gear, two crushing rollers and two driven gear, two the crushing roller can rotate and install in broken case to the outside of broken case is all extended to the one end of two crushing rollers, two driven gear respectively with the one end fixed connection that two crushing rollers extend to the outside of broken case, and two driven gear intermeshing, crushing motor is the level and sets up on the outer wall of broken case, driving gear and crushing motor's output shaft fixed connection to the driving gear meshes with one of them driven gear, two all be equipped with a plurality of crushing blade on the crushing roller.

Further, scrape the material subassembly and include first belt pulley, second belt pulley, belt, scraper blade, movable block, connecting rod, scrape material motor and two fixed plates, two the fixed plate is the symmetry and sets up on the outer wall of broken case, the scraper blade can slidable mounting in broken incasement to the bottom of scraper blade is contradicted with the top of filter, first belt pulley and second belt pulley can rotate respectively and install on two fixed plates, the belt cover is established in the outside of first belt pulley and second belt pulley, scrape the material motor and be the level setting on one of them fixed plate to scrape the output shaft of material motor and extend to with second belt pulley fixed connection, movable block and belt fixed connection, the both ends of connecting rod respectively with scraper blade and movable block fixed connection, be equipped with the logical groove that supplies the connecting rod to pass on the broken case.

Furthermore, be equipped with two L type loading boards on the bottom outer wall of broken case, the one end that broken case is close to the filter is equipped with the blown down tank, the below of blown down tank is equipped with stores the box, store the box and install the bottom at broken case through two L type loading boards, be equipped with the swash plate between the top of storing the box and the blown down tank.

Further, the grinding component comprises a feed hopper, a connecting pipe, a square-shaped grinding channel, a connecting channel, a transfer box, two grinding pieces and two filter screens, the square-shaped grinding channel is arranged in the grinding box, the feed hopper is arranged above the grinding box and is communicated with the square-shaped grinding channel through the connecting pipe, the two grinding pieces are symmetrically arranged in the square-shaped grinding channel, the two filter screens are symmetrically arranged at the center of the bottom end of the square-shaped grinding channel, the transfer box is arranged at the inner bottom end of the grinding box, two ends of the connecting channel are respectively communicated with the transfer box and the two filter screens, each grinding piece comprises a hydraulic push rod, a push plate and a plurality of grinding teeth, the hydraulic push rod is horizontally arranged on the inner wall of the grinding box, the output end of the hydraulic push rod extends into the square-shaped grinding channel, and the push plate can be slidably arranged in the square-shaped grinding channel, and the push plate is fixedly connected with the output end of the hydraulic push rod, and the grinding teeth are arranged on the side wall of the push plate at equal intervals.

Further, the supporting component includes bottom plate, backup pad and four spring support piece, the bottom plate sets up subaerial, the backup pad is through four spring support piece and bottom plate fixed connection, every spring support piece all includes first supporting seat, second supporting seat, supporting spring and erection column, the top fixed connection of first supporting seat and bottom plate, the bottom fixed connection of second supporting seat and backup pad, the erection column sets up in first supporting seat, the supporting spring cover is established on the erection column to supporting spring's both ends respectively with first supporting seat and second supporting seat fixed connection.

Furthermore, the feeding assembly comprises a suction fan, a first feeding pipe and a second feeding pipe, the suction fan is horizontally arranged beside the grinding box, two ends of the first feeding pipe are respectively communicated with an input end of the suction fan and the transfer box, and two ends of the second feeding pipe are respectively communicated with an output end of the suction fan and the screening box.

Furthermore, the screening assembly comprises a first screening plate, a second screening plate, a third screening plate, a guide rail, an opening and closing groove, an opening plate, a connecting plate, an electric push rod, two vibration motors, four material storage bags and a plurality of fans, wherein the first screening plate, the second screening plate and the third screening plate are arranged in the screening box at equal intervals, the first screening plate, the second screening plate and the third screening plate divide the inner space of the screening box into a first accommodating cavity, a second accommodating cavity, a third accommodating cavity and a fourth accommodating cavity from top to bottom in sequence, the two vibration motors are symmetrically arranged on the outer wall of the screening box, the four material storage bags are sequentially arranged on the outer wall of the screening box, the four material storage bags are respectively communicated with the first accommodating cavity, the second accommodating cavity, the third accommodating cavity and the fourth accommodating cavity, the plurality of fans are arranged on the outer wall of the screening box in two rows, and a plurality of fan holds chamber, third with the first chamber that holds, the second holds chamber and the fourth chamber that holds respectively and corresponds, the groove that opens and shuts sets up on the lateral wall that the screening case is close to a plurality of fan, the opening and shutting board can slidable mounting at the inslot that opens and shuts, the guide rail is installed on the bottom lateral wall of screening case to the guide rail is corresponding with the bottom in groove that opens and shuts, electric putter is the level and sets up the top at the screening case, the both ends of connecting plate respectively with electric putter's output and opening and shutting board fixed connection.

Furthermore, the side wall of the crushing box, which is close to the containing box, is provided with an opening and closing door, and the opening and closing door is hinged with the crushing box.

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

firstly, the raw material of the refractory ore is manually fed into the feeding hole, then the crushing component works to crush the raw material of the refractory ore, the crushed raw material of the refractory ore falls into the filter plate, the plurality of filter holes on the filter plate filter the crushed raw material of the refractory ore, the crushed raw material of the refractory ore with the volume meeting the requirement falls into the containing box to be contained, the crushed raw material of the refractory ore with the volume not meeting the requirement is accumulated on the filter plate, then the scraping component works to scrape the raw material of the refractory ore with the volume not meeting the requirement after the crushing on the filter plate, the raw material of the refractory ore is conveniently manually fed into the feeding hole for secondary crushing, when the raw material of the refractory ore contained in the containing box reaches a certain quantity, the raw material of the refractory ore contained in the containing box is manually fed into the grinding box, and then the grinding component works to grind the raw, defeated material subassembly work will grind the incasement and grind to powdered fire-resistant ore raw materials and carry to the screening incasement afterwards, and screening subassembly work is screened classification to powdered fire-resistant ore raw materials according to the particle size at last, has reached and has carried out the purpose of classifying according to the particle size to powdered fire-resistant ore raw materials, can not influence later stage fire-resistant powder's use.

Secondly, the driving gear fixedly connected with the output shaft of the crushing motor is driven to rotate through the work of the crushing motor, and the driving gear is meshed with one driven gear, so that the driving gear drives one driven gear to synchronously rotate, the driven gear drives the other driven gear to reversely rotate, the two crushing rollers reversely rotate along with the driven gear, and the refractory ore raw material fed into the feeding hole is crushed by the crushing blades on the two crushing rollers, so that the aim of crushing the refractory ore raw material is fulfilled.

Thirdly, the second belt wheel fixedly connected with the output shaft of the scraping motor is driven to rotate through the work of the scraping motor, and the belt is sleeved outside the first belt wheel and the second belt wheel, so that the second belt wheel drives the first belt wheel and the belt to synchronously rotate, the belt drives the moving block to move, the moving block drives the scraper to synchronously move in the crushing box by utilizing the connecting rod, the scraper moves to scrape the refractory ore raw material which is accumulated on the filter plate and has a volume which does not meet the requirement after being crushed, the refractory ore raw material is conveniently crushed after being secondarily thrown into the feed inlet by a worker, and meanwhile, the blockage of a plurality of filter holes in the filter plate is also prevented.

Fourthly, the scraper moves to enable the crushed refractory ore raw materials which are accumulated on the filter plate and have the volume which does not meet the requirement to fall into the storage box through the discharge chute and the inclined plate to be collected, and when the crushed refractory ore raw materials which have the volume which does not meet the requirement and are collected in the storage box reach a certain quantity, the crushed refractory ore raw materials are manually fed into the feed port for the second time.

Fifthly, the fire-resistant ore raw materials contained in the containing box are manually fed into the feeding hopper, the fire-resistant ore raw materials fall into the square-shaped grinding channel through the connecting pipe, then the hydraulic push rods in the two grinding pieces synchronously work to drive the push plate to move back and forth in the square-shaped grinding channel, a plurality of grinding teeth on the push plate in the two grinding pieces move back and forth to extrude and grind the fire-resistant ore raw materials until the fire-resistant ore raw materials are ground into powder, the powdered fire-resistant ore raw materials fall into the connecting channel through the two filter screens, finally fall into the transfer box through the connecting channel for collection, and meanwhile the two filter screens can block the non-powdered fire-resistant ore raw materials.

Sixth, when the screening box is subjected to vibration screening, the screening box is supported and damped through the supporting springs, so that the situation that the bottom plate is driven to vibrate along with the screening box when the screening box vibrates is avoided, and displacement of the screening box is avoided.

Seventhly, the powdery refractory ore raw materials collected in the transfer box are sucked by the suction fan to flow into the screening box through the first conveying pipe and the second conveying pipe, so that screening and classification of the powdery refractory ore raw materials according to particle sizes are facilitated by a screening component.

Eighthly, the vibrating box is driven to vibrate by the operation of two vibrating motors, the apertures of the first screening plate, the second screening plate and the third screening plate are sequentially reduced, the large particles of the powdery refractory ore raw material are blocked in the first accommodating cavity by the first screening plate, the large particles of the powdery refractory ore raw material are blocked in the second accommodating cavity by the second screening plate, the small particles of the powdery refractory ore raw material are blocked in the third accommodating cavity by the third screening plate, the small particles of the powdery refractory ore raw material fall into the fourth accommodating cavity through the third screening plate, then the electric push rod operates to drive the connecting plate to move, the connecting plate drives the split plate to move out of the opening and closing groove on the guide rail, and finally a plurality of fans operate to blow different particle sizes in the first accommodating cavity, the second accommodating cavity, the third accommodating cavity and the fourth accommodating cavity into corresponding material storage bags for storage, the purpose of classifying the powdery refractory ore raw materials according to the particle sizes is achieved, and the use of later-stage refractory powder is not influenced.

Drawings

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

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

FIG. 3 is a partial perspective view of the first embodiment of the present invention;

FIG. 4 is a partial cross-sectional view of the first embodiment of the present invention;

FIG. 5 is a partial sectional view of the second embodiment of the present invention;

FIG. 6 is a partial cross-sectional view of the third embodiment of the present invention;

FIG. 7 is a schematic perspective view of a screening assembly of the present invention;

FIG. 8 is a partial cross-sectional view of a screen assembly of the present invention;

figure 9 is a schematic partial perspective view of a screening assembly of the present invention.

The reference numbers in the figures are: 1-a crushing box; 101-a feed inlet; 102-a through slot; 103-L-shaped bearing plate; 104-a discharge chute; 105-a storage box; 106-sloping plate; 107-opening and closing the door; 2-a crushing assembly; 201-a crushing motor; 202-a drive gear; 203-a crushing roller; 204-driven gear; 205-crushing blade; 3-a filter plate; 301-filtration pores; 4-a scraping component; 401-a first pulley; 402-a second pulley; 403-a belt; 404-a scraper; 405-moving block; 406-a connecting rod; 407-scraping motor; 408-a fixed plate; 5-containing boxes; 6-grinding box; 7-a grinding assembly; 701-a feed hopper; 702-a connecting tube; 703-clip grinding channel; 704-a connection channel; 705-transit box; 706-a grinding member; 7061-hydraulic push rod; 7062-push plate; 7063-grinding teeth; 707-a filter screen; 8-screening box; 801-a first receiving chamber; 802-a second receiving cavity; 803-a third receiving chamber; 804-a fourth receiving cavity; 9-a support assembly; 901-a backplane; 902-a support plate; 903-spring support; 9031-a first supporting seat; 9032-second support seat; 9033-support spring; 9034-mounting posts; 10-a screening component; 1001-first screening plate; 1002-a second screening plate; 1003-third screening plate; 1004-a guide rail; 1005-opening and closing groove; 1006-open plate; 1007-a connecting plate; 1008-electric push rod; 1009-vibration motor; 1010-storage bag; 1011-fan; 11-a feeding assembly; 1101-a material suction fan; 1102-a first delivery pipe; 1103-second delivery pipe.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 9, the invention provides a refractory pulverizing apparatus, which comprises a crushing box 1, a crushing assembly 2, a filter plate 3, a scraping assembly 4, a holding box 5, a grinding box 6, a grinding assembly 7, a screening box 8, a supporting assembly 9, a screening assembly 10 and a material conveying assembly 11, wherein the crushing box 1 and the grinding box 6 are sequentially arranged on the ground, the supporting assembly 9 is arranged at the side of the grinding box 6, the screening box 8 is arranged on the supporting assembly 9, the top end of the crushing box 1 is provided with a material inlet 101, the crushing assembly 2 is arranged in the crushing box 1, the filter plate 3 is fixedly connected with the inner wall of the crushing box 1, the filter plate 3 is positioned below the crushing assembly 2, the filter plate 3 is provided with a plurality of filter holes 301, the scraping assembly 4 is arranged in the crushing box 1, and the bottom end of the scraping assembly 4 is abutted against the top of the filter plate 3, the containing box 5 is arranged at the bottom end inside the crushing box 1, the grinding assembly 7 is arranged in the grinding box 6, the screening assembly 10 is arranged in the screening box 8, the material conveying assembly 11 is arranged between the grinding box 6 and the screening box 8, the refractory ore raw material is manually fed into the feeding port 101, then the crushing assembly 2 works to crush the refractory ore raw material, the crushed refractory ore raw material falls into the filter plate 3, the crushed refractory ore raw material is filtered by the plurality of filter holes 301 on the filter plate 3, the refractory ore raw material with the volume meeting the requirement after crushing falls into the containing box 5 to be contained, the refractory ore raw material with the volume not meeting the requirement after crushing is accumulated on the filter plate 3, then the scraping assembly 4 works to scrape the refractory ore raw material with the volume not meeting the requirement after crushing accumulated on the filter plate 3, and the secondary feeding of the refractory ore raw material into the feeding port 101 is convenient for manual crushing, after the refractory ore raw materials that hold in holding box 5 to a certain amount, the manual work will hold the refractory ore raw materials that hold in the box 5 and drop into to grinding the incasement 6, then 7 work of grinding component grind refractory ore raw materials to powdered, 11 work of defeated material subassembly will grind to powdered refractory ore raw materials in the case 6 and carry to screening case 8 afterwards, 10 work of last screening component screens classification according to the granule size to powdered refractory ore raw materials, reached and carried out categorised purpose to powdered refractory ore raw materials according to the granule size, can not influence later stage refractory powder's use.

The crushing assembly 2 comprises a crushing motor 201, a driving gear 202, two crushing rollers 203 and two driven gears 204, wherein the two crushing rollers 203 can be rotatably installed in a crushing box 1, one ends of the two crushing rollers 203 extend to the outside of the crushing box 1, the two driven gears 204 are respectively fixedly connected with one ends of the two crushing rollers 203 extending to the outside of the crushing box 1, the two driven gears 204 are mutually meshed, the crushing motor 201 is horizontally arranged on the outer wall of the crushing box 1, the driving gear 202 is fixedly connected with an output shaft of the crushing motor 201, the driving gear 202 is meshed with one driven gear 204, the two crushing rollers 203 are respectively provided with a plurality of crushing blades 205, the driving gear 202 fixedly connected with the output shaft is driven to rotate by the operation of the crushing motor 201, and the driving gear 202 is meshed with one driven gear 204, therefore, the driving gear 202 drives one driven gear 204 to synchronously rotate, the driven gear 204 drives the other driven gear 204 to reversely rotate, the two crushing rollers 203 reversely rotate along with the driven gear, and the refractory ore raw material fed into the feeding hole 101 is crushed by the plurality of crushing blades 205 on the two crushing rollers 203, so that the purpose of crushing the refractory ore raw material is achieved.

The scraping component 4 comprises a first belt pulley 401, a second belt pulley 402, a belt 403, a scraping plate 404, a moving block 405, a connecting rod 406, a scraping motor 407 and two fixing plates 408, wherein the two fixing plates 408 are symmetrically arranged on the outer wall of the crushing box 1, the scraping plate 404 can be slidably arranged in the crushing box 1, the bottom of the scraping plate 404 is abutted against the top of the filter plate 3, the first belt pulley 401 and the second belt pulley 402 can be rotatably arranged on the two fixing plates 408 respectively, the belt 403 is sleeved outside the first belt pulley 401 and the second belt pulley 402, the scraping motor 407 is horizontally arranged on one of the fixing plates 408, an output shaft of the scraping motor 407 extends to be fixedly connected with the second belt pulley 402, the moving block 405 is fixedly connected with the belt 403, two ends of the connecting rod 406 are fixedly connected with the scraping plate 404 and the moving block 405 respectively, the broken case 1 is last to be equipped with logical groove 102 that supplies connecting rod 406 to pass, it rotates rather than output shaft fixed connection's second belt pulley 402 to drive through scraping material motor 407 work, because belt 403 cover is established in the outside of first belt pulley 401 and second belt pulley 402, so second belt pulley 402 drives first belt pulley 401 and belt 403 synchronous rotation, belt 403 drives movable block 405 and moves, movable block 405 utilizes connecting rod 406 to drive scraper blade 404 synchronous motion in broken case 1, scraper blade 404 removes to strike off the refractory ore raw materials that the volume does not meet the requirements after will piling up the broken on filter 3, make things convenient for the manual work to drop it into feed inlet 101 after broken, also prevent the jam of a plurality of filtration pore 301 on filter 3 simultaneously.

Be equipped with two L type loading boards 103 on the bottom outer wall of broken case 1, the one end that broken case 1 is close to filter 3 is equipped with blown down tank 104, the below of blown down tank 104 is equipped with stores box 105, store box 105 and install the bottom at broken case 1 through two L type loading boards 103, be equipped with swash plate 106 between the top of storing box 105 and blown down tank 104, scraper blade 404 removes to drop to storing box 105 through blown down tank 104 and swash plate 106 with the refractory ore raw materials that pile up on filter 3 broken back volume unsatisfied requirement and collects, when the refractory ore raw materials that the broken back volume that collects in storing box 105 is unsatisfied the requirement to a certain quantity, the manual work drops into the feed inlet 101 with its secondary.

The grinding component 7 comprises a feed hopper 701, a connecting pipe 702, a reverse grinding channel 703, a connecting channel 704, a transfer box 705, two grinding members 706 and two filter screens 707, the reverse grinding channel 703 is installed in the grinding box 6, the feed hopper 701 is arranged above the grinding box 6, the feed hopper 701 is communicated with the reverse grinding channel 703 through the connecting pipe 702, the two grinding members 706 are symmetrically arranged in the reverse grinding channel 703, the two filter screens 707 are symmetrically arranged at the center of the bottom end of the reverse grinding channel 703, the transfer box 705 is arranged at the bottom end of the grinding box 6, two ends of the connecting channel 704 are respectively communicated with the transfer box 705 and the two filter screens 707, each grinding member 706 comprises a hydraulic push rod 7061, a push plate 7062 and a plurality of grinding teeth 7063, the hydraulic push rod 7061 is horizontally arranged on the inner wall of the grinding box 6, the output end of the hydraulic push rod 7061 extends into the reverse-type grinding channel 703, the push plate 7062 can be slidably mounted in the reverse-type grinding channel 703, the push plate 7062 is fixedly connected with the output end of the hydraulic push rod 7061, a plurality of grinding teeth 7063 are arranged on the side wall of the push plate 7062 at equal intervals, the refractory ore raw material contained in the containing box 5 is manually fed into the feed hopper 701, the refractory ore raw material falls into the reverse-type grinding channel 703 through the connecting pipe 702, then the hydraulic push rods 7061 in the two grinding pieces 706 synchronously work to drive the push plate 7062 to move back and forth in the reverse-type grinding channel 703, the plurality of grinding teeth 7063 on the push plate 7062 in the two grinding pieces 706 move back and forth to extrude and grind the refractory ore raw material until the refractory ore raw material is ground into powder, the powdered refractory ore raw material falls into the connecting channel 704 through the two filter screens 707, finally falls into the transfer box 705 through the connecting channel 704 for collection, and the two filter screens 707 can block the non-powdered refractory ore material.

The supporting assembly 9 comprises a bottom plate 901, a supporting plate 902 and four spring supporting pieces 903, the bottom plate 901 is arranged on the ground, the supporting plate 902 is fixedly connected with the bottom plate 901 through the four spring supporting pieces 903, each spring supporting piece 903 comprises a first supporting seat 9031, a second supporting seat 9032, a supporting spring 9033 and a mounting column 9034, the first supporting seat 9031 is fixedly connected with the top of the bottom plate 901, the second supporting seat 9032 is fixedly connected with the bottom of the supporting plate 902, the mounting column 9034 is arranged in the first supporting seat 9031, the supporting spring 9033 is sleeved on the mounting column 9034, two ends of the supporting spring 9033 are fixedly connected with the first supporting seat 9031 and the second supporting seat 9032 respectively, when the screening box 8 is screened in a vibration mode, the screening box 8 is supported and damped through the supporting spring 9033, and the bottom plate 901 is prevented from being driven to vibrate when the screening box 8 vibrates therewith, avoiding causing displacements of the screening box 8.

Defeated material subassembly 11 is including inhaling material fan 1101, first conveying pipeline 1102 and second conveying pipeline 1103, it is the side that the level setting is at grinding box 6 to inhale material fan 1101, the both ends of first conveying pipeline 1102 are linked together with the input and the transfer box 705 of inhaling material fan 1101 respectively, the both ends of second conveying pipeline 1103 are linked together with the output and the screening box 8 of inhaling material fan 1101 respectively, and the powdered refractory ore raw materials of collection flows to screening box 8 through first conveying pipeline 1102 and second conveying pipeline 1103 in inhaling material fan 1101 work and absorbing transfer box 705, makes things convenient for screening subassembly 10 work to screen categorised according to the granule size powdered refractory ore raw materials.

The screening assembly 10 comprises a first screening plate 1001, a second screening plate 1002, a third screening plate 1003, a guide rail 1004, an opening and closing groove 1005, an opening and closing plate 1006, a connecting plate 1007, an electric push rod 1008, two vibration motors 1009, four material storage bags 1010 and a plurality of fans 1011, wherein the first screening plate 1001, the second screening plate 1002 and the third screening plate 1003 are arranged in a screening box 8 at equal intervals, the internal space of the screening box 8 is sequentially divided into a first accommodating cavity 801, a second accommodating cavity 802, a third accommodating cavity 803 and a fourth accommodating cavity 804 from top to bottom by the first screening plate 1001, the second screening plate 1002 and the third screening plate 1003, the two vibration motors 1009 are symmetrically arranged on the outer wall of the screening box 8, the four material storage bags 1010 are sequentially arranged on the outer wall of the screening box 8, and the four material storage bags 1010 are respectively communicated with the first accommodating cavity 801, the second accommodating cavity 802, the third accommodating cavity 804 and the fourth accommodating cavity 803, the fans 1011 are arranged on the outer wall of the screening box 8 in two rows, the fans 1011 are respectively corresponding to the first accommodating cavity 801, the second accommodating cavity 802, the third accommodating cavity 803 and the fourth accommodating cavity 804, the opening and closing groove 1005 is arranged on the side wall of the screening box 8 close to the fans 1011, the opening and closing plate 1006 can be slidably arranged in the opening and closing groove 1005, the guide rail 1004 is arranged on the side wall of the bottom end of the screening box 8 and corresponds to the bottom end of the opening and closing groove 1005, the electric push rod 1008 is horizontally arranged at the top of the screening box 8, two ends of the connecting plate 1007 are respectively fixedly connected with the output end of the electric push rod 1008 and the opening and closing plate 1006, the vibrating box is driven to vibrate by the operation of the two vibrating motors 1009, the apertures of the first screening plate 1001, the second screening plate 1002 and the third screening plate 1003 are gradually reduced, the powdery refractory ore raw material particles are greatly blocked in the first accommodating cavity 801 by the first screening plate 1001, the great quilt of powdered refractory ore raw materials granule blocks in chamber 802 is held to the second by second screening board 1002, the less quilt of powdered refractory ore raw materials granule blocks in chamber 803 is held to the third by third screening board 1003, the very little third screening board 1003 that falls to the fourth of powdered refractory ore raw materials granule holds in chamber 804, electric putter 1008 work drives connecting plate 1007 and removes afterwards, connecting plate 1007 drives division board 1006 and removes out opening and shutting groove 1005 on guide rail 1004, a plurality of fan 1011 work at last will be first hold chamber 801, the second holds chamber 802, the third holds chamber 803 and the fourth holds different granule sizes in the chamber 804 and blow to corresponding material storage bag 1010 in storage, reached and carried out categorised mesh to powdered refractory ore raw materials according to the granule size, can not influence later stage refractory powder's use.

Broken case 1 is equipped with the door 107 that opens and shuts on being close to the lateral wall that holds box 5, the door 107 that opens and shuts is articulated with broken case 1, opens the door 107 through the manual work and takes and hold box 5, and the convenient refractory ore raw materials that will hold in the box 5 drops into to feeder hopper 701 in.

The working principle of the invention is as follows: when the device is used, refractory ore raw materials are manually put into the feeding hole 101, then the crushing motor 201 works to drive the driving gear 202 fixedly connected with an output shaft of the driving gear to rotate, the driving gear 202 is meshed with one driven gear 204, so that the driving gear 202 drives one driven gear 204 to synchronously rotate, the driven gear 204 drives the other driven gear 204 to reversely rotate, the two crushing rollers 203 reversely rotate along with the driving gear, the refractory ore raw materials put into the feeding hole 101 are crushed by the crushing blades 205 on the two crushing rollers 203, the purpose of crushing the refractory ore raw materials is achieved, the crushed refractory ore raw materials fall onto the filter plate 3, the crushed refractory ore raw materials are filtered by the filtering holes 301 on the filter plate 3, and the refractory ore raw materials with the required volume fall into the containing box 5 to be contained, the raw material of the fire-resistant ore with the volume not meeting the requirement after being crushed is stacked on the filter plate 3, then the scraping motor 407 works to drive the second belt pulley 402 fixedly connected with the output shaft thereof to rotate, because the belt 403 is sleeved outside the first belt pulley 401 and the second belt pulley 402, the second belt pulley 402 drives the first belt pulley 401 and the belt 403 to synchronously rotate, the belt 403 drives the moving block 405 to move, the moving block 405 drives the scraper 404 to synchronously move in the crushing box 1 by utilizing the connecting rod 406, the scraper 404 moves to scrape the raw material of the fire-resistant ore with the volume not meeting the requirement after being crushed stacked on the filter plate 3, the raw material of the fire-resistant ore with the volume not meeting the requirement after being crushed is conveniently and secondarily dropped into the feed port 101, and simultaneously the blockage of a plurality of filter holes 301 on the filter plate 3 is prevented, when the raw material of the fire-resistant ore placed in the containing box 5 reaches, refractory ore raw materials fall into a clip-shaped grinding channel 703 through a connecting pipe 702, then hydraulic push rods 7061 in two grinding pieces 706 work synchronously to drive a push plate 7062 to move back and forth in the clip-shaped grinding channel 703, a plurality of grinding teeth 7063 on the push plate 7062 in the two grinding pieces 706 move back and forth to extrude and grind the refractory ore raw materials until the refractory ore raw materials are ground into powder, the powdered refractory ore raw materials which are ground into powder fall into the connecting channel 704 through two filter screens 707, fall into a transfer box 705 through the connecting channel 704 to be collected, meanwhile, the two filter screens 707 can block the refractory ore raw materials which are not powdered, then the powdered refractory ore raw materials collected in the transfer box 705 are sucked by a material sucking fan 1101 to flow into a screening box 1009 through a first material conveying pipe 1102 and a second material conveying pipe 1103, and finally two vibrating motors work to drive a vibrating box to vibrate, the aperture on the first screening plate 1001, the second screening plate 1002 and the third screening plate 1003 is decreased progressively in sequence, the powder-like refractory ore raw material particles are blocked in the first accommodating cavity 801 by the first screening plate 1001, the powder-like refractory ore raw material particles are blocked in the second accommodating cavity 802 by the second screening plate 1002, the powder-like refractory ore raw material particles are blocked in the third accommodating cavity 803 by the third screening plate 1003, the powder-like refractory ore raw material particles are fallen into the fourth accommodating cavity 804 by the third screening plate 1003, then the electric push rod 1008 works to drive the connecting plate 1007 to move, the connecting plate 1007 drives the opening-closing plate 1006 to move out of the opening-closing groove 1005 on the guide rail 1004, and finally a plurality of fans 1011 work to blow the first accommodating cavity 801, the second accommodating cavity 802, the third accommodating cavity 803 and the fourth accommodating cavity 804 with different particle sizes into the corresponding material storage bags 1010 for storage, the purpose of classifying the powdery refractory ore raw materials according to the particle sizes is achieved, and the use of later-stage refractory powder is not influenced.

Claims (9)

1. The utility model provides a refractory material powder process equipment which characterized in that: comprises a crushing box (1), a crushing component (2), a filter plate (3), a scraping component (4), a containing box (5), a grinding box (6), a grinding component (7), a screening box (8), a supporting component (9), a screening component (10) and a material conveying component (11), wherein the crushing box (1) and the grinding box (6) are sequentially arranged on the ground, the supporting component (9) is arranged at the side of the grinding box (6), the screening box (8) is arranged on the supporting component (9), the top end of the crushing box (1) is provided with a feed inlet (101), the crushing component (2) is arranged in the crushing box (1), the filter plate (3) is fixedly connected with the inner wall of the crushing box (1), the filter plate (3) is positioned below the crushing component (2), the filter plate (3) is provided with a plurality of filter holes (301), and the scraping component (4) is arranged in the crushing box (1), and the bottom of scraping subassembly (4) with the top of filter (3) is contradicted, hold box (5) and set up the inside bottom at broken case (1), grinding assembly (7) set up in grinding case (6), screening subassembly (10) set up in screening case (8), defeated material subassembly (11) set up between grinding case (6) and screening case (8).

2. The refractory mill apparatus of claim 1, wherein: the crushing assembly (2) comprises a crushing motor (201), a driving gear (202), two crushing rollers (203) and two driven gears (204), wherein the two crushing rollers (203) can be rotatably arranged in the crushing box (1), one end of each of the two crushing rollers (203) extends to the outside of the crushing box (1), the two driven gears (204) are fixedly connected with one ends of the two crushing rollers (203) extending to the outside of the crushing box (1) respectively, and the two driven gears (204) are meshed with each other, the crushing motor (201) is horizontally arranged on the outer wall of the crushing box (1), the driving gear (202) is fixedly connected with an output shaft of the crushing motor (201), and the driving gear (202) is meshed with one driven gear (204), and a plurality of crushing blades (205) are arranged on the two crushing rollers (203).

3. The refractory mill apparatus of claim 1, wherein: the scraping component (4) comprises a first belt pulley (401), a second belt pulley (402), a belt (403), a scraping plate (404), a moving block (405), a connecting rod (406), a scraping motor (407) and two fixing plates (408), wherein the two fixing plates (408) are symmetrically arranged on the outer wall of the crushing box (1), the scraping plate (404) can be slidably arranged in the crushing box (1), the bottom of the scraping plate (404) is abutted to the top of the filter plate (3), the first belt pulley (401) and the second belt pulley (402) can be respectively rotatably arranged on the two fixing plates (408), the belt (403) is sleeved outside the first belt pulley (401) and the second belt pulley (402), the scraping motor (407) is horizontally arranged on one of the fixing plates (408), and an output shaft of the scraping motor (407) extends to be fixedly connected with the second belt pulley (402), the movable block (405) is fixedly connected with the belt (403), two ends of the connecting rod (406) are respectively fixedly connected with the scraper (404) and the movable block (405), and a through groove (102) for the connecting rod (406) to pass through is formed in the crushing box (1).

4. The refractory mill apparatus of claim 1, wherein: be equipped with two L type loading boards (103) on the bottom outer wall of broken case (1), the one end that broken case (1) is close to filter (3) is equipped with blown down tank (104), the below of blown down tank (104) is equipped with stores box (105), store box (105) and install the bottom at broken case (1) through two L type loading boards (103), be equipped with swash plate (106) between the top of storing box (105) and blown down tank (104).

5. The refractory mill apparatus of claim 1, wherein: the grinding component (7) comprises a feed hopper (701), a connecting pipe (702), a reverse grinding channel (703), a connecting channel (704), a transfer box (705), two grinding pieces (706) and two filter screens (707), the reverse grinding channel (703) is installed in the grinding box (6), the feed hopper (701) is arranged above the grinding box (6), the feed hopper (701) is communicated with the reverse grinding channel (703) through the connecting pipe (702), the two grinding pieces (706) are symmetrically arranged in the reverse grinding channel (703), the two filter screens (707) are symmetrically arranged at the center of the bottom end of the reverse grinding channel (703), the transfer box (705) is arranged at the inner bottom end of the grinding box (6), and two ends of the connecting channel (704) are respectively communicated with the transfer box (705) and the two filter screens (707), each grinding piece (706) comprises a hydraulic push rod (7061), a push plate (7062) and a plurality of grinding teeth (7063), the hydraulic push rod (7061) is horizontally arranged on the inner wall of the grinding box (6), the output end of the hydraulic push rod (7061) extends into the back grinding channel (703), the push plate (7062) can be slidably arranged in the back grinding channel (703), the push plate (7062) is fixedly connected with the output end of the hydraulic push rod (7061), and the grinding teeth (7063) are arranged on the side wall of the push plate (7062) at equal intervals.

6. The refractory mill apparatus of claim 1, wherein: the supporting assembly (9) comprises a bottom plate (901), a supporting plate (902) and four spring supporting pieces (903), wherein the bottom plate (901) is arranged on the ground, the supporting plate (902) is fixedly connected with the bottom plate (901) through the four spring supporting pieces (903), each spring supporting piece (903) comprises a first supporting seat (9031), a second supporting seat (9032), a supporting spring (9033) and a mounting column (9034), the first supporting seat (9031) is fixedly connected with the top of the bottom plate (901), the second supporting seat (9032) is fixedly connected with the bottom of the supporting plate (902), the mounting column (9034) is arranged in the first supporting seat (9031), the supporting spring (9033) is sleeved on the mounting column (9034), and the two ends of the supporting spring (9033) are fixedly connected with the first supporting seat (9031) and the second supporting seat (9032) respectively.

7. A refractory mill apparatus as claimed in claim 5, wherein: defeated material subassembly (11) are including inhaling material fan (1101), first conveying pipeline (1102) and second conveying pipeline (1103), inhale material fan (1101) and be the level setting at the side of grinding case (6), the both ends of first conveying pipeline (1102) are linked together with the input and the transfer box (705) of inhaling material fan (1101) respectively, the both ends of second conveying pipeline (1103) are linked together with the output and the screening case (8) of inhaling material fan (1101) respectively.

8. The refractory mill apparatus of claim 1, wherein: the screening assembly (10) comprises a first screening plate (1001), a second screening plate (1002), a third screening plate (1003), a guide rail (1004), an opening and closing groove (1005), an opening and closing plate (1006), a connecting plate (1007), an electric push rod (1008), two vibration motors (1009), four material storage bags (1010) and a plurality of fans (1011), wherein the first screening plate (1001), the second screening plate (1002) and the third screening plate (1003) are arranged in a screening box (8) at equal intervals, the first screening plate (1001), the second screening plate (1002) and the third screening plate (1003) divide the inner space of the screening box (8) into a first accommodating cavity (801), a second accommodating cavity (802), a third accommodating cavity (803) and a fourth accommodating cavity (804) from top to bottom in sequence, the two vibration motors (1009) are symmetrically arranged on the outer wall of the screening box (8), and the four material storage bags (1010) are sequentially arranged on the outer wall of the screening box (8), and four deposit pocket (1010) respectively with first hold chamber (801), second hold chamber (802), third hold chamber (803) and fourth hold chamber (804) and be linked together, a plurality of fan (1011) are two rows and set up on the outer wall of screening case (8), and a plurality of fan (1011) respectively with first hold chamber (801), second hold chamber (802), third hold chamber (803) and fourth hold chamber (804) and correspond, open and shut groove (1005) set up on screening case (8) are close to the lateral wall of a plurality of fan (1011), open and shut board (1006) can slidable mounting in open and shut groove (1006), guide rail (1004) are installed on the bottom end lateral wall of screening case (8), and guide rail (1004) correspond with the bottom end of open and shut groove (1005), electric putter (1008) are the horizontal setting at the top of screening case (8), the both ends of connecting plate (1007) respectively with electric putter's (1008) output and open and shut board (1008) fixed, open and shut board (1006) are linked together And (4) connecting.

9. The refractory mill apparatus of claim 1, wherein: the crushing box (1) is provided with an opening and closing door (107) on the side wall close to the containing box (5), and the opening and closing door (107) is hinged to the crushing box (1).

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