CN107138233A

CN107138233A - A kind of boron carbide raw materials for metallurgy graphite screening plant

Info

Publication number: CN107138233A
Application number: CN201710379901.XA
Authority: CN
Inventors: 雷海涛
Original assignee: Individual
Current assignee: Individual
Priority date: 2017-05-25
Filing date: 2017-05-25
Publication date: 2017-09-08

Abstract

The present invention relates to a kind of screening plant, more particularly to a kind of boron carbide raw materials for metallurgy graphite screening plant.The technical problem to be solved in the present invention is to provide a kind of time saving and energy saving, operating efficiency is high, repeatedly screening can be carried out on the impurity in graphite without influenceing the boron carbide raw materials for metallurgy graphite screening plant of product quality.In order to solve the above-mentioned technical problem, the invention provides such a boron carbide raw materials for metallurgy graphite screening plant, include bottom plate, collect frame, support plate, the first screening frame, the first cross bar, agitator tank etc.；The mode that bottom plate crown center is bolted is provided with collection frame, and bottom plate top passes on left bolted mode and is provided with support plate, and support plate right side central moves left and right and the first screening frame is connected with the moving parts of device provided with device is moved left and right.Invention achieves time saving and energy saving, operating efficiency is high, repeatedly screening can be carried out on the impurity in graphite without influenceing the effect of product quality.

Description

A kind of boron carbide raw materials for metallurgy graphite screening plant

Technical field

The present invention relates to a kind of screening plant, more particularly to a kind of boron carbide raw materials for metallurgy graphite screening plant.

Background technology

Smelting is a kind of refinement technique, refers to roasting, melting, electrolysis and uses the methods such as chemical agent in ore METAL EXTRACTION come out；Certain composition in the impurity or increase metal contained by metal is reduced, required metal is smelt.

The primary raw material of boron carbide it is essential can't do without graphite, and graphite is mainly Delanium, and then graphite exists It is time-consuming to take when before being smelted, being required for being removed the carborundum impurity in graphite, and manually graphite being screened Power, inefficiency, and can also contain carborundum impurity in the graphite filtered out, and then the quality of product is influenceed, therefore need badly A kind of time saving and energy saving, operating efficiency of research and development is high, and repeatedly screening can be carried out on the impurity in graphite without influenceing the carbon of product quality Change boron raw materials for metallurgy graphite screening plant.

The content of the invention

(1) technical problem to be solved

The present invention in order to overcome it is artificial graphite is screened when, waste time and energy, inefficiency, and the graphite filtered out It inside can also contain carborundum impurity, and then influence the shortcoming of the quality of product, the technical problem to be solved in the present invention is to provide one Plant the boron carbide smelting that time saving and energy saving, operating efficiency is high, can repeatedly be screened on the impurity progress in graphite without influence product quality Refine raw material graphite screening plant.

(2) technical scheme

In order to solve the above-mentioned technical problem, screened and filled with graphite the invention provides such a boron carbide raw materials for metallurgy Put, include bottom plate, collect frame, support plate, the first screening frame, the first cross bar, agitator tank, hopper, discharge nozzle, agitating device and Device is moved left and right, the mode that bottom plate crown center is bolted is provided with the top of collection frame, bottom plate and passes on left bolt The mode of connection is provided with support plate, and support plate right side central is moved left and right and connected on the moving parts of device provided with device is moved left and right The first screening frame is connected to, the first screening frame, which is located at, collects directly over frame, the first screening frame bottom is netted, support plate right flank top The mode being bolted is provided with the first cross bar, and the mode that the first cross bar right-hand member is bolted is provided with agitator tank, The mode that agitator tank top left side is bolted is provided with hopper, and hopper is set with being connected in agitator tank in agitator tank There is agitating device, agitator tank bottom right is connected with discharge nozzle, discharge nozzle in agitator tank with connecting, and discharge nozzle is located at the first screening Above frame.

Preferably, agitating device includes bearing block, rotating shaft, the first puddler, the second puddler and the first motor, stirring Embedded be provided with bearing block, bearing block is provided with rotating shaft in the middle of bottom portion, and rotating shaft is by way of interference is connected and axle The evenly spaced mode being bolted is provided with the first puddler, the first stirring in bearing connection in bearing, rotating shaft Bar is located in agitator tank, and left surface is provided with second with the evenly spaced mode being bolted of right flank and stirred in agitator tank Bar is mixed, the second puddler interlocks with the first puddler, and the mode being bolted in the middle of agitator tank outer bottom is provided with first Motor, the first motor is in being vertically arranged, and the first motor is located at immediately below bearing block, the output shaft of the first motor by shaft coupling with Rotating shaft bottom is connected.

Preferably, move left and right device and include the first slide rail, the first sliding block, the first spring, the second cross bar, the second electricity Machine, sector gear, rack and head rod, the mode that support plate right flank bottom is bolted are provided with the first slide rail, First slide rail is in being horizontally disposed with, and the first slide rail is provided with the first sliding block coordinated with it, and the first sliding block is slided with the first slide rail matches somebody with somebody Close, be connected with the first spring between left surface in the first sliding block left surface bottom and the first slide rail, the first slider top passes through spiral shell Tether the mode connect and rack is installed, the mode that rack right-hand member is bolted is provided with head rod, head rod The mode that right-hand member is bolted in the middle of inclined-plane on the left of the first screening outer frame with being connected, and support plate right flank top is connected by bolt The mode connect is provided with the second cross bar, and the mode that the second cross bar right-hand member is bolted is provided with the second motor, the second motor Output shaft sector gear is connected with by shaft coupling, sector gear is located above rack, the engagement of sector wheel and rack.

Preferably, postsearch screening device is also included, postsearch screening device includes the second slide rail, the second sliding block, second Spring, the second connecting rod, the second screening frame and first connecting rod, the mode that support plate right flank bottom is bolted are provided with Two slide rails, the second slide rail is located at below the first slide rail, and the second slide rail is in horizontally disposed, and the second slide rail is provided with the coordinated with it Two sliding blocks, the second sliding block is slidably matched with the second slide rail, connects in the second sliding block left surface bottom and the second slide rail between left surface Second spring is connected to, the mode that the second slider top is bolted is provided with the second connecting rod, and the second connecting rod right-hand member leads to Cross bolted mode and the second screening frame is installed, the second screening frame is located at immediately below the first screening frame, the second screening frame position In collecting directly over frame, the mode that the second screening frame right hand top is bolted is provided with first connecting rod, first connecting rod top The mode being bolted is held to be connected with the first screening frame external right side bottom.

Preferably, the 3rd slide rail, the 3rd sliding block and second connecting rod are also included, bottom plate crown center is bolted Mode is provided with the 3rd slide rail, and the 3rd slide rail is in being horizontally disposed with, and the 3rd slide rail is provided with the 3rd sliding block coordinated with it, and the 3rd slides The mode being bolted at the top of block is connected with collecting outer frame bottom, and the mode that collection frame right hand top is bolted is pacified Equipped with second connecting rod, the mode that second connecting rod top is bolted in the middle of the second screening frame external right side vamp with being connected.

Preferably, the material of bottom plate is Q235 steel.

Operation principle：Operating personnel start agitating device first, and the rotary part of agitating device is rotated in agitator tank, together When, startup move left and right device, move left and right device moving parts move left and right drive the first screening frame move left and right, this When, operating personnel can be poured into the graphite with carborundum in stirring by hopper, and then the mixing component of agitating device Graphite is stirred, because the strength ratio carborundum of graphite is low, and then graphite is broken and that carborundum is broken is seldom, also exists There is the carborundum that particle is larger, the graphite after crushing is fallen in the first screening frame with carborundum by discharge nozzle, and then first Screening frame is moved left and right screens to graphite, and graphite falls to collection inframe by the first screening frame, and carborundum is left on In first screening frame.After the completion of graphite screening, closing moves left and right device and agitating device, you can will collect the graphite of inframe Taking-up is smelted.In this way, being screened the boron carbide better quality that the graphite after impurity is smelted out.

Because agitating device includes bearing block, rotating shaft, the first puddler, the second puddler and the first motor, agitator tank Embedded be provided with bearing block, bearing block is provided with rotating shaft in the middle of bottom, and rotating shaft is by way of interference is connected and bearing The evenly spaced mode being bolted is provided with the first puddler, the first puddler in bearing connection in seat, rotating shaft In agitator tank, left surface is provided with the second stirring with the evenly spaced mode being bolted of right flank in agitator tank Bar, the second puddler interlocks with the first puddler, and the mode being bolted in the middle of agitator tank outer bottom is provided with the first electricity Machine, the first motor is in being vertically arranged, and the first motor is located at immediately below bearing block, and the output shaft of the first motor is by shaft coupling with turning Axle bottom is connected, and operating personnel start the first motor and rotated first, and the first motor, which is rotated, drives axis of rotation, and axis of rotation drives First puddler is rotated, and now, operating personnel can be poured into graphite in agitator tank by hopper, and then the first puddler turns It is dynamic that the carborundum in graphite and graphite is crushed with the cooperation of the second puddler, and the carborundum in graphite is because of strength ratio graphite What height was broken lacks, and the graphite after crushing falls to agitator tank bottom with carborundum and falls in the first screening frame by discharge nozzle Row screening.When without to being that graphite carries out broken, the first motor is closed.In this way, preliminary to the carbon in graphite and graphite SiClx is crushed, and can enable the first screening frame is good to be screened to graphite.

Because moving left and right device includes the first slide rail, the first sliding block, the first spring, the second cross bar, the second motor, fan Shape gear, rack and head rod, the mode that support plate right flank bottom is bolted are provided with the first slide rail, and first slides Rail is in being horizontally disposed with, and the first slide rail is provided with the first sliding block coordinated with it, and the first sliding block is slidably matched with the first slide rail, and first The first spring is connected between left surface in sliding block left surface bottom and the first slide rail, what the first slider top was bolted Mode is provided with rack, and the mode that rack right-hand member is bolted is provided with head rod, and head rod right-hand member passes through Bolted mode in the middle of inclined-plane on the left of the first screening outer frame with being connected, the mode that support plate right flank top is bolted Second cross bar is installed, the mode that the second cross bar right-hand member is bolted is provided with the second motor, the output shaft of the second motor Sector gear is connected with by shaft coupling, sector gear is located above rack, sector wheel and rack engagement, when the first puddler When starting to rotate, operating personnel start the second motor and rotated simultaneously, and the second motor, which is rotated, drives sector gear to rotate, because of the first bullet The effect of spring, sector gear rotational band carry-over bar is moved left and right, and the first slide rail play the guiding role with the first sliding block, and rack or so is moved It is dynamic to drive the first screening frame to move left and right by head rod, and then when graphite and carborundum fall to first by discharge nozzle When in screening frame, the first screening frame is moved left and right is screened to graphite, and then graphite by the first screening frame bottom by being fallen Collection inframe is dropped down onto, and carborundum is left in the first screening frame.After the completion of graphite screening, the second motor is closed.

Because also including postsearch screening device, postsearch screening device includes the second slide rail, the second sliding block, the second bullet Spring, the second connecting rod, the second screening frame and first connecting rod, the mode that support plate right flank bottom is bolted are provided with second Slide rail, the second slide rail is located at below the first slide rail, and the second slide rail is in being horizontally disposed with, and the second slide rail is provided with second coordinated with it Sliding block, the second sliding block is slidably matched with the second slide rail, is connected in the second sliding block left surface bottom and the second slide rail between left surface There is second spring, the mode that the second slider top is bolted is provided with the second connecting rod, and the second connecting rod right-hand member passes through Bolted mode is provided with the second screening frame, and the second screening frame is located at immediately below the first screening frame, and the second screening frame is located at Collect directly over frame, the mode that the second screening frame right hand top is bolted is provided with first connecting rod, first connecting rod top The mode being bolted is connected with the first screening frame external right side bottom, while the first screening frame is moved left and right, and first Screening frame drives the second screening frame to move left and right by first connecting rod, and the second screening frame moves left and right second connecting rod of drive or so Mobile, the second slide rail play the guiding role with the second sliding block, because of the effect of second spring, and make that the second screening frame moves left and right is more suitable Freely.When graphite is by the first screening frame bottom dropped out, graphite is fallen in the second screening frame, the second screening frame move left and right into One step is screened to graphite, and then the graphite after screening by the second screening frame falls to collection inframe.In this way, can make to mix Carborundum in graphite is less, and then it is better to smelt the boron carbide quality.

Because also including the 3rd slide rail, the 3rd sliding block and second connecting rod, the side that bottom plate crown center is bolted Formula is provided with the 3rd slide rail, and the 3rd slide rail is in being horizontally disposed with, and the 3rd slide rail is provided with the 3rd sliding block coordinated with it, the 3rd sliding block The mode that top is bolted is connected with collecting outer frame bottom, and the mode that collection frame right hand top is bolted is installed There is a second connecting rod, the mode that second connecting rod top is bolted in the middle of the second screening frame external right side vamp with being connected, when the Two screening frames are moved left and right while screened to graphite, and the second screening frame, which passes through second connecting rod and driven, collects frame or so and move Dynamic, the 3rd slide rail play the guiding role with the 3rd sliding block, and then when graphite is dropped by the second screening frame, can more accurately drop To collection inframe.In this way, graphite accurately falls to collection inframe, it can prevent graphite from falling out collection outer frame and causing to waste.

Because the material of bottom plate is Q235 steel, the weight capacity of Q235 steel is strong, acidproof corrosion-resistant, adds the use of bottom plate Life-span.

(3) beneficial effect

Invention achieves time saving and energy saving, operating efficiency is high, repeatedly screening can be carried out on the impurity in graphite without influenceing The effect of product quality.

Brief description of the drawings

Fig. 1 is the first main structure diagram of the invention.

Fig. 2 is second of main structure diagram of the invention.

Fig. 3 is the third main structure diagram of the invention.

Mark in accompanying drawing for：1- bottom plates, 2- collects frame, 3- support plates, the screening frames of 4- first, the cross bars of 5- first, 6- stirrings Case, 7- hoppers, 8- discharge nozzles, 9- agitating devices, 91- bearing blocks, 92- rotating shafts, the puddlers of 93- first, 94- second is stirred Bar, the motors of 95- first, 10- moves left and right device, the slide rails of 101- first, the sliding blocks of 102- first, the springs of 103- first, 104- Two cross bars, the motors of 105- second, 106- sector gears, 107- racks, 108- head rods, 11- postsearch screening devices, 111- Second slide rail, the sliding blocks of 112- second, 113- second springs, the connecting rods of 114- second, the screening frames of 115- second, 116- first connects Bar, the slide rails of 12- the 3rd, the sliding blocks of 13- the 3rd, 14- second connecting rods.

Embodiment

The present invention is further illustrated with reference to the accompanying drawings and examples.

Embodiment 1

A kind of boron carbide raw materials for metallurgy graphite screening plant, as Figure 1-3, includes bottom plate 1, collects frame 2, support plate 3rd, the first screening frame 4, the first cross bar 5, agitator tank 6, hopper 7, discharge nozzle 8, agitating device 9 and device 10, bottom are moved left and right The mode that the crown center of plate 1 is bolted is provided with collection frame 2, and the mode that the top left side of bottom plate 1 is bolted is pacified Equipped with support plate 3, the right side central of support plate 3 is connected with the provided with moving left and right device 10 on the moving parts for moving left and right device 10 One screening frame 4, the first screening frame 4, which is located at, collects directly over frame 2, and the bottom of the first screening frame 4 is netted, the right flank top of support plate 3 The mode being bolted is provided with the first cross bar 5, and the mode that the right-hand member of the first cross bar 5 is bolted is provided with agitator tank 6, the mode that the top left side of agitator tank 6 is bolted is provided with hopper 7, and hopper 7 is stirred with being connected in agitator tank 6 Agitating device 9 is provided with case 6, the bottom right of agitator tank 6 is connected with discharge nozzle 8, and discharge nozzle 8 in agitator tank 6 with connecting, discharge nozzle 8 are located at the top of the first screening frame 4.

Embodiment 2

Agitating device 9 includes bearing block 91, rotating shaft 92, the first puddler 93, the second puddler 94 and the first motor 95, Embedded be provided with bearing block 91, bearing block 91 is provided with rotating shaft 92 in the middle of the bottom of agitator tank 6, and rotating shaft 92 is connected by interference The mode connect is connected with the bearing in bearing block 91, and the evenly spaced mode being bolted is provided with first in rotating shaft 92 Puddler 93, the first puddler 93 is located in agitator tank 6, in agitator tank 6 left surface with right flank is evenly spaced passes through bolt The mode of connection is provided with the second puddler 94, and the second puddler 94 interlocks with the first puddler 93, in the middle of the outer bottom of agitator tank 6 The mode being bolted is provided with the first motor 95, and the first motor 95 is in being vertically arranged, and the first motor 95 is located at bearing block Immediately below 91, the output shaft of the first motor 95 is connected by shaft coupling with the bottom of rotating shaft 92.

Embodiment 3

Move left and right device 10 include the first slide rail 101, the first sliding block 102, the first spring 103, the second cross bar 104, Second motor 105, sector gear 106, rack 107 and head rod 108, the right flank bottom of support plate 3 are bolted Mode is provided with the first slide rail 101, and the first slide rail 101 is in being horizontally disposed with, and the first slide rail 101 is provided with first coordinated with it and slided Block 102, the first sliding block 102 is slidably matched with the first slide rail 101, the left surface bottom of the first sliding block 102 and a left side in the first slide rail 101 The first spring 103 is connected between side, the mode that the top of the first sliding block 102 is bolted is provided with rack 107, rack The mode that 107 right-hand members are bolted is provided with head rod 108, and the right-hand member of head rod 108 is bolted Mode in the middle of the outer left side inclined-plane of the first screening frame 4 with being connected, and the mode that the right flank top of support plate 3 is bolted is provided with the Two cross bars 104, the mode that the right-hand member of the second cross bar 104 is bolted is provided with the second motor 105, the second motor 105 it is defeated Shaft is connected with sector gear 106 by shaft coupling, and sector gear 106 is located at the top of rack 107, sector gear 106 and rack 107 engagements.

Embodiment 4

Also include postsearch screening device 11, postsearch screening device 11 includes the second slide rail 111, the second sliding block 112, Two springs 113, the second connecting rod 114, the second screening frame 115 and first connecting rod 116, the right flank bottom of support plate 3 are connected by bolt The mode connect is provided with the second slide rail 111, and the second slide rail 111 is located at the lower section of the first slide rail 101, and the second slide rail 111 is set in level Put, the second slide rail 111 is provided with the second sliding block 112 coordinated with it, the second sliding block 112 is slidably matched with the second slide rail 111, the Second spring 113, the top of the second sliding block 112 are connected with the left surface bottom of two sliding block 112 and the second slide rail 111 between left surface The mode being bolted is provided with the second connecting rod 114, and the mode that the right-hand member of the second connecting rod 114 is bolted is installed There is the second screening frame 115, the second screening frame 115 is located at immediately below the first screening frame 4, the second screening frame 115, which is located at, is collecting frame 2 just Top, the mode that the right hand top of the second screening frame 115 is bolted is provided with first connecting rod 116, the top of first connecting rod 116 The mode being bolted is connected with the external right side bottom of the first screening frame 4.

Also include the 3rd slide rail 12, the 3rd sliding block 13 and second connecting rod 14, the crown center of bottom plate 1 is bolted Mode is provided with the 3rd slide rail 12, and the 3rd slide rail 12 is in being horizontally disposed with, and the 3rd slide rail 12 is provided with the 3rd sliding block coordinated with it 13, the mode that the top of the 3rd sliding block 13 is bolted is connected with collecting the outer bottom of frame 2, is collected the right hand top of frame 2 and is passed through spiral shell Tether the mode connect and second connecting rod 14 is installed, the mode that the top of second connecting rod 14 is bolted and the second screening frame 115 Connected in the middle of external right side vamp.

The material of bottom plate 1 is Q235 steel.

Operation principle：Operating personnel start agitating device 9 first, and the rotary part of agitating device 9 turns in agitator tank 6 It is dynamic, meanwhile, startup moves left and right device 10, and the moving parts for moving left and right device 10 moves left and right the left side of the first screening frame of drive 4 Move right, now, operating personnel can be poured into the graphite with carborundum in stirring by hopper 7, and then agitating device 9 Mixing component graphite is stirred, because the strength ratio carborundum of graphite is low, so graphite it is broken and what carborundum was broken Seldom, the larger carborundum of particle is also there are, the graphite after crushing falls to the first screening frame with carborundum by discharge nozzle 8 In 4, and then the first screening frame 4 is moved left and right and graphite is screened, and graphite is fallen in collection frame 2 by the first screening frame 4, And carborundum is left in the first screening frame 4.After the completion of graphite screening, closing moves left and right device 10 and agitating device 9, i.e., The graphite collected in frame 2 can be taken out and be smelted.In this way, being screened boron carbide quality that the graphite after impurity smelts out more It is good.

Because agitating device 9 includes bearing block 91, rotating shaft 92, the first puddler 93, the second puddler 94 and the first electricity Embedded be provided with bearing block 91, bearing block 91 is provided with rotating shaft 92 in the middle of machine 95, the bottom of agitator tank 6, and rotating shaft 92 passes through The mode of interference connection is connected with the bearing in bearing block 91, and the evenly spaced mode being bolted is installed in rotating shaft 92 There is the first puddler 93, the first puddler 93 is located in agitator tank 6, left surface and right flank are evenly spaced logical in agitator tank 6 Cross bolted mode and the second puddler 94 is installed, the second puddler 94 interlocks with the first puddler 93, the outer bottom of agitator tank 6 The mode being bolted in the middle of portion is provided with the first motor 95, and the first motor 95 is in being vertically arranged, and the first motor 95 is located at Immediately below bearing block 91, the output shaft of the first motor 95 is connected by shaft coupling with the bottom of rotating shaft 92, and operating personnel start first First motor 95 is rotated, and the first motor 95, which is rotated, drives rotating shaft 92 to rotate, and rotating shaft 92, which is rotated, drives the first puddler 93 to rotate, this When, operating personnel can be poured into graphite in agitator tank 6 by hopper 7, and then the first puddler 93 is rotated and the second stirring Bar 94 coordinates to be crushed to the carborundum in graphite and graphite, and what the carborundum in graphite was broken by strength ratio graphite height It is few, it is broken after graphite and carborundum fall to the bottom of agitator tank 6 and fall to that the first screening frame 4 is interior to be screened by discharge nozzle 8. When without to being that graphite carries out broken, the first motor 95 is closed.In this way, tentatively entering to the carborundum in graphite and graphite Row is broken, can enable the first screening frame 4 is good to be screened to graphite.

Because moving left and right device 10 includes the first slide rail 101, the first sliding block 102, the first spring 103, the second cross bar 104th, the second motor 105, sector gear 106, rack 107 and head rod 108, the right flank bottom of support plate 3 are connected by bolt The mode connect is provided with the first slide rail 101, and the first slide rail 101 is in horizontally disposed, and the first slide rail 101 is provided with the coordinated with it One sliding block 102, the first sliding block 102 is slidably matched with the first slide rail 101, the left surface bottom of the first sliding block 102 and the first slide rail 101 The first spring 103 is connected between interior left surface, the mode that the top of the first sliding block 102 is bolted is provided with rack 107, The mode that the right-hand member of rack 107 is bolted is provided with head rod 108, and the right-hand member of head rod 108 is connected by bolt The mode connect in the middle of the outer left side inclined-plane of the first screening frame 4 with being connected, and the mode that the right flank top of support plate 3 is bolted is installed There is the second cross bar 104, the mode that the right-hand member of the second cross bar 104 is bolted is provided with the second motor 105, the second motor 105 Output shaft sector gear 106 is connected with by shaft coupling, sector gear 106 is located at the top of rack 107, sector gear 106 with Rack 107 is engaged, when the first puddler 93 starts to rotate, and operating personnel start the second motor 105 and rotated simultaneously, the second motor 105, which rotate drive sector gear 106, rotates, because of the effect of the first spring 103, the rotational band carry-over bar 107 or so of sector gear 106 Mobile, the first slide rail 101 is play the guiding role with the first sliding block 102, and rack 107 is moved left and right to be driven by head rod 108 First screening frame 4 is moved left and right, and then when graphite and carborundum are fallen to by discharge nozzle 8 in first screening frame 4, the first sieve Select frame 4 to move left and right to screen graphite, and then graphite by the bottom dropped out of the first screening frame 4 by extremely being collected in frame 2, and Carborundum is left in the first screening frame 4.After the completion of graphite screening, the second motor 105 is closed.

Because also including postsearch screening device 11, postsearch screening device 11 includes the second slide rail 111, the second sliding block 112nd, second spring 113, the second connecting rod 114, the second screening frame 115 and first connecting rod 116, the right flank bottom of support plate 3 passes through Bolted mode is provided with the second slide rail 111, and the second slide rail 111 is located at the lower section of the first slide rail 101, and the second slide rail 111 is in Horizontally disposed, the second slide rail 111 is provided with the second sliding block 112 coordinated with it, and the second sliding block 112 is slided with the second slide rail 111 Coordinate, second spring 113, the second sliding block are connected between left surface in the left surface bottom of the second sliding block 112 and the second slide rail 111 The mode that 112 tops are bolted is provided with the second connecting rod 114, and the right-hand member of the second connecting rod 114 is bolted Mode is provided with the second screening frame 115, and the second screening frame 115 is located at immediately below the first screening frame 4, and the second screening frame 115 is located at Collect directly over frame 2, the mode that the right hand top of the second screening frame 115 is bolted is provided with first connecting rod 116, first connects The mode that the top of bar 116 is bolted is connected with the external right side bottom of the first screening frame 4, when the first screening frame 4 is moved left and right While, the first screening frame 4 drives the second screening frame 115 to move left and right by first connecting rod 116, the second screening frame 115 or so Mobile to drive the second connecting rod 114 to move left and right, the second slide rail 111 play the guiding role with the second sliding block 112, because of second spring 113 effect, make that the second screening frame 115 moves left and right is more smooth.When graphite is by the first 4 bottom dropped out of screening frame, stone Ink is fallen in the second screening frame 115, and the second screening frame 115 is moved left and right further screens to graphite, and then is screened Graphite afterwards is fallen in collection frame 2 by the second screening frame 115.In this way, the carborundum being mixed in graphite can be made less, and then Smelt the boron carbide quality better.

Because also including the 3rd slide rail 12, the 3rd sliding block 13 and second connecting rod 14, the crown center of bottom plate 1 is connected by bolt The mode connect is provided with the 3rd slide rail 12, and the 3rd slide rail 12 is in being horizontally disposed with, and the 3rd slide rail 12 is provided with the 3rd coordinated with it Sliding block 13, the mode that the top of the 3rd sliding block 13 is bolted is connected with collecting the outer bottom of frame 2, is collected the right hand top of frame 2 and is led to Cross bolted mode and second connecting rod 14 is installed, the mode that the top of second connecting rod 14 is bolted and the second screening frame Connected in the middle of 115 external right side vamps, while the second screening frame 115 is moved left and right, and graphite is screened, the second screening frame 115 drive collection frame 2 to move left and right by second connecting rod 14, and the 3rd slide rail 12 play the guiding role with the 3rd sliding block 13, and then works as When graphite is dropped by the second screening frame 115, can more accurately it fall in collection frame 2.In this way, graphite accurately falls to receipts Collect in frame 2, can prevent graphite from falling out to cause to waste outside collection frame 2.

Because the material of bottom plate 1 is Q235 steel, the weight capacity of Q235 steel is strong, acidproof corrosion-resistant, adds making for bottom plate 1 Use the life-span.

Embodiment described above only expresses the preferred embodiment of the present invention, and it describes more specific and detailed, but simultaneously Therefore the limitation to the scope of the claims of the present invention can not be interpreted as.It should be pointed out that for one of ordinary skill in the art For, without departing from the inventive concept of the premise, some deformations can also be made, improves and substitutes, these belong to this hair Bright protection domain.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.

Claims

1. a kind of boron carbide raw materials for metallurgy graphite screening plant, it is characterised in that include bottom plate (1), collect frame (2), branch Plate (3), the first screening frame (4), the first cross bar (5), agitator tank (6), hopper (7), discharge nozzle (8), agitating device (9) and a left side Device (10) is moved right, the mode that bottom plate (1) crown center is bolted is provided with collection frame (2), bottom plate (1) top left The mode that side is bolted is provided with support plate (3), and support plate (3) right side central is moved provided with device (10), left and right is moved left and right The first screening frame (4) is connected with the moving parts of dynamic device (10), the first screening frame (4), which is located at, collects directly over frame (2), the One screening frame (4) bottom is netted, and the mode that support plate (3) right flank top is bolted is provided with the first cross bar (5), the The mode that one cross bar (5) right-hand member is bolted is provided with agitator tank (6), and agitator tank (6) top left side is bolted Mode hopper (7) is installed, hopper (7) in agitator tank (6) with connect, provided with agitating device (9) in agitator tank (6), Agitator tank (6) bottom right is connected with discharge nozzle (8), and discharge nozzle (8) in agitator tank (6) with connecting, and discharge nozzle (8) is located at first Above screening frame (4).

2. a kind of boron carbide raw materials for metallurgy graphite screening plant according to claim 1, it is characterised in that agitating device (9) include bearing block (91), rotating shaft (92), the first puddler (93), the second puddler (94) and the first motor (95), stir Embedded be provided with bearing block (91), bearing block (91) is provided with rotating shaft (92) in the middle of case (6) bottom, and rotating shaft (92) passes through The mode of interference connection is connected with the bearing in bearing block (91), the evenly spaced mode being bolted in rotating shaft (92) First puddler (93) is installed, the first puddler (93) is located in agitator tank (6), agitator tank (6) interior left surface and right flank The evenly spaced mode being bolted is provided with the second puddler (94), the second puddler (94) and the first puddler (93) interlock, the mode being bolted in the middle of agitator tank (6) outer bottom is provided with the first motor (95), the first motor (95) In being vertically arranged, the first motor (95) is located at immediately below bearing block (91), the output shaft of the first motor (95) by shaft coupling with Rotating shaft (92) bottom is connected.

3. a kind of boron carbide raw materials for metallurgy graphite screening plant according to claim 2, it is characterised in that move left and right Device (10) includes the first slide rail (101), the first sliding block (102), the first spring (103), the second cross bar (104), the second electricity Machine (105), sector gear (106), rack (107) and head rod (108), support plate (3) right flank bottom are connected by bolt The mode connect is provided with the first slide rail (101), and the first slide rail (101) is in being horizontally disposed with, and the first slide rail (101) is provided with matches somebody with somebody with it The first sliding block (102) closed, the first sliding block (102) is slidably matched with the first slide rail (101), under the first sliding block (102) left surface It is connected with the top of the first spring (103), the first sliding block (102) and is connected by bolt between portion and the first slide rail (101) interior left surface The mode connect is provided with rack (107), and the mode that rack (107) right-hand member is bolted is provided with head rod (108), The mode that head rod (108) right-hand member is bolted in the middle of the first screening frame (4) outside left side inclined-plane with being connected, support plate (3) mode that right flank top is bolted is provided with the second cross bar (104), and the second cross bar (104) right-hand member passes through bolt The mode of connection is provided with the second motor (105), and the output shaft of the second motor (105) is connected with sector gear by shaft coupling (106), sector gear (106) is located above rack (107), and sector gear (106) is engaged with rack (107).

4. a kind of boron carbide raw materials for metallurgy graphite screening plant according to claim 3, it is characterised in that also include Postsearch screening device (11), postsearch screening device (11) includes the second slide rail (111), the second sliding block (112), second spring (113), the second connecting rod (114), the second screening frame (115) and first connecting rod (116), support plate (3) right flank bottom passes through spiral shell Tether the mode connect and the second slide rail (111) is installed, the second slide rail (111) is located at below the first slide rail (101), the second slide rail (111) in horizontally disposed, the second slide rail (111) is provided with the second sliding block (112) coordinated with it, the second sliding block (112) and the Two slide rails (111) are slidably matched, and are connected between the second sliding block (112) left surface bottom and the second slide rail (111) interior left surface The mode being bolted at the top of second spring (113), the second sliding block (112) is provided with the second connecting rod (114), and second connects The mode that extension bar (114) right-hand member is bolted is provided with the second screening frame (115), and the second screening frame (115) is located at first Immediately below screening frame (4), the second screening frame (115), which is located at, collects directly over frame (2), and the second screening frame (115) right hand top leads to Cross bolted mode and first connecting rod (116), the mode and first that first connecting rod (116) top is bolted are installed Screening frame (4) external right side bottom is connected.

5. a kind of boron carbide raw materials for metallurgy graphite screening plant according to claim 4, it is characterised in that also include 3rd slide rail (12), the 3rd sliding block (13) and second connecting rod (14), the mode that bottom plate (1) crown center is bolted are installed There is the 3rd slide rail (12), the 3rd slide rail (12) is in being horizontally disposed with, and the 3rd slide rail (12) is provided with the 3rd sliding block coordinated with it (13) mode, being bolted at the top of the 3rd sliding block (13) is connected with collecting frame (2) outer bottom, is collected and is pushed up on the right side of frame (2) The mode that portion is bolted is provided with second connecting rod (14), the mode that second connecting rod (14) top is bolted and the Connected in the middle of two screening frames (115) external right side vamp.

6. a kind of boron carbide raw materials for metallurgy graphite screening plant according to claim 5, it is characterised in that bottom plate (1) Material be Q235 steel.