CN109649936A - A kind of metallurgical slag processing reclaimer - Google Patents

Abstract

The invention discloses a kind of metallurgical slags to handle reclaimer, including waste residue hoisting mechanism, waste residue sorting mechanism, waste residue conveying mechanism, steel slag adsorbing mechanism, steel slag collecting mechanism and waste residue collecting mechanism；The discharge port of elevator belt is upward and above the middle part of vibration screen, first order waste residue transport mechanism and second level waste residue transport mechanism include that conveyer belt, driving wheel, directive wheel, driven wheel, compression guiding mechanism and support guide mechanism, adsorbing mechanism include N-shaped shell, circular orbit, chain, sunpender and electromagnetic disc；Circular orbit is surrounded by preceding track, left track, rear track and right track.The present invention constantly conveys waste residue by conveyer belt, the steel slag in waste residue is adsorbed by the electromagnetic disc rotation of top, the recycling speed of steel slag is faster, and transmission with height have it is low, waste residue can be stirred voluntarily during transportation, it once the steel slag of waste residue bottom enters top during transportation, will be adsorbed by electromagnetic disc, substantially increase the rate of recovery of steel slag in this way.

Description

A kind of metallurgical slag processing reclaimer

Technical field

The present invention relates to a kind of metallurgical slag processing systems more particularly to a kind of metallurgical slag to handle reclaimer.

Background technique

Metallurgical slag refers to the various solid waste generated in metallurgical industry production process, refers mainly to generate in iron-smelting furnace Blast furnace slag.

Steel slag in metallurgical slag is the solid waste being discharged in steelmaking process, including vessel slag, electroslag etc..It made steel Deslagging technique in journey, not only influences the development of steel-smelting technology, also closely related with the comprehensive utilization of steel slag.Currently, steel-making The deslagging treatment process of process can substantially be divided into following four kinds: 1, cold abandoning method: steel slag pours into slag ladle, directly transports to after its slow cooling Cinder field heap slagging mountain, was mostly used this method in the past；2, hot application process for crushing stones: the liquid steel slag layering in slag ladle is sprinkled with crane and is poured on slag On bed (or in pit), and water spray makes its chilling fragmentation simultaneously, then transports cinder field to again；3, steel slag water quenching technique: the height of discharge Warm liquid slag is smashed by pressure Water Cutting, is met water quick cooling in addition and is shunk and rupture, is granulated in water curtain.The specific practice has again Disk water-sprinkling cold process, a variety of methods such as stokehold water jetting and tank of tumbling-pond method；4, wind quenching method: its major advantage is recyclable height The 41% of heat contained by warm slag (about 2100-2200MJ/t) avoids the problem of slag meets water explosion, and improves behaviour Make environment.Steel slag can wind quenching at 3mm hard sphere below, the fine aggregate of mortar can be directly used as.So far, it is developed A variety of approach in relation to slag comprehensive utilization mainly include metallurgy, construction material, agricultural use, the several fields of backfill.

In the prior art, often the metallurgical slag in cinder field is screened, the useful steel slag in metallurgical slag is sieved It elects, steel slag and dregs is separated, it is common practice to steel slag be adsorbed using electromagnetic disc, driven by electromagnetic bridge crane Electromagnetic disc is gradually adsorbed steel slag to following cinder field, and then the steel slag of absorption is transported on vehicle.This electromagnetism bridge-type rises The mode of the electromagnetic disc absorption of heavy-duty machine, working efficiency is low, and can only adsorb the steel slag on waste residue surface, the metallurgical slag in cinder field In the steel slag that is adsorbed be less than 70%, greatly reduce the rate of recovery of steel slag.

Summary of the invention

Aiming at the above shortcomings existing in the prior art, the present invention provides the steel slags in the metallurgical slag in a kind of cinder field The rate of recovery is high, and recycles the faster metallurgical slag of speed and handle reclaimer.

In order to solve the above-mentioned technical problem, present invention employs following technical solutions:

A kind of metallurgical slag handles reclaimer, including waste residue hoisting mechanism, waste residue sorting mechanism, waste residue conveying mechanism, Steel slag adsorbing mechanism, steel slag collecting mechanism and waste residue collecting mechanism；

The waste residue hoisting mechanism includes promoting driving wheel, promoting follower and elevator belt；The elevator belt is around promotion Driving wheel and follower is promoted, is uniformly arranged multiple transverse baffles on the elevator belt, the elevator belt is angularly disposed；

The waste residue sorting mechanism includes vibration screen, vibrating motor, support spring and support base, and the vibration screen inclines Tiltedly setting, vibration screen quadrangle has been respectively arranged below support base, support spring, the branch is provided on each support base One end fixation of support spring is pressed on corresponding support base, the fixed correspondence for being pressed in vibration screen bottom of the other end of support spring Position, the discharge port of the elevator belt is upward and above the middle part of vibration screen；

The waste residue conveying mechanism includes first order waste residue transport mechanism and second level waste residue transport mechanism；First order waste residue Transport mechanism and second level waste residue transport mechanism include conveyer belt, driving wheel, directive wheel I, directive wheel II, directive wheel III, lead Guiding mechanism is compressed to wheel IV, directive wheel V, directive wheel VI, directive wheel VII, driven wheel, first, second compresses guiding mechanism, the Three compression guiding mechanisms, the 4th compression guiding mechanism, the first support guide mechanism, the second support guide mechanism and third support are led To mechanism；The driving wheel, directive wheel I, directive wheel II, directive wheel III, directive wheel IV, directive wheel V, directive wheel VI, directive wheel VII and driven wheel be set gradually from left to right, the driving wheel, directive wheel I, directive wheel IV and directive wheel VII are in same level height Degree, the directive wheel II, directive wheel III, directive wheel V, directive wheel VI and driven wheel in same level height, the driving wheel, The position of directive wheel I, directive wheel IV and directive wheel VII is higher than directive wheel II, directive wheel III, directive wheel V, directive wheel VI and driven The position of wheel, the conveyer belt bypass driving wheel, directive wheel I, directive wheel II, directive wheel III, directive wheel IV, directive wheel V, lead To wheel VI, directive wheel VII and driven wheel；Described first, which compresses guiding mechanism, the second compression guiding mechanism, third, compresses Guiding machine Structure, the 4th compression guiding mechanism, the first support guide mechanism, the second support guide mechanism and third support guide mechanism include Guide cylinder, guide spring, sliding block, guide rod and directive wheel VIII, the guide spring and sliding block are mounted in guide cylinder, described to lead It is pressed in one end in guide cylinder to one end of spring, the other end of the guide spring is pressed on sliding block, the sliding block and guiding The inner wall of cylinder is slidably matched, and one end of the guide rod is fixed on sliding block, and the other end of the guide rod stretches out guide cylinder The other end, the directive wheel VIII are mounted on the other end of guide rod and are rotatably assorted with the other end of guide rod；Described first It compresses guiding mechanism, the second compression guiding mechanism, third and compresses guiding mechanism, the 4th compression guiding mechanism, the first support guide Mechanism, the second support guide mechanism and third support guide mechanism are vertically arranged, leading on the first compression guiding mechanism The directive wheel VIII on guiding mechanism is compressed down against the surface on conveyer belt and positioned at directive wheel II, described second to wheel VIII Down against the surface on conveyer belt and positioned at directive wheel III, the third compresses the directive wheel VIII on guiding mechanism towards pushing On a moving belt and the directive wheel VIII on the surface of directive wheel V, the 4th compression guiding mechanism is down against transmission Take and be located at the surface of directive wheel VI；Directive wheel VIII in first support guide mechanism holds out against conveyer belt and position upward Conveyer belt is held out against upward in the directive wheel VIII on the underface of directive wheel I, second support guide mechanism and is located at directive wheel IV underface, the directive wheel VIII in third support guide mechanism hold out against upward conveyer belt and be located at directive wheel VII just under Side；The feeding end of conveyer belt in first order waste residue transport mechanism is located at the lower section of vibration screen, first order waste residue transport mechanism On conveyer belt discharge end be located at the conveyer belt in the waste residue transport mechanism of the second level feeding end top；

The steel slag adsorbing mechanism includes the first adsorbing mechanism and the second adsorbing mechanism, first adsorbing mechanism and second Adsorbing mechanism includes N-shaped shell, circular orbit, chain, sunpender and electromagnetic disc；The circular orbit by preceding track, left track, Track and right track surround afterwards, between the preceding track and left track, between left track and rear track, rear track and right track it Between and right track and preceding track between connected by transition track, the circular orbit and transition track are arranged in N-shaped shell It is interior；The preceding track, left track, rear track and right track two sides be respectively set for the groove I of chain sliding and sliding for idler wheel Dynamic groove II, the preceding track, left track, rear track and right track one end drive sprocket, the preceding track, left rail are set Driven sprocket is arranged in the other end in road, rear track and right track, distinguishes in the preceding track, left track, rear track and right track One chain is set, and the chain in the preceding track, left track, rear track and right track bypasses the groove of side thereon respectively I, drive sprocket, the other side thereon groove I and driven sprocket, be uniformly arranged on the outside of the outer plate on the chain multiple Push plate；U-shaped bar is arranged in the top of the sunpender, and U-shaped bar stretches to the two sides of circular orbit from the bottom of circular orbit, in U-shaped bar Top both ends on support rod in the groove II for putting in corresponding two sides is respectively set, idler wheel is installed on the support rod, it is described Idler wheel and groove II, which roll, to be cooperated, and the bottom of the push plate is lower than support rod；The outside of the U-shaped bar and one end of conducting block are cut with scissors It connects, the N-shaped outer casing inner wall is in the outer part and conductor rail, the left track is respectively set in position corresponding with left track and right track It is ridden on corresponding conductor rail with the other end of conducting block corresponding in right track, the position at the conductor rail both ends is lower than conduction The position of rail in addition to those at both ends, the preceding track, left track, rear track and the groove II of right track two sides bottom close to idler wheel The position for skidding off end gradually rises；The top of the transition track is intermediate high, two sides bottom, two sides at the top of the transition track One end that one end way roller that position enters from idler wheel skids off gradually transition from high to low；The preceding track, left track, rear track Outlet with the groove II of right track two sides is docked with the high position of two sides at the top of corresponding transition track and rounding off, described Import and the low level of two sides at the top of corresponding transition track of preceding track, left track, rear track and the groove II of right track two sides Set docking and rounding off；Multiple sunpenders are set on the circular orbit, and an electromagnetic disc is arranged in the bottom of each sunpender；First The top of first order waste residue transport mechanism is arranged in adsorbing mechanism, and the upper of second level waste residue transport mechanism is arranged in the second adsorbing mechanism Square, the electromagnetic disc in the left track is on the conveyer belt between corresponding directive wheel II and directive wheel III, the right track On electromagnetic disc on conveyer belt between corresponding directive wheel V and directive wheel VI；

A steel slag collecting mechanism is provided with below electromagnetic disc on the preceding track and rear track；The second level The discharge end of conveyer belt in waste residue transport mechanism is located at the surface of waste residue collecting mechanism.

As a preferred solution of the present invention, the steel slag collecting mechanism includes hydraulic cylinder and steel slag receiving hopper, described Straight up, the steel slag receiving hopper is fixed on the top of the piston rod of hydraulic cylinder to the piston of hydraulic cylinder.

As another preferred embodiment of the invention, the waste residue collecting mechanism includes that pedestal I, support column I and waste residue connect Hopper, the support column I are vertically arranged, and the bottom of the support column I is fixed on pedestal I, and the waste residue receiving hopper is fixed on The top of support column I, the waste residue receiving hopper are located at below the discharge end of the conveyer belt in the waste residue transport mechanism of the second level.

As an improvement of the present invention, metallurgical slag processing reclaimer further includes that larger solids collects machine Structure, the larger solids collecting mechanism include pedestal II, support column II and solids receiving hopper, and the support column II is set vertically It sets, the bottom of the support column II is fixed on pedestal II, and the solids receiving hopper is fixed on the top of support column II, described Solids receiving hopper is located at the lower section of the minimum one end of vibration screen.

As another improvement project of the invention, set between the middle part of the conducting block and the outside of corresponding U-shaped bar Set prestretching spring.

The solution have the advantages that: the present invention is cleverly by waste residue hoisting mechanism, waste residue sorting mechanism, waste residue conveyer Structure and steel slag adsorbing mechanism are combined；Waste residue is constantly conveyed by conveyer belt, passes through the electromagnetic disc rotation above conveyer belt Steel slag in continuous absorption waste residue, the recycling speed of steel slag faster, and transmit have with height it is low, waste residue during transportation because Gradient can be stirred voluntarily, once the steel slag of waste residue bottom enters top during transportation, will be adsorbed by electromagnetic disc, in this way Substantially increase the rate of recovery of steel slag.

Detailed description of the invention

Fig. 1 is the structural schematic diagram that a kind of metallurgical slag handles reclaimer；

Fig. 2 is the structural schematic diagram of waste residue hoisting mechanism；

Fig. 3 is the structural schematic diagram of waste residue sorting mechanism；

Fig. 4 is the structural schematic diagram for compressing guiding mechanism and support guide mechanism；

Fig. 5 is the partial structural diagram of waste residue conveying mechanism；

Fig. 6 is the structural schematic diagram of steel slag adsorbing mechanism；

Fig. 7 is the structural schematic diagram of circular orbit；

Fig. 8 is the structural schematic diagram of the cross section of the sunpender cooperation in N-shaped shell, right track and right track；

Fig. 9 is the structural schematic diagram of the cross section of the sunpender cooperation on N-shaped shell, preceding track and preceding track；

Figure 10 is the structural schematic diagram of the cross section of transition track and sunpender cooperation；

Figure 11 is the structural schematic diagram that push plate is arranged on outer plate；

Figure 12 is the enlarged structure schematic diagram in Fig. 8 at A.

In figure: 1-promotes driving wheel；2-promote follower；3-elevator belts；4-transverse baffles；5-vibration screens； 6-vibrating motors；7-support springs；8-support bases；9-conveyer belts；10-driving wheels；11-directive wheels I；12-directive wheels Ⅱ；13-directive wheels III；14-directive wheels IV；15-directive wheels V；16-directive wheels VI；17-directive wheels VII；18-is driven Wheel；19-the first compresses guiding mechanism；20-the second compresses guiding mechanism；21-thirds compress guiding mechanism；22-the four pressure Tight guiding mechanism；23-the first support guide mechanism；24-the second support guide mechanism；25-third support guide mechanisms； 26-guide cylinders；27-guide springs；28-sliding blocks；29-guide rods；30-directive wheels VIII；31-N-shaped shells；32-chains Item；33-sunpenders；34-electromagnetic discs；35-preceding tracks；36-left tracks；37-rear tracks；38-right tracks；39-transition rails Road；40-groove Is；41-groove IIs；42-drive sprockets；43-driven sprockets；44-outer sprocket wheels；45-push plates；46-is U-shaped Bar；47-support rods；48-idler wheels；49-conducting blocks；50-conductor rails；51-hydraulic cylinders；52-steel slag receiving hoppers；53-bases Seat I；54-support columns I；55-waste residue receiving hoppers；56-pedestals II；57-support columns II；58-solids receiving hoppers；59— Prestretching spring.

Specific embodiment

The present invention is described in further detail with reference to the accompanying drawings and detailed description.

As shown in Figure 1, a kind of metallurgical slag handles reclaimer, including waste residue hoisting mechanism, waste residue sorting mechanism, waste residue Conveying mechanism, steel slag adsorbing mechanism, steel slag collecting mechanism, waste residue collecting mechanism and larger solids collecting mechanism.

Waste residue hoisting mechanism includes promoting motor, promoting driving wheel 1, promote follower 2 and elevator belt 3.Elevator belt 3 bypasses It promotes driving wheel 1 and promotes follower 2, be uniformly arranged multiple transverse baffles 4 on elevator belt 3, elevator belt 3 is angularly disposed, such as Fig. 2 It is shown, it promotes motor driven and promotes driving wheel 1, and then elevator belt 3 is driven to rotate, elevator belt 3 is fallen by the drive of transverse baffle 4 On waste residue move obliquely.

Waste residue sorting mechanism includes vibration screen 5, vibrating motor 6, support spring 7 and support base 8, as shown in figure 3, vibration Sieve 5 is obliquely installed, and 5 four jiaos of vibration screen have been respectively arranged below support base 8, on each support base 8 is provided with support One end fixation of spring 7, support spring 7 is pressed on corresponding support base 8, and the other end fixation of support spring 7 is pressed in vibrating screen The corresponding position of 5 bottom of net, the discharge port of elevator belt 3 is upward and above the middle part of vibration screen 5.It is mentioned by elevator belt 3 The waste residue risen is fallen on vibration screen 5, opens vibrating motor 6, and vibrating motor 6 drives vibration screen 5 in four support springs 7 It ceaselessly shakes, especially biggish solids tumbles downwards along the vibration screen 5 being obliquely installed and eventually falls into larger solid In object collecting mechanism, remaining waste residue falls into conveyer belt 9 by the sieve pore on vibration screen 5.Larger solids collecting mechanism packet Pedestal II 56, support column II 57 and solids receiving hopper 58 are included, support column II 57 is vertically arranged, and the bottom of support column II 57 is fixed On pedestal II 56, solids receiving hopper 58 is fixed on the top of support column II 57, and solids receiving hopper 58 is located at vibration screen 5 The lower section of minimum one end.

Waste residue conveying mechanism includes first order waste residue transport mechanism and second level waste residue transport mechanism；The transmission of first order waste residue Mechanism and second level waste residue transport mechanism include conveyer belt 9, driving wheel 10, directive wheel I 11, directive wheel II 12, directive wheel III 13, directive wheel IV 14, directive wheel V 15, directive wheel VI 16, directive wheel VII 17, driven wheel 18, first compress guiding mechanism 19, the Two compress guiding mechanisms 20, third compresses guiding mechanism 21, the 4th compresses guiding mechanism 22, the first support guide mechanism 23, the Two support guide mechanisms 24 and third support guide mechanism 25, as shown in Figure 1.Driving wheel 10, directive wheel I 11, directive wheel II 12, Directive wheel III 13, directive wheel IV 14, directive wheel V 15, directive wheel VI 16, directive wheel VII 17 and driven wheel 18 are from left to right successively Setting, driving wheel 10, directive wheel I 11, directive wheel IV 14 and directive wheel VII 17 are in same level height, directive wheel II 12, guiding III 13, directive wheel V 15, directive wheel VI 16 and driven wheel 18 are taken turns in same level height, driving wheel 10, directive wheel I 11, guiding Take turns IV 14 and the position of directive wheel VII 17 be higher than directive wheel II 12, directive wheel III 13, directive wheel V 15, directive wheel VI 16 and driven The position of wheel 18.Conveyer belt 9 bypasses driving wheel 10, directive wheel I 11, directive wheel II 12, directive wheel III 13, directive wheel IV 14, leads To wheel V 15, directive wheel VI 16, directive wheel VII 17 and driven wheel 18.First, which compresses guiding mechanism 19, second, compresses guiding mechanism 20, third compresses guiding mechanism the 21, the 4th and compresses guiding mechanism 22, the first support guide mechanism 23, the second support guide mechanism 24 and third support guide mechanism 25 include guide cylinder 26, guide spring 27, sliding block 28, guide rod 29 and directive wheel VIII 30, Guide spring 27 and sliding block 28 are mounted in guide cylinder 26, and one end of guide spring 27 is pressed in one end in guide cylinder 26, guiding The other end of spring 27 is pressed on sliding block 28, and sliding block 28 and the inner wall of guide cylinder 26 are slidably matched, and one end of guide rod 29 is fixed On sliding block 28, the other end of guide rod 29 stretches out the other end of guide cylinder 26, and directive wheel VIII 30 is mounted on the another of guide rod 29 It is rotatably assorted on one end and with the other end of guide rod 29, as shown in Figure 4.First, which compresses guiding mechanism 19, second, compresses guiding Mechanism 20, third compress guiding mechanism the 21, the 4th and compress guiding mechanism 22, the first support guide mechanism 23, the second support guide Mechanism 24 and third support guide mechanism 25 are vertically arranged, first compress guiding mechanism 19 on directive wheel VIII 30 down against On conveyer belt 9 and be located at directive wheel II 12 surface, second compress guiding mechanism 20 on directive wheel VIII 30 down against biography The surface of directive wheel III 13 is sent on band 9 and is located at, third compresses the directive wheel VIII 30 on guiding mechanism 21 down against transmission With on 9 and being located at the surface of directive wheel V 15, the 4th compresses directive wheel VIII 30 on guiding mechanism 22 down against conveyer belt 9 The surface of directive wheel VI 16 is gone up and is located at, as shown in Figure 5.Directive wheel VIII 30 in first support guide mechanism 23 is held out against upward Conveyer belt 9 and the underface for being located at directive wheel I 11, the directive wheel VIII 30 in the second support guide mechanism 24 hold out against conveyer belt upward 9 and it is located at the underface of directive wheel IV 14, the directive wheel VIII 30 in third support guide mechanism 25 holds out against conveyer belt 9 and position upward In the underface of directive wheel VII 17, as shown in Figure 5；The feeding end of conveyer belt 9 in first order waste residue transport mechanism is located at vibration The discharge end of the lower section of sieve 5, the conveyer belt 9 in first order waste residue transport mechanism is located at the biography in the waste residue transport mechanism of the second level Send the top at the feeding end of band 9.

In the present embodiment, it the directive wheel I 11 in first order waste residue transport mechanism and second level waste residue transport mechanism and leads To the gradient of the conveyer belt 1 between the gradient and directive wheel IV 14 and directive wheel V 15 of the conveyer belt 1 between wheel II 12 It is 30 °~35 °, the waste residue be conducive on the corresponding conveyer belt 1 of the gradient almost can be stirred voluntarily during decline； Conveyer belt 1 between first order waste residue transport mechanism and directive wheel III 13 and directive wheel IV 14 in the waste residue transport mechanism of the second level Gradient and directive wheel VI 16 and directive wheel VII 17 between the gradient of conveyer belt 1 be 18 °~20 °, both will not shadow The waste residue rung on the corresponding conveyer belt 1 of the gradient rises, and the waste residue on the corresponding conveyer belt 1 of the gradient can be promoted to exist Part can be stirred in uphill process.

Steel slag adsorbing mechanism includes the first adsorbing mechanism and the second adsorbing mechanism, the first adsorbing mechanism and the second adsorbing mechanism It include N-shaped shell 31, circular orbit, chain 32, sunpender 33 and electromagnetic disc 34, as shown in Fig. 6, Fig. 7, Fig. 8, Fig. 9 and Figure 10. Circular orbit is surrounded by preceding track 35, left track 36, rear track 37 and right track 38, between preceding track 35 and left track 36, left Pass through transition between track 36 and rear track 37, between rear track 37 and right track 38 and between right track 38 and preceding track 35 Track 39 connects, as shown in fig. 7, circular orbit and transition track 39 are arranged in N-shaped shell 31.Preceding track 35, left track 36, The two sides of track 37 and right track 38 are respectively set for the groove I 40 of chain sliding and for the groove II 41 of roller-coaster afterwards, preceding Track 35, left track 36, rear track 37 and right track 38 one end drive sprocket 42, preceding track 35, left track 36, rear rail are set Driven sprocket 43 is arranged in road 37 and the other end of right track 38, divides in preceding track 35, left track 36, rear track 37 and right track 38 Not She Zhi a chain 32, chain 32 in preceding track 35, left track 36, rear track 37 and right track 38 is respectively around thereon The groove I 40 of side, drive sprocket 42, the other side thereon groove I 40 and driven sprocket 43, the outer plate 44 on chain 32 Outside be uniformly arranged multiple push plates 45 and (push plate 45 can be configured according to the size of electromagnetic disc 34, such as be spaced 0.5 meter, 1 One push plate 45 of the setting such as rice), as shown in figure 11.The top of sunpender 33 is arranged U-shaped bar 46, and U-shaped bar 46 is from the bottom of circular orbit The two sides of circular orbit are stretched in portion, are respectively set in the groove II 41 for putting in corresponding two sides on the top both ends of U-shaped bar 46 Support rod 47 installs idler wheel 48 on support rod 47, and idler wheel 48 and groove II 41, which roll, to be cooperated, and the bottom of push plate 45 is lower than support rod 47, as shown in Figure 8 and Figure 9.The outside of U-shaped bar 46 and one end of conducting block 49 are hinged, 31 inner wall of N-shaped shell in the outer part and with a left side Conductor rail 50, corresponding conducting block 49 in left track 36 and right track 38 is respectively set in track 36 and the corresponding position of right track 38 The other end ride on corresponding conductor rail 50, as shown in figure 12, the middle part of conducting block 49 and the outside of corresponding U-shaped bar 46 it Between prestretching spring 59 is set, the position at 50 both ends of conductor rail is lower than the position of conductor rail 50 in addition to those at both ends.Preceding track 35, left rail The bottom of the groove II 41 of 38 two sides of road 36, rear track 37 and right track gradually rises close to the position that idler wheel 48 skids off end.It crosses The top of track 39 is crossed as intermediate high, two sides bottom, the positions of 39 top two sides of transition track is from one end that idler wheel 48 enters to rolling One end gradually transition from high to low that wheel 48 skids off.Preceding track 35,38 two sides of left track 36, rear track 37 and right track groove II 41 outlet and the docking of the high positions of corresponding 39 top two sides of transition track simultaneously rounding off, preceding track 35, left track 36, The import of the groove II 41 of 38 two sides of track 37 and right track is docked with the lower position of corresponding 39 top two sides of transition track afterwards And rounding off.Multiple sunpenders 33 are set on circular orbit, and an electromagnetic disc 34 is arranged in the bottom of each sunpender 33.In this implementation In example, electromagnetic disc 34 is connect by conducting wire with conducting block 49, and conductor rail 50 connects to power supply.First adsorbing mechanism is arranged first The top of grade waste residue transport mechanism, the second adsorbing mechanism are arranged in the top of second level waste residue transport mechanism, in left track 36 On conveyer belt 9 between corresponding directive wheel II 12 and directive wheel III 13, the electromagnetic disc in right track 38 is located at electromagnetic disc On conveyer belt 9 between corresponding directive wheel V 15 and directive wheel VI 16.

Four motors are correspondingly arranged on N-shaped shell 31 and with four drive sprockets 42.The motor of 38 top of right track drives The drive sprocket 42 of dynamic 38 one end of right track, drive sprocket 42 drive the chain 32 in right track 38 in the recessed of 38 two sides of right track It being slided in slot I 40, the chain 32 in right track 38 drives push plate 45 thereon that the sunpender 33 in right track 38 is constantly pushed to move ahead, Under the thrust of push plate 45, the idler wheel 48 on support rod 47 in right track 38 is in the groove II 41 of 38 two sides of right track It rolls, idler wheel 48 reaches the groove of 38 two sides of right track along the bottom elder generation parallel rolling of the groove II 41 of 38 two sides of right track When II 41 outlet, idler wheel 48 gradually hoists rolling along the bottom of the groove II 41 of 38 two sides of right track, and idler wheel 48 is detached from Transition track 39 is immediately entered when right track 38, meanwhile, the conducting block 49 in the outside of U-shaped bar 46 is detached from 31 right side of N-shaped shell Conductor rail 50 in inner wall outside, idler wheel 48 is automatic from high to low on the two sides at 39 top of transition track to be rolled, and is subsequently entered Preceding track 35；The drive sprocket 42 of 35 one end of track, drive sprocket 42 drive preceding track before the motor driven of preceding 35 top of track Chain 32 on 35 slides in the groove I 40 of preceding 35 two sides of track, and the chain 32 on preceding track 35 drives push plate 45 thereon Sunpender 33 before constantly pushing on track 35 moves ahead, under the thrust of push plate 45, on the support rod 47 on preceding track 35 Idler wheel 48 rolls in the groove II 41 of preceding 35 two sides of track, and idler wheel 48 is first along the bottom of the groove II 41 of preceding 35 two sides of track Parallel rolling, reach before 35 two sides of track groove II 41 outlet when, idler wheel 48 along preceding 35 two sides of track groove II 41 Bottom gradually hoist rolling, immediately enter transition track 39 when track 35 before idler wheel 48 is detached from, idler wheel 48 is in transition track It is automatic from high to low on the two sides at 39 tops to roll, left track 36 is subsequently entered, meanwhile, the conducting block 49 in the outside of U-shaped bar 46 It rides on the conductor rail 50 in the inner wall outside in 31 left side of N-shaped shell；36 one end of motor driven left track of 36 top of left track Drive sprocket 42, drive sprocket 42 drives the chain 32 in left track 36 to slide in the groove I 40 of 36 two sides of left track, left Chain 32 on track 36 drives push plate 45 thereon that the sunpender 33 in left track 36 is constantly pushed to move ahead, in the thrust of push plate 45 Under effect, the idler wheel 48 on support rod 47 in left track 36 rolls in the groove II 41 of 36 two sides of left track, 48 edge of idler wheel The bottom elder generation parallel rolling of the groove II 41 of 36 two sides of left track, reach 36 two sides of left track groove II 41 outlet when, Idler wheel 48 gradually hoists rolling along the bottom of the groove II 41 of 36 two sides of left track, when idler wheel 48 is detached from left track 36 immediately Into transition track 39, meanwhile, the conducting block 49 in the outside of U-shaped bar 46 is detached from leading in the inner wall outside in 31 left side of N-shaped shell Electric rail 50, idler wheel 48 is automatic from high to low on the two sides at 39 top of transition track to be rolled, and subsequently enters rear track 37；Track afterwards The drive sprocket 42 of 37 one end of track after the motor driven of 37 tops, the chain 32 after drive sprocket 42 drives on track 37 is rear It is slided in the groove I 40 of 37 two sides of track, track 37 after the chain 32 on rear track 37 drives push plate 45 thereon constantly to push On sunpender 33 move ahead, under the thrust of push plate 45, the idler wheel 48 on support rod 47 on rear track 37 is in rear track 37 Rolled in the groove IIs 41 of two sides, idler wheel 48 along the groove II 41 of rear 37 two sides of track bottom elder generation parallel rolling, after arrival When the outlet of the groove II 41 of 37 two sides of track, idler wheel 48 gradually hoists along the bottom of the groove II 41 of rear 37 two sides of track Roll, immediately enter transition track 39 when track 37 after idler wheel 48 is detached from, idler wheel 48 on the two sides at 39 top of transition track by High to Low automatic rolling subsequently enters right track 38, meanwhile, the conducting block 49 in the outside of U-shaped bar 46 rides over 31 right side of N-shaped shell Inner wall outside on conductor rail 50 on.

The lower section of electromagnetic disc 34 on preceding track 35 and rear track 37 is provided with a steel slag collecting mechanism.Steel slag is collected Mechanism includes hydraulic cylinder 51 and steel slag receiving hopper 52, and straight up, steel slag receiving hopper 52 is fixed on hydraulic the piston of hydraulic cylinder 51 The top of the piston rod of cylinder 51.Electromagnetic disc 34 on preceding track 35 and rear track 37, because conducting block 49 is detached from conductor rail 50, Electromagnetic disc 34 powers off, and the steel slag in electromagnetic disc 34 is detached from electromagnetic disc 34 and falls into steel slag receiving hopper 52.

The discharge end of conveyer belt 9 in the waste residue transport mechanism of the second level is located at the surface of waste residue collecting mechanism.Waste residue is received Collecting mechanism includes pedestal I 53, support column I 54 and waste residue receiving hopper 55, and support column I 54 is vertically arranged, and the bottom of support column I 54 is solid It is scheduled on pedestal I 53, waste residue receiving hopper 55 is fixed on the top of support column I 54, and waste residue receiving hopper 55 is located at second level waste residue biography Below the discharge end for sending the conveyer belt 9 in mechanism.The waste residue conveyed by conveyer belt 9 is transmitting after adsorbing steel slag by electromagnetic disc 34 The outlet of band 9 enters waste residue receiving hopper 55, and entering in waste residue receiving hopper 55 is almost dregs and some other impurity.

When using a kind of metallurgical slag processing reclaimer, the waste residue of cinder field is promoted to useless by waste residue hoisting mechanism The top of slag sorting mechanism, especially biggish solids roll down to downwards solids along the vibration screen 5 being obliquely installed and collect In bucket 58, remaining waste residue is fallen on conveyer belt 9 by the sieve pore on vibration screen 5, and remaining waste residue is moved with conveyer belt 9 Dynamic, the steel slag in waste residue is constantly adsorbed in 34 rotation of electromagnetic disc on the first adsorbing mechanism in left track 36, and steel slag is by leading To between wheel III 13 and directive wheel IV 14 and when conveyer belt between directive wheel IV 14 and directive wheel V 15 because gradient can from Row stirs, will be by the right track 38 on the first adsorbing mechanism once the steel slag of waste residue bottom enters top during transportation On 34 rotation of electromagnetic disc constantly adsorb, remaining waste residue falls into the second level by 9 output end of conveyer belt on driven wheel 18 and gives up Conveyer belt 9 in slag transport mechanism moves on the conveyer belt 9 in the waste residue transport mechanism of the second level, second level waste residue conveyer Waste residue on structure is equally because gradient can be stirred voluntarily, the electromagnetic disc 34 on the second adsorbing mechanism in left track 36 and right track 38 Rotation is constantly adsorbed, and the recycling speed of steel slag not only faster, and substantially increases the rate of recovery of steel slag, and the steel slag rate of recovery can Up to 90% or more.

Finally, it is stated that the above examples are only used to illustrate the technical scheme of the present invention and are not limiting, although referring to compared with Good embodiment describes the invention in detail, those skilled in the art should understand that, it can be to skill of the invention Art scheme is modified or replaced equivalently, and without departing from the objective and range of technical solution of the present invention, should all be covered at this In the scope of the claims of invention.

Claims (5)

1. a kind of metallurgical slag handles reclaimer, it is characterised in that: including waste residue hoisting mechanism, waste residue sorting mechanism, waste residue Conveying mechanism, steel slag adsorbing mechanism, steel slag collecting mechanism and waste residue collecting mechanism；

The waste residue hoisting mechanism includes promoting driving wheel (1), promoting follower (2) and elevator belt (3)；The elevator belt (3) Around promoting driving wheel (1) and promoting follower (2), it is uniformly arranged multiple transverse baffles (4) on the elevator belt (3), it is described Elevator belt (3) is angularly disposed；

The waste residue sorting mechanism includes vibration screen (5), vibrating motor (6), support spring (7) and support base (8), the vibration Dynamic sieve (5) are obliquely installed, and vibration screen (5) quadrangle has been respectively arranged below support base (8), on each support base (8) It is provided with support spring (7), one end fixation of the support spring (7) is pressed on corresponding support base (8), support spring (7) The fixed corresponding position for being pressed in vibration screen (5) bottom of the other end, the discharge port of the elevator belt (3) upward and is located at vibration Above the middle part of sieve (5)；

The waste residue conveying mechanism includes first order waste residue transport mechanism and second level waste residue transport mechanism；The transmission of first order waste residue Mechanism and second level waste residue transport mechanism include conveyer belt (9), driving wheel (10), directive wheel I (11), directive wheel II (12), Directive wheel III (13), directive wheel IV (14), directive wheel V (15), directive wheel VI (16), directive wheel VII (17), driven wheel (18), First compresses guiding mechanism (19), the second compression guiding mechanism (20), third compression guiding mechanism (21), the 4th compression Guiding machine Structure (22), the first support guide mechanism (23), the second support guide mechanism (24) and third support guide mechanism (25)；The master Driving wheel (10), directive wheel I (11), directive wheel II (12), directive wheel III (13), directive wheel IV (14), directive wheel V (15), guiding VI (16) of wheel, directive wheel VII (17) and driven wheel (18) are set gradually from left to right, the driving wheel (10), directive wheel I (11), Directive wheel IV (14) and directive wheel VII (17) are in same level height, the directive wheel II (12), directive wheel III (13), directive wheel V (15), directive wheel VI (16) and driven wheel (18) are in same level height, the driving wheel (10), directive wheel I (11), guiding The position for taking turns IV (14) and directive wheel VII (17) is higher than directive wheel II (12), directive wheel III (13), directive wheel V (15), directive wheel The position of VI (16) and driven wheel (18), the conveyer belt (9) bypass driving wheel (10), directive wheel I (11), directive wheel II (12), directive wheel III (13), directive wheel IV (14), directive wheel V (15), directive wheel VI (16), directive wheel VII (17) and driven wheel (18)；Described first compresses guiding mechanism (19), the second compression guiding mechanism (20), third compression guiding mechanism (21), the 4th Compress guiding mechanism (22), the first support guide mechanism (23), the second support guide mechanism (24) and third support guide mechanism It (25) include guide cylinder (26), guide spring (27), sliding block (28), guide rod (29) and directive wheel VIII (30), the guiding Spring (27) and sliding block (28) are mounted in guide cylinder (26), and one end of the guide spring (27) is pressed in guide cylinder (26) The other end of one end, the guide spring (27) is pressed on sliding block (28), and the inner wall of the sliding block (28) and guide cylinder (26) is sliding Dynamic cooperation, one end of the guide rod (29) are fixed on sliding block (28), and the other end of the guide rod (29) stretches out guide cylinder (26) the other end, the directive wheel VIII (30) are mounted on the other end on the other end of guide rod (29) and with guide rod (29) It is rotatably assorted；It is described first compress guiding mechanism (19), second compress guiding mechanism (20), third compress guiding mechanism (21), 4th compresses guiding mechanism (22), the first support guide mechanism (23), the second support guide mechanism (24) and third support guide Mechanism (25) is vertically arranged, and the directive wheel VIII (30) in first compression guiding mechanism (19) is down against conveyer belt (9) Go up and be located at the surface of directive wheel II (12), described second compress directive wheel VIII (30) on guiding mechanism (20) down against Surface on conveyer belt (9) and positioned at directive wheel III (13), the third compress the directive wheel VIII on guiding mechanism (21) (30) it is compressed on guiding mechanism (22) down against the surface on conveyer belt (9) and positioned at directive wheel V (15), the described 4th Directive wheel VIII (30) down against on conveyer belt (9) and be located at directive wheel VI (16) surface；First support guide Directive wheel VIII (30) in mechanism (23) holds out against conveyer belt (9) upward and is located at the underface of directive wheel I (11), and described second Directive wheel VIII (30) in support guiding mechanism (24) holds out against conveyer belt (9) upward and is located at the underface of directive wheel IV (14), institute The directive wheel VIII (30) in third support guide mechanism (25) is stated to hold out against conveyer belt (9) upward and be located at directive wheel VII (17) just Lower section；The feeding end of conveyer belt (9) in first order waste residue transport mechanism is located at the lower section of vibration screen (5), first order waste residue The discharge end of conveyer belt (9) in transport mechanism is located at the upper of the feeding end of the conveyer belt (9) in the waste residue transport mechanism of the second level Side；

The steel slag adsorbing mechanism includes the first adsorbing mechanism and the second adsorbing mechanism, and first adsorbing mechanism and second are adsorbed Mechanism includes N-shaped shell (31), circular orbit, chain (32), sunpender (33) and electromagnetic disc (34)；The circular orbit is by preceding Track (35), left track (36), rear track (37) and right track (38) surround, the preceding track (35) and left track (36) it Between, between left track (36) and rear track (37), between rear track (37) and right track (38) and right track (38) and front rail It is connected between road (35) by transition track (39), the circular orbit and transition track (39) setting are in N-shaped shell (31)； The preceding track (35), left track (36), rear track (37) and right track (38) two sides be respectively set for the recessed of chain sliding Slot I (40) and groove II (41) for roller-coaster, the preceding track (35), left track (36), rear track (37) and right track (38) drive sprocket (42) are arranged in one end, the preceding track (35), left track (36), rear track (37) and right track (38) Driven sprocket (43) are arranged in the other end, in the preceding track (35), left track (36), rear track (37) and right track (38) respectively One chain (32), the chain (32) in the preceding track (35), left track (36), rear track (37) and right track (38) are set Respectively around the groove I (40) of side thereon, drive sprocket (42), the other side thereon groove I (40) and driven sprocket (43), multiple push plates (45) are uniformly arranged on the outside of the outer plate (44) on the chain (32)；The top of the sunpender (33) It is arranged U-shaped bar (46), U-shaped bar (46) stretches to the two sides of circular orbit from the bottom of circular orbit, at the top two of U-shaped bar (46) The support rod (47) in the groove II (41) for putting in corresponding two sides is respectively set on end, idler wheel is installed on the support rod (47) (48), the idler wheel (48) and groove II (41), which roll, cooperates, and the bottom of the push plate (45) is lower than support rod (47)；The U The outside of type bar (46) and one end of conducting block (49) are hinged, N-shaped shell (31) inner wall in the outer part and with left track (36) Corresponding position is respectively set conductor rail (50) with right track (38), corresponding on the left track (36) and right track (38) to lead The other end of electric block (49) rides on corresponding conductor rail (50), and the position at conductor rail (50) both ends is lower than conductor rail (50) Position in addition to those at both ends, the preceding track (35), left track (36), the groove II of rear track (37) and right track (38) two sides (41) bottom gradually rises close to the position that idler wheel (48) skids off end；The top of the transition track (39) is intermediate height, two Side bottom, one end that one end way roller (48) that the position of two sides enters from idler wheel (48) at the top of the transition track (39) skids off by High to Low gradually transition；The preceding track (35), left track (36), the groove II of rear track (37) and right track (38) two sides (41) outlet is docked with the high position of two sides at the top of corresponding transition track (39) and rounding off, the preceding track (35), The import of the groove II (41) of left track (36), rear track (37) and right track (38) two sides is pushed up with corresponding transition track (39) The lower position of portion two sides docks and rounding off；It is arranged on the circular orbit multiple sunpenders (33), the bottom of each sunpender (33) An electromagnetic disc (34) is arranged in portion；The top of first order waste residue transport mechanism, the second adsorbing mechanism is arranged in first adsorbing mechanism The top of second level waste residue transport mechanism is set, the electromagnetic disc on the left track (36) be located at corresponding directive wheel II (12) and On conveyer belt (9) between directive wheel III (13), the electromagnetic disc on the right track (38) is located at corresponding directive wheel V (15) On conveyer belt (9) between directive wheel VI (16)；

A steel slag collecting mechanism is provided with below electromagnetic disc (34) on the preceding track (35) and rear track (37)；Institute The discharge end for stating the conveyer belt (9) in the waste residue transport mechanism of the second level is located at the surface of waste residue collecting mechanism.

2. a kind of metallurgical slag according to claim 1 handles reclaimer, it is characterised in that: the steel slag collecting mechanism Including hydraulic cylinder (51) and steel slag receiving hopper (52), the piston of the hydraulic cylinder (51) straight up, the steel slag receiving hopper (52) it is fixed on the top of the piston rod of hydraulic cylinder (51).

3. a kind of metallurgical slag according to claim 1 handles reclaimer, which is characterized in that the waste residue collecting mechanism Including pedestal I (53), support column I (54) and waste residue receiving hopper (55), the support column I (54) is vertically arranged, the support column I (54) bottom is fixed on pedestal I (53), and the waste residue receiving hopper (55) is fixed on the top of support column I (54), described useless Slag receiving hopper (55) is located at below the discharge end of the conveyer belt (9) in the waste residue transport mechanism of the second level.

4. a kind of metallurgical slag according to claim 1 handles reclaimer, which is characterized in that further include larger solids Collecting mechanism, the larger solids collecting mechanism include pedestal II (56), support column II (57) and solids receiving hopper (58), The support column II (57) is vertically arranged, and the bottom of the support column II (57) is fixed on pedestal II (56), the solids Receiving hopper (58) is fixed on the top of support column II (57), and the solids receiving hopper (58) is located at vibration screen (5) minimum one The lower section at end.

5. handling reclaimer to a kind of metallurgical slag described in any one of 4 claims according to claim 1, feature exists In setting prestretching spring (59) between the middle part of the conducting block (49) and the outside of corresponding U-shaped bar (46).